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diff --git a/.gitattributes b/.gitattributes new file mode 100644 index 0000000..6833f05 --- /dev/null +++ b/.gitattributes @@ -0,0 +1,3 @@ +* text=auto +*.txt text +*.md text diff --git a/3807-0.txt b/3807-0.txt new file mode 100644 index 0000000..18a8907 --- /dev/null +++ b/3807-0.txt @@ -0,0 +1,11509 @@ +The Project Gutenberg eBook of The Different Forms of Flowers on Plants of the Same Species, by Charles Darwin + +This eBook is for the use of anyone anywhere in the United States and +most other parts of the world at no cost and with almost no restrictions +whatsoever. You may copy it, give it away or re-use it under the terms +of the Project Gutenberg License included with this eBook or online at +www.gutenberg.org. If you are not located in the United States, you +will have to check the laws of the country where you are located before +using this eBook. + +Title: The Different Forms of Flowers on Plants of the Same Species + +Author: Charles Darwin + +Release Date: September 18, 2001 [eBook #3807] +[Most recently updated: January 3, 2022] + +Language: English + +Character set encoding: UTF-8 + +Produced by: Sue Asscher and David Widger + +*** START OF THE PROJECT GUTENBERG EBOOK THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES *** + + + + +THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES + +by CHARLES DARWIN, M.A., F.R.S. + + + + +TO + +PROFESSOR ASA GRAY + +THIS VOLUME IS DEDICATED BY THE AUTHOR +AS A SMALL TRIBUTE OF RESPECT AND AFFECTION. + + + + +CONTENTS. + + +INTRODUCTION. + + +CHAPTER I. +HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEAE. + +Primula veris or the cowslip.--Differences in structure between the two forms.-- +Their degrees of fertility when legitimately and illegitimately united.--P. +elatior, vulgaris, Sinensis, auricula, etc.--Summary on the fertility of the +heterostyled species of Primula.--Homostyled species of Primula.--Hottonia +palustris.--Androsace vitalliana. + + +CHAPTER II. +HYBRID PRIMULAS. + +The oxlip a hybrid naturally produced between Primula veris and vulgaris.--The +differences in structure and function between the two parent-species.--Effects +of crossing long-styled and short-styled oxlips with one another and with the +two forms of both parent-species.--Character of the offspring from oxlips +artificially self-fertilised and cross-fertilised in a state of nature.--Primula +elatior shown to be a distinct species.--Hybrids between other heterostyled +species of Primula.--Supplementary note on spontaneously produced hybrids in the +genus Verbascum. + + +CHAPTER III. +HETEROSTYLED DIMORPHIC PLANTS--continued. + +Linum grandiflorum, long-styled form utterly sterile with own-form pollen.-- +Linum perenne, torsion of the pistils in the long-styled form alone.--Homostyled +species of Linum.--Pulmonaria officinalis, singular difference in self-fertility +between the English and German long-styled plants.--Pulmonaria angustifolia +shown to be a distinct species, long-styled form completely self-sterile.-- +Polygonum fagopyrum.--Various other heterostyled genera.--Rubiaceae.--Mitchella +repens, fertility of the flowers in pairs.--Houstonia.--Faramea, remarkable +difference in the pollen-grains of the two forms; torsion of the stamens in the +short-styled form alone; development not as yet perfect.--The heterostyled +structure in the several Rubiaceous genera not due to descent in common. + + +CHAPTER IV. +HETEROSTYLED TRIMORPHIC PLANTS. + +Lythrum salicaria.--Description of the three forms.--Their power and complex +manner of fertilising one another.--Eighteen different unions possible.--Mid- +styled form eminently feminine in nature.--Lythrum Graefferi likewise +trimorphic.--L. hymifolia dimorphic.--L. hyssopifolia homostyled.--Nesaea +verticillata trimorphic.--Lagerstroemia, nature doubtful.--Oxalis, trimorphic +species of.--O. Valdiviana.--O. Regnelli, the illegitimate unions quite barren.- +-O. speciosa.--O. sensitiva.--Homostyled species of Oxalis.--Pontederia, the one +monocotyledonous genus known to include heterostyled species. + + +CHAPTER V. +ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + +Illegitimate offspring from all three forms of Lythrum salicaria.--Their dwarfed +stature and sterility, some utterly barren, some fertile.--Oxalis, transmission +of form to the legitimate and illegitimate seedlings.--Primula Sinensis, +illegitimate offspring in some degree dwarfed and infertile.--Equal-styled +varieties of P. Sinensis, auricula, farinosa, and elatior.--P. vulgaris, red- +flowered variety, illegitimate seedlings sterile.--P. veris, illegitimate plants +raised during several successive generations, their dwarfed stature and +sterility.--Equal-styled varieties of P. veris.--Transmission of form by +Pulmonaria and Polygonum.--Concluding remarks.--Close parallelism between +illegitimate fertilisation and hybridism. + + +CHAPTER VI. +CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + +The essential character of heterostyled plants.--Summary of the differences in +fertility between legitimately and illegitimately fertilised plants.--Diameter +of the pollen-grains, size of anthers and structure of stigma in the different +forms.--Affinities of the genera which include heterostyled species.--Nature of +the advantages derived from heterostylism.--The means by which plants became +heterostyled.--Transmission of form.--Equal-styled varieties of heterostyled +plants.--Final remarks. + + +CHAPTER VII. +POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + +The conversion in various ways of hermaphrodite into dioecious plants.-- +Heterostyled plants rendered dioecious.--Rubiaceae.--Verbenaceae.--Polygamous +and sub-dioecious plants.--Euonymus.--Fragaria.--The two sub-forms of both sexes +of Rhamnus and Epigaea.--Ilex.--Gyno-dioecious plants.--Thymus, difference in +fertility of the hermaphrodite and female individuals.--Satureia.--Manner in +which the two forms probably originated.--Scabiosa and other gyno-dioecious +plants.--Difference in the size of the corolla in the forms of polygamous, +dioecious, and gyno-dioecious plants. + + +CHAPTER VIII. +CLEISTOGAMIC FLOWERS. + +General character of cleistogamic flowers.--List of the genera producing such +flowers, and their distribution in the vegetable series.--Viola, description of +the cleistogamic flowers in the several species; their fertility compared with +that of the perfect flowers.--Oxalis acetosella.--O. sensitiva, three forms of +cleistogamic flowers.--Vandellia.--Ononis.--Impatiens.--Drosera.--Miscellaneous +observations on various other cleistogamic plants.--Anemophilous species +producing cleistogamic flowers.--Leersia, perfect flowers rarely developed.-- +Summary and concluding remarks on the origin of cleistogamic flowers.--The chief +conclusions which may be drawn from the observations in this volume. + + +INDEX. + + + + +THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES. + + +INTRODUCTION. + +The subject of the present volume, namely the differently formed flowers +normally produced by certain kinds of plants, either on the same stock or on +distinct stocks, ought to have been treated by a professed botanist, to which +distinction I can lay no claim. As far as the sexual relations of flowers are +concerned, Linnaeus long ago divided them into hermaphrodite, monoecious, +dioecious, and polygamous species. This fundamental distinction, with the aid of +several subdivisions in each of the four classes, will serve my purpose; but the +classification is artificial, and the groups often pass into one another. + +The hermaphrodite class contains two interesting sub-groups, namely, +heterostyled and cleistogamic plants; but there are several other less important +subdivisions, presently to be given, in which flowers differing in various ways +from one another are produced by the same species. + +Some plants were described by me several years ago, in a series of papers read +before the Linnean Society, the individuals of which exist under two or three +forms, differing in the length of their pistils and stamens and in other +respects. (Introduction/1. “On the Two Forms or Dimorphic Condition in the +Species of Primula, and on their remarkable Sexual Relations” ‘Journal of the +Proceedings of the Linnean Society’ volume 6 1862 page 77. “On the Existence of +Two Forms, and on their Reciprocal Sexual Relation, in several Species of the +Genus Linum” Ibid volume 7 1863 page 69. “On the Sexual Relations of the Three +Forms of Lythrum salicaria” Ibid volume 8 1864 page 169. “On the Character and +Hybrid-like Nature of the Offspring from the Illegitimate Unions of Dimorphic +and Trimorphic Plants” Ibid volume 10 1868 page 393. “On the Specific +Differences between Primula veris, Brit. Fl. (var. officinalis, Linn.), P. +vulgaris, Brit. Fl. (var. acaulis, Linn.), and P. elatior, Jacq.; and on the +Hybrid Nature of the Common oxlip. With Supplementary Remarks on Naturally +Produced Hybrids in the Genus Verbascum” Ibid volume 10 1868 page 437.) They +were called by me dimorphic and trimorphic, but have since been better named by +Hildebrand, heterostyled. (Introduction/2. The term “heterostyled” does not +express all the differences between the forms; but this is a failure common in +many cases. As the term has been adopted by writers in various countries, I am +unwilling to change it for that of heterogone or heterogonous, though this has +been proposed by so high an authority as Professor Asa Gray: see the ‘American +Naturalist’ January 1877 page 42.) As I have many still unpublished observations +with respect to these plants, it has seemed to me advisable to republish my +former papers in a connected and corrected form, together with the new matter. +It will be shown that these heterostyled plants are adapted for reciprocal +fertilisation; so that the two or three forms, though all are hermaphrodites, +are related to one another almost like the males and females of ordinary +unisexual animals. I will also give a full abstract of such observations as have +been published since the appearance of my papers; but only those cases will be +noticed, with respect to which the evidence seems fairly satisfactory. Some +plants have been supposed to be heterostyled merely from their pistils and +stamens varying greatly in length, and I have been myself more than once thus +deceived. With some species the pistil continues growing for a long time, so +that if old and young flowers are compared they might be thought to be +heterostyled. Again, a species tending to become dioecious, with the stamens +reduced in some individuals and with the pistils in others, often presents a +deceptive appearance. Unless it be proved that one form is fully fertile only +when it is fertilised with pollen from another form, we have not complete +evidence that the species is heterostyled. But when the pistils and stamens +differ in length in two or three sets of individuals, and this is accompanied by +a difference in the size of the pollen-grains or in the state of the stigma, we +may infer with much safety that the species is heterostyled. I have, however, +occasionally trusted to a difference between the two forms in the length of the +pistil alone, or in the length of the stigma together with its more or less +papillose condition; and in one instance differences of this kind have been +proved by trials made on the fertility of the two forms, to be sufficient +evidence. + +The second sub-group above referred to consists of hermaphrodite plants, which +bear two kinds of flowers--the one perfect and fully expanded--the other minute, +completely closed, with the petals rudimentary, often with some of the anthers +aborted, and the remaining ones together with the stigmas much reduced in size; +yet these flowers are perfectly fertile. They have been called by Dr. Kuhn +cleistogamic, and they will be described in the last chapter of this volume. +(Introduction/3. ‘Botanische Zeitung’ 1867 page 65. Several plants are known +occasionally to produce flowers destitute of a corolla; but they belong to a +different class of cases from cleistogamic flowers. This deficiency seems to +result from the conditions to which the plants have been subjected, and partakes +of the nature of a monstrosity. All the flowers on the same plant are commonly +affected in the same manner. Such cases, though they have sometimes been ranked +as cleistogamic, do not come within our present scope: see Dr. Maxwell Masters +‘Vegetable Teratology’ 1869 page 403.) They are manifestly adapted for self- +fertilisation, which is effected at the cost of a wonderfully small expenditure +of pollen; whilst the perfect flowers produced by the same plant are capable of +cross-fertilisation. Certain aquatic species, when they flower beneath the +water, keep their corollas closed, apparently to protect their pollen; they +might therefore be called cleistogamic, but for reasons assigned in the proper +place are not included in the present sub-group. Several cleistogamic species, +as we shall hereafter see, bury their ovaries or young capsules in the ground; +but some few other plants behave in the same manner; and, as they do not bury +all their flowers, they might have formed a small separate subdivision. + +Another interesting subdivision consists of certain plants, discovered by H. +Muller, some individuals of which bear conspicuous flowers adapted for cross- +fertilisation by the aid of insects, and others much smaller and less +conspicuous flowers, which have often been slightly modified so as to ensure +self-fertilisation. Lysimachia vulgaris, Euphrasia officinalis, Rhinanthus +crista-galli, and Viola tricolor come under this head. (Introduction/4. H. +Muller ‘Nature’ September 25, 1873 volume 8 page 433 and November 20, 1873 +volume 9 page 44. Also ‘Die Befruchtung der Blumen’ etc. 1873 page 294.) The +smaller and less conspicuous flowers are not closed, but as far as the purpose +which they serve is concerned, namely, the assured propagation of the species, +they approach in nature cleistogamic flowers; but they differ from them by the +two kinds being produced on distinct plants. + +With many plants, the flowers towards the outside of the inflorescence are much +larger and more conspicuous than the central ones. As I shall not have occasion +to refer to plants of this kind in the following chapters, I will here give a +few details respecting them. It is familiar to every one that the ray-florets of +the Compositae often differ remarkably from the others; and so it is with the +outer flowers of many Umbelliferae, some Cruciferae and a few other families. +Several species of Hydrangea and Viburnum offer striking instances of the same +fact. The Rubiaceous genus Mussaenda presents a very curious appearance from +some of the flowers having the tip of one of the sepals developed into a large +petal-like expansion, coloured either white or purple. The outer flowers in +several Acanthaceous genera are large and conspicuous but sterile; the next in +order are smaller, open, moderately fertile and capable of cross-fertilisation; +whilst the central ones are cleistogamic, being still smaller, closed and highly +fertile; so that here the inflorescence consists of three kinds of flowers. +(Introduction/5. J. Scott ‘Journal of Botany’ London new series volume 1 1872 +pages 161-164.) From what we know in other cases of the use of the corolla, +coloured bracteae, etc., and from what H. Muller has observed on the frequency +of the visits of insects to the flower-heads of the Umbelliferae and Compositae +being largely determined by their conspicuousness, there can be no doubt that +the increased size of the corolla of the outer flowers, the inner ones being in +all the above cases small, serves to attract insects. (Introduction/6. ‘Die +Befruchtung der Blumen’ pages 108, 412.) The result is that cross-fertilisation +is thus favoured. Most flowers wither soon after being fertilised, but +Hildebrand states that the ray-florets of the Compositae last for a long time, +until all those on the disc are impregnated; and this clearly shows the use of +the former. (Introduction/7. See his interesting memoir ‘Ueber die +Geschlechtsverhaltniss bei den Compositen’ 1869 page 92.) The ray-florets, +however, are of service in another and very different manner, namely, by folding +inwards at night and during cold rainy weather, so as to protect the florets of +the disc. (Introduction/8. Kerner clearly shows that this is the case: ‘Die +Schutzmittel des Pollens’ 1873 page 28.) Moreover they often contain matter +which is excessively poisonous to insects, as may be seen in the use of flea- +powder, and in the case of Pyrethrum, M. Belhomme has shown that the ray-florets +are more poisonous than the disc-florets in the ratio of about three to two. We +may therefore believe that the ray-florets are useful in protecting the flowers +from being gnawed by insects. (Introduction/9. ‘Gardener’s Chronicle’ 1861 page +1067. Lindley ‘Vegetable Kingdom’ on Chrysanthemum 1853 page 706. Kerner in his +interesting essay ‘Die Schutzmittel der Bluthen gegen unberufene Gaste’ 1875 +page 19, insists that the petals of most plants contain matter which is +offensive to insects, so that they are seldom gnawed, and thus the organs of +fructification are protected. My grandfather in 1790 ‘Loves of the Plants’ canto +3 note to lines 184, 188, remarks that “The flowers or petals of plants are +perhaps in general more acrid than their leaves; hence they are much seldomer +eaten by insects.”) + +It is a well-known yet remarkable fact that the circumferential flowers of many +of the foregoing plants have both their male and female reproductive organs +aborted, as with the Hydrangea, Viburnum and certain Compositae; or the male +organs alone are aborted, as in many Compositae. Between the sexless, female and +hermaphrodite states of these latter flowers, the finest gradations may be +traced, as Hildebrand has shown. (Introduction/10. ‘Ueber die +Geschlechtsverhaltnisse bei den Compositen’ 1869 pages 78-91.) He also shows +that there is a close relation between the size of the corolla in the ray- +florets and the degree of abortion in their reproductive organs. As we have good +reason to believe that these florets are highly serviceable to the plants which +possess them, more especially by rendering the flower-heads conspicuous to +insects, it is a natural inference that their corollas have been increased in +size for this special purpose; and that their development has subsequently led, +through the principle of compensation or balancement, to the more or less +complete reduction of the reproductive organs. But an opposite view may be +maintained, namely, that the reproductive organs first began to fail, as often +happens under cultivation, and, as a consequence, the corolla became, through +compensation, more highly developed. (Introduction/11. I have discussed this +subject in my ‘Variation of Animals and Plants under Domestication’ chapter 18 +2nd edition volume 2 pages 152, 156.) This view, however, is not probable, for +when hermaphrodite plants become dioecious or gyno-dioecious--that is, are +converted into hermaphrodites and females--the corolla of the female seems to be +almost invariably reduced in size in consequence of the abortion of the male +organs. The difference in the result in these two classes of cases, may perhaps +be accounted for by the matter saved through the abortion of the male organs in +the females of gyno-dioecious and dioecious plants being directed (as we shall +see in a future chapter) to the formation of an increased supply of seeds; +whilst in the case of the exterior florets and flowers of the plants which we +are here considering, such matter is expended in the development of a +conspicuous corolla. Whether in the present class of cases the corolla was first +affected, as seems to me the more probable view, or the reproductive organs +first failed, their states of development are now firmly correlated. We see this +well-illustrated in Hydrangea and Viburnum; for when these plants are +cultivated, the corollas of both the interior and exterior flowers become +largely developed, and their reproductive organs are aborted. + +There is a closely analogous subdivision of plants, including the genus Muscari +(or Feather Hyacinth) and the allied Bellevalia, which bear both perfect flowers +and closed bud-like bodies that never expand. The latter resemble in this +respect cleistogamic flowers, but differ widely from them in being sterile and +conspicuous. Not only the aborted flower-buds and their peduncles (which are +elongated apparently through the principle of compensation) are brightly +coloured, but so is the upper part of the spike--all, no doubt, for the sake of +guiding insects to the inconspicuous perfect flowers. From such cases as these +we may pass on to certain Labiatae, for instance, Salvia Horminum in which (as I +hear from Mr. Thiselton Dyer) the upper bracts are enlarged and brightly +coloured, no doubt for the same purpose as before, with the flowers suppressed. + +In the Carrot and some allied Umbelliferae, the central flower has its petals +somewhat enlarged, and these are of a dark purplish-red tint; but it cannot be +supposed that this one small flower makes the large white umbel at all more +conspicuous to insects. The central flowers are said to be neuter or sterile, +but I obtained by artificial fertilisation a seed (fruit) apparently perfect +from one such flower. (Introduction/12. ‘The English Flora’ by Sir J.E. Smith +1824 volume 2 page 39.) Occasionally two or three of the flowers next to the +central one are similarly characterised; and according to Vaucher “cette +singuliere degeneration s’etend quelquefois a l’ombelle entiere.” +(Introduction/13. ‘Hist. Phys. des Plantes d’Europe’ 1841 tome 2 page 614. On +the Echinophora page 627.) That the modified central flower is of no functional +importance to the plant is almost certain. It may perhaps be a remnant of a +former and ancient condition of the species, when one flower alone, the central +one, was female and yielded seeds, as in the Umbelliferous genus Echinophora. +There is nothing surprising in the central flower tending to retain its former +condition longer than the others; for when irregular flowers become regular or +peloric, they are apt to be central; and such peloric flowers apparently owe +their origin either to arrested development--that is, to the preservation of an +early stage of development--or to reversion. Central and perfectly developed +flowers in not a few plants in their normal condition (for instance, the common +Rue and Adoxa) differ slightly in structure, as in the number of the parts, from +the other flowers on the same plant. All such cases seem connected with the fact +of the bud which stands at the end of the shoot being better nourished than the +others, as it receives the most sap. (Introduction/14. This whole subject, +including pelorism, has been discussed, and references given in my ‘Variation of +Animals and Plants under Domestication’ chapter 26 2nd edition volume 2 page +338.) + +The cases hitherto mentioned relate to hermaphrodite species which bear +differently constructed flowers; but there are some plants that produce +differently formed seeds, of which Dr. Kuhn has given a list. (Introduction/15. +‘Botanische Zeitung’ 1867 page 67.) With the Umbelliferae and Compositae, the +flowers that produce these seeds likewise differ, and the differences in the +structure of the seeds are of a very important nature. The causes which have led +to differences in the seeds on the same plant are not known; and it is very +doubtful whether they subserve any special end. + +We now come to our second Class, that of monoecious species, or those which have +their sexes separated but borne on the same plant. The flowers necessarily +differ, but when those of one sex include rudiments of the other sex, the +difference between the two kinds is usually not great. When the difference is +great, as we see in catkin-bearing plants, this depends largely on many of the +species in this, as well as in the next or dioecious class, being fertilised by +the aid of the wind; for the male flowers have in this case to produce a +surprising amount of incoherent pollen. (Introduction/16. Delpino ‘Studi sopra +uno Lignaggio Anemofilo’ Firenze 1871.) Some few monoecious plants consist of +two bodies of individuals, with their flowers differing in function, though not +in structure; for certain individuals mature their pollen before the female +flowers on the same plant are ready for fertilisation, and are called +proterandrous; whilst conversely other individuals, called proterogynous, have +their stigmas mature before their pollen is ready. The purpose of this curious +functional difference obviously is to favour the cross-fertilisation of distinct +plants. A case of this kind was first observed by Delpino in the Walnut (Juglans +regia), and has since been observed with the common Nut (Corylus avellana). I +may add that according to H. Muller the individuals of some few hermaphrodite +plants differ in a like manner; some being proterandrous and others +proterogynous. (Introduction/17. Delpino ‘Ult. Osservazioni sulla Dicogamia’ +part 2 fasc 2 page 337. Mr. Wetterhan and H. Muller on Corylus ‘Nature’ volume +11 page 507 and 1875 page 26. On proterandrous and proterogynous hermaphrodite +individuals of the same species, see H. Muller ‘Die Befruchtung’ etc. pages 285, +339.) On cultivated trees of the Walnut and Mulberry, the male flowers have been +observed to abort on certain individuals, which have thus been converted into +females; but whether there are any species in a state of nature which co-exist +as monoecious and female individuals, I do not know. (Introduction/18. +‘Gardener’s Chronicle’ 1847 pages 541, 558.) + +The third Class consists of dioecious species, and the remarks made under the +last class with respect to the amount of difference between the male and female +flowers are here applicable. It is at present an inexplicable fact that with +some dioecious plants, of which the Restiaceae of Australia and the Cape of Good +Hope offer the most striking instance, the differentiation of the sexes has +affected the whole plant to such an extent (as I hear from Mr. Thiselton Dyer) +that Mr. Bentham and Professor Oliver have often found it impossible to match +the male and female specimens of the same species. In my seventh chapter some +observations will be given on the gradual conversion of heterostyled and of +ordinary hermaphrodite plants into dioecious or sub-dioecious species. + +The fourth and last Class consists of the plants which were called polygamous by +Linnaeus; but it appears to me that it would be convenient to confine this term +to the species which coexist as hermaphrodites, males and females; and to give +new names to several other combinations of the sexes--a plan which I shall here +follow. Polygamous plants, in this confined sense of the term, may be divided +into two sub-groups, according as the three sexual forms are found on the same +individual or on distinct individuals. Of this latter or trioicous sub-group, +the common Ash (Fraxinus excelsior) offers a good instance: thus, I examined +during the spring and autumn fifteen trees growing in the same field; and of +these, eight produced male flowers alone, and in the autumn not a single seed; +four produced only female flowers, which set an abundance of seeds; three were +hermaphrodites, which had a different aspect from the other trees whilst in +flower, and two of them produced nearly as many seeds as the female trees, +whilst the third produced none, so that it was in function a male. The +separation of the sexes, however, is not complete in the Ash; for the female +flowers include stamens, which drop off at an early period, and their anthers, +which never open or dehisce, generally contain pulpy matter instead of pollen. +On some female trees, however, I found a few anthers containing pollen grains +apparently sound. On the male trees most of the flowers include pistils, but +these likewise drop off at an early period; and the ovules, which ultimately +abort, are very small compared with those in female flowers of the same age. + +Of the other or monoicous sub-group of polygamous plants, or those which bear +hermaphrodite, male and female flowers on the same individual, the common Maple +(Acer campestre) offers a good instance; but Lecoq states that some trees are +truly dioecious, and this shows how easily one state passes into another. +(Introduction/19. ‘Geographie Botanique’ tome 5 page 367.) + +A considerable number of plants generally ranked as polygamous exist under only +two forms, namely, as hermaphrodites and females; and these may be called gyno- +dioecious, of which the common Thyme offers a good example. In my seventh +chapter I shall give some observations on plants of this nature. Other species, +for instance several kinds of Atriplex, bear on the same plant hermaphrodite and +female flowers; and these might be called gyno-monoecious, if a name were +desirable for them. + +Again there are plants which produce hermaphrodite and male flowers on the same +individual, for instance, some species of Galium, Veratrum, etc.; and these +might be called andro-monoecious. If there exist plants, the individuals of +which consist of hermaphrodites and males, these might be distinguished as +andro-dioecious. But, after making inquiries from several botanists, I can hear +of no such cases. Lecoq, however, states, but without entering into full +details, that some plants of Caltha palustris produce only male flowers, and +that these live mingled with the hermaphrodites. (Introduction/20. ‘Geographie +Botanique’ tome 4 page 488.) The rarity of such cases as this last one is +remarkable, as the presence of hermaphrodite and male flowers on the same +individual is not an unusual occurrence; it would appear as if nature did not +think it worth while to devote a distinct individual to the production of +pollen, excepting when this was indispensably necessary, as in the case of +dioecious species. + +I have now finished my brief sketch of the several cases, as far as known to me, +in which flowers differing in structure or in function are produced by the same +species of plant. Full details will be given in the following chapters with +respect to many of these plants. I will begin with the heterostyled, then pass +on to certain dioecious, sub-dioecious, and polygamous species, and end with the +cleistogamic. For the convenience of the reader, and to save space, the less +important cases and details have been printed in smaller type []. + +I cannot close this Introduction without expressing my warm thanks to Dr. Hooker +for supplying me with specimens and for other aid; and to Mr. Thiselton Dyer and +Professor Oliver for giving me much information and other assistance. Professor +Asa Gray, also, has uniformly aided me in many ways. To Fritz Muller of St. +Catharina, in Brazil, I am indebted for many dried flowers of heterostyled +plants, often accompanied with valuable notes. + + +CHAPTER I. + +HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEAE. + +Primula veris or the cowslip. +Differences in structure between the two forms. +Their degrees of fertility when legitimately and illegitimately united. +P. elatior, vulgaris, Sinensis, auricula, etc. +Summary on the fertility of the heterostyled species of Primula. +Homostyled species of Primula. +Hottonia palustris. +Androsace vitalliana. + +(FIGURE 1.1. Primula veris. +Left: Long-styled form. +Right: Short-styled form.) + +It has long been known to botanists that the common cowslip (Primula veris, +Brit. Flora, var. officinalis, Lin.) exists under two forms, about equally +numerous, which obviously differ from each other in the length of their pistils +and stamens. (1/1. This fact, according to Von Mohl ‘Botanische Zeitung’ 1863 +page 326, was first observed by Persoon in the year 1794.) This difference has +hitherto been looked at as a case of mere variability, but this view, as we +shall presently see, is far from the true one. Florists who cultivate the +Polyanthus and Auricula have long been aware of the two kinds of flowers, and +they call the plants which display the globular stigma at the mouth of the +corolla, “pin-headed” or “pin-eyed,” and those which display the anthers, +“thrum-eyed.” (1/2. In Johnson’s Dictionary, “thrum” is said to be the ends of +weavers’ threads; and I suppose that some weaver who cultivated the Polyanthus +invented this name, from being struck with some degree of resemblance between +the cluster of anthers in the mouth of the corolla and the ends of his threads.) +I will designate the two forms as the long-styled and short-styled. + +The pistil in the long-styled form is almost exactly twice as long as that of +the short-styled. The stigma stands in the mouth of the corolla or projects just +above it, and is thus externally visible. It stands high above the anthers, +which are situated halfway down the tube and cannot be easily seen. In the +short-styled form the anthers are attached near the mouth of the tube, and +therefore stand above the stigma, which is seated in about the middle of the +tubular corolla. The corolla itself is of a different shape in the two forms; +the throat or expanded portion above the attachment of the anthers being much +longer in the long-styled than in the short-styled form. Village children notice +this difference, as they can best make necklaces by threading and slipping the +corollas of the long-styled flowers into one another. But there are much more +important differences. The stigma in the long-styled form is globular; in the +short-styled it is depressed on the summit, so that the longitudinal axis of the +former is sometimes nearly double that of the latter. Although somewhat variable +in shape, one difference is persistent, namely, in roughness: in some specimens +carefully compared, the papillae which render the stigma rough were in the long- +styled form from twice to thrice as long as in the short-styled. The anthers do +not differ in size in the two forms, which I mention because this is the case +with some heterostyled plants. The most remarkable difference is in the pollen- +grains. I measured with the micrometer many specimens, both dry and wet, taken +from plants growing in different situations, and always found a palpable +difference. The grains distended with water from the short-styled flowers were +about .038 millimetres (10 to 11/7000 of an inch) in diameter, whilst those from +the long-styled were about .0254 millimetres (7/7000 of an inch), which is in +the ratio of 100 to 67. The pollen-grains therefore from the longer stamens of +the short-styled form are plainly larger than those from the shorter stamens of +the long-styled. When examined dry, the smaller grains are seen under a low +power to be more transparent than the larger grains, and apparently in a greater +degree than can be accounted for by their less diameter. There is also a +difference in shape, the grains from the short-styled plants being nearly +spherical, those from the long-styled being oblong with the angles rounded; this +difference disappears when the grains are distended with water. The long-styled +plants generally tend to flower a little before the short-styled: for instance, +I had twelve plants of each form growing in separate pots and treated in every +respect alike; and at the time when only a single short-styled plant was in +flower, seven of the long-styled had expanded their flowers. + +We shall, also, presently see that the short-styled plants produce more seed +than the long-styled. It is remarkable, according to Professor Oliver, that the +ovules in the unexpanded and unimpregnated flowers of the latter are +considerably larger than those of the short-styled flowers (1/3. ‘Natural +History Review’ July 1862 page 237.); and this I suppose is connected with the +long-styled flowers producing fewer seeds, so that the ovules have more space +and nourishment for rapid development. + +To sum up the differences:--The long-styled plants have a much longer pistil, +with a globular and much rougher stigma, standing high above the anthers. The +stamens are short; the grains of pollen smaller and oblong in shape. The upper +half of the tube of the corolla is more expanded. The number of seeds produced +is smaller and the ovules larger. The plants tend to flower first. + +The short-styled plants have a short pistil, half the length of the tube of the +corolla, with a smooth depressed stigma standing beneath the anthers. The +stamens are long; the grains of pollen are spherical and larger. The tube of the +corolla is of uniform diameter except close to the upper end. The number of +seeds produced is larger. + +I have examined a large number of flowers; and though the shape of the stigma +and the length of the pistil both vary, especially in the short-styled form, I +have never met with any transitional states between the two forms in plants +growing in a state of nature. There is never the slightest doubt under which +form a plant ought to be classed. The two kinds of flowers are never found on +the same individual plant. I marked many cowslips and primroses, and on the +following year all retained the same character, as did some in my garden which +flowered out of their proper season in the autumn. Mr. W. Wooler, of Darlington, +however, informs us that he has seen early blossoms on the Polyanthus, which +were not long-styled, but became so later in the season. (1/4. I have proved by +numerous experiments, hereafter to be given, that the Polyanthus is a variety of +Primula veris.) Possibly in this case the pistils may not have been fully +developed during the early spring. An excellent proof of the permanence of the +two forms may be seen in nursery-gardens, where choice varieties of the +Polyanthus are propagated by division; and I found whole beds of several +varieties, each consisting exclusively of the one or the other form. The two +forms exist in the wild state in about equal numbers: I collected 522 umbels +from plants growing in several stations, taking a single umbel from each plant; +and 241 were long-styled, and 281 short-styled. No difference in tint or size +could be perceived in the two great masses of flowers. + +We shall presently see that most of the species of Primula exist under two +analogous forms; and it may be asked what is the meaning of the above-described +important differences in their structure? The question seems well worthy of +careful investigation, and I will give my observations on the cowslip in detail. +The first idea which naturally occurred to me was, that this species was tending +towards a dioecious condition; that the long-styled plants, with their longer +pistils, rougher stigmas, and smaller pollen-grains, were more feminine in +nature, and would produce more seed;--that the short-styled plants, with their +shorter pistils, longer stamens and larger pollen-grains, were more masculine in +nature. Accordingly, in 1860, I marked a few cowslips of both forms growing in +my garden, and others growing in an open field, and others in a shady wood, and +gathered and weighed the seed. In all the lots the short-styled plants yielded, +contrary to my expectation, most seed. Taking the lots together, the following +is the result:-- + +TABLE 1.1. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels Produced. +Column 4: Number of Capsules Produced. +Column 5: Weight of Seed In Grains. + +Short-styled cowslips : 9 : 33 : 199 : 83. +Long-styled cowslips : 13 : 51 : 261 : 91. + +If we compare the weight from an equal number of plants, and from an equal +number of umbels, and from an equal number of capsules of the two forms, we get +the following results:-- + +TABLE 1.2. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Weight of Seed in grains. +... +Column 4: Number of Umbels. +Column 5: Weight of Seed. +... +Column 6: Number of Capsules. +Column 7: Weight of Seed in grains. + +Short-styled cowslips : 10 : 92 :: 100 : 251 :: 100 : 41. +Long-styled cowslips : 10 : 70 :: 100 : 178 :: 100 : 34. + +So that, by all these standards of comparison, the short-styled form is the more +fertile; if we take the number of umbels (which is the fairest standard, for +large and small plants are thus equalised), the short-styled plants produce more +seed than the long-styled, in the proportion of nearly four to three. + +In 1861 the trial was made in a fuller and fairer manner. A number of wild +plants had been transplanted during the previous autumn into a large bed in my +garden, and all were treated alike; the result was:-- + +TABLE 1.3. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels. +Column 4: Weight of Seed in grains. + +Short-styled cowslips : 47 : 173 : 745. +Long-styled cowslips : 58 : 208 : 692. + +These figures give us the following proportions:-- + +TABLE 1.4. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Weight of Seed in grains. +... +Column 4: Number of Umbels. +Column 5: Weight of Seed in grains. + +Short-styled cowslips : 100 : 1585 :: 100 : 430. +Long-styled cowslips : 100 : 1093 :: 100 : 332. + +The season was much more favourable this year than the last; the plants also now +grew in good soil, instead of in a shady wood or struggling with other plants in +the open field; consequently the actual produce of seed was considerably larger. +Nevertheless we have the same relative result; for the short-styled plants +produced more seed than the long-styled in nearly the proportion of three to +two; but if we take the fairest standard of comparison, namely, the product of +seeds from an equal number of umbels, the excess is, as in the former case, +nearly as four to three. + +Looking to these trials made during two successive years on a large number of +plants, we may safely conclude that the short-styled form is more productive +than the long-styled form, and the same result holds good with some other +species of Primula. Consequently my anticipation that the plants with longer +pistils, rougher stigmas, shorter stamens and smaller pollen-grains, would prove +to be more feminine in nature, is exactly the reverse of the truth. + +In 1860 a few umbels on some plants of both the long-styled and short-styled +form, which had been covered by a net, did not produce any seed, though other +umbels on the same plants, artificially fertilised, produced an abundance of +seed; and this fact shows that the mere covering in itself was not injurious. +Accordingly, in 1861, several plants were similarly covered just before they +expanded their flowers; these turned out as follows:-- + +TABLE 1.5. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels produced. +Column 4: Product of Seed. + +Short-styled : 6 : 24 : 1.3 grain weight of seed, or about 50 in number. +Long-styled : 18 : 74 : Not one seed. + +Judging from the exposed plants which grew all round in the same bed, and had +been treated in the same manner, excepting that they had been exposed to the +visits of insects, the above six short-styled plants ought to have produced 92 +grains’ weight of seed instead of only 1.3; and the eighteen long-styled plants, +which produced not one seed, ought to have produced above 200 grains’ weight. +The production of a few seeds by the short-styled plants was probably due to the +action of Thrips or of some other minute insect. It is scarcely necessary to +give any additional evidence, but I may add that ten pots of Polyanthuses and +cowslips of both forms, protected from insects in my greenhouse, did not set one +pod, though artificially fertilised flowers in other pots produced an abundance. +We thus see that the visits of insects are absolutely necessary for the +fertilisation of Primula veris. If the corolla of the long-styled form had +dropped off, instead of remaining attached in a withered state to the ovarium, +the anthers attached to the lower part of the tube with some pollen still +adhering to them would have been dragged over the stigma, and the flowers would +have been partially self-fertilised, as is the case with Primula Sinensis +through this means. It is a rather curious fact that so trifling a difference as +the falling-off of the withered corolla, should make a very great difference in +the number of seeds produced by a plant if its flowers are not visited by +insects. + +The flowers of the cowslip and of the other species of the genus secrete plenty +of nectar; and I have often seen humble bees, especially B. hortorum and +muscorum, sucking the former in a proper manner, though they sometimes bite +holes through the corolla. (1/5. H. Muller has also seen Anthophora pilipes and +a Bombylius sucking the flowers. ‘Nature’ December 10, 1874 page 111.) No doubt +moths likewise visit the flowers, as one of my sons caught Cucullia verbasci in +the act. The pollen readily adheres to any thin object which is inserted into a +flower. The anthers in the one form stand nearly, but not exactly, on a level +with the stigma of the other; for the distance between the anthers and stigma in +the short-styled form is greater than that in the long-styled, in the ratio of +100 to 90. This difference is the result of the anthers in the long-styled form +standing rather higher in the tube than does the stigma in the short-styled, and +this favours their pollen being deposited on it. It follows from the position of +the organs that if the proboscis of a dead humble-bee, or a thick bristle or +rough needle, be pushed down the corolla, first of one form and then of the +other, as an insect would do in visiting the two forms growing mingled together, +pollen from the long-stamened form adheres round the base of the object, and is +left with certainty on the stigma of the long-styled form; whilst pollen from +the short stamens of the long-styled form adheres a little way above the +extremity of the object, and some is generally left on the stigma of the other +form. In accordance with this observation I found that the two kinds of pollen, +which could easily be recognised under the microscope, adhered in this manner to +the proboscides of the two species of humble-bees and of the moth, which were +caught visiting the flowers; but some small grains were mingled with the larger +grains round the base of the proboscis, and conversely some large grains with +the small grains near the extremity of the proboscis. Thus pollen will be +regularly carried from the one form to the other, and they will reciprocally +fertilise one another. Nevertheless an insect in withdrawing its proboscis from +the corolla of the long-styled form cannot fail occasionally to leave pollen +from the same flower on the stigma; and in this case there might be self- +fertilisation. But this will be much more likely to occur with the short-styled +form; for when I inserted a bristle or other such object into the corolla of +this form, and had, therefore, to pass it down between the anthers seated round +the mouth of the corolla, some pollen was almost invariably carried down and +left on the stigma. Minute insects, such as Thrips, which sometimes haunt the +flowers, would likewise be apt to cause the self-fertilisation of both forms. + +The several foregoing facts led me to try the effects of the two kinds of pollen +on the stigmas of the two forms. Four essentially different unions are possible; +namely, the fertilisation of the stigma of the long-styled form by its own-form +pollen, and by that of the short-styled; and the stigma of the short-styled form +by its own-form pollen, and by that of the long-styled. The fertilisation of +either form with pollen from the other form may be conveniently called a +LEGITIMATE UNION, from reasons hereafter to be made clear; and that of either +form with its own-form pollen an ILLEGITIMATE UNION. I formerly applied the term +“heteromorphic” to the legitimate unions, and “homomorphic” to the illegitimate +unions; but after discovering the existence of trimorphic plants, in which many +more unions are possible, these two terms ceased to be applicable. The +illegitimate unions of both forms might have been tried in three ways; for a +flower of either form may be fertilised with pollen from the same flower, or +with that from a another flower on the same plant, or with that from a distinct +plant of the same form. But to make my experiments perfectly fair, and to avoid +any evil result from self-fertilisation or too close interbreeding, I have +invariably employed pollen from a distinct plant of the same form for the +illegitimate unions of all the species; and therefore it may be observed that I +have used the term “own-form pollen” in speaking of such unions. The several +plants in all my experiments were treated in exactly the same manner, and were +carefully protected by fine nets from the access of insects, excepting Thrips, +which it is impossible to exclude. I performed all the manipulations myself, and +weighed the seeds in a chemical balance; but during many subsequent trials I +followed the more accurate plan of counting the seeds. Some of the capsules +contained no seeds, or only two or three, and these are excluded in the column +headed “good capsules” in several of the following tables:-- + +TABLE 1.6. Primula veris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Number of good Capsules. +Column 5: Weight of Seed in grains. +Column 6: Calculated Weight of Seed from 100 good Capsules. + +Long-styled by pollen of short-styled. Legitimate union : +22 : 15 : 14 : 8.8 : 62. + +Long-styled by own-form pollen. Illegitimate union : +20 : 8 : 5 : 2.1 : 42. + +Short-styled by pollen of long-styled. Legitimate union : +13 : 12 : 11 : 4.9 : 44. + +Short-styled by own-form pollen. Illegitimate union : +15 : 8 : 6 : 1.8 : 30. + +SUMMARY: + +The two legitimate unions : +35 : 27 : 25 : 13.7 : 54. + +The two illegitimate unions : +35 : 16 : 11 : 3.9 : 35. + +The results may be given in another form (Table 1.7) by comparing, first, the +number of capsules, whether good or bad, or of the good alone, produced by 100 +flowers of both forms when legitimately and illegitimately fertilised; secondly, +by comparing the weight of seed in 100 of these capsules, whether good or bad; +or, thirdly, in 100 of the good capsules. + +TABLE 1.7. Primula veris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules. +Column 4: Number of good Capsules. +Column 5: Weight of Seed in grains. +... +Column 6: Number of Capsules. +Column 7: Weight of Seed in grains. +... +Column 8: Number of good Capsules. +Column 9: Weight of Seed in grains. + +The two legitimate unions : +100 : 77 : 71 : 39 :: 100 : 50 :: 100 : 54. + +The two illegitimate unions : +100 : 45 : 31 : 11 :: 100 : 24 :: 100 : 35. + +We here see that the long-styled flowers fertilised with pollen from the short- +styled yield more capsules, especially good ones (i.e. containing more than one +or two seeds), and that these capsules contain a greater proportional weight of +seeds than do the flowers of the long-styled when fertilised with pollen from a +distinct plant of the same form. So it is with the short-styled flowers, if +treated in an analogous manner. Therefore I have called the former method of +fertilisation a legitimate union, and the latter, as it fails to yield the full +complement of capsules and seeds, an illegitimate union. These two kinds of +union are graphically represented in Figure 1.2. + +(FIGURE 1.2. Primula veris. +Graphic representation of two kinds of union between: +Left: Long-styled form. +Right: Short-styled form.) + +If we consider the results of the two legitimate unions taken together and the +two illegitimate ones, as shown in Table 1.7, we see that the former compared +with the latter yielded capsules, whether containing many seeds or only a few, +in the proportion of 77 to 45, or as 100 to 58. But the inferiority of the +illegitimate unions is here perhaps too great, for on a subsequent occasion 100 +long-styled and short-styled flowers were illegitimately fertilised, and they +together yielded 53 capsules: therefore the rate of 77 to 53, or as 100 to 69, +is a fairer one than that of 100 to 58. Returning to Table 1.7, if we consider +only the good capsules, those from the two legitimate unions were to those from +the two illegitimate in number as 71 to 31, or as 100 to 44. Again, if we take +an equal number of capsules, whether good or bad, from the legitimately and +illegitimately fertilised flowers, we find that the former contained seeds by +weight compared with the latter as 50 to 24, or as 100 to 48; but if all the +poor capsules are rejected, of which many were produced by the illegitimately +fertilised flowers, the proportion is 54 to 35, or as 100 to 65. In this and all +other cases, the relative fertility of the two kinds of union can, I think, be +judged of more truly by the average number of seeds per capsule than by the +proportion of flowers which yield capsules. The two methods might have been +combined by giving the average number of seeds produced by all the flowers which +were fertilised, whether they yielded capsules or not; but I have thought that +it would be more instructive always to show separately the proportion of flowers +which produced capsules, and the average number of apparently good seeds which +the capsules contained. + +Flowers legitimately fertilised set seeds under conditions which cause the +almost complete failure of illegitimately fertilised flowers. Thus in the spring +of 1862 forty flowers were fertilised at the same time in both ways. The plants +were accidentally exposed in the greenhouse to too hot a sun, and a large number +of umbels perished. Some, however, remained in moderately good health, and on +these there were twelve flowers which had been fertilised legitimately, and +eleven which had been fertilised illegitimately. The twelve legitimate unions +yielded seven fine capsules, containing on an average each 57.3 good seeds; +whilst the eleven illegitimate unions yielded only two capsules, of which one +contained 39 seeds, but so poor, that I do not suppose one would have +germinated, and the other contained 17 fairly good seeds. + +From the facts now given the superiority of a legitimate over an illegitimate +union admits of not the least doubt; and we have here a case to which no +parallel exists in the vegetable or, indeed, in the animal kingdom. The +individual plants of the present species, and as we shall see of several other +species of Primula, are divided into two sets or bodies, which cannot be called +distinct sexes, for both are hermaphrodites; yet they are to a certain extent +sexually distinct, for they require reciprocal union for perfect fertility. As +quadrupeds are divided into two nearly equal bodies of different sexes, so here +we have two bodies, approximately equal in number, differing in their sexual +powers and related to each other like males and females. There are many +hermaphrodite animals which cannot fertilise themselves, but most unite with +another hermaphrodite. So it is with numerous plants; for the pollen is often +mature and shed, or is mechanically protruded, before the flower’s own stigma is +ready; and such flowers absolutely require the presence of another hermaphrodite +for sexual union. But with the cowslip and various other species of Primula +there is this wide difference, that one individual, though it can fertilise +itself imperfectly, must unite with another individual for full fertility; it +cannot, however, unite with any other individual in the same manner as an +hermaphrodite plant can unite with any other one of the same species; or as one +snail or earth-worm can unite with any other hermaphrodite individual. On the +contrary, an individual belonging to one form of the cowslip in order to be +perfectly fertile must unite with one of the other form, just as a male +quadruped must and can unite only with the female. + +I have spoken of the legitimate unions as being fully fertile; and I am fully +justified in doing so, for flowers artificially fertilised in this manner +yielded rather more seeds than plants naturally fertilised in a state of nature. +The excess may be attributed to the plants having been grown separately in good +soil. With respect to the illegitimate unions, we shall best appreciate their +degree of lessened fertility by the following facts. Gartner estimated the +sterility of the unions between distinct species, in a manner which allows of a +strict comparison with the results of the legitimate and illegitimate unions of +Primula. (1/6. ‘Versuche uber die Bastarderzeugung’ 1849 page 216.) With P. +veris, for every 100 seeds yielded by the two legitimate unions, only 64 were +yielded by an equal number of good capsules from the two illegitimate unions. +With P. Sinensis, as we shall hereafter see, the proportion was nearly the same- +-namely, as 100 to 62. Now Gartner has shown that, on the calculation of +Verbascum lychnitis yielding with its own pollen 100 seeds, it yielded when +fertilised by the pollen of Verbascum Phoeniceum 90 seeds; by the pollen of +Verbascum nigrum, 63 seeds; by that of Verbascum blattaria, 62 seeds. So again, +Dianthus barbatus fertilised by the pollen of D. superbus yielded 81 seeds, and +by the pollen of D. japonicus 66 seeds, relatively to the 100 seeds produced by +its own pollen. We thus see--and the fact is highly remarkable--that with +Primula the illegitimate unions relatively to the legitimate are more sterile +than crosses between distinct species of other genera relatively to their pure +unions. Mr. Scott has given a still more striking illustration of the same fact: +he crossed Primula auricula with pollen of four other species (P. palinuri, +viscosa, hirsuta, and verticillata), and these hybrid unions yielded a larger +average number of seeds than did P. auricula when fertilised illegitimately with +its own-form pollen. (1/7. ‘Journal of the Linnean Society Botany’ volume 8 1864 +page 93.) + +The benefit which heterostyled dimorphic plants derive from the existence of the +two forms is sufficiently obvious, namely, the intercrossing of distinct plants +being thus ensured. (1/8. I have shown in my work on the ‘Effects of Cross and +Self-fertilisation’ how greatly the offspring from intercrossed plants profit in +height, vigour, and fertility.) Nothing can be better adapted for this end than +the relative positions of the anthers and stigmas in the two forms, as shown in +Figure 1.2; but to this whole subject I shall recur. No doubt pollen will +occasionally be placed by insects or fall on the stigma of the same flower; and +if cross-fertilisation fails, such self-fertilisation will be advantageous to +the plant, as it will thus be saved from complete barrenness. But the advantage +is not so great as might at first be thought, for the seedlings from +illegitimate unions do not generally consist of both forms, but all belong to +the parent form; they are, moreover, in some degree weakly in constitution, as +will be shown in a future chapter. If, however, a flower’s own pollen should +first be placed by insects or fall on the stigma, it by no means follows that +cross-fertilisation will be thus prevented. It is well known that if pollen from +a distinct species be placed on the stigma of a plant, and some hours afterwards +its own pollen be placed on it, the latter will be prepotent and will quite +obliterate any effect from the foreign pollen; and there can hardly be a doubt +that with heterostyled dimorphic plants, pollen from the other form will +obliterate the effects of pollen from the same form, even when this has been +placed on the stigma a considerable time before. To test this belief, I placed +on several stigmas of a long-styled cowslip plenty of pollen from the same +plant, and after twenty-four hours added some from a short-styled dark-red +Polyanthus, which is a variety of the cowslip. From the flowers thus treated 30 +seedlings were raised, and all these, without exception, bore reddish flowers; +so that the effect of pollen from the same form, though placed on the stigmas +twenty-four hours previously, was quite destroyed by that of pollen from a plant +belonging to the other form. + +Finally, I may remark that of the four kinds of unions, that of the short-styled +illegitimately fertilised with its own-form pollen seems to be the most sterile +of all, as judged by the average number of seeds, which the capsules contained. +A smaller proportion, also, of these seeds than of the others germinated, and +they germinated more slowly. The sterility of this union is the more remarkable, +as it has already been shown that the short-styled plants yield a larger number +of seeds than the long-styled, when both forms are fertilised, either naturally +or artificially, in a legitimate manner. + +In a future chapter, when I treat of the offspring from heterostyled dimorphic +and trimorphic plants illegitimately fertilised with their own-form pollen, I +shall have occasion to show that with the present species and several others, +equal-styled varieties sometimes appear. + +Primula elatior, Jacq. +Bardfield oxlip of English authors. + +This plant, as well as the last or cowslip (P. veris, vel officinalis), and the +primrose (P. vulgaris, vel acaulis) have been considered by some botanists as +varieties of the same species. But they are all three undoubtedly distinct, as +will be shown in the next chapter. The present species resembles to a certain +extent in general appearance the common oxlip, which is a hybrid between the +cowslip and primrose. Primula elatior is found in England only in two or three +of the eastern counties; and I was supplied with living plants by Mr. Doubleday, +who, as I believe, first called attention to its existence in England. It is +common in some parts of the Continent; and H. Muller has seen several kinds of +humble-bees and other bees, and Bombylius, visiting the flowers in North +Germany. (1/9. ‘Die Befruchtung der Blumen’ page 347.) + +The results of my trials on the relative fertility of the two forms, when +legitimately and illegitimately fertilised, are given in Table 1.8. + +TABLE 1.8. Primula elatior. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Maximum Number of Seeds in any one Capsule. +Column 5: Minimum Number of Seeds in any one Capsule. +Column 6: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +10 : 6 : 62 : 34 : 46.5. + +Long-styled by own-form pollen. Illegitimate union : +20 : 4 : 49* : 2 : 27.7. +(*These seeds were so poor and small that they could hardly have germinated.) + +Short-styled by pollen of long-styled. Legitimate union: +10 : 8 : 61 : 37 : 47.7. + +Short-styled by own-form pollen. Illegitimate union : +17 : 3 : 19 : 9 : 12.1. + +SUMMARY: + +The two legitimate unions together : +20 : 14 : 62 : 37 : 47.1. + +The two illegitimate unions together : +37 : 7 : 49* : 2 : 35.5. +(*These seeds were so poor and small that they could hardly have germinated.) + +If we compare the fertility of the two legitimate unions taken together with +that of the two illegitimate unions together, as judged by the proportional +number of flowers which when fertilised in the two methods yielded capsules, the +ratio is as 100 to 27; so that by this standard the present species is much more +sterile than P. veris, when both species are illegitimately fertilised. If we +judge of the relative fertility of the two kinds of unions by the average number +of seeds per capsule, the ratio is as 100 to 75. But this latter number is +probably much too high, as many of the seeds produced by the illegitimately +fertilised long-styled flowers were so small that they probably would not have +germinated, and ought not to have been counted. Several long-styled and short- +styled plants were protected from the access of insects, and must have been +spontaneously self-fertilised. They yielded altogether only six capsules, +containing any seeds; and their average number was only 7.8 per capsule. Some, +moreover, of these seeds were so small that they could hardly have germinated. + +Herr W. Breitenbach informs me that he examined, in two sites near the Lippe (a +tributary of the Rhine), 894 flowers produced by 198 plants of this species; and +he found 467 of these flowers to be long-styled, 411 short-styled, and 16 equal- +styled. I have heard of no other instance with heterostyled plants of equal- +styled flowers appearing in a state of nature, though far from rare with plants +which have been long cultivated. It is still more remarkable that in eighteen +cases the same plant produced both long-styled and short-styled, or long-styled +and equal-styled flowers; and in two out of the eighteen cases, long-styled, +short-styled, and equal-styled flowers. The long-styled flowers greatly +preponderated on these eighteen plants,--61 consisting of this form, 15 of +equal-styled, and 9 of the short-styled form. + +Primula vulgaris (var. acaulis, Linn.) +The primrose of English Writers. + +(FIGURE 1.3. Outlines of pollen-grains of Primula vulgaris, distended with +water, much magnified and drawn under the camera lucida. The upper and smaller +grains from the long-styled form; the lower and larger grains from the short- +styled.) + +Mr. J. Scott examined 100 plants growing near Edinburgh, and found 44 to be +long-styled, and 56 short-styled; and I took by chance 79 plants in Kent, of +which 39 were long-styled and 40 short-styled; so that the two lots together +consisted of 83 long-styled and 96 short-styled plants. In the long-styled form +the pistil is to that of the short-styled in length, from an average of five +measurements, as 100 to 51. The stigma in the long-styled form is conspicuously +more globose and much more papillose than in the short-styled, in which latter +it is depressed on the summit; it is equally broad in the two forms. In both it +stands nearly, but not exactly, on a level with the anthers of the opposite +form; for it was found, from an average of 15 measurements, that the distance +between the middle of the stigma and the middle of the anthers in the short- +styled form is to that in the long-styled as 100 to 93. The anthers do not +differ in size in the two forms. The pollen-grains from the short-styled flowers +before they were soaked in water were decidedly broader, in proportion to their +length, than those from the long-styled; after being soaked they were relatively +to those from the long-styled as 100 to 71 in diameter, and more transparent. A +large number of flowers from the two forms were compared, and 12 of the finest +flowers from each lot were measured, but there was no sensible difference +between them in size. Nine long-styled and eight short-styled plants growing +together in a state of nature were marked, and their capsules collected after +they had been naturally fertilised; and the seeds from the short-styled weighed +exactly twice as much as those from an equal number of long-styled plants. So +that the primrose resembles the cowslip in the short-styled plants, being the +more productive of the two forms. The results of my trials on the fertility of +the two forms, when legitimately and illegitimately fertilised, are given in +Table 1.9. + +TABLE 1.9. Primula vulgaris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Maximum Number of Seeds in any one Capsule. +Column 5: Minimum Number of Seeds in any one Capsule. +Column 6: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +12 : 11 : 77 : 47 : 66.9. + +Long-styled by own-form pollen. Illegitimate union : +21 : 14 : 66 : 30 : 52.2. + +Short-styled by pollen of long-styled. Legitimate union: + 8 : 7 : 75 : 48 : 65.0. + +Short-styled by own-form pollen. Illegitimate union : +18 : 7 : 43 : 5 : 18.8 (This average is perhaps rather too low). + +SUMMARY: + +The two legitimate unions together : +20 : 18 : 77 : 47 : 66.0. + +The two illegitimate unions together : +39 : 21 : 66 : 5 : 35.5 (This average is perhaps rather too low). + +We may infer from this table that the fertility of the two legitimate unions +taken together is to that of the two illegitimate unions together, as judged by +the proportional number of flowers which when fertilised in the two methods +yielded capsules, as 100 to 60. If we judge by the average number of seeds per +capsule produced by the two kinds of unions, the ratio is as 100 to 54; but this +latter figure is perhaps rather too low. It is surprising how rarely insects can +be seen during the day visiting the flowers, but I have occasionally observed +small kinds of bees at work; I suppose, therefore, that they are commonly +fertilised by nocturnal Lepidoptera. The long-styled plants when protected from +insects yield a considerable number of capsules, and they thus differ remarkably +from the same form of the cowslip, which is quite sterile under the same +circumstances. Twenty-three spontaneously self-fertilised capsules from this +form contained, on an average, 19.2 seeds. The short-styled plants produced +fewer spontaneously self-fertilised capsules, and fourteen of them contained +only 6.2 seeds per capsule. The self-fertilisation of both forms was probably +aided by Thrips, which abounded within the flowers; but these minute insects +could not have placed nearly sufficient pollen on the stigmas, as the +spontaneously self-fertilised capsules contained much fewer seeds, on an +average, than those (as may be seen in Table 1.9.) which were artificially +fertilised with their own-form pollen. But this difference may perhaps be +attributed in part to the flowers in the table having been fertilised with +pollen from a distinct plant belonging to the same form; whilst those which were +spontaneously self-fertilised no doubt generally received their own pollen. In a +future part of this volume some observations will be given on the fertility of a +red-coloured variety of the primrose. + +Primula Sinensis. + +In the long-styled form the pistil is about twice as long as that of the short- +styled, and the stamens differ in a corresponding, but reversed, manner. The +stigma is considerably more elongated and rougher than that of the short-styled, +which is smooth and almost spherical, being somewhat depressed on the summit; +but the stigma varies much in all its characters, the result, probably, of +cultivation. The pollen-grains of the short-styled form, according to +Hildebrand, are 7 divisions of the micrometer in length and 5 in breadth; +whereas those of the long-styled are only 4 in length and 3 in breadth. (1/10. +After the appearance of my paper this author published some excellent +observations on the present species ‘Botanische Zeitung’ January 1, 1864, and he +shows that I erred greatly about the size of the pollen-grains in the two forms. +I suppose that by mistake I measured twice over pollen-grains from the same +form.) The grains, therefore, of the short-styled are to those of the long- +styled in length as 100 to 57. Hildebrand also remarked, as I had done in the +case of P. veris, that the smaller grains from the long-styled are much more +transparent than the larger ones from the short-styled form. We shall hereafter +see that this cultivated plant varies much in its dimorphic condition and is +often equal-styled. Some individuals may be said to be sub-heterostyled; thus in +two white-flowered plants the pistil projected above the stamens, but in one of +them it was longer and had a more elongated and rougher stigma, than in the +other; and the pollen-grains from the latter were to those from the plant with a +more elongated pistil only as 100 to 88 in diameter, instead of as 100 to 57. +The corolla of the long-styled and short-styled form differs in shape, in the +same manner as in P. veris. The long-styled plants tend to flower before the +short-styled. When both forms were legitimately fertilised, the capsules from +the short-styled plants contained, on an average, more seeds than those from the +long-styled, in the ratio of 12.2 to 9.3 by weight, that is, as 100 to 78. In +Table 1.10 we have the results of two sets of experiments tried at different +periods. + +TABLE 1.10. Primula Sinensis. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Average Weight of Seeds per Capsule. +... +Column 5: Average Number of Seeds per Capsule as ascertained on a subsequent +occasion. + +Long-styled by pollen of short-styled. Legitimate union : +24 : 16 : 0.58 :: 50. + +Long-styled by own-form pollen. Illegitimate union : +20 : 13 : 0.45 :: 35. + +Short-styled by pollen of long-styled. Legitimate union: + 8 : 8 : 0.76 :: 64. + +Short-styled by own-form pollen. Illegitimate union : + 7 : 4 : 0.23 :: 25. + +SUMMARY: + +The two legitimate unions together : +32 : 24 : 0.64 :: 57. + +The two illegitimate unions together : +27 : 17 : 0.40 :: 30. + +The fertility, therefore, of the two legitimate unions together to that of the +two illegitimate unions, as judged by the proportional number of flowers which +yielded capsules, is as 100 to 84. Judging by the average weight of seeds per +capsule produced by the two kinds of unions, the ratio is as 100 to 63. On +another occasion a large number of flowers of both forms were fertilised in the +same manner, but no account of their number was kept. The seeds, however, were +carefully counted, and the averages are shown in the right hand column. The +ratio for the number of seeds produced by the two legitimate compared with the +two illegitimate unions is here 100 to 53, which is probably more accurate than +the foregoing one of 100 to 63. + +TABLE 1.11. Primula Sinensis (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +14 : 14 : 41. + +Long-styled by own-form pollen, from a distinct plant. Illegitimate union : +26 : 26 : 18. + +Long-styled by pollen from same flower. Illegitimate union : +27 : 21 : 17. + +Short-styled by pollen of long-styled. Legitimate union: +14 : 14 : 44. + +Short-styled by own-form pollen, from a distinct plant. Illegitimate union : +16 : 16 : 20. + +Short-styled by pollen from the same flower. Illegitimate union : +21 : 11 : 8. + +SUMMARY: + +The two legitimate unions together : +28 : 28 : 43. + +The two illegitimate unions together (own-form pollen): +42 : 42 : 18. + +The two illegitimate unions together (pollen from the same flower ): +48 : 32 : 13. + +Hildebrand in the paper above referred to gives the results of his experiments +on the present species; and these are shown in a condensed form in Table 1.11. +Besides using for the illegitimate unions pollen from a distinct plant of the +same form, as was always done by me, he tried, in addition, the effects of the +plant’s own pollen. He counted the seeds. + +It is remarkable that here all the flowers which were fertilised legitimately, +as well as those fertilised illegitimately with pollen from a distinct plant +belonging to the same form, yielded capsules; and from this fact it might be +inferred that the two forms were reciprocally much more fertile in his case than +in mine. But his illegitimately fertilised capsules from both forms contained +fewer seeds relatively to the legitimately fertilised capsules than in my +experiments; for the ratio in his case is as 42 to 100, instead of, as in mine, +as 53 to 100. Fertility is a very variable element with most plants, being +determined by the conditions to which they are subjected, of which fact I have +observed striking instances with the present species; and this may account for +the difference between my results and those of Hildebrand. His plants were kept +in a room, and perhaps were grown in too small pots or under some other +unfavourable conditions, for his capsules in almost every case contained a +smaller number of seeds than mine, as may be seen by comparing the right hand +columns in Tables 1.10 and 1.11. + +The most interesting point in Hildebrand’s experiments is the difference in the +effects of illegitimate fertilisation with a flower’s own pollen, and with that +from a distinct plant of the same form. In the latter case all the flowers +produced capsules, whilst only 67 out of 100 of those fertilised with their own +pollen produced capsules. The self-fertilised capsules also contained seeds, as +compared with capsules from flowers fertilised with pollen from a distinct plant +of the same form, in the ratio of 72 to 100. + +In order to ascertain how far the present species was spontaneously self- +fertile, five long-styled plants were protected by me from insects; and they +bore up to a given period 147 flowers which set 62 capsules; but many of these +soon fell off, showing that they had not been properly fertilised. At the same +time five short-styled plants were similarly treated, and they bore 116 flowers +which ultimately produced only seven capsules. On another occasion 13 protected +long-styled plants yielded by weight 25.9 grains of spontaneously self- +fertilised seeds. At the same time seven protected short-styled plants yielded +only half-a-grain weight of seeds. Therefore the long-styled plants yielded +nearly 24 times as many spontaneously self-fertilised seeds as did the same +number of short-styled plants. The chief cause of this great difference appears +to be, that when the corolla of a long-styled plant falls off, the anthers, from +being situated near the bottom of the tube are necessarily dragged over the +stigma and leave pollen on it, as I saw when I hastened the fall of nearly +withered flowers; whereas in the short-styled flowers, the stamens are seated at +the mouth of the corolla, and in falling off do not brush over the lowly-seated +stigmas. Hildebrand likewise protected some long-styled and short-styled plants, +but neither ever yielded a single capsule. He thinks that the difference in our +results may be accounted for by his plants having been kept in a room and never +having been shaken; but this explanation seems to me doubtful; his plants were +in a less fertile condition than mine, as shown by the difference in the number +of seeds produced, and it is highly probable that their lessened fertility would +have interfered with especial force with their capacity for producing self- +fertilised seeds. + +[Primula auricula. (1/11. According to Kerner our garden auriculas are descended +from P. pubescens, Jacq., which is a hybrid between the true P. auricula and +hirsuta. This hybrid has now been propagated for about 300 years, and produces, +when legitimately fertilised, a large number of seeds; the long-styled forms +yielding an average number of 73, and the short-styled 98 seeds per capsule: see +his “Geschichte der Aurikel” ‘Zeitschr. des Deutschen und Oest. Alpen-Vereins’ +Band 6 page 52. Also ‘Die Primulaceen-Bastarten’ ‘Oest. Botanische Zeitschrift’ +1835 Numbers 3, 4 and 5.) + +This species is heterostyled, like the preceding ones; but amongst the varieties +distributed by florists the long-styled form is rare, as it is not valued. There +is a much greater relative inequality in the length of the pistil and stamens in +the two forms of the auricula than in the cowslip; the pistil in the long-styled +being nearly four times as long as that in the short-styled, in which it is +barely longer than the ovarium. The stigma is nearly of the same shape in both +forms, but is rougher in the long-styled, though the difference is not so great +as between the two forms of the cowslip. In the long-styled plants the stamens +are very short, rising but little above the ovarium. The pollen-grains of these +short stamens, when distended with water, were barely 5/6000 of an inch in +diameter, whereas those from the long stamens of the short-styled plants were +barely 7/6000, showing a relative difference of about 71 to 100. The smaller +grains of the long-styled plant are also much more transparent, and before +distention with water more triangular in outline than those of the other form. +Mr. Scott compared ten plants of both forms growing under similar conditions, +and found that, although the long-styled plant produced more umbels and more +capsules than the short-styled, yet they yielded fewer seeds, in the ratio of 66 +to 100. (1/12. ‘Journal of the Linnean Society Botany’ volume 8 1864 page 86.) +Three short-styled plants were protected by me from the access of insects, and +they did not produce a single seed. Mr. Scott protected six plants of both +forms, and found them excessively sterile. The pistil of the long-styled form +stands so high above the anthers, that it is scarcely possible that pollen +should reach the stigma without some aid; and one of Mr. Scott’s long-styled +plants which yielded a few seeds (only 18 in number) was infested by aphides, +and he does not doubt that these had imperfectly fertilised it. + +I tried a few experiments by reciprocally fertilising the two forms in the same +manner as before, but my plants were unhealthy, so I will give, in a condensed +form, the results of Mr. Scott’s experiments. For fuller particulars with +respect to this and the five following species, the paper lately referred to may +be consulted. In each case the fertility of the two legitimate unions, taken +together, is compared with that of the two illegitimate unions together, by the +same two standards as before, namely, by the proportional number of flowers +which produced good capsules, and by the average number of seeds per capsule. +The fertility of the legitimate unions is always taken at 100. + +By the first standard, the fertility of the two legitimate unions of the +auricula is to that of the two illegitimate unions as 100 to 80; and by the +second standard as 100 to 15. + +Primula Sikkimensis. + +According to Mr. Scott, the pistil of the long-styled form is fully four times +as long as that of the short-styled, but their stigmas are nearly alike in shape +and roughness. The stamens do not differ so much in relative length as the +pistils. The pollen-grains differ in a marked manner in the two forms; “those of +the long-styled plants are sharply triquetrous, smaller, and more transparent +than those of the short-styled, which are of a bluntly triangular form.” The +fertility of the two legitimate unions to that of the two illegitimate unions is +by the first standard as 100 to 95, and by the second standard as 100 to 31. + +Primula cortusoides. + +The pistil of the long-styled form is about thrice as long as that of the short- +styled, the stigma being double as long and covered with much longer papillae. +The pollen-grains of the short-styled form are, as usual, “larger, less +transparent, and more bluntly triangular than those from the long-styled +plants.” The fertility of the two legitimate unions to that of the two +illegitimate unions is by the first standard as 100 to 74, and by the second +standard as 100 to 66. + +Primula involucrata. + +The pistil of the long-styled form is about thrice as long as that of the short- +styled; the stigma of the former is globular and closely beset with papillae, +whilst that of the short-styled is smooth and depressed on the apex. The pollen- +grains of the two forms differ in size and transparency as before, but not in +shape. The fertility of the two legitimate to that of the two illegitimate +unions is by the first standard as 100 to 72; and by the second standard as 100 +to 47. + +Primula farinosa. + +According to Mr. Scott, the pistil of the long-styled form is only about twice +as long as that of the short-styled. The stigmas of the two forms differ but +little in shape. The pollen-grains differ in the usual manner in size, but not +in form. The fertility of the two legitimate to that of the two illegitimate +unions is by the first standard as 100 to 71, and by the second standard as 100 +to 44.] + +SUMMARY ON THE FOREGOING HETEROSTYLED SPECIES OF PRIMULA. + +TABLE 1.12. Summary on the Fertility of the two Legitimate Unions, compared with +that of the two Illegitimate Unions, in the genus Primula. The former taken at +100. + +Column 1: Name of Species. +Column 2: Illegitimate Unions, Judged of by the Proportional Number of Flowers +which produced Capsules. +Column 3: Illegitimate Unions, Judged of by the Average Number (or Weight in +some cases) of Seeds per Capsule. + +Primula veris : 69 : 65. + +Primula elatior : 27 : 75 (Probably too high). + +Primula vulgaris : 60 : 54 (Perhaps too low). + +Primula Sinensis : 84 : 63. + +Primula Sinensis (second trial) : ? : 53. +Primula Sinensis (after Hildebrand) : 100 : 42. + +Primula auricula (Scott) : 80 : 15. + +Primula Sikkimensis (Scott): 95 : 31. + +Primula cortusoides (Scott): 74 : 66. + +Primula involucrata (Scott): 72 : 48. + +Primula farinosa (Scott): 71 : 44. + +Average of the nine species : 88.4 : 61.8. + +The fertility of the long-and short-styled plants of the above species of +Primula, when the two forms are fertilised legitimately, and illegitimately with +pollen of the same form taken from a distinct plant, has now been given. The +results are seen in Table 1.12; the fertility being judged by two standards, +namely, by that of the proportional number of flowers which yielded capsules, +and by that of the average number of seeds per capsule. But for full accuracy +many more observations, under varied conditions, would be requisite. + +With plants of all kinds some flowers generally fail to produce capsules, from +various accidental causes; but this source of error has been eliminated, as far +as possible, in all the previous cases, by the manner in which the calculations +have been made. Supposing, for instance, that 20 flowers were fertilised +legitimately and yielded 18 capsules, and that 30 flowers were fertilised +illegitimately and yielded 15 capsules, we may assume that on an average an +equal proportion of the flowers in both lots would fail to produce capsules from +various accidental causes; and the ratio of 18/20 to 15/30, or as 100 to 56 (in +whole numbers), would show the proportional number of capsules due to the two +methods of fertilisation; and the number 56 would appear in the left-hand column +of Table 1.12, and in my other tables. With respect to the average number of +seeds per capsule hardly anything need be said: supposing that the legitimately +fertilised capsules contained, on an average, 50 seeds, and the illegitimately +fertilised capsules 25 seeds; then as 50 is to 25 so is 100 to 50; and the +latter number would appear in the right hand column. + +It is impossible to look at the above table and doubt that the legitimate unions +between the two forms of the above nine species of Primula are much more fertile +than the illegitimate unions; although in the latter case pollen was always +taken from a distinct plant of the same form. There is, however, no close +correspondence in the two rows of figures, which give, according to the two +standards, the difference of fertility between the legitimate and illegitimate +unions. Thus all the flowers of P. Sinensis which were illegitimately fertilised +by Hildebrand produced capsules; but these contained only 42 per cent of the +number of seeds yielded by the legitimately fertilised capsules. So again, 95 +per cent of the illegitimately fertilised flowers of P. Sikkimensis produced +capsules; but these contained only 31 per cent of the number of seeds in the +legitimate capsules. On the other hand, with P. elatior only 27 per cent of the +illegitimately fertilised flowers yielded capsules; but these contained nearly +75 per cent of the legitimate number of seeds. It appears that the setting of +the flowers, that is, the production of capsules whether good or bad, is not so +much influenced by legitimate and illegitimate fertilisation as is the number of +seeds which the capsules contain. For, as may be seen at the bottom of Table +1.12, 88.4 per cent of the illegitimately fertilised flowers yielded capsules; +but these contained only 61.8 per cent of seeds, in comparison, in each case, +with the legitimately fertilised flowers and capsules of the same species. +There is another point which deserves notice, namely, the relative degree of +infertility in the several species of the long-styled and short-styled flowers, +when both are illegitimately fertilised. The data may be found in the earlier +tables, and in those given by Mr. Scott in the Paper already referred to. If we +call the number of seeds per capsule produced by the illegitimately fertilised +long-styled flowers 100, the seeds from the illegitimately fertilised short- +styled flowers will be represented by the following numbers (Table 1.a.):-- + +TABLE 1.a. + +Primula veris : 71. + +Primula elatior : 44 (Probably too low). + +Primula vulgaris : 36 (Perhaps too low). + +Primula Sinensis : 71. + +Primula auricula : 119. + +Primula Sikkimensis : 57. + +Primula cortusoides : 93. + +Primula involucrata : 74. + +Primula farinosa : 63. + +We thus see that, with the exception of P. auricula, the long-styled flowers of +all nine species are more fertile than the short-styled flowers, when both forms +are illegitimately fertilised. Whether P. auricula really differs from the other +species in this respect I can form no opinion, as the result may have been +accidental. The degree of self-fertility of a plant depends on two elements, +namely, on the stigma receiving its own pollen and on its more or less efficient +action when placed there. Now as the anthers of the short-styled flowers of +several species of Primula stand directly above the stigma, their pollen is more +likely to fall on it, or to be carried down to it by insects, than in the case +of the long-styled form. It appears probable, therefore, at first sight, that +the lessened capacity of the short-styled flowers to be fertilised with their +own pollen, is a special adaptation for counteracting their greater liability to +receive their own pollen, and thus for checking self-fertilisation. But from +facts with respect to other species hereafter to be given, this view can hardly +be admitted. In accordance with the above liability, when some of the species of +Primula were allowed to fertilise themselves spontaneously under a net, all +insects being excluded, except such minute ones as Thrips, the short-styled +flowers, notwithstanding their greater innate self-sterility, yielded more seed +than did the long-styled. None of the species, however, when insects were +excluded, made a near approach to full fertility. But the long-styled form of P. +Sinensis gave, under these circumstances, a considerable number of seeds, as the +corolla in falling off drags the anthers, which are seated low down in the tube, +over the stigma, and thus leaves plenty of pollen on it. + +HOMOSTYLED SPECIES OF PRIMULA. + +It has now been shown that nine of the species in this genus exist under two +forms, which differ not only in structure but in function. Besides these Mr. +Scott enumerates 27 other species which are heterostyled (1/13. H. Muller has +given in ‘Nature’ December 10, 1874 page 110, a drawing of one of these species, +viz. The alpine P. villosa, and shows that it is fertilised exclusively by +Lepidoptera.); and to these probably others will be hereafter added. +Nevertheless, some species are homostyled; that is, they exist only under a +single form; but much caution is necessary on this head, as several species when +cultivated are apt to become equal-styled. Mr. Scott believes that P. Scotica, +verticillata, a variety of Sibirica, elata, mollis, and longiflora, are truly +homostyled; and to these may be added, according to Axell, P. stricta. (1/14. +Koch was aware that this species was homostyled: see “Treviranus uber Dichogamie +nach Sprengel und Darwin” ‘Botanische Zeitung’ January 2, 1863 page 4.) Mr. +Scott experimented on P. Scotica, mollis, and verticillata, and found that their +flowers yielded an abundance of seeds when fertilised with their own pollen. +This shows that they are not heterostyled in function. P. Scotica is, however, +only moderately fertile when insects are excluded, but this depends merely on +the coherent pollen not readily falling on the stigma without their aid. Mr. +Scott also found that the capsules of P. verticillata contained rather more seed +when the flowers were fertilised with pollen from a distinct plant than when +with their own pollen; and from this fact he infers that they are sub- +heterostyled in function, though not in structure. But there is no evidence that +two sets of individuals exist, which differ slightly in function and are adapted +for reciprocal fertilisation; and this is the essence of heterostylism. The mere +fact of a plant being more fertile with pollen from a distinct individual than +with its own pollen, is common to very many species, as I have shown in my work +‘On the Effects of Cross and Self-fertilisation.’ + +Hottonia palustris. + +This aquatic member of the Primulaceae is conspicuously heterostyled, as the +pistil of the long-styled form projects far out of the flower, the stamens being +enclosed within the tube; whilst the stamens of the short-styled flower project +far outwards, the pistil being enclosed. This difference between the two forms +has attracted the attention of various botanists, and that of Sprengel, in 1793, +who, with his usual sagacity, adds that he does not believe the existence of the +two forms to be accidental, though he cannot explain their purpose. (1/15. ‘Das +entdeckte Geheimniss der Nature’ page 103.) The pistil of the long-styled form +is more than twice as long as that of the short-styled, with the stigma rather +smaller, though rougher. H. Muller gives figures of the stigmatic papillae of +the two forms, and those of the long-styled are seen to be more than double the +length, and much thicker than the papillae of the short-styled form. (1/16. ‘Die +Befruchtung’ etc. page 350.) The anthers in the one form do not stand exactly on +a level with the stigma in the other form; for the distance between the organs +is greater in the short-styled than in the long-styled flowers in the proportion +of 100 to 71. In dried specimens soaked in water the anthers of the short-styled +form are larger than those of the long-styled, in the ratio of 100 to 83. The +pollen-grains, also, from the short-styled flowers are conspicuously larger than +those from the long-styled; the ratio between the diameters of the moistened +grains being as 100 to 64, according to my measurements, but according to the +measurements of H. Muller as 100 to 61; and his are probably the more accurate +of the two. The contents of the larger pollen-grains appear more coarsely +granular and of a browner tint, than those in the smaller grains. The two forms +of Hottonia thus agree closely in most respects with those of the heterostyled +species of Primula. The flowers of Hottonia are cross-fertilised, according to +Muller, chiefly by Diptera. + +Mr. Scott made a few trials on a short-styled plant, and found that the +legitimate unions were in all ways more fertile than the illegitimate (1/17. +‘Journal of the Linnean Society Botany’ volume 8 1864 page 79.); but since the +publication of his paper H. Muller has made much fuller experiments, and I give +his results in Table 1.13, drawn up in accordance with my usual plan:-- + +TABLE 1.13. Hottonia palustris (from H. Muller). + +Column 1: Nature of the Union. +Column 2: Number of Capsules examined. +Column 3: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union: +34 : 91.4. + +Long-styled by own-form pollen, from a distinct plant. Illegitimate union: +18 : 77.5. + +Short-styled by pollen of long-styled. Legitimate union: +30 : 66.2. + +Short-styled by own-form pollen, from a distinct plant. Illegitimate union: +19 : 18.7. + +SUMMARY: + +The two legitimate unions together: +64 : 78.8. + +The two illegitimate unions together: +37 : 48.1. + +The most remarkable point in this table is the small average number of seeds +from the short-styled flowers when illegitimately fertilised, and the unusually +large average number of seeds yielded by the illegitimately fertilised long- +styled flowers, relatively in both cases to the product of the legitimately +fertilised flowers. (1/18. H. Muller says ‘Die Befruchtung’ etc. page 352, that +the long-styled flowers, when illegitimately fertilised, yield as many seeds as +when legitimately fertilised; but by adding up the number of seeds from all the +capsules produced by the two methods of fertilisation, as given by him, I arrive +at the results shown in Table 1.13. The average number in the long-styled +capsules, when legitimately fertilised, is 91.4, and when illegitimately +fertilised, 77.5; or as 100 to 85. H. Muller agrees with me that this is the +proper manner of viewing the case.) The two legitimate unions compared with the +two illegitimate together yield seeds in the ratio of 100 to 61. + +H. Muller also tried the effects of illegitimately fertilising the long-styled +and short-styled flowers with their own pollen, instead of with that from +another plant of the same form; and the results are very striking. For the +capsules from the long-styled flowers thus treated contained, on an average, +only 15.7 seeds instead of 77.5; and those from the short-styled 6.5, instead of +18.7 seeds per capsule. The number 6.5 agrees closely with Mr. Scott’s result +from the same form similarly fertilised. + +From some observations by Dr. Torrey, Hottonia inflata, an inhabitant of the +United States, does not appear to be heterostyled, but is remarkable from +producing cleistogamic flowers, as will be seen in the last chapter of this +volume. + +Besides the genera Primula and Hottonia, Androsace (vel Gregoria, vel Aretia) +vitalliana is heterostyled. Mr. Scott fertilised with their own pollen 21 +flowers on three short-styled plants in the Edinburgh Botanic Gardens, and not +one yielded a single seed; but eight of them which were fertilised with pollen +from one of the other plants of the same form, set two empty capsules. (1/19. +See also Treviranus in ‘Botanische Zeitung’ 1863 page 6 on this plant being +dimorphic.) He was able to examine only dried specimens of the long-styled +forms. But the evidence seems sufficient to leave hardly a doubt that Androsace +is heterostyled. Fritz Muller sent me from South Brazil dried flowers of a +Statice which he believed to be heterostyled. In the one form the pistil was +considerably longer and the stamens slightly shorter than the corresponding +organs in the other form. But as in the shorter-styled form the stigmas reached +up to the anthers of the same flower, and as I could not detect in the dried +specimens of the two forms any difference in their stigmas, or in the size of +their pollen-grains, I dare not rank this plant as heterostyled. From statements +made by Vaucher I was led to think that Soldanella alpina was heterostyled, but +it is impossible that Kerner, who has closely studied this plant, could have +overlooked the fact. So again from other statements it appeared probable that +Pyrola might be heterostyled, but H. Muller examined for me two species in North +Germany, and found this not to be the case. + + +CHAPTER II. + +HYBRID PRIMULAS. + +The oxlip a hybrid naturally produced between Primula veris and vulgaris. +The differences in structure and function between the two parent-species. +Effects of crossing long-styled and short-styled oxlips with one another and +with the two forms of both parent-species. +Character of the offspring from oxlips artificially self-fertilised and cross- +fertilised in a state of nature. +Primula elatior shown to be a distinct species. +Hybrids between other heterostyled species of Primula. +Supplementary note on spontaneously produced hybrids in the genus Verbascum. + +The various species of Primula have produced in a state of nature throughout +Europe an extraordinary number of hybrid forms. For instance, Professor Kerner +has found no less than twenty-five such forms in the Alps. (2/1. “Die +Primulaceen-Bastarten” ‘Oesterr. Botanische Zeitschrift’ Jahr 1875 Numbers 3, 4 +and 5. See also Godron on hybrid Primulas in ‘Bull. Soc. Bot. de France’ tome 10 +1853 page 178. Also in ‘Revue des Sciences Nat.’ 1875 page 331.) The frequent +occurrence of hybrids in this genus no doubt has been favoured by most of the +species being heterostyled, and consequently requiring cross-fertilisation by +insects; yet in some other genera, species which are not heterostyled and which +in some respects appear not well adapted for hybrid-fertilisation, have likewise +been largely hybridised. In certain districts of England, the common oxlip--a +hybrid between the cowslip (P. veris, vel officinalis) and the primrose (P. +vulgaris, vel acaulis)--is frequently found, and it occurs occasionally almost +everywhere. Owing to the frequency of this intermediate hybrid form, and to the +existence of the Bardfield oxlip (P. elatior), which resembles to a certain +extent the common oxlip, the claim of the three forms to rank as distinct +species has been discussed oftener and at greater length than that of almost any +other plant. Linnaeus considered P. veris, vulgaris and elatior to be varieties +of the same species, as do some distinguished botanists at the present day; +whilst others who have carefully studied these plants do not doubt that they are +distinct species. The following observations prove, I think, that the latter +view is correct; and they further show that the common oxlip is a hybrid between +P. veris and vulgaris. + +The cowslip differs so conspicuously in general appearance from the primrose, +that nothing need here be said with respect to their external characters. (2/2. +The Reverend W.A. Leighton has pointed out certain differences in the form of +the capsules and seed in ‘Annals and Magazine of Natural History’ 2nd series +volume 2 1848 page 164.) But some less obvious differences deserve notice. As +both species are heterostyled, their complete fertilisation depends on insects. +The cowslip is habitually visited during the day by the larger humble-bees +(namely Bombus muscorum and hortorum), and at night by moths, as I have seen in +the case of Cucullia. The primrose is never visited (and I speak after many +years’ observation) by the larger humble-bees, and only rarely by the smaller +kinds; hence its fertilisation must depend almost exclusively on moths. There is +nothing in the structure of the flowers of the two plants which can determine +the visits of such widely different insects. But they emit a different odour, +and perhaps their nectar may have a different taste. Both the long-styled and +short-styled forms of the primrose, when legitimately and naturally fertilised, +yield on an average many more seeds per capsule than the cowslip, namely, in the +proportion of 100 to 55. When illegitimately fertilised they are likewise more +fertile than the two forms of the cowslip, as shown by the larger proportion of +their flowers which set capsules, and by the larger average number of seeds +which the capsules contain. The difference also between the number of seeds +produced by the long-styled and short-styled flowers of the primrose, when both +are illegitimately fertilised, is greater than that between the number produced +under similar circumstances by the two forms of the cowslip. The long-styled +flowers of the primrose when protected from the access of all insects, except +such minute ones as Thrips, yield a considerable number of capsules containing +on an average 19.2 seeds per capsule; whereas 18 plants of the long-styled +cowslip similarly treated did not yield a single seed. + +The primrose, as every one knows, flowers a little earlier in the spring than +the cowslip, and inhabits slightly different stations and districts. The +primrose generally grows on banks or in woods, whilst the cowslip is found in +more open places. The geographical range of the two forms is different. Dr. +Bromfield remarks that “the primrose is absent from all the interior region of +northern Europe, where the cowslip is indigenous.” (2/3. ‘Phytologist’ volume 3 +page 694.) In Norway, however, both plants range to the same degree of north +latitude. (2/4. H. Lecoq ‘Geograph. Bot. de l’Europe’ tome 8 1858 pages 141, +144. See also ‘Annals and Magazine of Natural History’ 9 1842 pages 156, 515. +Also Boreau ‘Flore du centre de la France’ 1840 tome 2 page 376. With respect to +the rarity of P. veris in western Scotland, see H.C. Watson ‘Cybele Britannica’ +2 page 293.) + +The cowslip and primrose, when intercrossed, behave like distinct species, for +they are far from being mutually fertile. Gartner crossed 27 flowers of P. +vulgaris with pollen of P. veris, and obtained 16 capsules; but these did not +contain any good seed. (2/5. ‘Bastarderzeugung’ 1849 page 721.) He also crossed +21 flowers of P. veris with pollen of P. vulgaris; and now he got only five +capsules, containing seed in a still less perfect condition. Gartner knew +nothing about heterostylism; and his complete failure may perhaps be accounted +for by his having crossed together the same forms of the cowslip and primrose; +for such crosses would have been of an illegitimate as well as of a hybrid +nature, and this would have increased their sterility. My trials were rather +more fortunate. Twenty-one flowers, consisting of both forms of the cowslip and +primrose, were intercrossed legitimately, and yielded seven capsules (i.e. 33 +per cent), containing on an average 42 seeds; some of these seeds, however, were +so poor that they probably would not have germinated. Twenty-one flowers on the +same cowslip and primrose plants were also intercrossed illegitimately, and they +likewise yielded seven capsules (or 33 per cent), but these contained on an +average only 13 good and bad seeds. I should, however, state that some of the +above flowers of the primrose were fertilised with pollen from the polyanthus, +which is certainly a variety of the cowslip, as may be inferred from the perfect +fertility inter se of the crossed offspring from these two plants. (2/6. Mr. +Scott has discussed the nature of the polyanthus (‘Proceedings of the Linnean +Society’ 8 Botany 1864 page 103), and arrives at a different conclusion; but I +do not think that his experiments were sufficiently numerous. The degree of +infertility of a cross is liable to much fluctuation. Pollen from the cowslip at +first appears rather more efficient on the primrose than that of the polyanthus; +for 12 flowers of both forms of the primrose, fertilised legitimately and +illegitimately with pollen of the cowslip gave five capsules, containing on an +average 32.4 seeds; whilst 18 flowers similarly fertilised by polyanthus-pollen +yielded only five capsules, containing only 22.6 seeds. On the other hand, the +seeds produced by the polyanthus-pollen were much the finest of the whole lot, +and were the only ones which germinated.) To show how sterile these hybrid +unions were I may remind the reader that 90 per cent of the flowers of the +primrose fertilised legitimately with primrose-pollen yielded capsules, +containing on an average 66 seeds; and that 54 per cent of the flowers +fertilised illegitimately yielded capsules containing on an average 35.5 seeds +per capsule. The primrose, especially the short-styled form, when fertilised by +the cowslip, is less sterile, as Gartner likewise observed, than is the cowslip +when fertilised by the primrose. The above experiments also show that a cross +between the same forms of the primrose and cowslip is much more sterile than +that between different forms of these two species. + +The seeds from the several foregoing crosses were sown, but none germinated +except those from the short-styled primrose fertilised with pollen of the +polyanthus; and these seeds were the finest of the whole lot. I thus raised six +plants, and compared them with a group of wild oxlips which I had transplanted +into my garden. One of these wild oxlips produced slightly larger flowers than +the others, and this one was identical in every character (in foliage, flower- +peduncle, and flowers) with my six plants, excepting that the flowers of the +latter were tinged of a dingy red colour, from being descended from the +polyanthus. + +We thus see that the cowslip and primrose cannot be crossed either way except +with considerable difficulty, that they differ conspicuously in external +appearance, that they differ in various physiological characters, that they +inhabit slightly different stations and range differently. Hence those botanists +who rank these plants as varieties ought to be able to prove that they are not +as well fixed in character as are most species; and the evidence in favour of +such instability of character appears at first sight very strong. It rests, +first, on statements made by several competent observers that they have raised +cowslips, primroses, and oxlips from seeds of the same plant; and, secondly, on +the frequent occurrence in a state of nature of plants presenting every +intermediate gradation between the cowslip and primrose. + +The first statement, however, is of little value; for, heterostylism not being +formerly understood, the seed-bearing plants were in no instance protected from +the visits of insects (2/7. One author states in the ‘Phytologist’ volume 3 page +703 that he covered with bell-glasses some cowslips, primroses, etc., on which +he experimented. He specifies all the details of his experiment, but does not +say that he artificially fertilised his plants; yet he obtained an abundance of +seed, which is simply impossible. Hence there must have been some strange error +in these experiments, which may be passed over as valueless.); and there would +be almost as much risk of an isolated cowslip, or of several cowslips if +consisting of the same form, being crossed by a neighbouring primrose and +producing oxlips, as of one sex of a dioecious plant, under similar +circumstances, being crossed by the opposite sex of an allied and neighbouring +species. Mr. H.C. Watson, a critical and most careful observer, made many +experiments by sowing the seeds of cowslips and of various kinds of oxlips, and +arrived at the following conclusion, namely, “that seeds of a cowslip can +produce cowslips and oxlips, and that seeds of an oxlip can produce cowslips, +oxlips, and primroses.” (2/8. ‘Phytologist’ 2 pages 217, 852; 3 page 43.) This +conclusion harmonises perfectly with the view that in all cases, when such +results have been obtained, the unprotected cowslips have been crossed by +primroses, and the unprotected oxlips by either cowslips or primroses; for in +this latter case we might expect, by the aid of reversion, which notoriously +comes into powerful action with hybrids, that the two parent-forms in appearance +pure, as well as many intermediate gradations, would be occasionally produced. +Nevertheless the two following statements offer considerable difficulty. The +Reverend Professor Henslow raised from seeds of a cowslip growing in his garden, +various kinds of oxlips and one perfect primrose; but a statement in the same +paper perhaps throws light on this anomalous result. (2/9. Loudon’s ‘Magazine of +Natural History’ 3 1830 page 409.) Professor Henslow had previously transplanted +into his garden a cowslip, which completely changed its appearance during the +following year, and now resembled an oxlip. Next year again it changed its +character, and produced, in addition to the ordinary umbels, a few single- +flowered scapes, bearing flowers somewhat smaller and more deeply coloured than +those of the common primrose. From what I have myself observed with oxlips, I +cannot doubt that this plant was an oxlip in a highly variable condition, almost +like that of the famous Cytisus adami. This presumed oxlip was propagated by +offsets, which were planted in different parts of the garden; and if Professor +Henslow took by mistake seeds from one of these plants, especially if it had +been crossed by a primrose, the result would be quite intelligible. Another case +is still more difficult to understand: Dr. Herbert raised, from the seeds of a +highly cultivated red cowslip, cowslips, oxlips of various kinds, and a +primrose. (2/10. ‘Transactions of the Horticultural Society’ 4 page 19.) This +case, if accurately recorded, which I much doubt, is explicable only on the +improbable assumption that the red cowslip was not of pure parentage. With +species and varieties of many kinds, when intercrossed, one is sometimes +strongly prepotent over the other; and instances are known of a variety crossed +by another, producing offspring which in certain characters, as in colour, +hairiness, etc., have proved identical with the pollen-bearing parent, and quite +dissimilar to the mother-plant (2/11. I have given instances in my work ‘On the +Variation of Animals and Plants under Domestication’ chapter 15 2nd edition +volume 2 page 69.); but I do not know of any instance of the offspring of a +cross perfectly resembling, in a considerable number of important characters, +the father alone. It is, therefore, very improbable that a pure cowslip crossed +by a primrose should ever produce a primrose in appearance pure. Although the +facts given by Dr. Herbert and Professor Henslow are difficult to explain, yet +until it can be shown that a cowslip or a primrose, carefully protected from +insects, will give birth to at least oxlips, the cases hitherto recorded have +little weight in leading us to admit that the cowslip and primrose are varieties +of one and the same species. + +Negative evidence is of little value; but the following facts may be worth +giving:--Some cowslips which had been transplanted from the fields into a +shrubbery were again transplanted into highly manured land. In the following +year they were protected from insects, artificially fertilised, and the seed +thus procured was sown in a hotbed. The young plants were afterwards planted +out, some in very rich soil, some in stiff poor clay, some in old peat, and some +in pots in the greenhouse; so that these plants, 765 in number, as well as their +parents, were subjected to diversified and unnatural treatment; but not one of +them presented the least variation except in size--those in the peat attaining +almost gigantic dimensions, and those in the clay being much dwarfed. + +I do not, of course, doubt that cowslips exposed during SEVERAL successive +generations to changed conditions would vary, and that this might occasionally +occur in a state of nature. Moreover, from the law of analogical variation, the +varieties of any one species of Primula would probably in some cases resemble +other species of the genus. For instance I raised a red primrose from seed from +a protected plant, and the flowers, though still resembling those of the +primrose, were borne during one season in umbels on a long foot-stalk like that +of a cowslip. + +With regard to the second class of facts in support of the cowslip and primrose +being ranked as mere varieties, namely, the well-ascertained existence in a +state of nature of numerous linking forms (2/12. See an excellent article on +this subject by Mr. H.C. Watson in the ‘Phytologist’ volume 3 page 43.):--If it +can be shown that the common wild oxlip, which is intermediate in character +between the cowslip and primrose, resembles in sterility and other essential +respects a hybrid plant, and if it can further be shown that the oxlip, though +in a high degree sterile, can be fertilised by either parent-species, thus +giving rise to still finer gradational links, then the presence of such linking +forms in a state of nature ceases to be an argument of any weight in favour of +the cowslip and primrose being varieties, and becomes, in fact, an argument on +the other side. The hybrid origin of a plant in a state of nature can be +recognised by four tests: first, by its occurrence only where both presumed +parent-species exist or have recently existed; and this holds good, as far as I +can discover, with the oxlip; but the P. elatior of Jacq., which, as we shall +presently see, constitutes a distinct species, must not be confounded with the +common oxlip. Secondly, by the supposed hybrid plant being nearly intermediate +in character between the two parent-species, and especially by its resembling +hybrids artificially made between the same two species. Now the oxlip is +intermediate in character, and resembles in every respect, except in the colour +of the corolla, hybrids artificially produced between the primrose and the +polyanthus, which latter is a variety of the cowslip. Thirdly, by the supposed +hybrids being more or less sterile when crossed inter se: but to try this fairly +two distinct plants of the same parentage, and not two flowers on the same +plant, should be crossed; for many pure species are more or less sterile with +pollen from the same individual plant; and in the case of hybrids from +heterostyled species the opposite forms should be crossed. Fourthly and lastly, +by the supposed hybrids being much more fertile when crossed with either pure +parent-species than when crossed inter se, but still not as fully fertile as the +parent-species. + +For the sake of ascertaining the two latter points, I transplanted a group of +wild oxlips into my garden. They consisted of one long-styled and three short- +styled plants, which, except in the corolla of one being slightly larger, +resembled each other closely. The trials which were made, and the results +obtained, are shown in tables 2.14, 2.15, 2.16, 2.17 and 2.18. No less than +twenty different crosses are necessary in order to ascertain fully the fertility +of hybrid heterostyled plants, both inter se and with their two parent-species. +In this instance 256 flowers were crossed in the course of four seasons. I may +mention, as a mere curiosity, that if any one were to raise hybrids between two +trimorphic heterostyled species, he would have to make 90 distinct unions in +order to ascertain their fertility in all ways; and as he would have to try at +least 10 flowers in each case, he would be compelled to fertilise 900 flowers +and count their seeds. This would probably exhaust the patience of the most +patient man. + +TABLE 2.14. Crosses inter se between the two forms of the common Oxlip. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled oxlip: 20 flowers fertilised, did +not produce one capsule. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled oxlip: 10 flowers fertilised, did +not produce one capsule. + +Column 3: Illegitimate union. +Long-styled oxlip, by its own pollen: 24 flowers fertilised, produced five +capsules, containing 6, 10, 20, 8, and 14 seeds. Average 11.6. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled oxlip: 10 flowers fertilised, did +not produce one capsule. + +TABLE 2.15. Both forms of the Oxlip crossed with Pollen of both forms of the +Cowslip, P. veris. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled cowslip: 18 flowers fertilised, +did not produce one capsule. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled cowslip: 18 flowers fertilised, +produced three capsules, containing 7, 3, and 3 wretched seeds, apparently +incapable of germination. + +Column 3: Illegitimate union. +Long-styled oxlip, by pollen of long-styled cowslip: 11 flowers fertilised, +produced one capsule, containing 13 wretched seeds. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled cowslip: 5 flowers fertilised, +produced two capsules, containing 21 and 28 very fine seeds. + +TABLE 2.16. Both forms of the Oxlip crossed with Pollen of both forms of the +Primrose, P. vulgaris. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled primrose: 34 flowers fertilised, +produced two capsules, containing 5 and 12 seeds. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled primrose: 26 flowers fertilised, +produced six capsules, containing 16, 20, 5, 10, 19, and 24 seeds. Average 15.7. +Many of the seeds very poor, some good. + +Column 3: Illegitimate union. +Long-styled oxlip, by pollen of long-styled primrose: 11 flowers fertilised, +produced four capsules, containing 10, 7, 5, and 6 wretched seeds. Average 7.0. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled primrose: 5 flowers fertilised, +produced five capsules, containing 26, 32, 23, 28, and 34 seeds. Average 28.6. + +TABLE 2.17. Both forms of the Cowslip crossed with Pollen of both forms of the +Oxlip. + +Column 1: Illegitimate union. +Short-styled cowslip, by pollen of short-styled oxlip: 8 flowers fertilised, did +not produce one capsule. + +Column 2: Legitimate union. +Long-styled cowslip, by pollen of short-styled oxlip: 8 flowers fertilised, +produced one capsule, containing 26 seeds. + +Column 3: Illegitimate union. +Long-styled cowslip, by pollen of long-styled oxlip: 8 flowers fertilised, +produced three capsules, containing 5, 6 and 14 seeds. Average 8.3. + +Column 4: Legitimate union. +Short-styled cowslip, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 8 capsules, containing 58, 38, 31, 44, 23, 26, 37, and 66 seeds. +Average 40.4. + +TABLE 2.18. Both forms of the Primrose crossed with Pollen of both forms of the +Oxlip. + +Column 1: Illegitimate union. +Short-styled primrose, by pollen of short-styled oxlip: 8 flowers fertilised, +did not produce one capsule. + +Column 2: Legitimate union. +Long-styled primrose, by pollen of short-styled oxlip: 8 flowers fertilised, +produced two capsules, containing 5 and 2 seeds. + +Column 3: Illegitimate union. +Long-styled primrose, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 8 capsules, containing 15, 7, 12, 20, 22, 7, 16, and 13 seeds. Average +14.0. + +Column 4: Legitimate union. +Short-styled primrose, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 4 capsules, containing 52, 52, 42, and 49 seeds, some good and some +bad. Average 48.7. + +We see in Tables 2/14 to 2/18 the number of capsules and of seeds produced, by +crossing both forms of the oxlip in a legitimate and illegitimate manner with +one another, and with the two forms of the primrose and cowslip. I may premise +that the pollen of two of the short-styled oxlips consisted of nothing but +minute aborted whitish cells; but in the third short-styled plant about one- +fifth of the grains appeared in a sound condition. Hence it is not surprising +that neither the short-styled nor the long-styled oxlip produced a single seed +when fertilised with this pollen. Nor did the pure cowslips or primroses when +illegitimately fertilised with it; but when thus legitimately fertilised they +yielded a few good seeds. The female organs of the short-styled oxlips, though +greatly deteriorated in power, were in a rather better condition than the male +organs; for though the short-styled oxlips yielded no seed when fertilised by +the long-styled oxlips, and hardly any when illegitimately fertilised by pure +cowslips or primroses, yet when legitimately fertilised by these latter species, +especially by the long-styled primrose, they yielded a moderate supply of good +seed. + +The long-styled oxlip was more fertile than the three short-styled oxlips, and +about half its pollen-grains appeared sound. It bore no seed when legitimately +fertilised by the short-styled oxlips; but this no doubt was due to the badness +of the pollen of the latter; for when illegitimately fertilised (Table 2.14) by +its own pollen it produced some good seeds, though much fewer than self- +fertilised cowslips or primroses would have produced. The long-styled oxlip +likewise yielded a very low average of seed, as may be seen in the third +compartment of Tables 2.15 to 2.18, when illegitimately fertilised by, and when +illegitimately fertilising, pure cowslips and primroses. The four corresponding +legitimate unions, however, were moderately fertile, and one (namely that +between a short-styled cowslip and the long-styled oxlip in Table 2.17) was +nearly as fertile as if both parents had been pure. A short-styled primrose +legitimately fertilised by the long-styled oxlip (Table 2.18) also yielded a +moderately good average, namely 48.7 seeds; but if this short-styled primrose +had been fertilised by a long-styled primrose it would have yielded an average +of 65 seeds. If we take the ten legitimate unions together, and the ten +illegitimate unions together, we shall find that 29 per cent of the flowers +fertilised in a legitimate manner yielded capsules, these containing on an +average 27.4 good and bad seeds; whilst only 15 per cent of the flowers +fertilised in an illegitimate manner yielded capsules, these containing on an +average only 11.0 good and bad seeds. + +In a previous part of this chapter it was shown that illegitimate crosses +between the long-styled form of the primrose and the long-styled cowslip, and +between the short-styled primrose and short-styled cowslip, are more sterile +than legitimate crosses between these two species; and we now see that the same +rule holds good almost invariably with their hybrid offspring, whether these are +crossed inter se, or with either parent-species; so that in this particular +case, but not as we shall presently see in other cases, the same rule prevails +with the pure unions between the two forms of the same heterostyled species, +with crosses between two distinct heterostyled species, and with their hybrid +offspring. + +Seeds from the long-styled oxlip fertilised by its own pollen were sown, and +three long-styled plants raised. The first of these was identical in every +character with its parent. The second bore rather smaller flowers, of a paler +colour, almost like those of the primrose; the scapes were at first single- +flowered, but later in the season a tall thick scape, bearing many flowers, like +that of the parent oxlip, was thrown up. The third plant likewise produced at +first only single-flowered scapes, with the flowers rather small and of a darker +yellow; but it perished early. The second plant also died in September; and the +first plant, though all three grew under very favourable conditions, looked very +sickly. Hence we may infer that seedlings from self-fertilised oxlips would +hardly be able to exist in a state of nature. I was surprised to find that all +the pollen-grains in the first of these seedling oxlips appeared sound; and in +the second only a moderate number were bad. These two plants, however, had not +the power of producing a proper number of seeds; for though left uncovered and +surrounded by pure primroses and cowslips, the capsules were estimated to +include an average of only from fifteen to twenty seeds. + +From having many experiments in hand, I did not sow the seed obtained by +crossing both forms of the primrose and cowslip with both forms of the oxlip, +which I now regret; but I ascertained an interesting point, namely, the +character of the offspring from oxlips growing in a state of nature near both +primroses and cowslips. The oxlips were the same plants which, after their seeds +had been collected, were transplanted and experimented on. From the seeds thus +obtained eight plants were raised, which, when they flowered, might have been +mistaken for pure primroses; but on close comparison the eye in the centre of +the corolla was seen to be of a darker yellow, and the peduncles more elongated. +As the season advanced, one of these plants threw up two naked scapes, 7 inches +in height, which bore umbels of flowers of the same character as before. This +fact led me to examine the other plants after they had flowered and were dug up; +and I found that the flower-peduncles of all sprung from an extremely short +common scape, of which no trace can be found in the pure primrose. Hence these +plants are beautifully intermediate between the oxlip and the primrose, +inclining rather towards the latter; and we may safely conclude that the parent +oxlips had been fertilised by the surrounding primroses. + +From the various facts now given, there can be no doubt that the common oxlip is +a hybrid between the cowslip (P. veris, Brit. Fl.) and the primrose (P. +vulgaris, Brit. Fl.), as has been surmised by several botanists. It is probable +that oxlips may be produced either from the cowslip or the primrose as the seed- +bearer, but oftenest from the latter, as I judge from the nature of the stations +in which oxlips are generally found (2/13. See also on this head Hardwicke’s +‘Science Gossip’ 1867 pages 114, 137.), and from the primrose when crossed by +the cowslip being more fertile than, conversely, the cowslip by the primrose. +The hybrids themselves are also rather more fertile when crossed with the +primrose than with the cowslip. Whichever may be the seed-bearing plant, the +cross is probably between different forms of the two species; for we have seen +that legitimate hybrid unions are more fertile than illegitimate hybrid unions. +Moreover a friend in Surrey found that 29 oxlips which grew in the neighbourhood +of his house consisted of 13 long-styled and 16 short-styled plants; now, if the +parent-plants had been illegitimately united, either the long- or short-styled +form would have greatly preponderated, as we shall hereafter see good reason to +believe. The case of the oxlip is interesting; for hardly any other instance is +known of a hybrid spontaneously arising in such large numbers over so wide an +extent of country. The common oxlip (not the P. elatior of Jacq.) is found +almost everywhere throughout England, where both cowslips and primroses grow. In +some districts, as I have seen near Hartfield in Sussex and in parts of Surrey, +specimens may be found on the borders of almost every field and small wood. In +other districts the oxlip is comparatively rare: near my own residence I have +found, during the last twenty-five years, not more than five or six plants or +groups of plants. It is difficult to conjecture what is the cause of this +difference in their number. It is almost necessary that a plant, or several +plants belonging to the same form, of one parent-species, should grow near the +opposite form of the other parent-species; and it is further necessary that both +species should be frequented by the same kind of insect, no doubt a moth. The +cause of the rare appearance of the oxlip in certain districts may be the rarity +of some moth, which in other districts habitually visits both the primrose and +cowslip. + +Finally, as the cowslip and primrose differ in the various characters above +specified,--as they are in a high degree sterile when intercrossed,--as there is +no trustworthy evidence that either species, when uncrossed, has ever given +birth to the other species or to any intermediate form,--and as the intermediate +forms which are often found in a state of nature have been shown to be more or +less sterile hybrids of the first or second generation,--we must for the future +look at the cowslip and primrose as good and true species. + +Primula elatior, Jacq., or the Bardfield Oxlip, is found in England only in two +or three of the eastern counties. On the Continent it has a somewhat different +range from that of the cowslip and primrose; and it inhabits some districts +where neither of these species live. (2/14. For England, see Hewett C. Watson +‘Cybele Britannica’ volume 2 1849 page 292. For the Continent, see Lecoq +‘Geograph. Botanique de l’Europe’ tome 8 1858 page 142. For the Alps see ‘Annals +and Magazine of Natural History’ volume 9 1842 pages 156 and 515.) In general +appearance it differs so much from the common oxlip, that no one accustomed to +see both forms in the living state could afterwards confound them; but there is +scarcely more than a single character by which they can be distinctly defined, +namely, their linear-oblong capsules equalling the calyx in length. (2/15. +Babington ‘Manual of British Botany’ 1851 page 258.) The capsules when mature +differ conspicuously, owing to their length, from those of the cowslip and +primrose. With respect to the fertility of the two forms when these are united +in the four possible methods, they behave like the other heterostyled species of +the genus, but differ somewhat (see Tables 1.8 and 1.12.) in the smaller +proportion of the illegitimately fertilised flowers which set capsules. That P. +elatior is not a hybrid is certain, for when the two forms were legitimately +united they yielded the large average of 47.1 seeds, and when illegitimately +united 35.5 per capsule; whereas, of the four possible unions (Table 2.14) +between the two forms of the common oxlip which we know to be a hybrid, one +alone yielded any seed; and in this case the average number was only 11.6 per +capsule. Moreover I could not detect a single bad pollen-grain in the anthers of +the short-styled P. elatior; whilst in two short-styled plants of the common +oxlip all the grains were bad, as were a large majority in a third plant. As the +common oxlip is a hybrid between the primrose and cowslip, it is not surprising +that eight long-styled flowers of the primrose, fertilised by pollen from the +long-styled common oxlip, produced eight capsules (Table 1.18), containing, +however, only a low average of seeds; whilst the same number of flowers of the +primrose, similarly fertilised by the long-styled Bardfield oxlip, produced only +a single capsule; this latter plant being an altogether distinct species from +the primrose. Plants of P. elatior have been propagated by seed in a garden for +twenty-five years, and have kept all this time quite constant, excepting that in +some cases the flowers varied a little in size and tint. (2/16. See Mr. H. +Doubleday in the ‘Gardener’s Chronicle’ 1867 page 435, also Mr. W. Marshall +ibid. page 462.) Nevertheless, according to Mr. H.C. Watson and Dr. Bromfield +(2/17. ‘Phytologist’ volume 1 page 1001 and volume 3 page 695.), plants may be +occasionally found in a state of nature, in which most of the characters by +which this species can be distinguished from P. veris and vulgaris fail; but +such intermediate forms are probably due to hybridisation; for Kerner states, in +the paper before referred to, that hybrids sometimes, though rarely, arise in +the Alps between P. elatior and veris. + +Finally, although we may freely admit that Primula veris, vulgaris, and elatior, +as well as all the other species of the genus, are descended from a common +primordial form, yet from the facts above given, we must conclude that these +three forms are now as fixed in character as are many others which are +universally ranked as true species. Consequently they have as good a right to +receive distinct specific names as have, for instance, the ass, quagga, and +zebra. + +Mr. Scott has arrived at some interesting results by crossing other heterostyled +species of Primula. (2/18. ‘Journal of the Linnean Society Botany’ volume 8 1864 +page 93 to end.) I have already alluded to his statement, that in four instances +(not to mention others) a species when crossed with a distinct one yielded a +larger number of seeds than the same species fertilised illegitimately with its +own-form pollen, though taken from a distinct plant. It has long been known from +the researches of Kolreuter and Gartner, that two species when crossed +reciprocally sometimes differ as widely as is possible in their fertility: thus +A when crossed with the pollen of B will yield a large number of seeds, whilst B +may be crossed repeatedly with pollen of A, and will never yield a single seed. +Now Mr. Scott shows in several cases that the same law holds good when two +heterostyled species of Primula are intercrossed, or when one is crossed with a +homostyled species. But the results are much more complicated than with ordinary +plants, as two heterostyled dimorphic species can be intercrossed in eight +different ways. I will give one instance from Mr. Scott. The long-styled P. +hirsuta fertilised legitimately and illegitimately with pollen from the two +forms of P. auricula, and reciprocally the long-styled P. auricula fertilised +legitimately and illegitimately with pollen from the two forms of P. hirsuta, +did not produce a single seed. Nor did the short-styled P. hirsuta when +fertilised legitimately and illegitimately with the pollen of the two forms of +P. auricula. On the other hand, the short-styled P. auricula fertilised with +pollen from the long-styled P. hirsuta yielded capsules containing on an average +no less than 56 seeds; and the short-styled P. auricula by pollen of the short- +styled P. hirsuta yielded capsules containing on an average 42 seeds per +capsule. So that out of the eight possible unions between the two forms of these +two species, six were utterly barren, and two fairly fertile. We have seen also +the same sort of extraordinary irregularity in the results of my twenty +different crosses (Tables 2.14 to 2.18), between the two forms of the oxlip, +primrose, and cowslip. Mr. Scott remarks, with respect to the results of his +trials, that they are very surprising, as they show us that “the sexual forms of +a species manifest in their respective powers for conjunction with those of +another species, physiological peculiarities which might well entitle them, by +the criterion of fertility, to specific distinction.” + +Finally, although P. veris and vulgaris, when crossed legitimately, and +especially when their hybrid offspring are crossed in this manner with both +parent-species, were decidedly more fertile, than when crossed in an +illegitimate manner, and although the legitimate cross effected by Mr. Scott +between P. auricula and hirsuta was more fertile, in the ratio of 56 to 42, than +the illegitimate cross, nevertheless it is very doubtful, from the extreme +irregularity of the results in the various other hybrid crosses made by Mr. +Scott, whether it can be predicted that two heterostyled species are generally +more fertile if crossed legitimately (i.e. when opposite forms are united) than +when crossed illegitimately. + +SUPPLEMENTARY NOTE ON SOME WILD HYBRID VERBASCUMS. + +In an early part of this chapter I remarked that few other instances could be +given of a hybrid spontaneously arising in such large numbers, and over so wide +an extent of country, as that of the common oxlip; but perhaps the number of +well-ascertained cases of naturally produced hybrid willows is equally great. +(2/19. Max Wichura ‘Die Bastardbefruchtung etc. der Weiden’ 1865.) Numerous +spontaneous hybrids between several species of Cistus, found near Narbonne, have +been carefully described by M. Timbal-Lagrave (2/20. ‘Mem. de l’Acad. des +Sciences de Toulouse’ 5e serie tome 5 page 28.), and many hybrids between an +Aceras and Orchis have been observed by Dr. Weddell. (2/21. ‘Annales des Sc. +Nat.’ 3e serie Bot. tome 18 page 6.) In the genus Verbascum, hybrids are +supposed to have often originated in a state of nature (2/22. See for instance +the ‘English Flora’ by Sir J.E. Smith 1824 volume 1 page 307.); some of these +undoubtedly are hybrids, and several hybrids have originated in gardens; but +most of these cases require, as Gartner remarks, verification. (2/23. See +Gartner ‘Bastarderzeugung’ 1849 page 590.) Hence the following case is worth +recording, more especially as the two species in question, V. thapsus and +lychnitis, are perfectly fertile when insects are excluded, showing that the +stigma of each flower receives its own pollen. Moreover the flowers offer only +pollen to insects, and have not been rendered attractive to them by secreting +nectar. + +I transplanted a young wild plant into my garden for experimental purposes, and +when it flowered it plainly differed from the two species just mentioned and +from a third which grows in this neighbourhood. I thought that it was a strange +variety of V. thapsus. It attained the height (by measurement) of 8 feet! It was +covered with a net, and ten flowers were fertilised with pollen from the same +plant; later in the season, when uncovered, the flowers were freely visited by +pollen-collecting bees; nevertheless, although many capsules were produced, not +one contained a single seed. During the following year this same plant was left +uncovered near plants of V. thapsus and lychnitis; but again it did not produce +a single seed. Four flowers, however, which were repeatedly fertilised with +pollen of V. lychnitis, whilst the plant was temporarily kept under a net, +produced four capsules, which contained five, one, two, and two seeds; at the +same time three flowers were fertilised with pollen of V. thapsus, and these +produced two, two, and three seeds. To show how unproductive these seven +capsules were, I may state that a fine capsule from a plant of V. thapsus +growing close by contained above 700 seeds. These facts led me to search the +moderately-sized field whence my plant had been removed, and I found in it many +plants of V. thapsus and lychnitis as well as thirty-three plants intermediate +in character between these two species. These thirty-three plants differed much +from one another. In the branching of the stem they more closely resembled V. +lychnitis than V. thapsus, but in height the latter species. In the shape of +their leaves they often closely approached V. lychnitis, but some had leaves +extremely woolly on the upper surface and decurrent like those of V. thapsus; +yet the degree of woolliness and of decurrency did not always go together. In +the petals being flat and remaining open, and in the manner in which the anthers +of the longer stamens were attached to the filaments, these plants all took more +after V. lychnitis than V. thapsus. In the yellow colour of the corolla they all +resembled the latter species. On the whole, these plants appeared to take rather +more after V. lychnitis than V. thapsus. On the supposition that they were +hybrids, it is not an anomalous circumstance that they should all have produced +yellow flowers; for Gartner crossed white and yellow-flowered varieties of +Verbascum, and the offspring thus produced never bore flowers of an intermediate +tint, but either pure white or pure yellow flowers, generally of the latter +colour. (2/24. ‘Bastardzeugung’ page 307.) + +My observations were made in the autumn; so that I was able to collect some +half-matured capsules from twenty of the thirty-three intermediate plants, and +likewise capsules of the pure V. lychnitis and thapsus growing in the same +field. All the latter were filled with perfect but immature seeds, whilst the +capsules of the twenty intermediate plants did not contain one single perfect +seed. These plants, consequently, were absolutely barren. From this fact,--from +the one plant which was transplanted into my garden yielding when artificially +fertilised with pollen from V. lychnitis and thapsus some seeds, though +extremely few in number,--from the circumstance of the two pure species growing +in the same field,--and from the intermediate character of the sterile plants, +there can be no doubt that they were hybrids. Judging from the position in which +they were chiefly found, I am inclined to believe they were descended from V. +thapsus as the seed-bearer, and V. lychnitis as the pollen-bearer. + +It is known that many species of Verbascum, when the stem is jarred or struck by +a stick, cast off their flowers. (2/25. This was first observed by Correa de +Serra: see Sir J.E. Smith’s ‘English Flora’ 1824 volume 1 page 311; also ‘Life +of Sir J.E. Smith’ volume 2 page 210. I was guided to these references by the +Reverend W.A. Leighton, who observed this same phenomenon with V. virgatum.) +This occurs with V. thapsus, as I have repeatedly observed. The corolla first +separates from its attachment, and then the sepals spontaneously bend inwards so +as to clasp the ovarium, pushing off the corolla by their movement, in the +course of two or three minutes. Nothing of this kind takes place with young +barely expanded flowers. With Verbascum lychnitis and, as I believe, V. +phoeniceum the corolla is not cast off, however often and severely the stem may +be struck. In this curious property the above-described hybrids took after V. +thapsus; for I observed, to my surprise, that when I pulled off the flower-buds +round the flowers which I wished to mark with a thread, the slight jar +invariably caused the corollas to fall off. + +These hybrids are interesting under several points of view. First, from the +number found in various parts of the same moderately-sized field. That they owed +their origin to insects flying from flower to flower, whilst collecting pollen, +there can be no doubt. Although insects thus rob the flowers of a most precious +substance, yet they do great good; for, as I have elsewhere shown, the seedlings +of V. thapsus raised from flowers fertilised with pollen from another plant, are +more vigorous than those raised from self-fertilised flowers. (2/26. ‘The +Effects of Cross and Self-fertilisation’ 1876 page 89.) But in this particular +instance the insects did great harm, as they led to the production of utterly +barren plants. Secondly, these hybrids are remarkable from differing much from +one another in many of their characters; for hybrids of the first generation, if +raised from uncultivated plants, are generally uniform in character. That these +hybrids belonged to the first generation we may safely conclude, from the +absolute sterility of all those observed by me in a state of nature and of the +one plant in my garden, excepting when artificially and repeatedly fertilised +with pure pollen, and then the number of seeds produced was extremely small. As +these hybrids varied so much, an almost perfectly graduated series of forms, +connecting together the two widely distinct parent-species, could easily have +been selected. This case, like that of the common oxlip, shows that botanists +ought to be cautious in inferring the specific identity of two forms from the +presence of intermediate gradations; nor would it be easy in the many cases in +which hybrids are moderately fertile to detect a slight degree of sterility in +such plants growing in a state of nature and liable to be fertilised by either +parent-species. Thirdly and lastly, these hybrids offer an excellent +illustration of a statement made by that admirable observer Gartner, namely, +that although plants which can be crossed with ease generally produce fairly +fertile offspring, yet well-pronounced exceptions to this rule occur; and here +we have two species of Verbascum which evidently cross with the greatest ease, +but produce hybrids which are excessively sterile. + + +CHAPTER III. HETEROSTYLED DIMORPHIC PLANTS--continued. + +Linum grandiflorum, long-styled form utterly sterile with own-form pollen. +Linum perenne, torsion of the pistils in the long-styled form alone. +Homostyled species of Linum. +Pulmonaria officinalis, singular difference in self-fertility between the +English and German long-styled plants. +Pulmonaria angustifolia shown to be a distinct species, long-styled form +completely self-sterile. +Polygonum fagopyrum. +Various other heterostyled genera. +Rubiaceae. +Mitchella repens, fertility of the flowers in pairs. +Houstonia. +Faramea, remarkable difference in the pollen-grains of the two forms; torsion of +the stamens in the short-styled form alone; development not as yet perfect. +The heterostyled structure in the several Rubiaceous genera not due to descent +in common. + +(FIGURE 3.4. Linum grandiflorum. +Left: Long-styled form. +Right: Short-styled form. +s, s: stigmas.) + +It has long been known that several species of Linum present two forms (3/1. +Treviranus has shown that this is the case in his review of my original paper +‘Botanische Zeitung’ 1863 page 189.), and having observed this fact in L. flavum +more than thirty years ago, I was led, after ascertaining the nature of +heterostylism in Primula, to examine the first species of Linum which I met +with, namely, the beautiful L. grandiflorum. This plant exists under two forms, +occurring in about equal numbers, which differ little in structure, but greatly +in function. The foliage, corolla, stamens, and pollen-grains (the latter +examined both distended with water and dry) are alike in the two forms (Figure +3.4). The difference is confined to the pistil; in the short-styled form the +styles and the stigmas are only about half the length of those in the long- +styled. A more important distinction is, that the five stigmas in the short- +styled form diverge greatly from one another, and pass out between the filaments +of the stamens, and thus lie within the tube of the corolla. In the long-styled +form the elongated stigmas stand nearly upright, and alternate with the anthers. +In this latter form the length of the stigmas varies considerably, their upper +extremities projecting even a little above the anthers, or reaching up only to +about their middle. Nevertheless, there is never the slightest difficulty in +distinguishing between the two forms; for, besides the difference in the +divergence of the stigmas, those of the short-styled form never reach even to +the bases of the anthers. In this form the papillae on the stigmatic surfaces +are shorter, darker-coloured, and more crowded together than in the long-styled +form; but these differences seem due merely to the shortening of the stigma, for +in the varieties of the long-styled form with shorter stigmas, the papillae are +more crowded and darker-coloured than in those with the longer stigmas. +Considering the slight and variable differences between the two forms of this +Linum, it is not surprising that hitherto they have been overlooked. + +In 1861 I had eleven plants in my garden, eight of which were long-styled, and +three short-styled. Two very fine long-styled plants grew in a bed a hundred +yards off all the others, and separated from them by a screen of evergreens. I +marked twelve flowers, and placed on their stigmas a little pollen from the +short-styled plants. The pollen of the two forms is, as stated, identical in +appearance; the stigmas of the long-styled flowers were already thickly covered +with their own pollen--so thickly that I could not find one bare stigma, and it +was late in the season, namely, September 15th. Altogether, it seemed almost +childish to expect any result. Nevertheless from my experiments on Primula, I +had faith, and did not hesitate to make the trial, but certainly did not +anticipate the full result which was obtained. The germens of these twelve +flowers all swelled, and ultimately six fine capsules (the seed of which +germinated on the following year) and two poor capsules were produced; only four +capsules shanking off. These same two long-styled plants produced, in the course +of the summer, a vast number of flowers, the stigmas of which were covered with +their own pollen; but they all proved absolutely barren, and their germens did +not even swell. + +The nine other plants, six long-styled and three short-styled, grew not very far +apart in my flower-garden. Four of these long-styled plants produced no seed- +capsules; the fifth produced two; and the remaining one grew so close to a +short-styled plant that their branches touched, and this produced twelve +capsules, but they were poor ones. The case was different with the short-styled +plants. The one which grew close to the long-styled plant produced ninety-four +imperfectly fertilised capsules containing a multitude of bad seeds, with a +moderate number of good ones. The two other short-styled plants growing together +were small, being partly smothered by other plants; they did not stand very +close to any long-styled plants, yet they yielded together nineteen capsules. +These facts seem to show that the short-styled plants are more fertile with +their own pollen than are the long-styled, and we shall immediately see that +this probably is the case. But I suspect that the difference in fertility +between the two forms was in this instance in part due to a distinct cause. I +repeatedly watched the flowers, and only once saw a humble-bee momentarily +alight on one, and then fly away. If bees had visited the several plants, there +cannot be a doubt that the four long-styled plants, which did not produce a +single capsule, would have borne an abundance. But several times I saw small +diptera sucking the flowers; and these insects, though not visiting the flowers +with anything like the regularity of bees, would carry a little pollen from one +form to the other, especially when growing near together; and the stigmas of the +short-styled plants, diverging within the tube of the corolla, would be more +likely than the upright stigmas of the long-styled plants, to receive a small +quantity of pollen if brought to them by small insects. Moreover from the +greater number of the long-styled than of the short-styled plants in the garden, +the latter would be more likely to receive pollen from the long-styled, than the +long-styled from the short-styled. + +In 1862 I raised thirty-four plants of this Linum in a hot-bed; and these +consisted of seventeen long-styled and seventeen short-styled forms. Seed sown +later in the flower-garden yielded seventeen long-styled and twelve short-styled +forms. These facts justify the statement that the two forms are produced in +about equal numbers. The thirty-four plants of the first lot were kept under a +net which excluded all insects, except such minute ones as Thrips. I fertilised +fourteen long-styled flowers legitimately with pollen from the short-styled, and +got eleven fine seed-capsules, which contained on an average 8.6 seeds per +capsule, but only 5.6 appeared to be good. It may be well to state that ten +seeds is the maximum production for a capsule, and that our climate cannot be +very favourable to this North-African plant. On three occasions the stigmas of +nearly a hundred flowers were fertilised illegitimately with their own-form +pollen, taken from separate plants, so as to prevent any possible ill effects +from close inter-breeding. Many other flowers were also produced, which, as +before stated, must have received plenty of their own pollen; yet from all these +flowers, borne by the seventeen long-styled plants, only three capsules were +produced. One of these included no seed, and the other two together gave only +five good seeds. It is probable that this miserable product of two half-fertile +capsules from the seventeen plants, each of which must have produced at least +fifty or sixty flowers, resulted from their fertilisation with pollen from the +short-styled plants by the aid of Thrips; for I made a great mistake in keeping +the two forms under the same net, with their branches often interlocking; and it +is surprising that a greater number of flowers were not accidentally fertilised. + +Twelve short-styled flowers were in this instance castrated, and afterwards +fertilised legitimately with pollen from the long-styled form; and they produced +seven fine capsules. These included on an average 7.6 seeds, but of apparently +good seed only 4.3 per capsule. At three separate times nearly a hundred flowers +were fertilised illegitimately with their own-form pollen, taken from separate +plants; and numerous other flowers were produced, many of which must have +received their own pollen. From all these flowers on the seventeen short-styled +plants only fifteen capsules were produced, of which only eleven contained any +good seed, on an average 4.2 per capsule. As remarked in the case of the long- +styled plants, some even of these capsules were perhaps the product of a little +pollen accidentally fallen from the adjoining flowers of the other form on to +the stigmas, or transported by Thrips. Nevertheless the short-styled plants seem +to be slightly more fertile with their own pollen than the long-styled, in the +proportion of fifteen capsules to three; nor can this difference be accounted +for by the short-styled stigmas being more liable to receive their own pollen +than the long-styled, for the reverse is the case. The greater self-fertility of +the short-styled flowers was likewise shown in 1861 by the plants in my flower- +garden, which were left to themselves, and were but sparingly visited by +insects. + +On account of the probability of some of the flowers on the plants of both +forms, which were covered under the same net, having been legitimately +fertilised in an accidental manner, the relative fertility of the two legitimate +and two illegitimate unions cannot be compared with certainty; but judging from +the number of good seeds per capsule, the difference was at least in the ratio +of 100 to 7, and probably much greater. + +Hildebrand tested my results, but only on a single short-styled plant, by +fertilising many flowers with their own-form pollen; and these did not produce +any seed. This confirms my suspicion that some of the few capsules produced by +the foregoing seventeen short-styled plants were the product of accidental +legitimate fertilisation. Other flowers on the same plant were fertilised by +Hildebrand with pollen from the long-styled form, and all produced fruit. (3/2. +‘Botanische Zeitung’ January 1, 1864 page 2.) + +The absolute sterility (judging from the experiments of 1861) of the long-styled +plants with their own-form pollen led me to examine into its apparent cause; and +the results are so curious that they are worth giving in detail. The experiments +were tried on plants grown in pots and brought successively into the house. + +FIRST. + +Pollen from a short-styled plant was placed on the five stigmas of a long-styled +flower, and these, after thirty hours, were found deeply penetrated by a +multitude of pollen-tubes, far too numerous to be counted; the stigmas had also +become discoloured and twisted. I repeated this experiment on another flower, +and in eighteen hours the stigmas were penetrated by a multitude of long pollen- +tubes. This is what might have been expected, as the union is a legitimate one. +The converse experiment was likewise tried, and pollen from a long-styled flower +was placed on the stigmas of a short-styled flower, and in twenty-four hours the +stigmas were discoloured, twisted, and penetrated by numerous pollen-tubes; and +this, again, is what might have been expected, as the union was a legitimate +one. + +SECONDLY. + +Pollen from a long-styled flower was placed on all five stigmas of a long-styled +flower on a separate plant: after nineteen hours the stigmas were dissected, and +only a single pollen-grain had emitted a tube, and this was a very short one. To +make sure that the pollen was good, I took in this case, and in most of the +other cases, pollen either from the same anther or from the same flower, and +proved it to be good by placing it on the stigma of a short-styled plant, and +found numerous pollen-tubes emitted. + +THIRDLY. + +Repeated last experiment, and placed own-form pollen on all five stigmas of a +long-styled flower; after nineteen hours and a half, not one single grain had +emitted its tube. + +FOURTHLY. + +Repeated the experiment, with the same result after twenty-four hours. + +FIFTHLY. + +Repeated last experiment, and, after leaving pollen on for nineteen hours, put +on an additional quantity of own-form pollen on all five stigmas. After an +interval of three days, the stigmas were examined, and, instead of being +discoloured and twisted, they were straight and fresh-coloured. Only one grain +had emitted a quite short tube, which was drawn out of the stigmatic tissue +without being ruptured. + +The following experiments are more striking:-- + +SIXTHLY. + +I placed own-form pollen on three of the stigmas of a long-styled flower, and +pollen from a short-styled flower on the other two stigmas. After twenty-two +hours these two stigmas were discoloured, slightly twisted, and penetrated by +the tubes of numerous pollen-grains: the other three stigmas, covered with their +own-form pollen, were fresh, and all the pollen-grains were loose; but I did not +dissect the whole stigma. + +SEVENTHLY. + +Experiment repeated in the same manner, with the same result. + +EIGHTHLY. + +Experiment repeated, but the stigmas were carefully examined after an interval +of only five hours and a half. The two stigmas with pollen from a short-styled +flower were penetrated by innumerable tubes, which were as yet short, and the +stigmas themselves were not at all discoloured. The three stigmas covered with +their own-form pollen were not penetrated by a single pollen-tube. + +NINTHLY. + +Put pollen of a short-styled flower on a single long-styled stigma, and own-form +pollen on the other four stigmas; after twenty-four hours the one stigma was +somewhat discoloured and twisted, and penetrated by many long tubes: the other +four stigmas were quite straight and fresh; but on dissecting them I found that +three pollen-grains had protruded very short tubes into the tissue. + +TENTHLY. + +Repeated the experiment, with the same result after twenty-four hours, excepting +that only two own-form grains had penetrated the stigmatic tissue with their +tubes to a very short depth. The one stigma, which was deeply penetrated by a +multitude of tubes from the short-styled pollen, presented a conspicuous +difference in being much curled, half-shrivelled, and discoloured, in comparison +with the other four straight and bright pink stigmas. + +I could add other experiments; but those now given amply suffice to show that +the pollen-grains of a short-styled flower placed on the stigma of a long-styled +flower emit a multitude of tubes after an interval of from five to six hours, +and penetrate the tissue ultimately to a great depth; and that after twenty-four +hours the stigmas thus penetrated change colour, become twisted, and appear +half-withered. On the other hand, pollen-grains from a long-styled flower placed +on its own stigmas, do not emit their tubes after an interval of a day, or even +three days; or at most only three or four grains out of a multitude emit their +tubes, and these apparently never penetrate the stigmatic tissue deeply, and the +stigmas themselves do not soon become discoloured and twisted. + +This seems to me a remarkable physiological fact. The pollen-grains of the two +forms are undistinguishable under the microscope; the stigmas differ only in +length, degree of divergence, and in the size, shade of colour, and +approximation of their papillae, these latter differences being variable and +apparently due merely to the degree of elongation of the stigma. Yet we plainly +see that the two kinds of pollen and the two stigmas are widely dissimilar in +their mutual reaction--the stigmas of each form being almost powerless on their +own pollen, but causing, through some mysterious influence, apparently by simple +contact (for I could detect no viscid secretion), the pollen-grains of the +opposite form to protrude their tubes. It may be said that the two pollens and +the two stigmas mutually recognise each other by some means. Taking fertility as +the criterion of distinctness, it is no exaggeration to say that the pollen of +the long-styled Linum grandiflorum (and conversely that of the other form) has +been brought to a degree of differentiation, with respect to its action on the +stigma of the same form, corresponding with that existing between the pollen and +stigma of species belonging to distinct genera. + +Linum perenne. + +This species is conspicuously heterostyled, as has been noticed by several +authors. The pistil in the long-styled form is nearly twice as long as that of +the short-styled. In the latter the stigmas are smaller and, diverging to a +greater degree, pass out low down between the filaments. I could detect no +difference in the two forms in the size of the stigmatic papillae. In the long- +styled form alone the stigmatic surfaces of the mature pistils twist round, so +as to face the circumference of the flower; but to this point I shall presently +return. Differently from what occurs in L. grandiflorum, the long-styled flowers +have stamens hardly more than half the length of those in the short-styled. The +size of the pollen-grains is rather variable; after some doubt, I have come to +the conclusion that there is no uniform difference between the grains in the two +forms. The long-stamens in the short-styled form project to some height above +the corolla, and their filaments are coloured blue apparently from exposure to +the light. The anthers of the longer stamens correspond in height with the lower +part of the stigmas of the long-styled flowers; and the anthers of the shorter +stamens of the latter correspond in the same manner in height with the stigmas +of the short-styled flowers. + +I raised from seed twenty-six plants, of which twelve proved to be long-styled +and fourteen short-styled. They flowered well, but were not large plants. As I +did not expect them to flower so soon, I did not transplant them, and they +unfortunately grew with their branches closely interlocked. All the plants were +covered under the same net, excepting one of each form. Of the flowers on the +long-styled plants, twelve were illegitimately fertilised with their own-form +pollen, taken in every case from a separate plant; and not one set a seed- +capsule: twelve other flowers were legitimately fertilised with pollen from +short-styled flowers; and they set nine capsules, each including on an average 7 +good seeds, ten being the maximum number ever produced. Of the flowers on the +short-styled plants, twelve were illegitimately fertilised with own-form pollen, +and they yielded one capsule, including only 3 good seeds; twelve other flowers +were legitimately fertilised with pollen from long-styled flowers, and these +produced nine capsules, but one was bad; the eight good capsules contained on an +average 8 good seeds each. Judging from the number of seeds per capsule, the +fertility of the two legitimate to that of the two illegitimate unions is as 100 +to 20. + +The numerous flowers on the eleven long-styled plants under the net, which were +not fertilised, produced only three capsules, including 8, 4, and 1 good seeds. +Whether these three capsules were the product of accidental legitimate +fertilisation, owing to the branches of the plants of the two forms +interlocking, I will not pretend to decide. The single long-styled plant which +was left uncovered, and grew close by the uncovered short-styled plant, produced +five good pods; but it was a poor and small plant. + +The flowers borne on the thirteen short-styled plants under the net, which were +not fertilised, produced twelve capsules, containing on an average 5.6 seeds. As +some of these capsules were very fine, and as five were borne on one twig, I +suspect that some minute insect had accidentally got under the net and had +brought pollen from the other form to the flowers which produced this little +group of capsules. The one uncovered short-styled plant which grew close to the +uncovered long-styled plant yielded twelve capsules. + +From these facts we have some reason to believe, as in the case of L. +grandiflorum, that the short-styled plants are in a slight degree more fertile +with their own pollen than are the long-styled plants. Anyhow we have the +clearest evidence, that the stigmas of each form require for full fertility that +pollen from the stamens of corresponding height belonging to the opposite form +should be brought to them. + +Hildebrand, in the paper lately referred to, confirms my results. He placed a +short-styled plant in his house, and fertilised about 20 flowers with their own +pollen, and about 30 with pollen from another plant belonging to the same form, +and these 50 flowers did not set a single capsule. On the other hand he +fertilised about 30 flowers with pollen from the long-styled form, and these, +with the exception of two, yielded capsules, containing good seeds. + +It is a singular fact, in contrast with what occurred in the case of L. +grandiflorum, that the pollen-grains of both forms of L. perenne, when placed on +their own-form stigmas, emitted their tubes, though this action did not lead to +the production of seeds. After an interval of eighteen hours, the tubes +penetrated the stigmatic tissue, but to what depth I did not ascertain. In this +case the impotence of the pollen-grains on their own stigmas must have been due +either to the tubes not reaching the ovules, or to their not acting properly +after reaching them. + +The plants both of L. perenne and grandiflorum, grew, as already stated, with +their branches interlocked, and with scores of flowers of the two forms close +together; they were covered by a rather coarse net, through which the wind, when +high, passed; and such minute insects as Thrips could not, of course, be +excluded; yet we have seen that the utmost possible amount of accidental +fertilisation on seventeen long-styled plants in the one case, and on eleven +long-styled plants in the other, resulted in the production, in each case, of +three poor capsules; so that when the proper insects are excluded, the wind does +hardly anything in the way of carrying pollen from plant to plant. I allude to +this fact because botanists in speaking of the fertilisation of various flowers, +often refer to the wind or to insects as if the alternative were indifferent. +This view, according to my experience, is entirely erroneous. When the wind is +the agent in carrying pollen, either from one sex to the other, or from +hermaphrodite to hermaphrodite, we can recognise structure as manifestly adapted +to its action as to that of insects when these are the carriers. We see +adaptation to the wind in the incoherence of the pollen,--in the inordinate +quantity produced (as in the Coniferae, Spinage, etc.),--in the dangling anthers +well fitted to shake out the pollen,--in the absence or small size of the +perianth,--in the protrusion of the stigmas at the period of fertilisation,--in +the flowers being produced before they are hidden by the leaves,--and in the +stigmas being downy or plumose (as in the Gramineae, Docks, etc), so as to +secure the chance-blown grains. In plants which are fertilised by the wind, the +flowers do not secrete nectar, their pollen is too incoherent to be easily +collected by insects, they have not bright-coloured corollas to serve as guides, +and they are not, as far as I have seen, visited by insects. When insects are +the agents of fertilisation (and this is incomparably the more frequent case +with hermaphrodite plants), the wind plays no part, but we see an endless number +of adaptations to ensure the safe transport of the pollen by the living workers. +These adaptations are most easily recognised in irregular flowers; but they are +present in regular flowers, of which those of Linum offer a good instance, as I +will now endeavour to show. + +I have already alluded to the rotation of each separate stigma in the long- +styled form of Linum perenne. In both forms of the other heterostyled species +and in the homostyled species of Linum which I have seen, the stigmatic surfaces +face the centre of the flower, with the furrowed backs of the stigmas, to which +the styles are attached, facing outwards. This is the case with the stigmas of +the long-styled flowers of L. perenne whilst in bud. But by the time the flowers +have expanded, the five stigmas twist round so as to face the circumference, +owing to the torsion of that part of the style which lies beneath the stigma. I +should state that the five stigmas do not always turn round completely, two or +three sometimes facing only obliquely outwards. My observations were made during +October; and it is not improbable that earlier in the season the torsion would +have been more complete; for after two or three cold and wet days the movement +was very imperfectly performed. The flowers should be examined shortly after +their expansion, as their duration is brief; as soon as they begin to wither, +the styles become spirally twisted all together, the original position of the +parts being thus lost. + +He who will compare the structure of the whole flower in both forms of L. +perenne and grandiflorum, and, as I may add, of L. flavum, will not doubt about +the meaning of this torsion of the styles in the one form alone of L. perenne, +as well as the meaning of the divergence of the stigmas in the short-styled form +of all three species. It is absolutely necessary as we know, that insects should +carry pollen from the flowers of the one form reciprocally to those of the +other. Insects are attracted by five drops of nectar, secreted exteriorly at the +base of the stamens, so that to reach these drops they must insert their +proboscides outside the ring of broad filaments, between them and the petals. In +the short-styled form of the above three species, the stigmas face the axis of +the flower; and had the styles retained their original upright and central +position, not only would the stigmas have presented their backs to the insects +which sucked the flowers, but their front and fertile surfaces would have been +separated from the entering insects by the ring of broad filaments, and would +never have received any pollen. As it is, the styles diverge and pass out +between the filaments. After this movement the short stigmas lie within the tube +of the corolla; and their papillous surfaces being now turned upwards are +necessarily brushed by every entering insect, and thus receive the required +pollen. + +In the long-styled form of L. grandiflorum, the almost parallel or slightly +diverging anthers and stigmas project a little above the tube of the somewhat +concave flower; and they stand directly over the open space leading to the drops +of nectar. Consequently when insects visit the flowers of either form (for the +stamens in this species occupy the same position in both forms), they will get +their foreheads or proboscides well dusted with the coherent pollen. As soon as +they visit the flowers of the long-styled form they will necessarily leave +pollen on the proper surface of the elongated stigmas; and when they visit the +short-styled flowers, they will leave pollen on the upturned stigmatic surfaces. +Thus the stigmas of both forms will receive indifferently the pollen of both +forms; but we know that the pollen alone of the opposite form causes +fertilisation. + +(Figure 3.5. Long-styled form of L. perenne var. Austriacum in its early +condition before the stigmas have rotated. The petals and calyx have been +removed on the near side. (3/3. I neglected to get drawings made from fresh +flowers of the two forms. But Mr. Fitch has made the above sketch of a long- +styled flower from dried specimens and from published engravings. His well-known +skill ensures accuracy in the proportional size of the parts.) + +In the case of L. perenne, affairs are arranged more perfectly; for the stamens +in the two forms stand at different heights, so that pollen from the anthers of +the longer stamens will adhere to one part of an insect’s body, and will +afterwards be brushed off by the rough stigmas of the longer pistils; whilst +pollen from the anthers of the shorter stamens will adhere to a different part +of the insect’s body, and will afterwards be brushed off by the stigmas of the +shorter pistils; and this is what is required for the legitimate fertilisation +of both forms. The corolla of L. perenne is more expanded than that of L. +grandiflorum, and the stigmas of the long-styled form do not diverge greatly +from one another; nor do the stamens of either form. Hence insects, especially +rather small ones, will not insert their proboscides between the stigmas of the +long-styled form, nor between the anthers of either form (Figure 3.5), but will +strike against them, at nearly right angles, with the backs of their head or +thorax. Now, in the long-styled flowers, if each stigma did not rotate on its +axis, insects in visiting them would strike their heads against the backs of the +stigmas; as it is, they strike against that surface which is covered with +papillae, with their heads already charged with pollen from the stamens of +corresponding height borne by the flowers of the other form, and legitimate +fertilisation is thus ensured. + +Thus we can understand the meaning of the torsion of the styles in the long- +styled flowers alone, as well as their divergence in the short-styled flowers. + +One other point is worth notice. In botanical works many flowers are said to be +fertilised in the bud. This statement generally rests, as far as I can discover, +on the anthers opening in the bud; no evidence being adduced that the stigma is +at this period mature, or that it is not subsequently acted on by pollen brought +from other flowers. In the case of Cephalanthera grandiflora I have shown that +precocious and partial self-fertilisation, with subsequent full fertilisation, +is the regular course of events. (3/4. ‘Fertilisation of Orchids’ page 108; 2nd +edition 1877 page 84.) The belief that the flowers of many plants are fertilised +in the bud, that is, are perpetually self-fertilised, is a most effectual bar to +understanding their real structure. I am, however, far from wishing to assert +that some flowers, during certain seasons, are not fertilised in the bud; for I +have reason to believe that this is the case. A good observer, resting his +belief on the usual kind of evidence, states that in Linum Austriacum (which is +heterostyled, and is considered by Planchon as a variety of L. perenne) the +anthers open the evening before the expansion of the flowers, and that the +stigmas are then almost always fertilised. (3/5. H. Lecoq ‘Etudes sur la Geogr. +Bot.’ 1856 tome 5 page 325.) Now we know positively that, so far from Linum +perenne being fertilised by its own pollen in the bud, its own pollen is as +powerless on the stigma as so much inorganic dust. + +Linum flavum. + +The pistil of the long-styled form of this species is nearly twice as long as +that of the short-styled; the stigmas are longer and the papillae coarser. In +the short-styled form the stigmas diverge and pass out between the filaments, as +in the previous species. The stamens in the two forms differ in length; and, +what is singular, the anthers of the longer stamens are not so long as those of +the other form; so that in the short-styled form both the stigmas and the +anthers are shorter than in the long-styled form. The pollen-grains of the two +forms do not differ in size. As this species is propagated by cuttings, +generally all the plants in the same garden belong to the same form. I have +inquired, but have never heard of its seeding in this country. Certainly my own +plants never produced a single seed as long as I possessed only one of the two +forms. After considerable search I procured both forms, but from want of time +only a few experiments were made. Two plants of the two forms were planted some +way apart in my garden, and were not covered by nets. Three flowers on the long- +styled plant were legitimately fertilised with pollen from the short-styled +plant, and one of them set a fine capsule. No other capsules were produced by +this plant. Three flowers on the short-styled plant were legitimately fertilised +with pollen from the long-styled, and all three produced capsules, containing +respectively no less than 8, 9, and 10 seeds. Three other flowers on this plant, +which had not been artificially fertilised, produced capsules containing 5, 1, +and 5 seeds; and it is quite possible that pollen may have been brought to them +by insects from the long-styled plant growing in the same garden. Nevertheless, +as they did not yield half the number of seeds compared with the other flowers +on the same plant which had been artificially and legitimately fertilised, and +as the short-styled plants of the two previous species apparently evince some +slight capacity for fertilisation with their own-form pollen, these three +capsules may have been the product of self-fertilisation. + +Besides the three species now described, the yellow-flowered L. corymbiferum is +certainly heterostyled, as is, according to Planchon, L. salsoloides. (3/6. +Hooker’s ‘London Journal of Botany’ 1848 volume 7 page 174.) This botanist is +the only one who seems to have inferred that heterostylism might have some +important functional bearing. Dr. Alefeld, who has made a special study of the +genus, says that about half of the sixty-five species known to him are +heterostyled. (3/7. ‘Botanische Zeitung’ September 18, 1863 page 281.) This is +the case with L. trigynum, which differs so much from the other species that it +has been formed by him into a distinct genus. (3/8. It is not improbable that +the allied genus, Hugonia, is heterostyled, for one species is said by Planchon +(Hooker’s ‘London Journal of Botany’ 1848 volume 7 page 525) to be provided with +“staminibus exsertis;” another with “stylis staminibus longioribus,” and another +has “stamina 5, majora, stylos longe superantia.”) According to the same author, +none of the species which inhabit America and the Cape of Good Hope are +heterostyled. + +I have examined only three homostyled species, namely, L. usitatissimum, +angustifolium, and catharticum. I raised 111 plants of a variety of the first- +named species, and these, when protected under a net, all produced plenty of +seed. The flowers, according to H. Muller, are frequented by bees and moths. +(3/9. ‘Die Befruchtung der Blumen’ etc. page 168.) With respect to L. +catharticum, the same author shows that the flowers are so constructed that they +can freely fertilise themselves; but if visited by insects they might be cross- +fertilised. He has, however, only once seen the flowers thus visited during the +day; but it may be suspected that they are frequented during the night by small +moths for the sake of the five minute drops of nectar secreted. Lastly, L. +Lewisii is said by Planchon to bear on the same plant flowers with stamens and +pistils of the same height, and others with the pistils either longer or shorter +than the stamens. This case formerly appeared to me an extraordinary one; but I +am now inclined to believe that it is one merely of great variability. (3/10. +Planchon in Hooker’s ‘London Journal of Botany’ 1848 volume 7 page 175. See on +this subject Asa Gray in ‘American Journal of Science’ volume 36 September 1863 +page 284.) + +PULMONARIA (BORAGINEAE). + +Pulmonaria officinalis. + +Hildebrand has published a full account of this heterostyled plant. (3/11. +‘Botanische Zeitung’ 1865 January 13 page 13.) The pistil of the long-styled +form is twice as long as that of the short-styled; and the stamens differ in a +corresponding, though converse, manner. There is no marked difference in the +shape or state of surface of the stigma in the two forms. The pollen-grains of +the short-styled form are to those of the long-styled as 9 to 7, or as 100 to +78, in length, and as 7 to 6 in breadth. They do not differ in the appearance of +their contents. The corolla of the one form differs in shape from that of the +other in nearly the same manner as in Primula; but besides this difference the +flowers of the short-styled are generally the larger of the two. Hildebrand +collected on the Siebengebirge, ten wild long-styled and ten short-styled +plants. The former bore 289 flowers, of which 186 (i.e. 64 per cent) had set +fruit, yielding 1.88 seed per fruit. The ten short-styled plants bore 373 +flowers, of which 262 (i.e. 70 per cent) had set fruit, yielding 1.86 seed per +fruit. So that the short-styled plants produced many more flowers, and these set +a rather larger proportion of fruit, but the fruits themselves yielded a +slightly lower average number of seeds than did the long-styled plants. The +results of Hildebrand’s experiments on the fertility of the two forms are given +in Table 3.19. + +TABLE 3.19. Pulmonaria officinalis (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Fruits produced. +Column 4: Average Number of Seeds per Fruit. + +Long-styled by pollen of short-styled. Legitimate union : +14 : 10 : 1.30. + +Long-styled 14 by own-pollen, and 16 by pollen of other plant of same form. +Illegitimate union : +30 : 0 : 0. + +Short-styled by pollen of long-styled. Legitimate union: +16 : 14 : 1.57. + +Short-styled 11 by own-pollen, 14 by pollen of other plant of same form. +Illegitimate union : +25 : 0 : 0. + +In the summer of 1864, before I had heard of Hildebrand’s experiments, I noticed +some long-styled plants of this species (named for me by Dr. Hooker) growing by +themselves in a garden in Surrey; and to my surprise about half the flowers had +set fruit, several of which contained 2, and one contained even 3 seeds. These +seeds were sown in my garden and eleven seedlings thus raised, all of which +proved long-styled, in accordance with the usual rule in such cases. Two years +afterwards the plants were left uncovered, no other plant of the same genus +growing in my garden, and the flowers were visited by many bees. They set an +abundance of seeds: for instance, I gathered from a single plant rather less +than half of the seeds which it had produced, and they numbered 47. Therefore +this illegitimately fertilised plant must have produced about 100 seeds; that +is, thrice as many as one of the wild long-styled plants collected on the +Siebengebirge by Hildebrand, and which, no doubt, had been legitimately +fertilised. In the following year one of my plants was covered by a net, and +even under these unfavourable conditions it produced spontaneously a few seeds. +It should be observed that as the flowers stand either almost horizontally or +hang considerably downwards, pollen from the short stamens would be likely to +fall on the stigma. We thus see that the English long-styled plants when +illegitimately fertilised were highly fertile, whilst the German plants +similarly treated by Hildebrand were completely sterile. How to account for this +wide discordance in our results I know not. Hildebrand cultivated his plants in +pots and kept them for a time in the house, whilst mine were grown out of doors; +and he thinks that this difference of treatment may have caused the difference +in our results. But this does not appear to me nearly a sufficient cause, +although his plants were slightly less productive than the wild ones growing on +the Siebengbirge. My plants exhibited no tendency to become equal-styled, so as +to lose their proper long-styled character, as not rarely happens under +cultivation with several heterostyled species of Primula; but it would appear +that they had been greatly affected in function, either by long-continued +cultivation or by some other cause. We shall see in a future chapter that +heterostyled plants illegitimately fertilised during several successive +generations sometimes become more self-fertile; and this may have been the case +with my stock of the present species of Pulmonaria; but in this case we must +assume that the long-styled plants were at first sufficiently fertile to yield +some seed, instead of being absolutely self-sterile like the German plants. + +Pulmonaria angustifolia. + +(FIGURE 3.6. Pulmonaria angustifolia. +Left: Long-styled form. +Right: Short-styled form.) + +Seedlings of this plant, raised from plants growing wild in the Isle of Wight, +were named for me by Dr. Hooker. It is so closely allied to the last species, +differing chiefly in the shape and spotting of the leaves, that the two have +been considered by several eminent botanists--for instance, Bentham--as mere +varieties. But, as we shall presently see, good evidence can be assigned for +ranking them as distinct. Owing to the doubts on this head, I tried whether the +two would mutually fertilise one another. Twelve short-styled flowers of P. +angustifolia were legitimately fertilised with pollen from long-styled plants of +P. officinalis (which, as we have just seen, are moderately self-fertile), but +they did not produce a single fruit. Thirty-six long-styled flowers of P. +angustifolia were also illegitimately fertilised during two seasons with pollen +from the long-styled P. officinalis, but all these flowers dropped off +unimpregnated. Had the plants been mere varieties of the same species these +illegitimate crosses would probably have yielded some seeds, judging from my +success in illegitimately fertilising the long-styled flowers of P. officinalis; +and the twelve legitimate crosses, instead of yielding no fruit, would almost +certainly have yielded a considerable number, namely, about nine, judging from +the results given in Table 3.20. Therefore P. officinalis and angustifolia +appear to be good and distinct species, in conformity with other important +functional differences between them, immediately to be described. + +TABLE 3.20. Pulmonaria angustifolia. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Fruits produced. +Column 4: Average Number of Seeds per Fruit. + +Long-styled by pollen of short-styled. Legitimate union : +18 : 9 : 2.11. + +Long-styled by own-form pollen. Illegitimate union : +18 : 0 : 0. + +Short-styled by pollen of long-styled. Legitimate union: +18 : 15 : 2.60. + +Short-styled by own-form pollen. Illegitimate union : +12 : 7 : 1.86. + +The long-styled and short-styled flowers of P. angustifolia differ from one +another in structure in nearly the same manner as those of P. officinalis. But +in Figure 3.6 a slight bulging of the corolla in the long-styled form, where the +anthers are seated, has been overlooked. My son William, who examined a large +number of wild plants in the Isle of Wight, observed that the corolla, though +variable in size, was generally larger in the long-styled flowers than in the +short-styled; and certainly the largest corollas of all were found on the long- +styled plants, and the smallest on the short-styled. Exactly the reverse occurs, +according to Hildebrand, with P. officinalis. Both the pistils and stamens of P. +angustifolia vary much in length; so that in the short-styled form the distance +between the stigma and the anthers varied from 119 to 65 divisions of the +micrometer, and in the long-styled from 115 to 112. From an average of seven +measurements of each form the distance between these organs in the long-styled +is to the same distance in the short-styled form as 100 to 69; so that the +stigma in the one form does not stand on a level with the anthers in the other. +The long-styled pistil is sometimes thrice as long as that of the short-styled; +but from an average of ten measurements of both, its length to that of the +short-styled was as 100 to 56. The stigma varies in being more or less, though +slightly, lobed. The anthers also vary much in length in both forms, but in a +greater degree in the long-styled than in the short-styled-form; many in the +former being from 80 to 63, and in the latter from 80 to 70 divisions of the +micrometer in length. From an average of seven measurements, the short-styled +anthers were to those from the long-styled as 100 to 91 in length. Lastly, the +pollen-grains from the long-styled flowers varied between 13 and 11.5 divisions +of the micrometer, and those from the short-styled between 15 and 13. The +average diameter of 25 grains from the latter, or short-styled form, was to that +of 20 grains from the long-styled as 100 to 91. We see, therefore, that the +pollen-grains from the smaller anthers of the shorter stamens in the long-styled +form are, as usual, of smaller size than those in the other form. But what is +remarkable, a larger proportion of the grains were small, shrivelled, and +worthless. This could be seen by merely comparing the contents of the anthers +from several distinct plants of each form. But in one instance my son found, by +counting, that out of 193 grains from a long-styled flower, 53 were bad, or 27 +per cent; whilst out of 265 grains from a short-styled flower only 18 were bad, +or 7 per cent. From the condition of the pollen in the long-styled form, and +from the extreme variability of all the organs in both forms, we may perhaps +suspect that the plant is undergoing a change, and tending to become dioecious. + +My son collected in the Isle of Wight on two occasions 202 plants, of which 125 +were long-styled and 77 short-styled; so that the former were the more numerous. +On the other hand, out of 18 plants raised by me from seed, only 4 were long- +styled and 14 short-styled. The short-styled plants seemed to my son to produce +a greater number of flowers than the long-styled; and he came to this conclusion +before a similar statement had been published by Hildebrand with respect to P. +officinalis. My son gathered ten branches from ten different plants of both +forms, and found the number of flowers of the two forms to be as 100 to 89, 190 +being short-styled and 169 long-styled. With P. officinalis the difference, +according to Hildebrand, is even greater, namely, as 100 flowers for the short- +styled to 77 for the long-styled plants. Table 3.20 shows the results of my +experiments. + +We see in Table 3.20 that the fertility of the two legitimate unions to that of +the two illegitimate together is as 100 to 35, judged by the proportion of +flowers which produced fruit; and as 100 to 32, judged by the average number of +seeds per fruit. But the small number of fruit yielded by the 18 long-styled +flowers in the first line was probably accidental, and if so, the difference in +the proportion of legitimately and illegitimately fertilised flowers which yield +fruit is really greater than that represented by the ratio of 100 to 35. The 18 +long-styled flowers illegitimately fertilised yielded no seeds,--not even a +vestige of one. Two long-styled plants which were placed under a net produced +138 flowers, besides those which were artificially fertilised, and none of these +set any fruit; nor did some plants of the same form which were protected during +the next summer. Two other long-styled plants were left uncovered (all the +short-styled plants having been previously covered up), and humble-bees, which +had their foreheads white with pollen, incessantly visited the flowers, so that +their stigmas must have received an abundance of pollen, yet these flowers did +not produce a single fruit. We may therefore conclude that the long-styled +plants are absolutely barren with their own-form pollen, though brought from a +distinct plant. In this respect they differ greatly from the long-styled English +plants of P. officinalis which were found by me to be moderately self-fertile; +but they agree in their behaviour with the German plants of P. officinalis +experimented on by Hildebrand. + +Eighteen short-styled flowers legitimately fertilised yielded, as may be seen in +Table 3.20, 15 fruits, each having on an average 2.6 seeds. Four of these fruits +contained the highest possible number of seeds, namely 4, and four other fruits +contained each 3 seeds. The 12 illegitimately fertilised short-styled flowers +yielded 7 fruits, including on an average 1.86 seed; and one of these fruits +contained the maximum number of 4 seeds. This result is very surprising in +contrast with the absolute barrenness of the long-styled flowers when +illegitimately fertilised; and I was thus led to attend carefully to the degree +of self-fertility of the short-styled plants. A plant belonging to this form and +covered by a net bore 28 flowers besides those which had been artificially +fertilised, and of all these only two produced a fruit each including a single +seed. This high degree of self-sterility no doubt depended merely on the stigmas +not receiving any pollen, or not a sufficient quantity. For after carefully +covering all the long-styled plants in my garden, several short-styled plants +were left exposed to the visits of humble-bees, and their stigmas will thus have +received plenty of short-styled pollen; and now about half the flowers, thus +illegitimately fertilised, set fruit. I judge of this proportion partly from +estimation and partly from having examined three large branches, which had borne +31 flowers, and these produced 16 fruits. Of the fruits produced 233 were +collected (many being left ungathered), and these included on an average 1.82 +seed. No less than 16 out of the 233 fruits included the highest possible number +of seeds, namely 4, and 31 included 3 seeds. So we see how highly fertile these +short-styled plants were when illegitimately fertilised with their own-form +pollen by the aid of bees. + +The great difference in the fertility of the long and short-styled flowers, when +both are illegitimately fertilised, is a unique case, as far as I have observed +with heterostyled plants. The long-styled flowers when thus fertilised are +utterly barren, whilst about half of the short-styled ones produce capsules, and +these include a little above two-thirds of the number of seeds yielded by them +when legitimately fertilised. The sterility of the illegitimately fertilised +long-styled flowers is probably increased by the deteriorated condition of their +pollen; nevertheless this pollen was highly efficient when applied to the +stigmas of the short-styled flowers. With several species of Primula the short- +styled flowers are much more sterile than the long-styled, when both are +illegitimately fertilised; and it is a tempting view, as formerly remarked, that +this greater sterility of the short-styled flowers is a special adaptation to +check self-fertilisation, as their stigmas are eminently liable to receive their +own pollen. This view is even still more tempting in the case of the long-styled +form of Linum grandiflorum. On the other hand, with Pulmonaria angustifolia, it +is evident, from the corolla projecting obliquely upwards, that pollen is much +more likely to fall on, or to be carried by insects down to the stigma of the +short-styled than of the long-styled flowers; yet the short-styled instead of +being more sterile, as a protection against self-fertilisation, are far more +fertile than the long-styled, when both are illegitimately fertilised. + +Pulmonaria azurea, according to Hildebrand, is not heterostyled. (3/12. ‘Die +Geschlechter-Vertheilung bei den Pflanzen’ 1867 page 37.) + +[From an examination of dried flowers of Amsinckia spectabilis, sent me by +Professor Asa Gray, I formerly thought that this plant, a member of the +Boragineae, was heterostyled. The pistil varies to an extraordinary degree in +length, being in some specimens twice as long as in others, and the point of +insertion of the stamens likewise varies. But on raising many plants from seed, +I soon became convinced that the whole case was one of mere variability. The +first-formed flowers are apt to have stamens somewhat arrested in development, +with very little pollen in their anthers; and in such flowers the stigma +projects above the anthers, whilst generally it stands below and sometimes on a +level with them. I could detect no difference in the size of the pollen-grain or +in the structure of the stigma in the plants which differed most in the above +respects; and all of them, when protected from the access of insects, yielded +plenty of seeds. Again, from statements made by Vaucher, and from a hasty +inspection, I thought at first that the allied Anchusa arvensis and Echium +vulgare were heterostyled, but soon saw my error. From information given me, I +examined dried flowers of another member of the Boragineae, Arnebia +hispidissima, collected from several sites, and though the corolla, together +with the included organs, differed much in length, there was no sign of +heterostylism.] + +Polygonum fagopyrum (Polygonaceae). + +(FIGURE 3.7. Polygonum fagopyrum. (From H. Muller.) +Upper figure, the long-styled form; lower figure, the short-styled. +Some of the anthers have dehisced, others have not.) + +Hildebrand has shown that this plant, the common Buck-wheat, is heterostyled. +(3/13. ‘Die Geschlechter-Vertheilung’ etc. 1867 page 34.) In the long-styled +form (Figure 3.7), the three stigmas project considerably above the eight short +stamens, and stand on a level with the anthers of the eight long stamens in the +short-styled form; and so it is conversely with the stigmas and stamens of this +latter form. I could perceive no difference in the structure of the stigmas in +the two forms. The pollen-grains of the short-styled form are to those of the +long-styled as 100 to 82 in diameter. This plant is therefore without doubt +heterostyled. + +I experimented only in an imperfect manner on the relative fertility of the two +forms. Short-styled flowers were dragged several times over two heads of flowers +on long-styled plants, protected under a net, which were thus legitimately, +though not fully, fertilised. They produced 22 seeds, or 11 per flower-head. + +Three flower-heads on long-styled plants received pollen in the same manner from +other long-styled plants, and were thus illegitimately fertilised. They produced +14 seeds, or only 4.66 per flower-head. + +Two flower-heads on short-styled plants received pollen in like manner from +long-styled flowers, and were thus legitimately fertilised. They produced 8 +seeds, or 4 per flower-head. + +Four heads on short-styled plants similarly received pollen from other short- +styled plants, and were thus illegitimately fertilised. They produced 9 seeds, +or 2.25 per flower-head. + +The results from fertilising the flower-heads in the above imperfect manner +cannot be fully trusted; but I may state that the four legitimately fertilised +flower-heads yielded on an average 7.50 seeds per head; whereas the seven +illegitimately fertilised heads yielded less than half the number, or on an +average only 3.28 seeds. The legitimately crossed seeds from the long-styled +flowers were finer than those from the illegitimately fertilised flowers on the +same plants, in the ratio of 100 to 82, as shown by the weights of an equal +number. + +About a dozen plants, including both forms, were protected under nets, and early +in the season they produced spontaneously hardly any seeds, though at this +period the artificially fertilised flowers produced an abundance; but it is a +remarkable fact that later in the season, during September, both forms became +highly self-fertile. They did not, however, produce so many seeds as some +neighbouring uncovered plants which were visited by insects. Therefore the +flowers of neither form when left to fertilise themselves late in the season +without the aid of insects, are nearly so sterile as most other heterostyled +plants. A large number of insects, namely 41 kinds as observed by H. Muller, +visit the flowers for the sake of the eight drops of nectar. (3/14. ‘Die +Befruchtung’ etc. page 175 and ‘Nature’ January 1, 1874 page 166.) He infers +from the structure of the flowers that insects would be apt to fertilise them +both illegitimately as well as legitimately; but he is mistaken in supposing +that the long-styled flowers cannot spontaneously fertilise themselves. + +Differently to what occurs in the other genera hitherto noticed, Polygonum, +though a very large genus, contains, as far as is at present known, only a +single heterostyled species, namely the present one. H. Muller in his +interesting description of several other species shows that P. bistorta is so +strongly proterandrous (the anthers generally falling off before the stigmas are +mature) that the flowers must be cross-fertilised by the many insects which +visit them. Other species bear much less conspicuous flowers which secrete +little or no nectar, and consequently are rarely visited by insects; these are +adapted for self-fertilisation, though still capable of cross-fertilisation. +According to Delpino, the Polygonaceae are generally fertilised by the wind, +instead of by insects as in the present genus. + +[Leucosmia Burnettiana (Thymeliae). + +As Professor Asa Gray has expressed his belief that this species and L. +acuminata, as well as some species in the allied genus Drymispermum, are +dimorphic or heterostyled (3/15. ‘American Journal of Science’ 1865 page 101 and +Seemann’s ‘Journal of Botany’ volume 3 1865 page 305.), I procured from Kew, +through the kindness of Dr. Hooker, two dried flowers of the former species, an +inhabitant of the Friendly Islands in the Pacific. The pistil of the long-styled +form is to that of the short-styled as 100 to 86 in length; the stigma projects +just above the throat of the corolla, and is surrounded by five anthers, the +tips of which reach up almost to its base; and lower down, within the tubular +corolla, five other and rather smaller anthers are seated. In the short-styled +form, the stigma stands some way down the tube of the corolla, nearly on a level +with the lower anthers of the other form: it differs remarkably from the stigma +of the long-styled form, in being more papillose, and in being longer in the +ratio of 100 to 60. The anthers of the upper stamens in the short-styled form +are supported on free filaments, and project above the throat of the corolla, +whilst the anthers of the lower stamens are seated in the throat on a level with +the upper stamens of the other form. The diameters of a considerable number of +grains from both sets of anthers in both forms were measured, but they did not +differ in any trustworthy degree. The mean diameter of twenty-two grains from +the short-styled flower was to that of twenty-four grains from the long-styled, +as 100 to 99. The anthers of the upper stamens in the short-styled form appeared +to be poorly developed, and contained a considerable number of shrivelled grains +which were omitted in striking the above average. Notwithstanding the fact of +the pollen-grains from the two forms not differing in diameter in any +appreciable degree, there can hardly be a doubt from the great difference in the +two forms in the length of the pistil, and especially of the stigma, together +with its more papillose condition in the short-styled form, that the present +species is truly heterostyled. This case resembles that of Linum grandiflorum, +in which the sole difference between the two forms consists in the length of the +pistils and stigmas. From the great length of the tubular corolla of Leucosmia, +it is clear that the flowers are cross-fertilised by large Lepidoptera or by +honey-sucking birds, and the position of the stamens in two whorls one beneath +the other, which is a character that I have not seen in any other heterostyled +dimorphic plant, probably serves to smear the inserted organ thoroughly with +pollen. + +Menyanthes trifoliata (Gentianeae). + +This plant inhabits marshes: my son William gathered 247 flowers from so many +distinct plants, and of these 110 were long-styled, and 137 short-styled. The +pistil of the long-styled form is in length to that of the short-styled in the +ratio of about 3 to 2. The stigma of the former, as my son observed, is +decidedly larger than that of the short-styled; but in both forms it varies much +in size. The stamens of the short-styled are almost double the length of those +of the long-styled; so that their anthers stand rather above the level of the +stigma of the long-styled form. The anthers also vary much in size, but seem +often to be of larger size in the short-styled flowers. My son made with the +camera many drawings of the pollen-grains, and those from the short-styled +flowers were in diameter in nearly the ratio of 100 to 84 to those from the +long-styled flowers. I know nothing about the capacity for fertilisation in the +two forms; but short-styled plants, living by themselves in the gardens at Kew, +have produced an abundance of capsules, yet the seeds have never germinated; and +this looks as if the short-styled form was sterile with its own pollen. + +Limnanthemum Indicum (Gentianeae). + +This plant is mentioned by Mr. Thwaites in his Enumeration of the Plants of +Ceylon as presenting two forms; and he was so kind as to send me specimens +preserved in spirits. The pistil of the long-styled form is nearly thrice as +long (i.e. as 14 to 5) as that of the short-styled, and is very much thinner in +the ratio of about 3 to 5. The foliaceous stigma is more expanded, and twice as +large as that of the short-styled form. In the latter the stamens are about +twice as long as those of the long-styled, and their anthers are larger in the +ratio of 100 to 70. The pollen-grains, after having been long kept in spirits, +were of the same shape and size in both forms. The ovules, according to Mr. +Thwaites, are equally numerous (namely from 70 to 80) in the two forms. + +Villarsia [sp.?] (Gentianeae). + +Fritz Muller sent me from South Brazil dried flowers of this aquatic plant, +which is closely allied to Limnanthemum. In the long-styled form the stigma +stands some way above the anthers, and the whole pistil, together with the +ovary, is in length to that of the short-styled form as about 3 to 2. In the +latter form the anthers stand above the stigma, and the style is very short and +thick; but the pistil varies a good deal in length, the stigma being either on a +level with the tips of the sepals or considerably beneath them. The foliaceous +stigma in the long-styled form is larger, with the expansions running farther +down the style, than in the other form. One of the most remarkable differences +between the two forms is that the anthers of the longer stamens in the short- +styled flowers are conspicuously longer than those of the shorter stamens in the +long-styled flowers. In the former the sub-triangular pollen-grains are larger; +the ratio between their breadth (measured from one angle to the middle of the +opposite side) and that of the grains from the long-styled flowers being about +100 to 75. Fritz Muller also informs me that the pollen of the short-styled +flowers has a bluish tint, whilst that of the long-styled is yellow. When we +treat of Lythrum salicaria we shall find a strongly marked contrast in the +colour of the pollen in two of the forms. + +The three genera, Menyanthes, Limnanthemum, and Villarsia, now described, +constitute a well-marked sub-tribe of the Gentianeae. All the species, as far as +at present known, are heterostyled, and all inhabit aquatic or sub-aquatic +stations. + +Forsythia suspensa (Oleaceae). + +Professor Asa Gray states that the plants of this species growing in the Botanic +Gardens at Cambridge, U.S., are short-styled, but that Siebold and Zuccarini +describe the long-styled form, and give figures of two forms; so that there can +be little doubt, as he remarks, about the plant being dimorphic. (3/16. ‘The +American Naturalist’ July 1873 page 422.) I therefore applied to Dr. Hooker, who +sent me a dried flower from Japan, another from China, and another from the +Botanic Gardens at Kew. The first proved to be long-styled, and the other two +short-styled. In the long-styled form, the pistil is in length to that of the +short-styled as 100 to 38, the lobes of the stigma being a little longer (as 10 +to 9), but narrower and less divergent. This last character, however, may be +only a temporary one. There seems to be no difference in the papillose condition +of the two stigmas. In the short-styled form, the stamens are in length to those +of the long-styled as 100 to 66, but the anthers are shorter in the ratio of 87 +to 100; and this is unusual, for when there is any difference in size between +the anthers of the two forms, those from the longer stamens of the short-styled +are generally the longest. The pollen-grains from the short-styled flowers are +certainly larger, but only in a slight degree, than those from the long-styled, +namely, as 100 to 94 in diameter. The short-styled form, which grows in the +Gardens at Kew, has never there produced fruit. + +Forsythia viridissima appears likewise to be heterostyled; for Professor Asa +Gray says that although the long-styled form alone grows in the gardens at +Cambridge, U.S., the published figures of this species belong to the short- +styled form. + +Cordia [sp.?] (Cordiaceae). + +Fritz Muller sent me dried specimens of this shrub, which he believes to be +heterostyled; and I have not much doubt that this is the case, though the usual +characteristic differences are not well pronounced in the two forms. Linum +grandiflorum shows us that a plant may be heterostyled in function in the +highest degree, and yet the two forms may have stamens of equal length, and +pollen-grains of equal size. In the present species of Cordia, the stamens of +both forms are of nearly equal length, those of the short-styled being rather +the longest; and the anthers of both are seated in the mouth of the corolla. Nor +could I detect any difference in the size of the pollen-grains, when dry or +after being soaked in water. The stigmas of the long-styled form stand clear +above the anthers, and the whole pistil is longer than that of the short-styled, +in about the ratio of 3 to 2. + +The stigmas of the short-styled form are seated beneath the anthers, and they +are considerably shorter than those of the long-styled form. This latter +difference is the most important one of any between the two forms. + +Gilia (Ipomopsis) pulchella vel aggregata (Polemoniaceae). + +Professor Asa Gray remarks with respect to this plant: “the tendency to +dimorphism, of which there are traces, or perhaps rather incipient +manifestations in various portions of the genus, is most marked in G. +aggregata.” (3/17. ‘Proceedings of the American Academy of Arts and Sciences.’ +June 14, 1870 page 275.) He sent me some dried flowers, and I procured others +from Kew. They differ greatly in size, some being nearly twice as long as others +(namely as 30 to 17), so that it was not possible to compare, except by +calculation, the absolute length of the organs from different plants. Moreover, +the relative position of the stigmas and anthers is variable: in some long- +styled flowers the stigmas and anthers were exserted only just beyond the throat +of the corolla; whilst in others they were exserted as much as 4/10 of an inch. +I suspect also that the pistil goes on growing for some time after the anthers +have dehisced. Nevertheless it is possible to class the flowers under two forms. +In some of the long-styled, the length of pistil to that of the short-styled was +as 100 to 82; but this result was gained by reducing the size of the corollas to +the same scale. In another pair of flowers the difference in length between the +pistils of the two forms was certainly greater, but they were not actually +measured. In the short-styled flowers whether large or small, the stigma is +seated low down within the tube of the corolla. The papillae on the long-styled +stigma are longer than those on the short-styled, in the ratio of 100 to 40. The +filaments in some of the short-styled flowers were, to those of the long-styled, +as 100 to 25 in length, the free, or unattached portion being alone measured; +but this ratio cannot be trusted, owing to the great variability of the stamens. +The mean diameter of eleven pollen-grains from long-styled flowers, and of +twelve from the short-styled, was exactly the same. It follows from these +several statements, that the difference in length and state of surface of the +stigmas in the flowers is the sole reliable evidence that this species is +heterostyled; for it would be rash to trust to the difference in the length of +the pistils, seeing how variable they are. I should have left the case +altogether doubtful, had it not been for the observations on the following +species; and these leave little doubt on my mind that the present plant is truly +heterostyled. Professor Gray informs me that in another species, G. +coronopifolia, belonging to the same section of the genus, he can see no sign of +dimorphism. + +Gilia (Leptosiphon) micrantha. + +A few flowers sent me from Kew had been somewhat injured, so that I cannot say +anything positively with respect to the position and relative length of the +organs in the two forms. But their stigmas differed almost exactly in the same +manner as in the last species; the papillae on the long-styled stigma being +longer than those on the short-styled, in the ratio of 100 to 42. My son +measured nine pollen-grains from the long-styled, and the same number from the +short-styled form; and the mean diameter of the former was to that of the latter +as 100 to 81. Considering this difference, as well as that between the stigmas +of the two forms, there can be no doubt that this species is heterostyled. So +probably is Gilia nudicaulis, which likewise belongs to the Leptosiphon section +of the genus, for I hear from Professor Asa Gray that in some individuals the +style is very long, with the stigma more or less exserted, whilst in others it +is deeply included within the tube; the anthers being always seated in the +throat of the corolla. + +Phlox subulata (Polemoniaceae). + +Professor Asa Gray informs me that the greater number of the species in this +genus have a long pistil, with the stigma more or less exserted; whilst several +other species, especially the annuals, have a short pistil seated low down +within the tube of the corolla. In all the species the anthers are arranged one +below the other, the uppermost just protruding from the throat of the corolla. +In Phlox subulata alone he has “seen both long and short styles; and here the +short-styled plant has (irrespective of this character) been described as a +distinct species (P. nivalis, P. Hentzii), and is apt to have a pair of ovules +in each cell, while the long-styled P. subulata rarely shows more than one.” +(3/18. ‘Proceedings of the American Academy of Arts and Sciences’ June 14, 1870 +page 248.) Some dried flowers of both forms were sent me by him, and I received +others from Kew, but I have failed to make out whether the species is +heterostyled. In two flowers of nearly equal size, the pistil of the long-styled +form was twice as long as that of the short-styled; but in other cases the +difference was not nearly so great. The stigma of the long-styled pistil stands +nearly in the throat of the corolla; whilst in the short-styled it is placed low +down--sometimes very low down in the tube, for it varies greatly in position. +The stigma is more papillose, and of greater length (in one instance in the +ratio of 100 to 67), in the short-styled flowers than in the long-styled. My son +measured twenty pollen-grains from a short-styled flower, and nine from a long- +styled, and the former were in diameter to the latter as 100 to 93; and this +difference accords with the belief that the plant is heterostyled. But the +grains from the short-styled varied much in diameter. He afterwards measured ten +grains from a distinct long-styled flower, and ten from another plant of the +same form, and these grains differed in diameter in the ratio of 100 to 90. The +mean diameter of these two lots of twenty grains was to that of twelve grains +from another short-styled flower as 100 to 75: here, then, the grains from the +short-styled form were considerably smaller than those from the long-styled, +which is the reverse of what occurred in the former instance, and of what is the +general rule with heterostyled plants. The whole case is perplexing in the +highest degree, and will not be understood until experiments are tried on living +plants. The greater length, and more papillose condition of the stigma in the +short-styled than in the long-styled flowers, looks as if the plant was +heterostyled; for we know that with some species--for instance, Leucosmia and +certain Rubiaceae--the stigma is longer and more papillose in the short-styled +form, though the reverse of this holds good in Gilia, a member of the same +family with Phlox. The similar position of the anthers in the two forms is +somewhat opposed to the present species being heterostyled; as is the great +difference in the length of the pistil in several short-styled flowers. But the +extraordinary variability in diameter of the pollen-grains, and the fact that in +one set of flowers the grains from the long-styled flowers were larger than +those from the short-styled, is strongly opposed to the belief that Phlox +subulata is heterostyled. Possibly this species was once heterostyled, but is +now becoming sub-dioecious; the short-styled plants having been rendered more +feminine in nature. This would account for their ovaries usually containing more +ovules, and for the variable condition of their pollen-grains. Whether the long- +styled plants are now changing their nature, as would appear to be the case from +the variability of their pollen-grains, and are becoming more masculine, I will +not pretend to conjecture; they might remain as hermaphrodites, for the +coexistence of hermaphrodite and female plants of the same species is by no +means a rare event. + +Erythroxylum [sp.?] (Erythroxylidae). + +(FIGURE 3.8. Erythroxylon [sp.?] +Left: Long-styled form. +Right: Short-styled form. +From a sketch by Fritz Muller, magnified five times.) + +Fritz Muller sent me from South Brazil dried flowers of this tree, together with +the drawings (Figure 3.8.), which show the two forms, magnified about five +times, with the petals removed. In the long-styled form the stigmas project +above the anthers, and the styles are nearly twice as long as those of the +short-styled form, in which the stigmas stand beneath the anthers. The stigmas +in many, but not in all the short-styled flowers are larger than those in the +long-styled. The anthers of the short-styled flowers stand on a level with the +stigmas of the other form; but the stamens are longer by only one-fourth or one- +fifth of their own length than those of the long-styled. Consequently the +anthers of the latter do not stand on a level with, but rather above the stigmas +of the other form. Differently from what occurs in the following closely allied +genus, Sethia, the stamens are of nearly equal length in the flowers of the same +form. The pollen-grains of the short-styled flowers, measured in their dry +state, are a little larger than those from the long-styled flowers in about the +ratio of 100 to 93. (3/19. F. Muller remarks in his letter to me that the +flowers, of which he carefully examined many specimens, are curiously variable +in the number of their parts: 5 sepals and petals, 10 stamens and 3 pistils are +the prevailing numbers; but the sepals and petals often vary from 5 to 7; the +stamens from 10 to 14, and the pistils from 3 to 4.) + +Sethia acuminata (Erythroxylidae). + +Mr. Thwaites pointed out several years ago that this plant exists under two +forms, which he designated as forma stylosa et staminea; and the flowers sent to +me by him are clearly heterostyled. (3/20. ‘Enumeratio Plantarum Zeylaniae’ 1864 +page 54.) In the long-styled form the pistil is nearly twice as long, and the +stamens half as long as the corresponding organs in the short-styled form. The +stigmas of the long-styled seem rather smaller than those of the short-styled. +All the stamens in the short-styled flowers are of nearly equal length, whereas +in long-styled they differ in length, being alternately a little longer and +shorter; and this difference in the stamens of the two forms is probably +related, as we shall hereafter see in the case of the short-styled flowers of +Lythrum salicaria, to the manner in which insects can best transport pollen from +the long-styled flowers to the stigmas of the short-styled. The pollen-grains +from the short-styled flowers, though variable in size, are to those of the +long-styled, as far as I could make out, as 100 to 83 in their longer diameter. +Sethia obtusifolia is heterostyled like S. acuminata. + +Cratoxylon formosum (Hypericineae). + +Mr. Thiselton Dyer remarks that this tree, an inhabitant of Malacca and Borneo, +appears to be heterostyled. (3/21. ‘Journal of Botany’ London 1872 page 26.) He +sent me dried flowers, and the difference between the two forms is conspicuous. +In the short-styled form the pistils are in length to those of the short-styled +as 100 to 40, with their globular stigmas about twice as thick. These stand just +above the numerous anthers and a little beneath the tips of the petals. In the +short-styled form the anthers project high above the pistils, the stigmas of +which diverge between the three bundles of stamens, and stand only a little +above the tips of the sepals. The stamens in this form are to those of the long- +styled as 100 to 86 in length; and therefore they do not differ so much in +length as do the pistils. Ten pollen-grains from each form were measured, and +those from the short-styled were to those from the long-styled as 100 to 86 in +diameter. This plant, therefore, is in all respects a well-characterised +heterostyled species. + +Aegiphila elata (Verbenaceae). + +Mr. Bentham was so kind as to send me dried flowers of this species and of Ae. +mollis, both inhabitants of South America. The two forms differ conspicuously, +as the deeply bifid stigma of the one, and the anthers of the other project far +above the mouth of the corolla. In the long-styled form of the present species, +the style is twice and a half as long as that of the short-styled. The divergent +stigmas of the two forms do not differ much in length, nor as far as I could +perceive in their papillae. In the long-styled flowers the filaments adhere to +the corolla close up to the anthers, which are enclosed some way down within the +tube. In the short-styled flowers the filaments are free above the point where +the anthers are seated in the other form, and they project from the corolla to +an equal height with that of the stigmas in the long-styled flowers. It is often +difficult to measure with accuracy pollen-grains, which have long been dried and +then soaked in water; but they here manifestly differed greatly in size. Those +from the short-styled flowers were to those from the long-styled in diameter in +about the ratio of 100 to 62. The two forms of Ae. mollis present a like +difference in the length of their pistils and stamens. + +Aegiphila obdurata. + +Flowers of this bush were sent me from St. Catharina in Brazil, by Fritz Muller, +and were named for me at Kew. They appeared at first sight grandly heterostyled, +as the stigma of the long-styled form projects far out of the corolla, whilst +the anthers are seated halfway down within the tube; whereas in the short-styled +form the anthers project from the corolla and the stigma is enclosed in the tube +at nearly the same level with the anthers of the other form. The pistil of the +long-styled is to that of the short-styled as 100 to 60 in length, and the +stigmas, taken by themselves, as 100 to 55. Nevertheless, this plant cannot be +heterostyled. The anthers in the long-styled form are brown, tough, and fleshy, +and less than half the length of those in the short-styled form, strictly as 44 +to 100; and what is much more important, they were in a rudimentary condition in +the two flowers examined by me, and did not contain a single grain of pollen. In +the short-styled form, the divided stigma, which as we have seen is much +shortened, is thicker and more fleshy than the stigma of the long-styled, and is +covered with small irregular projections, formed of rather large cells. It had +the appearance of having suffered from hyperthrophy, and is probably incapable +of fertilisation. If this be so the plant is dioecious, and judging from the two +species previously described, it probably was once heterostyled, and has since +been rendered dioecious by the pistil in the one form, and the stamens in the +other having become functionless and reduced in size. It is, however, possible +that the flowers may be in the same state as those of the common thyme and of +several other Labiatae, in which females and hermaphrodites regularly co-exist. +Fritz Muller, who thought that the present plant was heterostyled, as I did at +first, informs me that he found bushes in several places growing quite isolated, +and that these were completely sterile; whilst two plants growing close together +were covered with fruit. This fact agrees better with the belief that the +species is dioecious than that it consists of hermaphrodites and females; for if +any one of the isolated plants had been an hermaphrodite, it would probably have +produced some fruit.] + +RUBIACEAE. + +This great natural family contains a much larger number of heterostyled genera +than any other one, as yet known. + +Mitchella repens. + +Professor Asa Gray sent me several living plants collected when out of flower, +and nearly half of these proved long-styled, and the other half short-styled. +The white flowers, which are fragrant and which secrete plenty of nectar, always +grow in pairs with their ovaries united, so that the two together produce “a +berry-like double drupe.” (3/22. A. Gray ‘Manual of the Botany of the United +States’ 1856 page 172.) In my first series of experiments (1864) I did not +suppose that this curious arrangement of the flowers would have any influence on +their fertility; and in several instances only one of the two flowers in a pair +was fertilised; and a large proportion or all of these failed to produce +berries. In the ensuing year both flowers of each pair were invariably +fertilised in the same manner; and the latter experiments alone serve to show +the proportion of flowers which yield berries, when legitimately and +illegitimately fertilised; but for calculating the average number of seeds per +berry I have used those produced during both seasons. + +In the long-styled flowers the stigma projects just above the bearded throat of +the corolla, and the anthers are seated some way down the tube. In the short- +styled flowers those organs occupy reversed positions. In this latter form the +fresh pollen-grains are a little larger and more opaque than those of the long- +styled form. The results of my experiments are given in Table 3.21. + +TABLE 3.21. Mitchella repens. + +Column 1: Nature of the Union. +Column 2: Number of Pairs of Flowers fertilised during the second season. +Column 3: Number of Drupes produced during the second season. +Column 4: Average Number of good Seeds per Drupe in all the Drupes during the +two Seasons. + +Long-styled by pollen of short-styled. Legitimate union : +9 : 8 : 4.6. + +Long-styled by own-form pollen. Illegitimate union : +8 : 3 : 2.2. + +Short-styled by pollen of long-styled. Legitimate union: +8 : 7 : 4.1. + +Short-styled by own-form pollen. Illegitimate union : +9 : 0 : 2.0. + +The two legitimate unions together : +17 : 15 : 4.4. + +The two illegitimate unions together : +17 : 3 : 2.1. + +It follows from this table that 88 per cent of the paired flowers of both forms, +when legitimately fertilised, yielded double berries, nineteen of which +contained on an average 4.4 seeds, with a maximum in one of 8 seeds. Of the +illegitimately fertilised paired flowers only 18 per cent yielded berries, six +of which contained on an average only 2.1 seeds, with a maximum in one of 4 +seeds. Thus the two legitimate unions are more fertile than the two +illegitimate, according to the proportion of flowers which yielded berries, in +the ratio of 100 to 20; and according to the average number of contained seeds +as 100 to 47. + +Three long-styled and three short-styled plants were protected under separate +nets, and they produced altogether only 8 berries, containing on an average only +1.5 seed. Some additional berries were produced which contained no seeds. The +plants thus treated were therefore excessively sterile, and their slight degree +of fertility may be attributed in part to the action of the many individuals of +Thrips which haunted the flowers. Mr. J. Scott informs me that a single plant +(probably a long-styled one), growing in the Botanic Gardens at Edinburgh, which +no doubt was freely visited by insects, produced plenty of berries, but how many +of them contained seeds was not observed. + +Borreria, nov. sp. near valerianoides (Rubiaceae). + +Fritz Muller sent me seeds of this plant, which is extremely abundant in St. +Catharina, in South Brazil; and ten plants were raised, consisting of five long- +styled and five short-styled. The pistil of the long-styled flowers projects +just beyond the mouth of the corolla, and is thrice as long as that of the +short-styled, and the divergent stigmas are likewise rather larger. The anthers +in the long-styled form stand low down within the corolla, and are quite hidden. +In the short-styled flowers the anthers project just above the mouth of the +corolla, and the stigma stands low down within the tube. Considering the great +difference in the length of the pistils in the two forms, it is remarkable that +the pollen-grains differ very little in size, and Fritz Muller was struck with +the same fact. In a dry state the grains from the short-styled flowers could +just be perceived to be larger than those from the long-styled, and when both +were swollen by immersion in water, the former were to the latter in diameter in +the ratio of 100 to 92. In the long-styled flowers beaded hairs almost fill up +the mouth of the corolla and project above it; they therefore stand above the +anthers and beneath the stigma. In the short-styled flowers a similar brush of +hairs is situated low down within the tubular corolla, above the stigma and +beneath the anthers. The presence of these beaded hairs in both forms, though +occupying such different positions, shows that they are probably of considerable +functional importance. They would serve to guard the stigma of each form from +its own pollen; but in accordance with Professor Kerner’s view their chief use +probably is to prevent the copious nectar being stolen by small crawling +insects, which could not render any service to the species by carrying pollen +from one form to the other. (3/23. ‘Die Schutzmittel der Bluthen gegen +unberufene Gaste’ 1876 page 37.) + +The flowers are so small and so crowded together that I was not willing to +expend time in fertilising them separately; but I dragged repeatedly heads of +short-styled flowers over three long-styled flower-heads, which were thus +legitimately fertilised; and they produced many dozen fruits, each containing +two good seeds. I fertilised in the same manner three heads on the same long- +styled plant with pollen from another long-styled plant, so that these were +fertilised illegitimately, and they did not yield a single seed. Nor did this +plant, which was of course protected by a net, bear spontaneously any seeds. +Nevertheless another long-styled plant, which was carefully protected, produced +spontaneously a very few seeds; so that the long-styled form is not always quite +sterile with its own pollen. + +Faramea [sp.?] (Rubiaceae). + +(FIGURE 3.9. Faramea [sp.?] +Left: Short-styled form. +Right: Long-styled form. +Outlines of flowers from dried specimens. Pollen-grains magnified 180 times, by +Fritz Muller.) + +Fritz Muller has fully described the two forms of this remarkable plant, an +inhabitant of South Brazil. (3/24. ‘Botanische Zeitung’ September 10, 1869 page +606.) In the long-styled form the pistil projects above the corolla, and is +almost exactly twice as long as that of the short-styled, which is included +within the tube. The former is divided into two rather short and broad stigmas, +whilst the short-styled pistil is divided into two long, thin, sometimes much +curled stigmas. The stamens of each form correspond in height or length with the +pistils of the other form. The anthers of the short-styled form are a little +larger than those of the long-styled; and their pollen-grains are to those of +the other form as 100 to 67 in diameter. But the pollen-grains of the two forms +differ in a much more remarkable manner, of which no other instance is known; +those from the short-styled flowers being covered with sharp points; the smaller +ones from the long-styled being quite smooth. Fritz Muller remarks that this +difference between the pollen-grains of the two forms is evidently of service to +the plant; for the grains from the projecting stamens of the short-styled form, +if smooth, would have been liable to be blown away by the wind, and would thus +have been lost; but the little points on their surfaces cause them to cohere, +and at the same time favour their adhesion to the hairy bodies of insects, which +merely brush against the anthers of these stamens whilst visiting the flowers. +On the other hand, the smooth grains of the long-styled flowers are safely +included within the tube of the corolla, so that they cannot be blown away, but +are almost sure to adhere to the proboscis of an entering insect, which is +necessarily pressed close against the enclosed anthers. + +It may be remembered that in the long-styled form of Linum perenne each separate +stigma rotates on its own axis, when the flower is mature, so as to turn its +papillose surface outwards. There can be no doubt that this movement, which is +confined to the long-styled form, is effected in order that the proper surface +of the stigma should receive pollen brought by insects from the other form. Now +with Faramea, as Fritz Muller shows, it is the stamens which rotate on their +axes in one of the two forms, namely, the short-styled, in order that their +pollen should be brushed off by insects and transported to the stigmas of the +other form. In the long-styled flowers the anthers of the short enclosed stamens +do not rotate on their axes, but dehisce on their inner sides, as is the common +rule with the Rubiaceae; and this is the best position for the adherence of the +pollen-grains to the proboscis of an entering insect. Fritz Muller therefore +infers that as the plant became heterostyled, and as the stamens of the short- +styled form increased in length, they gradually acquired the highly beneficial +power of rotating on their own axes. But he has further shown, by the careful +examination of many flowers, that this power has not as yet been perfected; and, +consequently, that a certain proportion of the pollen is rendered useless, +namely, that from the anthers which do not rotate properly. It thus appears that +the development of the plant has not as yet been completed; the stamens have +indeed acquired their proper length, but not their full and perfect power of +rotation. (3/25. Fritz Muller gives another instance of the want of absolute +perfection in the flowers of another member of the Rubiaceae, namely, Posoqueria +fragrans, which is adapted in a most wonderful manner for cross-fertilisation by +the agency of moths. (See ‘Botanische Zeitung’ 1866 Number 17.) In accordance +with the nocturnal habits of these insects, most of the flowers open only during +the night; but some open in the day, and the pollen of such flowers is robbed, +as Fritz Muller has often seen, by humble-bees and other insects, without any +benefit being thus conferred on the plant.) + +The several points of difference in structure between the two forms of Faramea +are highly remarkable. Until within a recent period, if any one had been shown +two plants which differed in a uniform manner in the length of their stamens and +pistils,--in the form of their stigmas,--in the manner of dehiscence and +slightly in the size of their anthers,--and to an extraordinary degree in the +diameter and structure of their pollen-grains, he would have declared it +impossible that the two could have belonged to one and the same species. + +[Suteria (species unnamed in the herbarium at Kew.) (Rubiaceae). + +I owe to the kindness of Fritz Muller dried flowers of this plant from St. +Catharina, in Brazil. In the long-styled form the stigma stands in the mouth of +the corolla, above the anthers, which latter are enclosed within the tube, but +only a short way down. In the short-styled form the anthers are placed in the +mouth of the corolla above the stigma, which occupies the same position as the +anthers in the other form, being seated only a short way down the tube. +Therefore the pistil of the long-styled form does not exceed in length that of +the short-styled in nearly so great a degree as in many other Rubiaceae. +Nevertheless there is a considerable difference in the size of the pollen-grains +in the two forms; for, as Fritz Muller informs me, those of the short-styled are +to those of the long-styled as 100 to 75 in diameter. + +Houstonia coerulea (Rubiaceae). + +Professor Asa Gray has been so kind as to send me an abstract of some +observations made by Dr. Rothrock on this plant. The pistil is exserted in the +one form and the stamens in the other, as has long been observed. The stigmas of +the long-styled form are shorter, stouter, and far more hispid than in the other +form. The stigmatic hairs or papillae on the former are .04 millimetres, and on +the latter only .023 millimetres in length. In the short-styled form the anthers +are larger, and the pollen-grains, when distended with water, are to those from +the long-styled form as 100 to 72 in diameter. + +Selected capsules from some long-styled plants growing in the Botanic Gardens at +Cambridge, U.S., near where plants of the other form grew, contained on an +average 13 seeds; but these plants must have been subjected to unfavourable +conditions, for some long-styled plants in a state of nature yielded an average +of 21.5 seeds per capsule. Some short-styled plants, which had been planted by +themselves in the Botanic Gardens, where it was not likely that they would have +been visited by insects that had previously visited long-styled plants, produced +capsules, eleven of which were wholly sterile, but one contained 4, and another +8 seeds. So that the short-styled form seems to be very sterile with its own +pollen. Professor Asa Gray informs me that the other North American species of +this genus are likewise heterostyled. + +Oldenlandia [sp.?] (Rubiaceae). + +Mr. J. Scott sent me from India dried flowers of a heterostyled species of this +genus, which is closely allied to the last. The pistil in the long-styled +flowers is longer by about a quarter of its length, and the stamens shorter in +about the same proportion, than the corresponding organs in the short-styled +flowers. In the latter the anthers are longer, and the divergent stigmas +decidedly longer and apparently thinner than in the long-styled form. Owing to +the state of the specimens, I could not decide whether the stigmatic papillae +were longer in the one form than in the other. The pollen-grains, distended with +water, from the short-styled flowers were to those from the long-styled as 100 +to 78 in diameter, as deduced from the mean of ten measurements of each kind. + +Hedyotis [sp.?] (Rubiaceae). + +Fritz Muller sent me from St. Catharina, in Brazil, dried flowers of a small +delicate species, which grows on wet sand near the edges of fresh-water pools. +In the long-styled form the stigma projects above the corolla, and stands on a +level with the projecting anthers of the short-styled form; but in the latter +the stigmas stand rather beneath the level of the anthers in the other or long- +styled form, these being enclosed within the tube of the corolla. The pistil of +the long-styled form is nearly thrice as long as that of the short-styled, or, +speaking strictly, as 100 to 39; and the papillae on the stigma of the former +are broader, in the ratio of 4 to 3, but whether longer than those of the short- +styled, I could not decide. In the short-styled form, the anthers are rather +larger, and the pollen-grains are to those from the long-styled flowers, as 100 +to 88 in diameter. Fritz Muller sent me a second, small-sized species, which is +likewise heterostyled. + +Coccocypselum [sp.?] (Rubiaceae). + +Fritz Muller also sent me dried flowers of this plant from St. Catharina, in +Brazil. The exserted stigma of the long-styled form stands a little above the +level of the exserted anthers of the short-styled form; and the enclosed stigma +of the latter also stands a little above the level of the enclosed anthers in +the long-styled form. The pistil of the long-styled is about twice as long as +that of the short-styled, with its two stigmas considerably longer, more +divergent, and more curled. Fritz Muller informs me that he could detect no +difference in the size of the pollen-grains in the two forms. Nevertheless, +there can be no doubt that this plant is heterostyled. + +Lipostoma [sp.?] (Rubiaceae). + +Dried flowers of this plant, which grows in small wet ditches in St. Catharina, +in Brazil, were likewise sent me by Fritz Muller. In the long-styled form the +exserted stigma stands rather above the level of the exserted anthers of the +other form; whilst in the short-styled form it stands on a level with the +anthers of the other form. So that the want of strict correspondence in height +between the stigmas and anthers in the two forms is reversed, compared with what +occurs in Hedyotis. The long-styled pistil is to that of the short-styled as 100 +to 36 in length; and its divergent stigmas are longer by fully one-third of +their own length than those of the short-styled form. In the latter the anthers +are a little larger, and the pollen-grains are as 100 to 80 in diameter, +compared with those from the long-styled form. + +Cinchona micrantha (Rubiaceae). + +Dried specimens of both forms of this plant were sent me from Kew. (3/26. My +attention was called to this plant by a drawing copied from Howard’s +‘Quinologia’ Table 3 given by Mr. Markham in his ‘Travels in Peru’ page 539.) In +the long-styled form the apex of the stigma stands just beneath the bases of the +hairy lobes of the corolla; whilst the summits of the anthers are seated about +halfway down the tube. The pistil is in length as 100 to 38 to that of the +short-styled form. In the latter the anthers occupy the same position as the +stigma of the other form, and they are considerably longer than those of the +long-styled form. As the summit of the stigma in the short-styled form stands +beneath the bases of the anthers, which are seated halfway down the corolla, the +style has been extremely shortened in this form, its length to that of the long- +styled being, in the specimens examined, only as 5.3 to 100! The stigma, also, +in the short-styled form is very much shorter than that in the long-styled, in +the ratio of 57 to 100. The pollen grains from the short-styled flowers, after +having been soaked in water, were rather larger--in about the ratio of 100 to +91--than those from the long-styled flowers, and they were more triangular, with +the angles more prominent. As all the grains from the short-styled flowers were +thus characterised, and as they had been left in water for three days, I am +convinced that this difference in shape in the two sets of grains cannot be +accounted for by unequal distension with water. + +Besides the several Rubiaceous genera already mentioned, Fritz Muller informs me +that two or three species of Psychotria and Rudgea eriantha, natives of St. +Catharina, in Brazil, are heterostyled, as is Manettia bicolor. I may add that I +formerly fertilised with their own pollen several flowers on a plant of this +latter species in my hothouse, but they did not set a single fruit. From Wight +and Arnott’s description, there seems to be little doubt that Knoxia in India is +heterostyled; and Asa Gray is convinced that this is the case with Diodia and +Spermacoce in the United States. Lastly, from Mr. W.W. Bailey’s description, it +appears that the Mexican Bouvardia leiantha is heterostyled. (3/27. ‘Bulletin of +the Torrey Bot. Club’ 1876 page 106.)] + +Altogether we now know of 17 heterostyled genera in the great family of the +Rubiaceae; though more information is necessary with respect to some of them, +more especially those mentioned in the last paragraph, before we can feel +absolutely safe. In the ‘Genera Plantarum,’ by Bentham and Hooker, the Rubiaceae +are divided into 25 tribes, containing 337 genera; and it deserves notice that +the genera now known to be heterostyled are not grouped in one or two of these +tribes, but are distributed in no less than eight of them. From this fact we may +infer that most of the genera have acquired their heterostyled structure +independently of one another; that is, they have not inherited this structure +from some one or even two or three progenitors in common. It further deserves +notice that in the homostyled genera, as I am informed by Professor Asa Gray, +the stamens are either exserted or are included within the tube of the corolla, +in a nearly constant manner; so that this character, which is not even of +specific value in the heterostyled species, is often of generic value in other +members of the family. + + +CHAPTER IV. + +HETEROSTYLED TRIMORPHIC PLANTS. + +Lythrum salicaria. +Description of the three forms. +Their power and complex manner of fertilising one another. +Eighteen different unions possible. +Mid-styled form eminently feminine in nature. +Lythrum Graefferi likewise trimorphic. +L. thymifolia dimorphic. +L. Hyssopifolia homostyled. +Nesaea verticillata trimorphic. +Lagerstroemia, nature doubtful. +Oxalis, trimorphic species of. +O. Valdiviana. +O. Regnelli, the illegitimate unions quite barren. +O. speciosa. +O. sensitiva. +Homostyled species of Oxalis. +Pontederia, the one monocotyledonous genus known to include heterostyled +species. + +In the previous chapters various heterostyled dimorphic plants have been +described, and now we come to heterostyled trimorphic plants, or those which +present three forms. These have been observed in three families, and consist of +species of Lythrum and of the allied genus Nesaea, of Oxalis and Pontederia. In +their manner of fertilisation these plants offer a more remarkable case than can +be found in any other plant or animal. + +Lythrum salicaria. + +(FIGURE 4.10. Diagram of the flowers of the three forms of Lythrum salicaria, in +their natural position, with the petals and calyx removed on the near side: +enlarged six times. +Top: Long-styled. +Middle: Mid-styled. +Bottom: Short-styled. +The dotted lines with the arrows show the directions in which pollen must be +carried to each stigma to ensure full fertility.) + +The pistil in each form differs from that in either of the other forms, and in +each there are two sets of stamens different in appearance and function. But one +set of stamens in each form corresponds with a set in one of the other two +forms. Altogether this one species includes three females or female organs and +three sets of male organs, all as distinct from one another as if they belonged +to different species; and if smaller functional differences are considered, +there are five distinct sets of males. Two of the three hermaphrodites must +coexist, and pollen must be carried by insects reciprocally from one to the +other, in order that either of the two should be fully fertile; but unless all +three forms coexist, two sets of stamens will be wasted, and the organisation of +the species, as a whole, will be incomplete. On the other hand, when all three +hermaphrodites coexist, and pollen is carried from one to the other, the scheme +is perfect; there is no waste of pollen and no false co-adaptation. In short, +nature has ordained a most complex marriage-arrangement, namely a triple union +between three hermaphrodites,--each hermaphrodite being in its female organ +quite distinct from the other two hermaphrodites and partially distinct in its +male organs, and each furnished with two sets of males. + +The three forms may be conveniently called, from the unequal lengths of their +pistils, the LONG-STYLED, MID-STYLED, and SHORT-STYLED. The stamens also are of +unequal lengths, and these may be called the LONGEST, MID-LENGTH, and SHORTEST. +Two sets of stamens of different length are found in each form. The existence of +the three forms was first observed by Vaucher, and subsequently more carefully +by Wirtgen ; but these botanists, not being guided by any theory or even +suspicion of their functional differences, did not perceive some of the most +curious points of difference in their structure. (4/1. Vaucher ‘Hist. Phys. des +Plantes d’Europe’ tome 2 1841 page 371. Wirtgen “Ueber Lythrum salicaria und +dessen Formen” ‘Verhand. des naturhist. Vereins fur preuss. Rheinl.’ 5 Jahrgang +1848 S. 7.) I will first briefly describe the three forms by the aid of Figure +4.10, which shows the flowers, six times magnified, in their natural position, +with their petals and calyx on the near side removed. + +LONG-STYLED FORM. + +This form can be at once recognised by the length of the pistil, which is +(including the ovarium) fully one-third longer than that of the mid-styled, and +more than thrice as long as that of the short-styled form. It is so +disproportionately long, that it projects in the bud through the folded petals. +It stands out considerably beyond the mid-length stamens; its terminal portion +depends a little, but the stigma itself is slightly upturned. The globular +stigma is considerably larger than that of the other two forms, with the +papillae on its surface generally longer. The six mid-length stamens project +about two-thirds the length of the pistil, and correspond in length with the +pistil of the mid-styled form. Such correspondence in this and the two following +forms is generally very close; the difference, where there is any, being usually +in a slight excess of length in the stamens. The six shortest stamens lie +concealed within the calyx; their ends are turned up, and they are graduated in +length, so as to form a double row. The anthers of these stamens are smaller +than those of the mid-length ones. The pollen is of the same yellow colour in +both sets. H. Muller measured the pollen-grain in all three forms, and his +measurements are evidently more trustworthy than those which I formerly made, so +I will give them. (4/2. ‘Die Befruchtung der Blumen’ 1873 page 193.) The numbers +refer to divisions of the micrometer equalling 1/300 millimetres. The grains, +distended with water, from the mid-length stamens are 7 to 7 1/2, and those from +the shortest stamens 6 to 6 1/2 in diameter, or as 100 to 86. The capsules of +this form contain on an average 93 seeds: how this average was obtained will +presently be explained. As these seeds, when cleaned, seemed larger than those +from the mid-styled or short-styled forms, 100 of them were placed in a good +balance, and by the double method of weighing were found to equal 121 seeds of +the mid-styled or 142 of the short-styled; so that five long-styled seeds very +nearly equal six mid-styled or seven short-styled seeds. + +MID-STYLED FORM. + +The pistil occupies the position represented in Figure 4.10, with its extremity +considerably upturned, but to a variable degree; the stigma is seated between +the anthers of the longest and the shortest stamens. The six longest stamens +correspond in length with the pistil of the long-styled form; their filaments +are coloured bright pink; the anthers are dark-coloured, but from containing +bright-green pollen and from their early dehiscence they appear emerald-green. +Hence in general appearance these stamens are remarkably dissimilar from the +mid-length stamens of the long-styled form. The six shortest stamens are +enclosed within the calyx, and resemble in all respects the shortest stamens of +the long-styled form; both these sets correspond in length with the short pistil +of the short-styled form. The green pollen-grains of the longest stamens are 9 +to 10 in diameter, whilst the yellow grains from the shortest stamens are only +6; or as 100 to 63. But the pollen-grains from different plants appeared to me, +in this case and others, to be in some degree variable in size. The capsules +contain on an average 130 seeds; but perhaps, as we shall see, this is rather +too high an average. The seeds themselves, as before remarked, are smaller than +those of the long-styled form. + +SHORT-STYLED FORM. + +The pistil is here very short, not one-third of the length of that of the long- +styled form. It is enclosed within the calyx, which, differently from that in +the other two forms, does not enclose any anthers. The end of the pistil is +generally bent upwards at right angles. The six longest stamens, with their pink +filaments and green pollen, resemble the corresponding stamens of the mid-styled +form. But according to H. Muller, their pollen-grains are a little larger, +namely 9 1/2 to 10 1/2, instead of 9 to 10 in diameter. The six mid-length +stamens, with their uncoloured filaments and yellow pollen, resemble in the size +of their pollen-grains and in all other respects the corresponding stamens of +the long-styled form. The difference in diameter between the grains from the two +sets of anthers in the short-styled form is as 100 to 73. The capsules contain +fewer seeds on an average than those of either of the preceding forms, namely +83.5; and the seeds are considerably smaller. In this latter respect, but not in +number, there is a gradation parallel to that in the length of the pistil, the +long-styled having the largest seeds, the mid-styled the next in size, and the +short-styled the smallest. + +We thus see that this plant exists under three female forms, which differ in the +length and curvature of the style, in the size and state of the stigma, and in +the number and size of the seed. There are altogether thirty-six males or +stamens, and these can be divided into three sets of a dozen each, differing +from one another in length, curvature, and colour of the filaments--in the size +of the anthers, and especially in the colour and diameter of the pollen-grains. +Each form bears half-a-dozen of one kind of stamens and half-a-dozen of another +kind, but not all three kinds. The three kinds of stamens correspond in length +with the three pistils: the correspondence is always between half of the stamens +in two of the forms with the pistil of the third form. Table 4.a of the +diameters of the pollen-grains, after immersion in water, from both sets of +stamens in all three forms is copied from H. Muller; they are arranged in the +order of their size:-- + +TABLE 4.a. Lythrum salicaria. Diameters of pollen-grains after immersion in +water. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +Longest stamens of short-styled form : 9 1/2 : 10 1/2. +Longest stamens of mid-styled form : 9 : 10. +Mid-length stamens of long-styled form : 7 : 7 1/2. +Mid-length stamens of short-styled form : 7 : 7 1/2. +Shortest stamens of long-styled form : 6 : 6 1/2. +Shortest stamens of mid-styled form : 6 : 6. + +We here see that the largest pollen-grains come from the longest stamens, and +the least (smallest) from the shortest; the extreme difference in diameter +between them being as 100 to 60. + +The average number of seeds in the three forms was ascertained by counting them +in eight fine selected capsules taken from plants growing wild, and the result +was, as we have seen, for the long-styled (neglecting decimals) 93, mid-styled +130, and short-styled 83. I should not have trusted in these ratios had I not +possessed a number of plants in my garden which, owing to their youth, did not +yield the full complement of seed, but were of the same age and grew under the +same conditions, and were freely visited by bees. I took six fine capsules from +each, and found the average to be for the long-styled 80, for the mid-styled 97, +and for the short-styled 61. Lastly, legitimate unions effected by me between +the three forms gave, as may be seen in the following tables, for the long- +styled an average of 90 seeds, for the mid-styled 117, and for the short-styled +71. So that we have good concurrent evidence of a difference in the average +production of seed by the three forms. To show that the unions effected by me +often produced their full effect and may be trusted, I may state that one mid- +styled capsule yielded 151 good seeds, which is the same number as in the finest +wild capsule which I examined. Some artificially fertilised short- and long- +styled capsules produced a greater number of seeds than was ever observed by me +in wild plants of the same forms, but then I did not examine many of the latter. +This plant, I may add, offers a remarkable instance, how profoundly ignorant we +are of the life-conditions of a species. Naturally it grows “in wet ditches, +watery places, and especially on the banks of streams,” and though it produces +so many minute seeds, it never spreads on the adjoining land; yet, when planted +in my garden, on clayey soil lying over chalk, and which is so dry that a rush +cannot be found, it thrives luxuriantly, grows to above 6 feet in height, +produces self-sown seedlings, and (which is a severer test) is as fertile as in +a state of nature. Nevertheless it would be almost a miracle to find this plant +growing spontaneously on such land as that in my garden. + +According to Vaucher and Wirtgen, the three forms coexist in all parts of +Europe. Some friends gathered for me in North Wales a number of twigs from +separate plants growing near one another, and classified them. My son did the +same in Hampshire, and here is the result:-- + +TABLE 4.22. Lythrum salicaria. Classification according to form of flower. + +Column 1: Place of origin. +Column 2: Long-styled. +Column 3: Mid-styled. +Column 4: Short-styled. +Column 5: Total. + +North Wales : 95 : 97 : 72 : 264. +Hampshire : 53 : 38 : 38 : 129. +Total : 148 : 135 : 110 : 393. + +If twice or thrice the number had been collected, the three forms would probably +have been found nearly equal; I infer this from considering the above figures, +and from my son telling me that if he had collected in another spot, he felt +sure that the mid-styled plants would have been in excess. I several times sowed +small parcels of seed, and raised all three forms; but I neglected to record the +parent-form, excepting in one instance, in which I raised from short-styled seed +twelve plants, of which only one turned out long-styled, four mid-styled, and +seven short-styled. + +Two plants of each form were protected from the access of insects during two +successive years, and in the autumn they yielded very few capsules and presented +a remarkable contrast with the adjoining uncovered plants, which were densely +covered with capsules. In 1863 a protected long-styled plant produced only five +poor capsules; two mid-styled plants produced together the same number; and two +short-styled plants only a single one. These capsules contained very few seeds; +yet the plants were fully productive when artificially fertilised under the net. +In a state of nature the flowers are incessantly visited for their nectar by +hive- and other bees, various Diptera and Lepidoptera. (4/3. H. Muller gives a +list of the species ‘Die Befruchtung der Blumen’ page 196. It appears that one +bee, the Cilissa melanura, almost confines its visits to this plant.) The nectar +is secreted all round the base of the ovarium; but a passage is formed along the +upper and inner side of the flower by the lateral deflection (not represented in +the diagram) of the basal portions of the filaments; so that insects invariably +alight on the projecting stamens and pistil, and insert their proboscides along +the upper and inner margin of the corolla. We can now see why the ends of the +stamens with their anthers, and the ends of the pistils with their stigmas, are +a little upturned, so that they may be brushed by the lower hairy surfaces of +the insects’ bodies. The shortest stamens which lie enclosed within the calyx of +the long- and mid-styled forms can be touched only by the proboscis and narrow +chin of a bee; hence they have their ends more upturned, and they are graduated +in length, so as to fall into a narrow file, sure to be raked by the thin +intruding proboscis. The anthers of the longer stamens stand laterally farther +apart and are more nearly on the same level, for they have to brush against the +whole breadth of the insect’s body. In very many other flowers the pistil, or +the stamens, or both, are rectangularly bent to one side of the flower. This +bending may be permanent, as with Lythrum and many others, or may be effected, +as in Dictamnus fraxinella and others, by a temporary movement, which occurs in +the case of the stamens when the anthers dehisce, and in the case of the pistil +when the stigma is mature; but these two movements do not always take place +simultaneously in the same flower. Now I have found no exception to the rule, +that when the stamens and pistil are bent, they bend to that side of the flower +which secretes nectar, even though there be a rudimentary nectary of large size +on the opposite side, as in some species of Corydalis. When nectar is secreted +on all sides, they bend to that side where the structure of the flower allows +the easiest access to it, as in Lythrum, various Papilionaceae, and others. The +rule consequently is, that when the pistils and stamens are curved or bent, the +stigma and anthers are thus brought into the pathway leading to the nectary. +There are a few cases which seem to be exceptions to this rule, but they are not +so in truth; for instance, in the Gloriosa lily, the stigma of the grotesque and +rectangularly bent pistil is brought, not into any pathway from the outside +towards the nectar-secreting recesses of the flower, but into the circular route +which insects follow in proceeding from one nectary to the other. In +Scrophularia aquatica the pistil is bent downwards from the mouth of the +corolla, but it thus strikes the pollen-dusted breast of the wasps which +habitually visit these ill-scented flowers. In all these cases we see the +supreme dominating power of insects on the structure of flowers, especially of +those which have irregular corollas. Flowers which are fertilised by the wind +must of course be excepted; but I do not know of a single instance of an +irregular flower which is thus fertilised. + +Another point deserves notice. In each of the three forms two sets of stamens +correspond in length with the pistils in the other two forms. When bees suck the +flowers, the anthers of the longest stamens, bearing the green pollen, are +rubbed against the abdomen and the inner sides of the hind legs, as is likewise +the stigma of the long-styled form. The anthers of the mid-length stamens and +the stigma of the mid-styled form are rubbed against the under side of the +thorax and between the front pair of legs. And, lastly, the anthers of the +shortest stamens and the stigma of the short-styled form are rubbed against the +proboscis and chin: for the bees in sucking the flowers insert only the front +part of their heads into the flower. On catching bees, I observed much green +pollen on the inner sides of the hind legs and on the abdomen, and much yellow +pollen on the under side of the thorax. There was also pollen on the chin, and, +it may be presumed, on the proboscis, but this was difficult to observe. I had, +however, independent proof that pollen is carried on the proboscis; for a small +branch of a protected short-styled plant (which produced spontaneously only two +capsules) was accidentally left during several days pressing against the net, +and bees were seen inserting their proboscides through the meshes, and in +consequence numerous capsules were formed on this one small branch. From these +several facts it follows that insects will generally carry the pollen of each +form from the stamens to the pistil of corresponding length; and we shall +presently see the importance of this adaptation. It must not, however, be +supposed that the bees do not get more or less dusted all over with the several +kinds of pollen; for this could be seen to occur with the green pollen from the +longest stamens. Moreover a case will presently be given of a long-styled plant +producing an abundance of capsules, though growing quite by itself, and the +flowers must have been fertilised by their own kinds of pollen; but these +capsules contained a very poor average of seed. Hence insects, and chiefly bees, +act both as general carriers of pollen, and as special carriers of the right +sort. + +Wirtgen remarks on the variability of this plant in the branching of the stem, +in the length of the bracteae, size of the petals, and in several other +characters. (4/4. ‘Verhand. des naturhist. Vereins fur Pr. Rheinl.’ 5 Jahrgang +1848 pages 11, 13.) The plants which grew in my garden had their leaves, which +differed much in shape, arranged oppositely, alternately, or in whorls of three. +In this latter case the stems were hexagonal; those of the other plants being +quadrangular. But we are concerned chiefly, with the reproductive organs: the +upward bending of the pistil is variable, and especially in the short-styled +form, in which it is sometimes straight, sometimes slightly curved, but +generally bent at right angles. The stigma of the long-styled pistil frequently +has longer papillae or is rougher than that of the mid-styled, and the latter +than that of the short-styled; but this character, though fixed and uniform in +the two forms of Primula veris, etc., is here variable, for I have seen mid- +styled stigmas rougher than those of the long-styled. (4/5. The plants which I +observed grew in my garden, and probably varied rather more than those growing +in a state of nature. H. Muller has described the stigmas of all three forms +with great care, and he appears to have found the stigmatic papillae differing +constantly in length and structure in the three forms, being longest in the +long-styled form.) The degree to which the longest and mid-length stamens are +graduated in length and have their ends upturned is variable; sometimes all are +equally long. The colour of the green pollen in the longest stamens is variable, +being sometimes pale greenish-yellow; in one short-styled plant it was almost +white. The grains vary a little in size: I examined one short-styled plant with +the grains from the mid-length and shortest anthers of the same size. We here +see great variability in many important characters; and if any of these +variations were of service to the plant, or were correlated with useful +functional differences, the species is in that state in which natural selection +might readily do much for its modification. + +ON THE POWER OF MUTUAL FERTILISATION BETWEEN THE THREE FORMS. + +Nothing shows more clearly the extraordinary complexity of the reproductive +system of this plant, than the necessity of making eighteen distinct unions in +order to ascertain the relative fertilising power of the three forms. Thus the +long-styled form has to be fertilised with pollen from its own two kinds of +anthers, from the two in the mid-styled, and from the two in the short-styled +form. The same process has to be repeated with the mid-styled and short-styled +forms. It might have been thought sufficient to have tried on each stigma the +green pollen, for instance, from either the mid- or short-styled longest +stamens, and not from both; but the result proves that this would have been +insufficient, and that it was necessary to try all six kinds of pollen on each +stigma. As in fertilising flowers there will always be some failures, it would +have been advisable to have repeated each of the eighteen unions a score of +times; but the labour would have been too great; as it was, I made 223 unions, +i.e. on an average I fertilised above a dozen flowers in the eighteen different +methods. Each flower was castrated; the adjoining buds had to be removed, so +that the flowers might be safely marked with thread, wool, etc.; and after each +fertilisation the stigma was examined with a lens to see that there was +sufficient pollen on it. Plants of all three forms were protected during two +years by large nets on a framework; two plants were used during one or both +years, in order to avoid any individual peculiarity in a particular plant. As +soon as the flowers had withered, the nets were removed; and in the autumn the +capsules were daily inspected and gathered, the ripe seeds being counted under +the microscope. I have given these details that confidence may be placed in the +following tables, and as some excuse for two blunders which, I believe, were +made. These blunders are referred to, with their probable cause, in two +footnotes to the tables. The erroneous numbers, however, are entered in the +tables, that it may not be supposed that I have in any one instance tampered +with the results. + +A few words explanatory of the three tables must be given. Each is devoted to +one of the three forms, and is divided into six compartments. The two upper ones +in each table show the number of good seeds resulting from the application to +the stigma of pollen from the two sets of stamens which correspond in length +with the pistil of that form, and which are borne by the other two forms. Such +unions are of a legitimate nature. The two next lower compartments show the +result of the application of pollen from the two sets of stamens, not +corresponding in length with the pistil, and which are borne by the other two +forms. These unions are illegitimate. The two lowest compartments show the +result of the application of each form’s own two kinds of pollen from the two +sets of stamens belonging to the same form, and which do not equal the pistil in +length. These unions are likewise illegitimate. The term own-form pollen here +used does not mean pollen from the flower to be fertilised--for this was never +used--but from another flower on the same plant, or more commonly from a +distinct plant of the same form. The figure “0” means that no capsule was +produced, or if a capsule was produced that it contained no good seed. In some +part of each row of figures in each compartment, a short horizontal line may be +seen; the unions above this line were made in 1862, and below it in 1863. It is +of importance to observe this, as it shows that the same general result was +obtained during two successive years; but more especially because 1863 was a +very hot and dry season, and the plants had occasionally to be watered. This did +not prevent the full complement of seed being produced from the more fertile +unions; but it rendered the less fertile ones even more sterile than they +otherwise would have been. I have seen striking instances of this fact in making +illegitimate and legitimate unions with Primula; and it is well known that the +conditions of life must be highly favourable to give any chance of success in +producing hybrids between species which are crossed with difficulty. + +TABLE 4.23. Lythrum salicaria, long-styled form. + +TABLE 4.23.1. Legitimate union. + +13 flowers fertilised by the longest stamens of the mid-styled. These stamens +equal in length the pistil of the long-styled. + +Product of good seed in each capsule. + + 36 53 + 81 0 + 0 0 + 0 0 + 0 0 + - 0 + 45 + 41 + +38 percent of these flowers yielded capsules. Each capsule contained, on an +average, 51.2 seeds. + +TABLE 4.23.2. Legitimate union. + +13 flowers fertilised by the longest stamens of the short-styled. These stamens +equal in length the pistil of the long-styled. + +Product of good seed in each capsule. + + 159 104 + 43 119 + 96 poor seed. 96 + 103 99 + 0 131 + 0 116 + - + 114 + +84 percent of these flowers yielded capsules. Each capsule contained, on an +average, 107.3 seeds. + +TABLE 4.23.3. Illegitimate union. + +14 flowers fertilised by the shortest stamens of the mid-styled. + + 3 0 + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.23.4. Illegitimate union. + +12 flowers fertilised by the mid-length stamens of the short-styled. + + 20 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.23.5. Illegitimate union. + +15 flowers fertilised by own-form mid-length stamens. + + 2 - + 10 0 + 23 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 + +Too sterile for any average. + +TABLE 4.23.6. Illegitimate union. + +15 flowers fertilised by own-form shortest stamens. + + 4 - + 8 0 + 4 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 + +Too sterile for any average. + +Besides the above experiments, I fertilised a considerable number of long-styled +flowers with pollen, taken by a camel’s-hair brush, from both the mid-length and +shortest stamens of their own form: only 5 capsules were produced, and these +yielded on an average 14.5 seeds. In 1863 I tried a much better experiment: a +long-styled plant was grown by itself, miles away from any other plant, so that +the flowers could have received only their own two kinds of pollen. The flowers +were incessantly visited by bees, and their stigmas must have received +successive applications of pollen on the most favourable days and at the most +favourable hours: all who have crossed plants know that this highly favours +fertilisation. This plant produced an abundant crop of capsules; I took by +chance 20 capsules, and these contained seeds in number as follows:-- + + 20 20 35 21 19 + 26 24 12 23 10 + 7 30 27 29 13 + 20 12 29 19 35 + +This gives an average of 21.5 seeds per capsule. As we know that the long-styled +form, when standing near plants of the other two forms and fertilised by +insects, produces on an average 93 seeds per capsule, we see that this form, +fertilised by its own two pollens, yields only between one-fourth and one-fifth +of the full number of seed. I have spoken as if the plant had received both its +own kinds of pollen, and this is, of course, possible; but, from the enclosed +position of the shortest stamens, it is much more probable that the stigma +received exclusively pollen from the mid-length stamens; and this, as may be +seen in Table 4.23.5, is the more fertile of the two self-unions. + +TABLE 4.24. Lythrum salicaria, mid-styled form. + +TABLE 4.24.1. Legitimate union. + +12 flowers fertilised by the mid-length stamens of the long-styled. These +stamens equal in length the pistil of the mid-styled. + +Product of good seed in each capsule. + + 138 122 + 149 50 + 147 151 + 109 119 + 133 138 + 144 0 + - + +92 percent of these flowers (probably 100 per cent) yielded capsules. Each +capsule contained, on an average, 127.3 seeds. + +TABLE 4.24.2. Legitimate union. + +12 flowers fertilised by the mid-length stamens of the short-styled. These +stamens equal in length the pistil of the mid-styled. + +Product of good seed in each capsule. + + 112 109 + 130 143 + 143 124 + 100 145 + 33 12 + - 141 + 104 + +100 percent of these flowers yielded capsules. Each capsule contained, on an +average, 108.0 seeds; or, excluding capsules with less than 20 seeds, the +average is 116.7 seeds. + +TABLE 4.24.3. Illegitimate union. + +13 flowers fertilised by the shortest stamens of the long-styled. + + 83 12 + 0 19 + 0 85 seeds small and poor. + - 0 + 44 0 + 44 0 + 45 0 + +54 percent of these flowers yielded capsules. Each capsule contained, on an +average, 47.4 seeds; or, excluding capsules with less than 20 seeds, the average +is 60.2 seeds. + +TABLE 4.24.4. Illegitimate union. + +15 flowers fertilised by the longest stamens of the short-styled. + + 130 86 + 115 113 + 14 29 + 6 17 + 2 113 + 9 79 + - 128 + 132 0 + +93 percent of these flowers yielded capsules. Each capsule contained, on an +average, 69.5 seeds; or, excluding capsules with less than 20 seeds, the average +is 102.8 seeds. + +TABLE 4.24.5. Illegitimate union. + +12 flowers fertilised by own-form longest stamens. + + 92 0 + 9 0 + 63 0 + - 0 + 136?* 0 + 0 0 + 0 + +(4/6. * I have hardly a doubt that this result of 136 seeds in Table 4.24.5 was +due to a gross error. The flowers to be fertilised by their own longest stamens +were first marked by “white thread,” and those by the mid-length stamens of the +long-styled form by “white silk;” a flower fertilised in the later manner would +have yielded about 136 seeds, and it may be observed that one such pod is +missing, namely at the bottom of Table 4.24.1. Therefore I have hardly any doubt +that I fertilised a flower marked with “white thread” as if it had been marked +with “white silk.” With respect to the capsule which yielded 92 seeds, in the +same column with that which yielded 136, I do not know what to think. I +endeavoured to prevent pollen dropping from an upper to a lower flower, and I +tried to remember to wipe the pincers carefully after each fertilisation; but in +making eighteen different unions, sometimes on windy days, and pestered by bees +and flies buzzing about, some few errors could hardly be avoided. One day I had +to keep a third man by me all the time to prevent the bees visiting the +uncovered plants, for in a few seconds’ time they might have done irreparable +mischief. It was also extremely difficult to exclude minute Diptera from the +net. In 1862 I made the great mistake of placing a mid-styled and long-styled +under the same huge net: in 1863 I avoided this error.) + +Excluding the capsule with 136 seeds, 25 percent of the flowers yielded +capsules, and each capsule contained, on an average, 54.6 seeds; or, excluding +capsules with less than 20 seeds, the average is 77.5. + +TABLE 4.24.6. Illegitimate union. + +12 flowers fertilised by own-form shortest stamens. + + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 0 + 0 + +Not one flower yielded a capsule. + +Besides the experiments in Table 4.24, I fertilised a considerable number of +mid-styled flowers with pollen, taken by a camel’s-hair brush, from both the +longest and shortest stamens of their own form: only 5 capsules were produced, +and these yielded on an average 11.0 seeds. + +TABLE 4.25. Lythrum salicaria, short-styled form. + +TABLE 4.25.1. Legitimate union. + +12 flowers fertilised by the shortest stamens of the long-styled. These stamens +equal in length the pistil of the short-styled. + + 69 56 + 61 88 + 88 112 + 66 111 + 0 62 + 0 100 + - + +83 percent of the flowers yielded capsules. Each capsule contained, on an +average, 81.3 seeds. + +TABLE 4.25.2. Legitimate union. + +13 flowers fertilised by the shortest stamens of the mid-styled. These stamens +equal in length the pistil of the short-styled. + + 93 69 + 77 69 + 48 53 + 43 9 + 0 0 + 0 0 + - 0 + +61 percent of the flowers yielded capsules. Each capsule contained, on an +average, 64.6 seeds. + +TABLE 4.25.3. Illegitimate union. + +10 flowers fertilised by the mid-length stamens of the long-styled. + + 0 14 + 0 0 + 0 0 + 0 0 + - 0 + 23 + +Too sterile for any average. + +TABLE 4.25.4. Illegitimate union. +10 flowers fertilised by the longest stamens of the mid-styled. + + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 + +Too sterile for any average. + +TABLE 4.25.5. Illegitimate union. + +10 flowers fertilised by own-form longest stamens. + + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.25.6. Illegitimate union. + +10 flowers fertilised by own-form mid-length stamens. + + 64?* 0 + 0 0 + 0 0 + - 0 + 21 0 + 9 + +(4/7. *I suspect that by mistake I fertilised this flower in Table 4.25.6 with +pollen from the shortest stamens of the long-styled form, and it would then have +yielded about 64 seeds. Flowers to be thus fertilised were marked with black +silk; those with pollen from the mid-length stamens of the short-styled with +black thread; and thus probably the mistake arose.) + +Too sterile for any average. + +Besides the experiments in the table, I fertilised a number of flowers without +particular care with their own two kinds of pollen, but they did not produce a +single capsule. + +SUMMARY OF THE RESULTS. + +LONG-STYLED FORM. + +Twenty-six flowers fertilised legitimately by the stamens of corresponding +length, borne by the mid-and short-styled forms, yielded 61.5 per cent of +capsules, which contained on an average 89.7 seeds. + +Twenty-six long-styled flowers fertilised illegitimately by the other stamens of +the mid-and short-styled forms yielded only two very poor capsules. + +Thirty long-styled flowers fertilised illegitimately by their own-form two sets +of stamens yielded only eight very poor capsules; but long-styled flowers +fertilised by bees with pollen from their own stamens produced numerous capsules +containing on an average 21.5 seeds. + +MID-STYLED FORM. + +Twenty-four flowers legitimately fertilised by the stamens of corresponding +length, borne by the long and short-styled forms, yielded 96 (probably 100) per +cent of capsules, which contained (excluding one capsule with 12 seeds) on an +average 117.2 seeds. + +Fifteen mid-styled flowers fertilised illegitimately by the longest stamens of +the short-styled form yielded 93 per cent of capsules, which (excluding four +capsules with less than 20 seeds) contained on an average 102.8 seeds. + +Thirteen mid-styled flowers fertilised illegitimately by the mid-length stamens +of the long-styled form yielded 54 per cent of capsules, which (excluding one +with 19 seeds) contained on an average 60.2 seeds. + +Twelve mid-styled flowers fertilised illegitimately by their own-form longest +stamens yielded 25 per cent of capsules, which (excluding one with 9 seeds) +contained on an average 77.5 seeds. + +Twelve mid-styled flowers fertilised illegitimately by their own-form shortest +stamens yielded not a single capsule. + +SHORT-STYLED FORM. + +Twenty-five flowers fertilised legitimately by the stamens of corresponding +length, borne by the long and mid-styled forms, yielded 72 per cent of capsules, +which (excluding one capsule with only 9 seeds) contained on an average 70.8 +seeds. + +Twenty short-styled flowers fertilised illegitimately by the other stamens of +the long and mid-styled forms yielded only two very poor capsules. + +Twenty short-styled flowers fertilised illegitimately by their own stamens +yielded only two poor (or perhaps three) capsules. + +If we take all six legitimate unions together, and all twelve illegitimate +unions together, we get the following results: + +TABLE 4.26. + +Column 1: Nature of union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. +Column 5: Average Number of Seeds per Flower fertilised. + +The six legitimate unions : 75 : 56 : 96.29 : 71.89. +The twelve illegitimate unions : 146 : 36 : 44.72 : 11.03. + +Therefore the fertility of the legitimate unions to that of the illegitimate, as +judged by the proportion of the fertilised flowers which yielded capsules, is as +100 to 33; and judged by the average number of seeds per capsule, as 100 to 46. + +From this summary and the several foregoing tables we see that it is only pollen +from the longest stamens which can fully fertilise the longest pistil; only that +from the mid-length stamens, the mid-length pistil; and only that from the +shortest stamens, the shortest pistil. And now we can comprehend the meaning of +the almost exact correspondence in length between the pistil in each form and a +set of six stamens in two of the other forms; for the stigma of each form is +thus rubbed against that part of the insect’s body which becomes charged with +the proper pollen. It is also evident that the stigma of each form, fertilised +in three different ways with pollen from the longest, mid-length, and shortest +stamens, is acted on very differently, and conversely that the pollen from the +twelve longest, twelve mid-length, and twelve shortest stamens acts very +differently on each of the three stigmas; so that there are three sets of female +and of male organs. Moreover, in most cases the six stamens of each set differ +somewhat in their fertilising power from the six corresponding ones in one of +the other forms. We may further draw the remarkable conclusion that the greater +the inequality in length between the pistil and the set of stamens, the pollen +of which is employed for its fertilisation, by so much is the sterility of the +union increased. There are no exceptions to this rule. To understand what +follows the reader should look to Tables 4.23, 4.24 and 4.25, and to the diagram +Figure 4.10. In the long-styled form the short stamens obviously differ in +length from the pistil to a greater degree than do the mid-length stamens; and +the capsules produced by the use of pollen from the shortest stamens contain +fewer seeds than those produced by the pollen from the mid-length stamens. The +same result follows with the long-styled form, from the use of the pollen of +shortest stamens of the mid-styled form and of the mid-length stamens of the +short-styled form. The same rule also holds good with the mid-styled and short- +styled forms, when illegitimately fertilised with pollen from the stamens more +or less unequal in length to their pistils. Certainly the difference in +sterility in these several cases is slight; but, as far as we are enabled to +judge, it always increases with the increasing inequality of length between the +pistil and the stamens which are used in each case. + +The correspondence in length between the pistil in each form and a set of +stamens in the other two forms, is probably the direct result of adaptation, as +it is of high service to the species by leading to full and legitimate +fertilisation. But the rule of the increased sterility of the illegitimate +unions according to the greater inequality in length between the pistils and +stamens employed for the union can be of no service. With some heterostyled +dimorphic plants the difference of fertility between the two illegitimate unions +appears at first sight to be related to the facility of self-fertilisation; so +that when from the position of the parts the liability in one form to self- +fertilisation is greater than in the other, a union of this kind has been +checked by having been rendered the more sterile of the two. But this +explanation does not apply to Lythrum; thus the stigma of the long-styled form +is more liable to be illegitimately fertilised with pollen from its own mid- +length stamens, or with pollen from the mid-length stamens of the short-styled +form, than by its own shortest stamens or those of the mid-styled form; yet the +two former unions, which it might have been expected would have been guarded +against by increased sterility, are much less likely to be effected. The same +relation holds good even in a more striking manner with the mid-styled form, and +with the short-styled form as far as the extreme sterility of all its +illegitimate unions allows of any comparison. We are led, therefore, to conclude +that the rule of increased sterility in accordance with increased inequality in +length between the pistils and stamens, is a purposeless result, incidental on +those changes through which the species has passed in acquiring certain +characters fitted to ensure the legitimate fertilisation of the three forms. + +Another conclusion which may be drawn from Tables 4.23, 4.24, and 4.25, even +from a glance at them, is that the mid-styled form differs from both the others +in its much higher capacity for fertilisation in various ways. Not only did the +twenty-four flowers legitimately fertilised by the stamens of corresponding +lengths, all, or all but one, yield capsules rich in seed; but of the other four +illegitimate unions, that by the longest stamens of the short-styled form was +highly fertile, though less so than the two legitimate unions, and that by the +mid-length stamens of the long-styled form was fertile to a considerable degree; +the remaining two illegitimate unions, namely, with this form’s own pollen, were +sterile, but in different degrees. So that the mid-styled form, when fertilised +in the six different possible methods, evinces five grades of fertility. By +comparing Tables 4.24.3 and 4.24.6 we may see that the action of the pollen from +the shortest stamens of the long-styled and mid-styled forms is widely +different; in the one case above half the fertilised flowers yielded capsules +containing a fair number of seeds; in the other case not one capsule was +produced. So, again, the green, large-grained pollen from the longest stamens of +the short-styled and mid-styled forms (in Tables 4.24.4 and 4.24.5) is widely +different. In both these cases the difference in action is so plain that it +cannot be mistaken, but it can be corroborated. If we look to Table 4.25 to the +legitimate action of the shortest stamens of the long- and mid-styled forms on +the short-styled form, we again see a similar but slighter difference, the +pollen of the shortest stamens of the mid-styled form yielding a smaller average +of seed during the two years of 1862 and 1863 than that from the shortest +stamens of the long-styled form. Again, if we look to Table 4.23, to the +legitimate action on the long-styled form of the green pollen of the two sets of +longest stamens, we shall find exactly the same result, namely, that the pollen +from the longest stamens of the mid-styled form yielded during both years fewer +seeds than that from the longest stamens of the short-styled form. Hence it is +certain that the two kinds of pollen produced by the mid-styled form are less +potent than the two similar kinds of pollen produced by the corresponding +stamens of the other two forms. + +In close connection with the lesser potency of the two kinds of pollen of the +mid-styled form is the fact that, according to H. Muller, the grains of both are +a little less in diameter than the corresponding grains produced by the other +two forms. Thus the grains from the longest stamens of the mid-styled form are 9 +to 10, whilst those from the corresponding stamens of the short-styled form are +9 1/2 to 10 1/2 in diameter. So, again, the grains from the shortest stamens of +the mid-styled are 6, whilst those from the corresponding stamens of the long- +styled are 6 to 6 1/2 in diameter. It would thus appear as if the male organs of +the mid-styled form, though not as yet rudimentary, were tending in this +direction. On the other hand, the female organs of this form are in an eminently +efficient state, for the naturally fertilised capsules yielded a considerably +larger average number of seeds than those of the other two forms--almost every +flower which was artificially fertilised in a legitimate manner produced a +capsule--and most of the illegitimate unions were highly productive. The mid- +styled form thus appears to be highly feminine in nature; and although, as just +remarked, it is impossible to consider its two well-developed sets of stamens +which produce an abundance of pollen as being in a rudimentary condition, yet we +can hardly avoid connecting as balanced the higher efficiency of the female +organs in this form with the lesser efficiency and lesser size of its two kinds +of pollen-grains. The whole case appears to me a very curious one. + +It may be observed in Tables 4.23 to 4.25 that some of the illegitimate unions +yielded during neither year a single seed; but, judging from the long-styled +plants, it is probable, if such unions were to be effected repeatedly by the aid +of insects under the most favourable conditions, some few seeds would be +produced in every case. Anyhow, it is certain that in all twelve illegitimate +unions the pollen-tubes penetrated the stigma in the course of eighteen hours. +At first I thought that two kinds of pollen placed together on the same stigma +would perhaps yield more seed than one kind by itself; but we have seen that +this is not so with each form’s own two kinds of pollen; nor is it probable in +any case, as I occasionally got, by the use of a single kind of pollen, fully as +many seeds as a capsule naturally fertilised ever produces. Moreover the pollen +from a single anther is far more than sufficient to fertilise fully a stigma; +hence, in this as with so many other plants, more than twelve times as much of +each kind of pollen is produced as is necessary to ensure the full fertilisation +of each form. From the dusted condition of the bodies of the bees which I caught +on the flowers, it is probable that pollen of various kinds is often deposited +on all three stigmas; but from the facts already given with respect to the two +forms of Primula, there can hardly be a doubt that pollen from the stamens of +corresponding length placed on a stigma would be prepotent over any other kind +of pollen and obliterate its effects,--even if the latter had been placed on the +stigma some hours previously. + +Finally, it has now been shown that Lythrum salicaria presents the extraordinary +case of the same species bearing three females, different in structure and +function, and three or even five sets (if minor differences are considered) of +males; each set consisting of half-a-dozen, which likewise differ from one +another in structure and function. + +[Lythrum Graefferi. + +I have examined numerous dried flowers of this species, each from a separate +plant, sent me from Kew. Like L. salicaria, it is trimorphic, and the three +forms apparently occur in about equal numbers. In the long-styled form the +pistil projects about one-third of the length of the calyx beyond its mouth, and +is therefore relatively much shorter than in L. salicaria; the globose and +hirsute stigma is larger than that of the other two forms; the six mid-length +stamens, which are graduated in length, have their anthers standing close above +and close beneath the mouth of the calyx; the six shortest stamens rise rather +above the middle of the calyx. In the mid-styled form the stigma projects just +above the mouth of the calyx, and stands almost on a level with the mid-length +stamens of the long and short-styled forms; its own longest stamens project well +above the mouth of the calyx, and stand a little above the level of the stigma +of the long-styled form. In short, without entering on further details, there is +a close general correspondence in structure between this species and L. +salicaria, but with some differences in the proportional lengths of the parts. +The fact of each of the three pistils having two sets of stamens of +corresponding lengths, borne by the two other forms, comes out conspicuously. In +the mid-styled form the pollen-grains from the longest stamens are nearly double +the diameter of those from the shortest stamens; so that there is a greater +difference in this respect than in L. salicaria. In the long-styled form, also, +the difference in diameter between the pollen-grains of the mid-length and +shortest stamens is greater than in L. salicaria. These comparisons, however, +must be received with caution, as they were made on specimens soaked in water +after having been long kept dry. + +Lythrum thymifolia. + +This form, according to Vaucher, is dimorphic, like Primula, and therefore +presents only two forms. (4/8. ‘Hist. Phys. des Plantes d’Europe’ tome 2 1841 +pages 369, 371.) I received two dried flowers from Kew, which consisted of the +two forms; in one the stigma projected far beyond the calyx, in the other it was +included within the calyx; in this latter form the style was only one-fourth of +the length of that in the other form. There are only six stamens; these are +somewhat graduated in length, and their anthers in the short-styled form stand a +little above the stigma, but yet by no means equal in length the pistil of the +long-styled form. In the latter the stamens are rather shorter than those in the +other form. The six stamens alternate with the petals, and therefore correspond +homologically with the longest stamens of L. salicaria and L. Graefferi. + +Lythrum hyssopifolia. + +This species is said by Vaucher, but I believe erroneously, to be dimorphic. I +have examined dried flowers from twenty-two separate plants from various +localities, sent to me by Mr. Hewett C. Watson, Professor Babington, and others. +These were all essentially alike, so that the species cannot be heterostyled. +The pistil varies somewhat in length, but when unusually long, the stamens are +likewise generally long; in the bud the stamens are short; and Vaucher was +perhaps thus deceived. There are from six to nine stamens, graduated in length. +The three stamens, which vary in being either present or absent, correspond with +the six shorter stamens of L. salicaria and with the six which are always absent +in L. thymifolia. The stigma is included within the calyx, and stands in the +midst of the anthers, and would generally be fertilised by them; but as the +stigma and anthers are upturned, and as, according to Vaucher, there is a +passage left in the upper side of the flower to the nectary, there can hardly be +a doubt that the flowers are visited by insects, and would occasionally be +cross-fertilised by them, as surely as the flowers of the short-styled L. +salicaria, the pistil of which and the corresponding stamens in the other two +forms closely resemble those of L. hyssopifolia. According to Vaucher and Lecoq, +this species, which is an annual, generally grows almost solitarily (4/9. +‘Geograph. Bot. de l’Europe’ tome 6 1857 page 157.), whereas the three preceding +species are social; and this fact alone would almost have convinced me that L. +hyssopifolia was not heterostyled, as such plants cannot habitually live +isolated any better than one sex of a dioecious species. + +We thus see that within this genus some species are heterostyled and trimorphic; +one apparently heterostyled and dimorphic, and one homostyled. + +Nesaea verticillata. + +I raised a number of plants from seed sent me by Professor Asa Gray, and they +presented three forms. These differed from one another in the proportional +lengths of their organs of fructification and in all respects, in very nearly +the same way as the three forms of Lythrum Graefferi. The green pollen-grains +from the longest stamens, measured along their longer axis and not distended +with water, were 13/7000 of an inch in length; those from the mid-length stamens +9 to 10/7000, and those from the shortest stamens 8 to 9/7000 of an inch. So +that the largest pollen-grains are to the smallest in diameter as 100 to 65. +This plant inhabits swampy ground in the United States. According to Fritz +Muller, a species of this genus in St. Catharina, in Southern Brazil, is +homostyled. (4/10. ‘Botanische Zeitung’ 1868 page 112.) + +Lagerstroemia Indica. + +This plant, a member of the Lythraceae, may perhaps be heterostyled, or may +formerly have been so. It is remarkable from the extreme variability of its +stamens. On a plant, growing in my hothouse, the flowers included from nineteen +to twenty-nine short stamens with yellow pollen, which correspond in position +with the shortest stamens of Lythrum; and from one to five (the latter number +being the commonest) very long stamens, with thick flesh-coloured filaments and +green pollen, corresponding in position with the longest stamens of Lythrum. In +one flower, two of the long stamens produced green, while a third produced +yellow pollen, although the filaments of all three were thick and flesh- +coloured. In an anther of another flower, one cell contained green and the other +yellow pollen. The green and yellow pollen-grains from the stamens of different +length are of the same size. The pistil is a little bowed upwards, with the +stigma seated between the anthers of the short and long stamens, so that this +plant was mid-styled. Eight flowers were fertilised with green pollen, and six +with yellow pollen, but not one set fruit. This latter fact by no means proves +that the plant is heterostyled, as it may belong to the class of self-sterile +species. Another plant growing in the Botanic Gardens at Calcutta, as Mr. J. +Scott informs me, was long-styled, and it was equally sterile with its own +pollen; whilst a long-styled plant of L. reginae, though growing by itself, +produced fruit. I examined dried flowers from two plants of L. parviflora, both +of which were long-styled, and they differed from L. Indica in having eight long +stamens with thick filaments, and a crowd of shorter stamens. Thus the evidence +whether L. Indica is heterostyled is curiously conflicting: the unequal number +of the short and long stamens, their extreme variability, and especially the +fact of their pollen-grains not differing in size, are strongly opposed to this +belief; on the other hand, the difference in length of the pistils in two of the +plants, their sterility with their own pollen, and the difference in length and +structure of the two sets of stamens in the same flower, and in the colour of +their pollen, favour the belief. We know that when plants of any kind revert to +a former condition, they are apt to be highly variable, and the two halves of +the same organ sometimes differ much, as in the case of the above-described +anther of the Lagerstroemia; we may therefore suspect that this species was once +heterostyled, and that it still retains traces of its former state, together +with a tendency to revert more completely to it. It deserves notice, as bearing +on the nature of Lagerstroemia, that in Lythrum hyssopifolia, which is a +homostyled species, some of the shorter stamens vary in being either present or +absent; and that these same stamens are altogether absent in L. thymifolia. In +another genus of the Lythraceae, namely Cuphea, three species raised by me from +seed certainly were homostyled; nevertheless their stamens consisted of two +sets, differing in length and in the colour and thickness of their filaments, +but not in the size or colour of their pollen-grains; so that they thus far +resembled the stamens of Lagerstroemia. I found that Cuphea purpurea was highly +fertile with its own pollen when artificially aided, but sterile when insects +were excluded. (4/11. Mr. Spence informs me that in several species of the genus +Mollia (Tiliaceae) which he collected in South America, the stamens of the five +outer cohorts have purplish filaments and green pollen, whilst the stamens of +the five inner cohorts have yellow pollen. He therefore suspected that these +species might prove to be heterostyled and trimorphic: but he did not notice the +length of the pistils. In the allied Luhea the outer purplish stamens are +destitute of anthers. I procured some specimens of Mollia lepidota and speciosa +from Kew, but could not make out that their pistils differed in length in +different plants; and in all those which I examined the stigma stood close +beneath the uppermost anthers. The numerous stamens are graduated in length, and +the pollen-grains from the longest and shortest ones did not present any marked +difference in diameter. Therefore these species do not appear to be +heterostyled.)] + +Oxalis (Geraniaceae). + +(Figure 4.11. Oxalis speciosa (with the petals removed). +Left: Long-styled. +Centre: Mid-styled. +Right: Short-styled. +S, S, S, stigmas. The dotted lines with arrows show which pollen must be carried +to the stigmas for legitimate fertilisation.) + +In 1863 Mr. Roland Trimen wrote to me from the Cape of Good Hope that he had +there found species of Oxalis which presented three forms; and of these he +enclosed drawings and dried specimens. Of one species he collected 43 flowers +from distinct plants, and they consisted of 10 long-styled, 12 mid-styled, and +21 short-styled. Of another species he collected 13 flowers, consisting of 3 +long-styled, 7 mid-styled, and 3 short-styled. In 1866 Professor Hildebrand +proved by an examination of the specimens in several herbaria that 20 species +are certainly heterostyled and trimorphic, and 51 others almost certainly so. +(4/12. ‘Monatsber. der Akad. der Wiss. Berlin’ 1866 pages 352, 372. He gives +drawings of the three forms at page 42 of his ‘Geschlechter-Vertheilung’ etc. +1867.) He also made some interesting observations on living plants belonging to +one form alone; for at that time he did not possess the three forms of any +living species. During the years 1864 to 1868 I occasionally experimented on +Oxalis speciosa, but until now have never found time to publish the results. In +1871 Hildebrand published an admirable paper in which he shows in the case of +two species of Oxalis, that the sexual relations of the three forms are nearly +the same as in Lythrum salicaria. (4/13. ‘Botanische Zeitung’ 1871 pages 416 and +432.) I will now give an abstract of his observations, and afterwards of my own +less complete ones. I may premise that in all the species seen by me, the +stigmas of the five straight pistils of the long-styled form stand on a level +with the anthers of the longest stamens in the two other forms. In the mid- +styled form, the stigmas pass out between the filaments of the longest stamens +(as in the short-styled form of Linum); and they stand rather nearer to the +upper anthers than to the lower ones. In the short-styled form, the stigmas also +pass out between the filaments nearly on a level with the tips of the sepals. +The anthers in this latter form and in the mid-styled rise to the same height as +the corresponding stigmas in the other two forms. + +Oxalis Valdiviana. + +This species, an inhabitant of the west coast of South America, bears yellow +flowers. Hildebrand states that the stigmas of the three forms do not differ in +any marked manner, but that the pistil of the short-styled form alone is +destitute of hairs. The diameters of the pollen-grains are as follows:-- + +Table 4.b. Oxalis Valdiviana. Diameters of pollen-grains in divisions of the +micrometer. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +From the: +Longest stamens of short-styled form : 8 to 9. +Mid-length stamens of short-styled form : 7 to 8. +Longest stamens of mid-styled form : 8. +Shortest stamens of mid-styled form : 8. +Mid-length stamens of long-styled form : 7. +Shortest stamens of long-styled form : 6. + +Therefore the extreme difference in diameter is as 8.5 to 6, or as 100 to 71. +The results of Hildebrand’s experiments are given in Table 4.27, drawn up in +accordance with my usual plan. + +Table 4.27. Oxalis Valdiviana (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +28 : 28 : 11.9. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +21 : 21 : 12.0. + +Long-styled by pollen of own and own-form mid-length stamens. Illegitimate union +: +40 : 2 : 5.5. + +Long-styled by pollen of own and own-form shortest stamens. Illegitimate union : +26 : 0 : 0. + +Long-styled by pollen of shortest stamens of short-styled. Illegitimate union : +16 : 1 : 1. + +Long-styled by pollen of shortest stamens of mid-styled. Illegitimate union : +9 : 0 : 0. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +38 : 38 : 11.3. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +23 : 23 : 10.4. + +Mid-styled by pollen of own and own-form longest stamens. Illegitimate union : +52 : 0 : 0. + +Mid-styled by pollen of own and own-form shortest stamens. Illegitimate union : +30 : 1 : 6. + +Mid-styled by pollen of shortest stamens of long-styled. Illegitimate union : +16 : 0 : 0. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +16 : 2 : 2.5. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +18 : 18 : 11.0. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +10 : 10 : 11.3. + +Short-styled by pollen of own and own-form longest stamens. Illegitimate union : +21 : 0 : 0. + +Short-styled by pollen of own and own-form mid-length stamens. Illegitimate +union : +22 : 0 : 0. + +Short-styled by pollen of longest stamens of mid-styled. Illegitimate union: +4 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +3 : 0 : 0. + +We here have the remarkable result that every one of 138 legitimately fertilised +flowers on the three forms yielded capsules, containing on an average 11.33 +seeds. Whilst of the 255 illegitimately fertilised flowers, only 6 yielded +capsules, which contained 3.83 seeds on an average. Therefore the fertility of +the six legitimate to that of the twelve illegitimate unions, as judged by the +proportion of flowers that yielded capsules, is as 100 to 2, and as judged by +the average number of seeds per capsule as 100 to 34. It may be added that some +plants which were protected by nets did not spontaneously produce any fruit; nor +did one which was left uncovered by itself and was visited by bees. On the other +hand, scarcely a single flower on some uncovered plants of the three forms +growing near together failed to produce fruit. + +Oxalis Regnelli. + +This species bears white flowers and inhabits Southern Brazil. Hildebrand says +that the stigma of the long-styled form is somewhat larger than that of the mid- +styled, and this than that of the short-styled. The pistil of the latter is +clothed with a few hairs, whilst it is very hairy in the other two forms. The +diameter of the pollen-grains from both sets of the longest stamens equals 9 +divisions of the micrometer,--that from the mid-length stamens of the long- +styled form between 8 and 9, and of the short-styled 8,--and that from the +shortest stamens of both sets 7. So that the extreme difference in diameter is +as 9 to 7 or as 100 to 78. The experiments made by Hildebrand, which are not so +numerous as in the last case, are given in Table 4.28 in the same manner as +before. + +TABLE 4.28. Oxalis Regnelli (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +6 : 6 : 10.1. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +5 : 5 : 10.6. + +Long-styled by pollen of own mid-length stamens. Illegitimate union : +4 : 0 : 0. + +Long-styled by pollen of own shortest stamens. Illegitimate union : +1 : 0 : 0. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +9 : 9 : 10.4. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +10 : 10 : 10.1. + +Mid-styled by pollen of own longest stamens. Illegitimate union : +9 : 0 : 0. + +Mid-styled by pollen of own shortest stamens. Illegitimate union : +2 : 0 : 0. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +1 : 0 : 0. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +9 : 9 : 10.6. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +2 : 2 : 9.5. + +Short-styled by pollen of own mid-length stamens. Illegitimate union : +12 : 0 : 0. + +Short-styled by pollen of own longest stamens. Illegitimate union : +9 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +1 : 0 : 0. + +The results are nearly the same as in the last case, but more striking; for 41 +flowers belonging to the three forms fertilised legitimately all yielded +capsules, containing on an average 10.31 seeds; whilst 39 flowers fertilised +illegitimately did not yield a single capsule or seed. Therefore the fertility +of the six legitimate to that of the several illegitimate unions, as judged both +by the proportion of flowers which yielded capsules and by the average number of +contained seeds, is as 100 to 0. + +Oxalis speciosa. + +This species, which bears pink flowers, was introduced from the Cape of Good +Hope. A sketch of the reproductive organs of the three forms (Figure 4.11) has +already been given. The stigma of the long-styled form (with the papillae on its +surface included) is twice as large as that of the short-styled, and that of the +mid-styled intermediate in size. The pollen-grains from the stamens in the three +forms are in their longer diameters as follows:-- + +Table 4.c. Oxalis speciosa. Diameters of pollen-grains in divisions of the +micrometer. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +From the: +Longest stamens of short-styled form : 15 to 16. +Mid-length stamens of short-styled form : 12 to 13. +Longest stamens of mid-styled form : 16. +Shortest stamens of mid-styled form : 11 to 12. +Mid-length stamens of long-styled form : 14. +Shortest stamens of long-styled form : 12. + +Therefore the extreme difference in diameter is as 16 to 11, or as 100 to 69; +but as the measurements were taken at different times, they are probably only +approximately accurate. The results of my experiments in fertilising the three +forms are given in Table 4.29. + +Table 4.29. Oxalis speciosa. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +19 : 15 : 57.4. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +4 : 3 : 59.0. + +Long-styled by pollen of own-form mid-length stamens. Illegitimate union : +9 : 2 : 42.5. + +Long-styled by pollen of own-form shortest stamens. Illegitimate union : +11 : 0 : 0. + +Long-styled by pollen of shortest stamens of mid-styled. Illegitimate union : +4 : 0 : 0. + +Long-styled by pollen of mid-length stamens of short-styled. Illegitimate union +: +12 : 5 : 30.0. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +3 : 3 : 63.6. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +4 : 4 : 56.3. + +Mid-styled by mixed pollen from both own-form longest and shortest stamens. +Illegitimate union : +9 : 2 : 19. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +12 : 1 : 8. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +3 : 2 : 67. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +3 : 3 : 54.3. + +Short-styled by pollen of own-form longest stamens. Illegitimate union: +5 : 1 : 8. + +Short-styled by pollen of own-form mid-length stamens. Illegitimate union : +3 : 0 : 0. + +Short-styled by both pollens mixed together, of own-form longest and mid-length +stamens. Illegitimate union: +13 : 0 : 0. + +Short-styled by pollen of longest stamens of mid-styled. Illegitimate union : +7 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +10 : 1 : 54. + +We here see that thirty-six flowers on the three forms legitimately fertilised +yielded 30 capsules, these containing on an average 58.36 seeds. Ninety-five +flowers illegitimately fertilised yielded 12 capsules, containing on an average +28.58 seeds. Therefore the fertility of the six legitimate to that of the twelve +illegitimate unions, as judged by the proportion of flowers which yielded +capsules, is as 100 to 15, and judged by the average number of seeds per capsule +as 100 to 49. This plant, in comparison with the two South American species +previously described, produces many more seeds, and the illegitimately +fertilised flowers are not quite so sterile. + +Oxalis rosea. + +Hildebrand possessed in a living state only the long-styled form of this +trimorphic Chilian species. (4/14. ‘Monatsber. der Akad. der Wiss. Berlin’ 1866 +page 372.) The pollen-grains from the two sets of anthers differ in diameter as +9 to 7.5, or as 100 to 83. He has further shown that there is an analogous +difference between the grains from the two sets of anthers of the same flower in +five other species of Oxalis, besides those already described. The present +species differs remarkably from the long-styled form of the three species +previously experimented on, in a much larger proportion of the flowers setting +capsules when fertilised with their own-form pollen. Hildebrand fertilised 60 +flowers with pollen from the mid-length stamens (of either the same or another +flower), and they yielded no less than 55 capsules, or 92 per cent. These +capsules contained on an average 5.62 seeds; but we have no means of judging how +near an approach this average makes to that from flowers legitimately +fertilised. He also fertilised 45 flowers with pollen from the shortest stamens, +and these yielded only 17 capsules, or 31 per cent, containing on an average +only 2.65 seeds. We thus see that about thrice as many flowers, when fertilised +with pollen from the mid-length stamens, produced capsules, and these contained +twice as many seeds, as did the flowers fertilised with pollen from the shortest +stamens. It thus appears (and we find some evidence of the same fact with O. +speciosa), that the same rule holds good with Oxalis as with Lythrum salicaria; +namely, that in any two unions, the greater the inequality in length between the +pistils and stamens, or, which is the same thing, the greater the distance of +the stigma from the anthers, the pollen of which is used for fertilisation, the +less fertile is the union,--whether judged by the proportion of flowers which +set capsules, or by the average number of seeds per capsule. The rule cannot be +explained in this case any more than in that of Lythrum, by supposing that +wherever there is greater liability to self-fertilisation, this is checked by +the union being rendered more sterile; for exactly the reverse occurs, the +liability to self-fertilisation being greatest in the unions between the pistils +and stamens which approach each other the nearest, and these are the more +fertile. I may add that I also possessed some long-styled plants of this +species: one was covered by a net, and it set spontaneously a few capsules, +though extremely few compared with those produced by a plant growing by itself, +but exposed to the visits of bees. + +With most of the species of Oxalis the short-styled form seems to be the most +sterile of the three forms, when these are illegitimately fertilised; and I will +add two other cases to those already given. I fertilised 29 short-styled flowers +of O. compressa with pollen from their own two sets of stamens (the pollen- +grains of which differ in diameter as 100 and 83), and not one produced a +capsule. I formerly cultivated during several years the short-styled form of a +species purchased under the name of O. Bowii (but I have some doubts whether it +was rightly named), and fertilised many flowers with their own two kinds of +pollen, which differ in diameter in the usual manner, but never got a single +seed. On the other hand, Hildebrand says that the short-styled form of O. +Deppei, growing by itself, yields plenty of seed; but it is not positively known +that this species is heterostyled; and the pollen-grains from the two sets of +anthers do not differ in diameter. + +Some facts communicated to me by Fritz Muller afford excellent evidence of the +utter sterility of one of the forms of certain trimorphic species of Oxalis, +when growing isolated. He has seen in St. Catharina, in Brazil, a large field of +young sugar-cane, many acres in extent, covered with the red blossoms of one +form alone, and these did not produce a single seed. His own land is covered +with the short-styled form of a white-flowered trimorphic species, and this is +equally sterile; but when the three forms were planted near together in his +garden they seeded freely. With two other trimorphic species he finds that +isolated plants are always sterile. + +Fritz Muller formerly believed that a species of Oxalis, which is so abundant in +St. Catharina that it borders the roads for miles, was dimorphic instead of +trimorphic. Although the pistils and stamens vary greatly in length, as was +evident in some specimens sent to me, yet the plants can be divided into two +sets, according to the lengths of these organs. A large proportion of the +anthers are of a white colour and quite destitute of pollen; others which are +pale yellow contain many bad with some good grains; and others again which are +bright yellow have apparently sound pollen; but he has never succeeded in +finding any fruit on this species. The stamens in some of the flowers are +partially converted into petals. Fritz Muller after reading my description, +hereafter to be given, of the illegitimate offspring of various heterostyled +species, suspects that these plants of Oxalis may be the variable and sterile +offspring of a single form of some trimorphic species, perhaps accidentally +introduced into the district, which has since been propagated asexually. It is +probable that this kind of propagation would be much aided by there being no +expenditure in the production of seed. + +Oxalis (Biophytum) sensitiva. + +This plant is ranked by many botanists as a distinct genus. Mr. Thwaites sent me +a number of flowers preserved in spirits from Ceylon, and they are clearly +trimorphic. The style of the long-styled form is clothed with many scattered +hairs, both simple and glandular; such hairs are much fewer on the style of the +mid-styled, and quite absent from that of the short-styled form; so that this +plant resembles in this respect O. Valdiviana and Regnelli. Calling the length +of the two lobes of the stigma of the long-styled form 100, that of the mid- +styled is 141, and that of the short-styled 164. In all other cases, in which +the stigma in this genus differs in size in the three forms, the difference is +of a reversed nature, the stigma of the long-styled being the largest, and that +of the short-styled the smallest. The diameter of the pollen-grains from the +longest stamens being represented by 100, those from the mid-length stamens are +91, and those from the shortest stamens 84 in diameter. This plant is +remarkable, as we shall see in the last chapter of this volume, by producing +long-styled, mid-styled, and short-styled cleistogamic flowers. + +HOMOSTYLED SPECIES OF OXALIS. + +Although the majority of the species in the large genus Oxalis seem to be +trimorphic, some are homostyled, that is, exist under a single form; for +instance the common O. acetosella, and according to Hildebrand two other widely +distributed European species, O. stricta and corniculata. Fritz Muller also +informs me that a similarly constituted species is found in St. Catharina, and +that it is quite fertile with its own pollen when insects are excluded. The +stigmas of O. stricta and of another homostyled species, namely O. +tropaeoloides, commonly stand on a level with the upper anthers, and both these +species are likewise quite fertile when insects are excluded. + +With respect to O. acetosella, Hildebrand says that in all the many specimens +examined by him the pistil exceeded the longer stamens in length. I procured 108 +flowers from the same number of plants growing in three distant parts of +England; of these 86 had their stigmas projecting considerably above, whilst 22 +had them nearly on a level with the upper anthers. In one lot of 17 flowers from +the same wood, the stigmas in every flower projected fully as much above the +upper anthers as these stood above the lower anthers. So that these plants might +fairly be compared with the long-styled form of a heterostyled species; and I at +first thought that O. acetosella was trimorphic. But the case is one merely of +great variability. The pollen-grains from the two sets of anthers, as observed +by Hildebrand and myself, do not differ in diameter. I fertilised twelve flowers +on several plants with pollen from a distinct plant, choosing those with pistils +of a different length; and 10 of these (i.e. 83 per cent) produced capsules, +which contained on an average 7.9 seeds. Fourteen flowers were fertilised with +their own pollen, and 11 of these (i.e. 79 per cent) yielded capsules, +containing a larger average of seed, namely 9.2. These plants, therefore, in +function show not the least sign of being heterostyled. I may add that 18 +flowers protected by a net were left to fertilise themselves, and only 10 of +these (i.e. 55 per cent) yielded capsules, which contained on an average only +6.3 seeds. So that the access of insects, or artificial aid in placing pollen on +the stigma, increases the fertility of the flowers; and I found that this +applied especially to those having shorter pistils. It should be remembered that +the flowers hang downwards, so that those with short pistils would be the least +likely to receive their own pollen, unless they were aided in some manner. + +Finally, as Hildebrand has remarked, there is no evidence that any of the +heterostyled species of Oxalis are tending towards a dioecious condition, as +Zuccarini and Lindley inferred from the differences in the reproductive organs +of the three forms, the meaning of which they did not understand. + +PONTEDERIA [SP.?] (PONTEDERIACEAE). + +Fritz Muller found this aquatic plant, which is allied to the Liliaceae, growing +in the greatest profusion on the banks of a river in Southern Brazil. (4/15. +“Ueber den Trimorphismus der Pontederien” ‘Jenaische Zeitschrift’ etc. Band 6 +1871 page 74.) But only two forms were found, the flowers of which include three +long and three short stamens. The pistil of the long-styled form, in two dried +flowers which were sent me, was in length as 100 to 32, and its stigma as 100 to +80, compared with the same organs in the short-styled form. The long-styled +stigma projects considerably above the upper anthers of the same flower, and +stands on a level with the upper ones of the short-styled form. In the latter +the stigma is seated beneath both its own sets of anthers, and is on a level +with the anthers of the shorter stamens in the long-styled form. The anthers of +the longer stamens of the short-styled form are to those of the shorter stamens +of the long-styled form as 100 to 88 in length. The pollen-grains distended with +water from the longer stamens of the short-styled form are to those from the +shorter stamens of the same form as 100 to 87 in diameter, as deduced from ten +measurements of each kind. We thus see that the organs in these two forms differ +from one another and are arranged in an analogous manner, as in the long and +short-styled forms of the trimorphic species of Lythrum and Oxalis. Moreover, +the longer stamens of the long-styled form of Pontederia, and the shorter ones +of the short-styled form are placed in a proper position for fertilising the +stigma of a mid-styled form. But Fritz Muller, although he examined a vast +number of plants, could never find one belonging to the mid-styled form. The +older flowers of the long-styled and short-styled plants had set plenty of +apparently good fruit; and this might have been expected, as they could +legitimately fertilise one another. Although he could not find the mid-styled +form of this species, he possessed plants of another species growing in his +garden, and all these were mid-styled; and in this case the pollen-grains from +the anthers of the longer stamens were to those from the shorter stamens of the +same flower as 100 to 86 in diameter, as deduced from ten measurements of each +kind. These mid-styled plants growing by themselves never produced a single +fruit. + +Considering these several facts, there can hardly be a doubt that both these +species of Pontederia are heterostyled and trimorphic. This case is an +interesting one, for no other Monocotyledonous plant is known to be +heterostyled. Moreover, the flowers are irregular, and all other heterostyled +plants have almost symmetrical flowers. The two forms differ somewhat in the +colour of their corollas, that of the short-styled being of a darker blue, +whilst that of the long-styled tends towards violet, and no other such case is +known. Lastly, the three longer stamens alternate with the three shorter ones, +whereas in Lythrum and Oxalis the long and short stamens belong to distinct +whorls. With respect to the absence of the mid-styled form in the case of the +Pontederia which grows wild in Southern Brazil, this would probably follow if +only two forms had been originally introduced there; for, as we shall hereafter +see from the observations of Hildebrand, Fritz Muller and myself, when one form +of Oxalis is fertilised exclusively by either of the other two forms, the +offspring generally belong to the two parent-forms. + +Fritz Muller has recently discovered, as he informs me, a third species of +Pontederia, with all three forms growing together in pools in the interior of S. +Brazil; so that no shadow of doubt can any longer remain about this genus +including trimorphic species. He sent me dried flowers of all three forms. In +the long-styled form the stigma stands a little above the tips of the petals, +and on a level with the anthers of the longest stamens in the other two forms. +The pistil is in length to that of the mid-styled as 100 to 56, and to that of +the short-styled as 100 to 16. Its summit is rectangularly bent upwards, and the +stigma is rather broader than that of the mid-styled, and broader in about the +ratio of 7 to 4 than that of the short-styled. In the mid-styled form, the +stigma is placed rather above the middle of the corolla, and nearly on a level +with the mid-length stamens in the other two forms; its summit is a little bent +upwards. In the short-styled form the pistil is, as we have seen, very short, +and differs from that in the other two forms in being straight. It stands rather +beneath the level of the anthers of the shortest stamens in the long-styled and +mid-styled forms. The three anthers of each set of stamens, more especially +those of the shortest stamens, are placed one beneath the other, and the ends of +the filaments are bowed a little upwards, so that the pollen from all the +anthers would be effectively brushed off by the proboscis of a visiting insect. +The relative diameters of the pollen-grains, after having been long soaked in +water, are given in Table 4.d, as measured by my son Francis. + +TABLE 4.d. Pontederia. Diameters of pollen-grains, after having been long soaked +in water, in divisions of the micrometer. + +Column 1: Source of Pollen-grains. +Column 2: diameter. + +Long-styled form, mid-length stamens (Average of 20 measurements): 13.2. +Long-styled form, shortest stamens (10 measurements): 9.0. + +Mid-styled form, longest stamens (15 measurements) : 16.4. +Mid-styled form, shortest stamens (20 measurements): 9.1. + +Short-styled form, longest stamens (20 measurements): 14.6. +Short-styled form, mid-length stamens (20 measurements): 12.3. + +We have here the usual rule of the grains from the longer stamens, the tubes of +which have to penetrate the longer pistil, being larger than those from the +stamens of less length. The extreme difference in diameter between the grains +from the longest stamens of the mid-styled form, and from the shortest stamens +of the long-styled, is as 16.4 to 9.0, or as 100 to 55; and this is the greatest +difference observed by me in any heterostyled plant. It is a singular fact that +the grains from the corresponding longest stamens in the two forms differ +considerably in diameter; as do those in a lesser degree from the corresponding +mid-length stamens in the two forms; whilst those from the corresponding +shortest stamens in the long- and mid-styled forms are almost exactly equal. +Their inequality in the two first cases depends on the grains in both sets of +anthers in the short-styled form being smaller than those from the corresponding +anthers in the other two forms; and here we have a case parallel with that of +the mid-styled form of Lythrum salicaria. In this latter plant the pollen-grains +of the mid-styled forms are of smaller size and have less fertilising power than +the corresponding ones in the other two forms; whilst the ovarium, however +fertilised, yields a greater number of seeds; so that the mid-styled form is +altogether more feminine in nature than the other two forms. In the case of +Pontederia, the ovarium includes only a single ovule, and what the meaning of +the difference in size between the pollen-grains from the corresponding sets of +anthers may be, I will not pretend to conjecture. + +The clear evidence that the species just described is heterostyled and +trimorphic is the more valuable as there is some doubt with respect to P. +cordata, an inhabitant of the United States. Mr. Leggett suspects that it is +either dimorphic or trimorphic, for the pollen-grains of the longer stamens are +“more than twice the diameter or than eight times the mass of the grains of the +shorter stamens. Though minute, these smaller grains seem as perfect as the +larger ones.” (4/16. ‘Bulletin of the Torrey Botanical Club’ 1875 volume 6 page +62.) On the other hand, he says that in all the mature flowers, “the style was +as long at least as the longer stamens;” “whilst in the young flowers it was +intermediate in length between the two sets of stamens;” and if this be so, the +species can hardly be heterostyled. + + +CHAPTER V. + +ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + +Illegitimate offspring from all three forms of Lythrum salicaria. +Their dwarfed stature and sterility, some utterly barren, some fertile. +Oxalis, transmission of form to the legitimate and illegitimate seedlings. +Primula Sinensis, Illegitimate offspring in some degree dwarfed and infertile. +Equal-styled varieties of P. Sinensis, auricula, farinosa, and elatior. +P. vulgaris, red-flowered variety, Illegitimate seedlings sterile. +P. veris, Illegitimate plants raised during several successive generations, +their dwarfed stature and sterility. +Equal-styled varieties of P. veris. +Transmission of form by Pulmonaria and Polygonum. +Concluding remarks. +Close parallelism between illegitimate fertilisation and hybridism. + +We have hitherto treated of the fertility of the flowers of heterostyled plants, +when legitimately and illegitimately fertilised. The present chapter will be +devoted to the character of their offspring or seedlings. Those raised from +legitimately fertilised seeds will be here called LEGITIMATE SEEDLINGS or +PLANTS, and those from illegitimately fertilised seeds, ILLEGITIMATE SEEDLINGS +or PLANTS. They differ chiefly in their degree of fertility, and in their powers +of growth or vigour. I will begin with trimorphic plants, and I must remind the +reader that each of the three forms can be fertilised in six different ways; so +that all three together can be fertilised in eighteen different ways. For +instance, a long-styled form can be fertilised legitimately by the longest +stamens of the mid-styled and short-styled forms, and illegitimately by its own- +form and mid-length and shortest stamens, also by the mid-length stamens of the +mid-styled and by the shortest stamens of the short-styled form; so that the +long-styled can be fertilised legitimately in two ways and illegitimately in +four ways. The same holds good with respect to the mid-styled and short-styled +forms. Therefore with trimorphic species six of the eighteen unions yield +legitimate offspring, and twelve yield illegitimate offspring. + +I will give the results of my experiments in detail, partly because the +observations are extremely troublesome, and will not probably soon be repeated-- +thus, I was compelled to count under the microscope above 20,000 seeds of +Lythrum salicaria--but chiefly because light is thus indirectly thrown on the +important subject of hybridism. + +Lythrum salicaria. + +Of the twelve illegitimate unions two were completely barren, so that no seeds +were obtained, and of course no seedlings could be raised. Seedlings were, +however, raised from seven of the ten remaining illegitimate unions. Such +illegitimate seedlings when in flower were generally allowed to be freely and +legitimately fertilised, through the agency of bees, by other illegitimate +plants belonging to the two other forms growing close by. This is the fairest +plan, and was usually followed; but in several cases (which will always be +stated) illegitimate plants were fertilised with pollen taken from legitimate +plants belonging to the other two forms; and this, as might have been expected, +increased their fertility. Lythrum salicaria is much affected in its fertility +by the nature of the season; and to avoid error from this source, as far as +possible, my observations were continued during several years. Some few +experiments were tried in 1863. The summer of 1864 was too hot and dry, and, +though the plants were copiously watered, some few apparently suffered in their +fertility, whilst others were not in the least affected. The years 1865 and, +especially, 1866, were highly favourable. Only a few observations were made +during 1867. The results are arranged in classes according to the parentage of +the plants. In each case the average number of seeds per capsule is given, +generally taken from ten capsules, which, according to my experience, is a +nearly sufficient number. The maximum number of seeds in any one capsule is also +given; and this is a useful point of comparison with the normal standard--that +is, with the number of seeds produced by legitimate plants legitimately +fertilised. I will give likewise in each case the minimum number. When the +maximum and minimum differ greatly, if no remark is made on the subject, it may +be understood that the extremes are so closely connected by intermediate figures +that the average is a fair one. Large capsules were always selected for +counting, in order to avoid over-estimating the infertility of the several +illegitimate plants. + +In order to judge of the degree of inferiority in fertility of the several +illegitimate plants, the following statement of the average and of the maximum +number of seeds produced by ordinary or legitimate plants, when legitimately +fertilised, some artificially and some naturally, will serve as a standard of +comparison, and may in each case be referred to. But I give under each +experiment the percentage of seeds produced by the illegitimate plants, in +comparison with the standard legitimate number of the same form. For instance, +ten capsules from the illegitimate long-styled plant (Number 10), which was +legitimately and naturally fertilised by other illegitimate plants, contained on +an average 44.2 seeds; whereas the capsules on legitimate long-styled plants, +legitimately and naturally fertilised by other legitimate plants, contained on +an average 93 seeds. Therefore this illegitimate plant yielded only 47 per cent +of the full and normal complement of seeds. + +STANDARD NUMBER OF SEEDS PRODUCED BY LEGITIMATE PLANTS OF THE THREE FORMS, WHEN +LEGITIMATELY FERTILISED. + +Long-styled form: +Average number of seeds in each capsule, 93; +Maximum number observed out of twenty-three capsules, 159. + +Mid-styled form: +Average number of seeds, 130; +Maximum number observed out of thirty-one capsules, 151. + +Short-styled form: +Average number of seeds, 83.5; but we may, for the sake of brevity, say 83; +Maximum number observed out of twenty-five capsules, 112. + +CLASSES 1 AND 2. ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED PARENTS FERTILISED +WITH POLLEN FROM THE MID-LENGTH OR THE SHORTEST STAMENS OF OTHER PLANTS OF THE +SAME FORM. + +From this union I raised at different times three lots of illegitimate +seedlings, amounting altogether to 56 plants. I must premise that, from not +foreseeing the result, I did not keep a memorandum whether the eight plants of +the first lot were the product of the mid-length or shortest stamens of the same +form; but I have good reason to believe that they were the product of the +latter. These eight plants were much more dwarfed, and much more sterile than +those in the other two lots. The latter were raised from a long-styled plant +growing quite isolated, and fertilised by the agency of bees with its own +pollen; and it is almost certain, from the relative position of the organs of +fructification, that the stigma under these circumstances would receive pollen +from the mid-length stamens. + +All the fifty-six plants in these three lots proved long-styled; now, if the +parent-plants had been legitimately fertilised by pollen from the longest +stamens of the mid-styled and short-styled forms, only about one-third of the +seedlings would have been long-styled, the other two-thirds being mid-styled and +short-styled. In some other trimorphic and dimorphic genera we shall find the +same curious fact, namely, that the long-styled form, fertilised illegitimately +by its own-form pollen, produces almost exclusively long-styled seedlings. (5/1. +Hildebrand first called attention to this fact in the case of Primula Sinensis +(‘Botanische Zeitung’ January 1, 1864 page 5); but his results were not nearly +so uniform as mine.) + +The eight plants of the first lot were of low stature: three which I measured +attained, when fully grown, the heights of only 28, 29, and 47 inches; whilst +legitimate plants growing close by were double this height, one being 77 inches. +They all betrayed in their general appearance a weak constitution; they flowered +rather later in the season, and at a later age than ordinary plants. Some did +not flower every year; and one plant, behaving in an unprecedented manner, did +not flower until three years old. In the two other lots none of the plants grew +quite to their full and proper height, as could at once be seen by comparing +them with the adjoining rows of legitimate plants. In several plants in all +three lots, many of the anthers were either shrivelled or contained brown and +tough, or pulpy matter, without any good pollen-grains, and they never shed +their contents; they were in the state designated by Gartner as contabescent, +which term I will for the future use. (5/2. ‘Beitrage zur Kenntniss der +Befruchtung’ 1844 page 116.) In one flower all the anthers were contabescent +excepting two which appeared to the naked eye sound; but under the microscope +about two-thirds of the pollen-grains were seen to be small and shrivelled. In +another plant, in which all the anthers appeared sound, many of the pollen- +grains were shrivelled and of unequal sizes. I counted the seeds produced by +seven plants (1 to 7) in the first lot of eight plants, probably the product of +parents fertilised by their own-form shortest stamens, and the seeds produced by +three plants in the other two lots, almost certainly the product of parents +fertilised by their own-form mid-length stamens. + +[PLANT 1. + +This long-styled plant was allowed during 1863 to be freely and legitimately +fertilised by an adjoining illegitimate mid-styled plant, but it did not yield a +single seed-capsule. It was then removed and planted in a remote place close to +a brother long-styled plant Number 2, so that it must have been freely though +illegitimately fertilised; under these circumstances it did not yield during +1864 and 1865 a single capsule. I should here state that a legitimate or +ordinary long-styled plant, when growing isolated, and freely though +illegitimately fertilised by insects with its own pollen, yielded an immense +number of capsules, which contained on an average 21.5 seeds. + +PLANT 2. + +This long-styled plant, after flowering during 1863 close to an illegitimate +mid-styled plant, produced less than twenty capsules, which contained on an +average between four and five seeds. When subsequently growing in company with +Number 1, by which it will have been illegitimately fertilised, it yielded in +1866 not a single capsule, but in 1865 it yielded twenty-two capsules: the best +of these, fifteen in number, were examined; eight contained no seed, and the +remaining seven contained on an average only three seeds, and these seeds were +so small and shrivelled that I doubt whether they would have germinated. + +PLANTS 3 AND 4. + +These two long-styled plants, after being freely and legitimately fertilised +during 1863 by the same illegitimate mid-styled plant as in the last case, were +as miserably sterile as Number 2. + +PLANT 5. + +This long-styled plant, after flowering in 1863 close to an illegitimate mid- +styled plant, yielded only four capsules, which altogether included only five +seeds. During 1864, 1865, and 1866, it was surrounded either by illegitimate or +legitimate plants of the other two forms; but it did not yield a single capsule. +It was a superfluous experiment, but I likewise artificially fertilised in a +legitimate manner twelve flowers; but not one of these produced a capsule; so +that this plant was almost absolutely barren. + +PLANT 6. + +This long-styled plant, after flowering during the favourable year of 1866, +surrounded by illegitimate plants of the other two forms, did not produce a +single capsule. + +PLANT 7. + +This long-styled plant was the most fertile of the eight plants of the first +lot. During 1865 it was surrounded by illegitimate plants of various parentage, +many of which were highly fertile, and must thus have been legitimately +fertilised. It produced a good many capsules, ten of which yielded an average of +36.1 seeds, with a maximum of 47 and a minimum of 22; so that this plant +produced 39 per cent of the full number of seeds. During 1864 it was surrounded +by legitimate and illegitimate plants of the other two forms; and nine capsules +(one poor one being rejected) yielded an average of 41.9 seeds, with a maximum +of 56 and a minimum of 28; so that, under these favourable circumstances, this +plant, the most fertile of the first lot, did not yield, when legitimately +fertilised, quite 45 per cent of the full complement of seeds.] + +In the second lot of plants in the present class, descended from the long-styled +form, almost certainly fertilised with pollen from its own mid-length stamens, +the plants, as already stated, were not nearly so dwarfed or so sterile as in +the first lot. All produced plenty of capsules. I counted the number of seeds in +only three plants, namely Numbers 8, 9, and 10. + +[PLANT 8. + +This plant was allowed to be freely fertilised in 1864 by legitimate and +illegitimate plants of the other two forms, and ten capsules yielded on an +average 41.1 seeds, with a maximum of 73 and a minimum of 11. Hence this plant +produced only 44 per cent of the full complement of seeds. + +PLANT 9. + +This long-styled plant was allowed in 1865 to be freely fertilised by +illegitimate plants of the other two forms, most of which were moderately +fertile. Fifteen capsules yielded on an average 57.1 seeds, with a maximum of 86 +and a minimum of 23. Hence the plant yielded 61 per cent of the full complement +of seeds. + +PLANT 10. + +This long-styled plant was freely fertilised at the same time and in the same +manner as the last. Ten capsules yielded an average of 44.2 seeds, with a +maximum of 69 and a minimum of 25; hence this plant yielded 47 per cent of the +full complement of seeds.] + +The nineteen long-styled plants of the third lot, of the same parentage as the +last lot, were treated differently; for they flowered during 1867 by themselves +so that they must have been illegitimately fertilised by one another. It has +already been stated that a legitimate long-styled plant, growing by itself and +visited by insects, yielded an average of 21.5 seeds per capsule, with a maximum +of 35; but, to judge fairly of its fertility, it ought to have been observed +during successive seasons. We may also infer from analogy that, if several +legitimate long-styled plants were to fertilise one another, the average number +of seeds would be increased; but how much increased I do not know; hence I have +no perfectly fair standard of comparison by which to judge of the fertility of +the three following plants of the present lot, the seeds of which I counted. + +[PLANT 11. + +This long-styled plant produced a large crop of capsules, and in this respect +was one of the most fertile of the whole lot of nineteen plants. But the average +from ten capsules was only 35.9 seeds, with a maximum of 60 and a minimum of 8. + +PLANT 12. + +This long-styled plant produced very few capsules; and ten yielded an average of +only 15.4 seeds, with a maximum of 30 and a minimum of 4. + +PLANT 13. + +This plant offers an anomalous case; it flowered profusely, yet produced very +few capsules; but these contained numerous seeds. Ten capsules yielded an +average of 71.9 seeds, with a maximum of 95 and a minimum of 29. Considering +that this plant was illegitimate and illegitimately fertilised by its brother +long-styled seedlings, the average and the maximum are so remarkably high that I +cannot at all understand the case. We should remember that the average for a +legitimate plant legitimately fertilised is 93 seeds.] + +CLASS 3. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED WITH +POLLEN FROM OWN-FORM MID-LENGTH STAMENS. + +I raised from this union nine plants, of which eight were short-styled and one +long-styled; so that there seems to be a strong tendency in this form to +reproduce, when self-fertilised, the parent-form; but the tendency is not so +strong as with the long-styled. These nine plants never attained the full height +of legitimate plants growing close to them. The anthers were contabescent in +many of the flowers on several plants. + +[PLANT 14. + +This short-styled plant was allowed during 1865 to be freely and legitimately +fertilised by illegitimate plants descended from self-fertilised mid-, long- and +short-styled plants. Fifteen capsules yielded an average of 28.3 seeds, with a +maximum of 51 and a minimum of 11; hence this plant produced only 33 per cent of +the proper number of seeds. The seeds themselves were small and irregular in +shape. Although so sterile on the female side, none of the anthers were +contabescent. + +PLANT 15. + +This short-styled plant, treated like the last during the same year, yielded an +average, from fifteen capsules, of 27 seeds, with a maximum of 49 and a minimum +of 7. But two poor capsules may be rejected, and then the average rises to 32.6, +with the same maximum of 49 and a minimum of 20; so that this plant attained 38 +per cent of the normal standard of fertility, and was rather more fertile than +the last, yet many of the anthers were contabescent. + +PLANT 16. + +This short-styled plant, treated like the two last, yielded from ten capsules an +average of 77.8 seeds, with a maximum of 97 and a minimum of 60; so that this +plant produced 94 per cent of the full number of seeds. + +PLANT 17. + +This, the one long-styled plant of the same parentage as the last three plants, +when freely and legitimately fertilised in the same manner as the last, yielded +an average from ten capsules of 76.3 rather poor seeds, with a maximum of 88 and +a minimum of 57. Hence this plant produced 82 per cent of the proper number of +seeds. Twelve flowers enclosed in a net were artificially and legitimately +fertilised with pollen from a legitimate short-styled plant; and nine capsules +yielded an average of 82.5 seeds, with a maximum of 98 and a minimum of 51; so +that its fertility was increased by the action of pollen from a legitimate +plant, but still did not reach the normal standard.] + +CLASS 4. ILLEGITIMATE PLANTS RAISED FROM A MID-STYLED PARENT FERTILISED WITH +POLLEN FROM OWN-FORM LONGEST STAMENS. + +After two trials, I succeeded in raising only four plants from this illegitimate +union. These proved to be three mid-styled and one long-styled; but from so +small a number we can hardly judge of the tendency in mid-styled plants when +self-fertilised to reproduce the same form. These four plants never attained +their full and normal height; the long-styled plant had several of its anthers +contabescent. + +[PLANT 18. + +This mid-styled plant, when freely and legitimately fertilised during 1865 by +illegitimate plants descended from self-fertilised long-, short-, and mid-styled +plants, yielded an average from ten capsules of 102.6 seeds, with a maximum of +131 and a minimum of 63: hence this plant did not produce quite 80 per cent of +the normal number of seeds. Twelve flowers were artificially and legitimately +fertilised with pollen from a legitimate long-styled plant, and yielded from +nine capsules an average of 116.1 seeds, which were finer than in the previous +case, with a maximum of 135 and a minimum of 75; so that, as with Plant 17, +pollen from a legitimate plant increased the fertility, but did not bring it up +to the full standard. + +PLANT 19. + +This mid-styled plant, fertilised in the same manner and at the same period as +the last, yielded an average from ten capsules of 73.4 seeds, with a maximum of +87 and a minimum of 64: hence this plant produced only 56 per cent of the full +number of seeds. Thirteen flowers were artificially and legitimately fertilised +with pollen from a legitimate long-styled plant, and yielded ten capsules with +an average of 95.6 seeds; so that the application of pollen from a legitimate +plant added, as in the two previous cases, to the fertility, but did not bring +it up to the proper standard. + +PLANT 20. + +This long-styled plant, of the same parentage with the two last mid-styled +plants, and freely fertilised in the same manner, yielded an average from ten +capsules of 69.6 seeds, with a maximum of 83 and a minimum of 52: hence this +plant produced 75 per cent of the full number of seeds.] + +CLASS 5. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED WITH +POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + +In the four previous classes, plants raised from the three forms fertilised with +pollen from either the longer or shorter stamens of the same form, but generally +not from the same plant, have been described. Six other illegitimate unions are +possible, namely, between the three forms and the stamens in the other two forms +which do not correspond in height with their pistils. But I succeeded in raising +plants from only three of these six unions. From one of them, forming the +present Class 5, twelve plants were raised; these consisted of eight short- +styled, and four long-styled plants, with not one mid-styled. These twelve +plants never attained quite their full and proper height, but by no means +deserved to be called dwarfs. The anthers in some of the flowers were +contabescent. One plant was remarkable from all the longer stamens in every +flower and from many of the shorter ones having their anthers in this condition. +The pollen of four other plants, in which none of the anthers were contabescent, +was examined; in one a moderate number of grains were minute and shrivelled, but +in the other three they appeared perfectly sound. With respect to the power of +producing seed, five plants (Numbers 21 to 25) were observed: one yielded +scarcely more than half the normal number; a second was slightly infertile; but +the three others actually produced a larger average number of seeds, with a +higher maximum, than the standard. In my concluding remarks I shall recur to +this fact, which at first appears inexplicable. + +[PLANT 21. + +This short-styled plant, freely and legitimately fertilised during 1865 by +illegitimate plants, descended from self-fertilised long-, mid- and short-styled +parents, yielded an average from ten capsules of 43 seeds, with a maximum of 63 +and a minimum of 26: hence this plant, which was the one with all its longer and +many of its shorter stamens contabescent, produced only 52 per cent of the +proper number of seeds. + +PLANT 22. + +This short-styled plant produced perfectly sound pollen, as viewed under the +microscope. During 1866 it was freely and legitimately fertilised by other +illegitimate plants belonging to the present and the following class, both of +which include many highly fertile plants. Under these circumstances it yielded +from eight capsules an average of 100.5 seeds, with a maximum of 123 and a +minimum of 86; so that it produced 121 per cent of seeds in comparison with the +normal standard. During 1864 it was allowed to be freely and legitimately +fertilised by legitimate and illegitimate plants, and yielded an average, from +eight capsules, of 104.2 seeds, with a maximum of 125 and a minimum of 90; +consequently it exceeded the normal standard, producing 125 per cent of seeds. +In this case, as in some previous cases, pollen from legitimate plants added in +a small degree to the fertility of the plant; and the fertility would, perhaps, +have been still greater had not the summer of 1864 been very hot and certainly +unfavourable to some of the plants of Lythrum. + +PLANT 23. + +This short-styled plant produced perfectly sound pollen. During 1866 it was +freely and legitimately fertilised by the other illegitimate plants specified +under the last experiment, and eight capsules yielded an average of 113.5 seeds, +with a maximum of 123 and a minimum of 93. Hence this plant exceeded the normal +standard, producing no less than 136 per cent of seeds. + +PLANT 24. + +This long-styled plant produced pollen which seemed under the microscope sound; +but some of the grains did not swell when placed in water. During 1864 it was +legitimately fertilised by legitimate and illegitimate plants in the same manner +as Plant 22, but yielded an average, from ten capsules, of only 55 seeds, with a +maximum of 88 and a minimum of 24, thus attaining 59 per cent of the normal +fertility. This low degree of fertility, I presume, was owing to the +unfavourable season; for during 1866, when legitimately fertilised by +illegitimate plants in the manner described under Number 22, it yielded an +average, from eight capsules, of 82 seeds, with a maximum of 120 and a minimum +of 67, thus producing 88 per cent of the normal number of seeds. + +PLANT 25. + +The pollen of this long-styled plant contained a moderate number of poor and +shrivelled grains; and this is a surprising circumstance, as it yielded an +extraordinary number of seeds. During 1866 it was freely and legitimately +fertilised by illegitimate plants, as described under Number 22, and yielded an +average, from eight capsules, of 122.5 seeds, with a maximum of 149 and a +minimum of 84. Hence this plant exceeded the normal standard, producing no less +than 131 per cent of seeds.] + +CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + +I raised from this union twenty-five plants, which proved to be seventeen long- +styled and eight mid-styled, but not one short-styled. None of these plants were +in the least dwarfed. I examined, during the highly favourable season of 1866, +the pollen of four plants: in one mid-styled plant, some of the anthers of the +longest stamens were contabescent, but the pollen-grains in the other anthers +were mostly sound, as they were in all the anthers of the shortest stamens; in +two other mid-styled and in one long-styled plant many of the pollen-grains were +small and shrivelled; and in the latter plant as many as a fifth or sixth part +appeared to be in this state. I counted the seeds in five plants (Numbers 26 to +30), of which two were moderately sterile and three fully fertile. + +[PLANT 26. + +This mid-styled plant was freely and legitimately fertilised, during the rather +unfavourable year 1864, by numerous surrounding legitimate and illegitimate +plants. It yielded an average, from ten capsules, of 83.5 seeds, with a maximum +of 110 and a minimum of 64, thus attaining 64 per cent of the normal fertility. +During the highly favourable year 1866, it was freely and legitimately +fertilised by illegitimate plants belonging to the present Class and to Class 5, +and yielded an average, from eight capsules, of 86 seeds, with a maximum of 109 +and a minimum of 61, and thus attained 66 per cent of the normal fertility. This +was the plant with some of the anthers of the longest stamens contabescent as +above mentioned. + +PLANT 27. + +This mid-styled plant, fertilised during 1864 in the same manner as the last, +yielded an average, from ten capsules, of 99.4 seeds, with a maximum of 122 and +a minimum of 53, thus attaining to 76 per cent of the normal fertility. If the +season had been more favourable, its fertility would probably have been somewhat +greater, but, judging from the last experiment, only in a slight degree. + +PLANT 28. + +This mid-styled plant, when legitimately fertilised during the favourable season +of 1866, in the manner described under Number 26, yielded an average, from eight +capsules, of 89 seeds, with a maximum of 119 and a minimum of 69, thus producing +68 per cent of the full number of seeds. In the pollen of both sets of anthers, +nearly as many grains were small and shrivelled as sound. + +PLANT 29. + +This long-styled plant was legitimately fertilised during the unfavourable +season of 1864, in the manner described under Number 26, and yielded an average, +from ten capsules, of 84.6 seeds, with a maximum of 132 and a minimum of 47, +thus attaining to 91 per cent of the normal fertility. During the highly +favourable season of 1866, when fertilised in the manner described under Number +26, it yielded an average, from nine capsules (one poor capsule having been +excluded), of 100 seeds, with a maximum of 121 and a minimum of 77. This plant +thus exceeded the normal standard, and produced 107 per cent of seeds. In both +sets of anthers there were a good many bad and shrivelled pollen-grains, but not +so many as in the last-described plant. + +Plant 30. + +This long-styled plant was legitimately fertilised during 1866 in the manner +described under Number 26, and yielded an average, from eight capsules, of 94 +seeds, with a maximum of 106 and a minimum of 66; so that it exceeded the normal +standard, yielding 101 per cent of seeds. + +Plant 31. + +Some flowers on this long-styled plant were artificially and legitimately +fertilised by one of its brother illegitimate mid-styled plants; and five +capsules yielded an average of 90.6 seeds, with a maximum of 97 and a minimum of +79. Hence, as far as can be judged from so few capsules, this plant attained, +under these favourable circumstances, 98 per cent of the normal standard.] + +CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + +It was shown in the last chapter that the union from which these illegitimate +plants were raised is far more fertile than any other illegitimate union; for +the mid-styled parent, when thus fertilised, yielded an average (all very poor +capsules being excluded) of 102.8 seeds, with a maximum of 130; and the +seedlings in the present class likewise have their fertility not at all +lessened. Forty plants were raised; and these attained their full height and +were covered with seed-capsules. Nor did I observe any contabescent anthers. It +deserves, also, particular notice that these plants, differently from what +occurred in any of the previous classes, consisted of all three forms, namely, +eighteen short-styled, fourteen long-styled, and eight mid-styled plants. As +these plants were so fertile, I counted the seeds only in the two following +cases. + +[PLANT 32. + +This mid-styled plant was freely and legitimately fertilised during the +unfavourable year of 1864, by numerous surrounding legitimate and illegitimate +plants. Eight capsules yielded an average of 127.2 seeds, with a maximum of 144 +and a minimum of 96; so that this plant attained 98 per cent of the normal +standard. + +PLANT 33. + +This short-styled plant was fertilised in the same manner and at the same time +with the last; and ten capsules yielded an average of 113.9, with a maximum of +137 and a minimum of 90. Hence this plant produced no less than 137 per cent of +seeds in comparison with the normal standard.] + +CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF THE THREE FORMS OF Lythrum +salicaria. + +From the three forms occurring in approximately equal numbers in a state of +nature, and from the results of sowing seed naturally produced, there is reason +to believe that each form, when legitimately fertilised, reproduces all three +forms in about equal numbers. Now, we have seen (and the fact is a very singular +one) that the fifty-six plants produced from the long-styled form, +illegitimately fertilised with pollen from the same form (Class 1 and 2), were +all long-styled. The short-styled form, when self-fertilised (Class 3), produced +eight short-styled and one long-styled plant; and the mid-styled form, similarly +treated (Class 4), produced three mid-styled and one long-styled offspring; so +that these two forms, when illegitimately fertilised with pollen from the same +form, evince a strong, but not exclusive, tendency to reproduce the parent-form. +When the short-styled form was illegitimately fertilised by the long-styled form +(Class 5), and again when the mid-styled was illegitimately fertilised by the +long-styled (Class 6), in each case the two parent-forms alone were reproduced. +As thirty-seven plants were raised from these two unions, we may, with much +confidence, believe that it is the rule that plants thus derived usually consist +of both parent-forms, but not of the third form. When, however, the mid-styled +form was illegitimately fertilised by the longest stamens of the short-styled +(Class 7), the same rule did not hold good; for the seedlings consisted of all +three forms. The illegitimate union from which these latter seedlings were +raised is, as previously stated, singularly fertile, and the seedlings +themselves exhibited no signs of sterility and grew to their full height. From +the consideration of these several facts, and from analogous ones to be given +under Oxalis, it seems probable that in a state of nature the pistil of each +form usually receives, through the agency of insects, pollen from the stamens of +corresponding height from both the other forms. But the case last given shows +that the application of two kinds of pollen is not indispensable for the +production of all three forms. Hildebrand has suggested that the cause of all +three forms being regularly and naturally reproduced, may be that some of the +flowers are fertilised with one kind of pollen, and others on the same plant +with the other kind of pollen. Finally, of the three forms, the long-styled +evinces somewhat the strongest tendency to reappear amongst the offspring, +whether both, or one, or neither of the parents are long-styled. + +[TABLE 5.30. Tabulated results of the fertility of the foregoing illegitimate +plants, when legitimately fertilised, generally by illegitimate plants, as +described under each experiment. Plants 11, 12 and 13 are excluded, as they were +illegitimately fertilised. + +NORMAL STANDARD OF FERTILITY OF THE THREE FORMS, WHEN LEGITIMATELY AND NATURALLY +FERTILISED. + +Column 1: Form. +Column 2: Average number of seeds per capsule. +Column 3: Maximum number in any one capsule. +Column 4: Minimum number in any one capsule. + +Long-styled : 93 : 159 : No record was kept as all very poor capsules were +rejected. +Mid-styled : 130 : 151 : No record was kept as all very poor capsules were +rejected. +Short-styled : 83.5 : 112 : No record was kept as all very poor capsules were +rejected. + +TABLE 5.30. Continued. + +CLASS 1 AND CLASS 2.--ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED PARENTS +FERTILISED WITH POLLEN FROM OWN-FORM MID-LENGTH OR SHORTEST STAMENS. + +Column 1: Number (name) of plant. +Column 2: Form. +Column 3: Average number of seeds per capsule. +Column 4: Maximum number of seeds in any one capsule. +Column 5: Minimum number of seeds in any one capsule. +Column 6: Average number of seeds, expressed as the percentage of the normal +standard. + + 1 : Long-styled : 0 : 0 : 0 : 0. + 2 : Long-styled : 4.5 : ? : 0 : 5. + 3 : Long-styled : 4.5 : ? : 0 : 5. + 4 : Long-styled : 4.5 : ? : 0 : 5. + 5 : Long-styled : 0 or 1 : 2 : 0 : 0 or 1. + 6 : Long-styled : 0 : 0 : 0 : 0. + 7 : Long-styled : 36.1 : 47 : 22 : 39. + 8 : Long-styled : 41.1 : 73 : 11 : 44. + 9 : Long-styled : 57.1 : 86 : 23 : 61. +10 : Long-styled : 44.2 : 69 : 25 : 47. + +CLASS 3. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED WITH +POLLEN FROM OWN-FORM SHORTEST STAMENS. + +14 : Short-styled : 28.3 : 51 : 11 : 33. +15 : Short-styled : 32.6 : 49 : 20 : 38. +16 : Short-styled : 77.8 : 97 : 60 : 94. +17 : Long-styled : 76.3 : 88 : 57 : 82. + +CLASS 4. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM OWN-FORM LONGEST STAMENS. + +18 : Mid-styled : 102.6 : 131 : 63 : 80. +19 : Mid-styled : 73.4 : 87 : 64 : 56. +20 : Long-styled : 69.6 : 83 : 52 : 75. + +CLASS 5. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + +21 : Short-styled : 43.0 : 63 : 26 : 52. +22 : Short-styled : 100.5 : 123 : 86 : 121. +23 : Short-styled : 113.5 : 123 : 93 : 136. +24 : Long-styled : 82.0 : 120 : 67 : 88. +25 : Long-styled : 122.5 : 149 : 84 : 131. + +CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + +26 : Mid-styled : 86.0 : 109 : 61 : 66. +27 : Mid-styled : 99.4 : 122 : 53 : 76. +28 : Mid-styled : 89.0 : 119 : 69 : 68. +29 : Long-styled : 100.0 : 121 : 77 : 107. +30 : Long-styled : 94.0 : 106 : 66 : 101. +31 : Long-styled : 90.6 : 97 : 79 : 98. + +CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + +32 : Mid-styled : 127.2 : 144 : 96 : 98. +33 : Short-styled : 113.9 : 137 : 90 : 137. + +The lessened fertility of most of these illegitimate plants is in many respects +a highly remarkable phenomenon. Thirty-three plants in the seven classes were +subjected to various trials, and the seeds carefully counted. Some of them were +artificially fertilised, but the far greater number were freely fertilised (and +this is the better and natural plan) through the agency of insects, by other +illegitimate plants. In the right hand, or percentage column, in Table 5.30, a +wide difference in fertility between the plants in the first four and the last +three classes may be perceived. In the first four classes the plants are +descended from the three forms illegitimately fertilised with pollen taken from +the same form, but only rarely from the same plant. It is necessary to observe +this latter circumstance; for, as I have elsewhere shown, most plants, when +fertilised with their own pollen, or that from the same plant, are in some +degree sterile, and the seedlings raised from such unions are likewise in some +degree sterile, dwarfed, and feeble. (5/3. ‘The Effects of Cross and Self- +fertilisation in the Vegetable Kingdom’ 1876.) None of the nineteen illegitimate +plants in the first four classes were completely fertile; one, however, was +nearly so, yielding 96 per cent of the proper number of seeds. From this high +degree of fertility we have many descending gradations, till we reach an +absolute zero, when the plants, though bearing many flowers, did not produce, +during successive years, a single seed or even seed-capsule. Some of the most +sterile plants did not even yield a single seed when legitimately fertilised +with pollen from legitimate plants. There is good reason to believe that the +first seven plants in Class 1 and 2 were the offspring of a long-styled plant +fertilised with pollen from its own-form shortest stamens, and these plants were +the most sterile of all. The remaining plants in Class 1 and 2 were almost +certainly the product of pollen from the mid-length stamens, and although very +sterile, they were less so than the first set. None of the plants in the first +four classes attained their full and proper stature; the first seven, which were +the most sterile of all (as already stated), were by far the most dwarfed, +several of them never reaching to half their proper height. These same plants +did not flower at so early an age, or at so early a period in the season, as +they ought to have done. The anthers in many of their flowers, and in the +flowers of some other plants in the first six classes, were either contabescent +or included numerous small and shrivelled pollen-grains. As the suspicion at one +time occurred to me that the lessened fertility of the illegitimate plants might +be due to the pollen alone having been affected, I may remark that this +certainly was not the case; for several of them, when fertilised by sound pollen +from legitimate plants, did not yield the full complement of seeds; hence it is +certain that both the female and male reproductive organs were affected. In each +of the seven classes, the plants, though descended from the same parents, sown +at the same time and in the same soil, differed much in their average degree of +fertility. + +Turning now to the fifth, sixth, and seventh classes, and looking to the right +hand column of Table 5.30, we find nearly as many plants with a percentage of +seeds above the normal standard as beneath it. As with most plants the number of +seeds produced varies much, it might be thought that the present case was one +merely of variability. But this view must be rejected, as far as the less +fertile plants in these three classes are concerned: first, because none of the +plants in Class 5 attained their proper height, which shows that they were in +some manner affected; and, secondly, because many of the plants in Classes 5 and +6 produced anthers which were either contabescent or included small and +shrivelled pollen-grains. And as in these cases the male organs were manifestly +deteriorated, it is by far the most probable conclusion that the female organs +were in some cases likewise affected, and that this was the cause of the reduced +number of seeds. + +With respect to the six plants in these three classes which yielded a very high +percentage of seeds, the thought naturally arises that the normal standard of +fertility for the long-styled and short-styled forms (with which alone we are +here concerned) may have been fixed too low, and that the six legitimate plants +are merely fully fertile. The standard for the long-styled form was deduced by +counting the seeds in twenty-three capsules, and for the short-styled form from +twenty-five capsules. I do not pretend that this is a sufficient number of +capsules for absolute accuracy; but my experience has led me to believe that a +very fair result may thus be gained. As, however, the maximum number observed in +the twenty-five capsules of the short-styled form was low, the standard in this +case may possibly be not quite high enough. But it should be observed, in the +case of the illegitimate plants, that in order to avoid over-estimating their +infertility, ten very fine capsules were always selected; and the years 1865 and +1866, during which the plants in the three latter classes were experimented on, +were highly favourable for seed-production. Now, if this plan of selecting very +fine capsules during favourable seasons had been followed for obtaining the +normal standards, instead of taking, during various seasons, the first capsules +which came to hand, the standards would undoubtedly have been considerably +higher; and thus the fact of the six foregoing plants appearing to yield an +unnaturally high percentage of seeds may, perhaps, be explained. On this view, +these plants are, in fact, merely fully fertile, and not fertile to an abnormal +degree. Nevertheless, as characters of all kinds are liable to variation, +especially with organisms unnaturally treated, and as in the four first and more +sterile classes, the plants derived from the same parents and treated in the +same manner, certainly did vary much in sterility, it is possible that certain +plants in the latter and more fertile classes may have varied so as to have +acquired an abnormal degree of fertility. But it should be noticed that, if my +standards err in being too low, the sterility of all the many sterile plants in +the several classes will have to be estimated by so much the higher. Finally, we +see that the illegitimate plants in the four first classes are all more or less +sterile, some being absolutely barren, with one alone almost completely fertile; +in the three latter classes, some of the plants are moderately sterile, whilst +others are fully fertile, or possibly fertile in excess. + +The last point which need here be noticed is that, as far as the means of +comparison serve, some degree of relationship generally exists between the +infertility of the illegitimate union of the several parent-forms and that of +their illegitimate offspring. Thus the two illegitimate unions, from which the +plants in Classes 6 and 7 were derived, yielded a fair amount of seed, and only +a few of these plants are in any degree sterile. On the other hand, the +illegitimate unions between plants of the same form always yield very few seeds, +and their seedlings are very sterile. Long-styled parent-plants when fertilised +with pollen from their own-form shortest stamens, appear to be rather more +sterile than when fertilised with their own-form mid-length stamens; and the +seedlings from the former union were much more sterile than those from the +latter union. In opposition to this relationship, short-styled plants +illegitimately fertilised with pollen from the mid-length stamens of the long- +styled form (Class 5) are very sterile; whereas some of the offspring raised +from this union were far from being highly sterile. It may be added that there +is a tolerably close parallelism in all the classes between the degree of +sterility of the plants and their dwarfed stature. As previously stated, an +illegitimate plant fertilised with pollen from a legitimate plant has its +fertility slightly increased. The importance of the several foregoing +conclusions will be apparent at the close of this chapter, when the illegitimate +unions between the forms of the same species and their illegitimate offspring, +are compared with the hybrid unions of distinct species and their hybrid +offspring. + +OXALIS. + +No one has compared the legitimate and illegitimate offspring of any trimorphic +species in this genus. Hildebrand sowed illegitimately fertilised seeds of +Oxalis Valdiviana, but they did not germinate (5/4. ‘Botanische Zeitung’ 1871 +page 433 footnote.); and this fact, as he remarks, supports my view that an +illegitimate union resembles a hybrid one between two distinct species, for the +seeds in this latter case are often incapable of germination. + +[The following observations relate to the nature of the forms which appear among +the legitimate seedlings of Oxalis Valdiviana. Hildebrand raised, as described +in the paper just referred to, 211 seedlings from all six legitimate unions, and +the three forms appeared among the offspring from each union. For instance, +long-styled plants were legitimately fertilised with pollen from the longest +stamens of the mid-styled form, and the seedlings consisted of 15 long-styled, +18 mid-styled, and 6 short-styled. We here see that a few short-styled plants +were produced, though neither parent was short-styled; and so it was with the +other legitimate unions. Out of the above 211 seedlings, 173 belonged to the +same two forms as their parents, and only 38 belonged to the third form distinct +from either parent. In the case of O. Regnelli, the result, as observed by +Hildebrand, was nearly the same, but more striking: all the offspring from four +of the legitimate unions consisted of the two parent-forms, whilst amongst the +seedlings from the other two legitimate unions the third form appeared. Thus, of +the 43 seedlings from the six legitimate unions, 35 belonged to the same two +forms as their parents, and only 8 to the third form. Fritz Muller also raised +in Brazil seedlings from long-styled plants of O. Regnelli legitimately +fertilised with pollen from the longest stamens of the mid-styled form, and all +these belonged to the two parent-forms. (5/5. ‘Jenaische Zeitschrift’ etc. Band +6 1871 page 75.) Lastly, seedlings were raised by me from long-styled plants of +O. speciosa legitimately fertilised by the short-styled form, and from the +latter reciprocally fertilised by the long-styled; and these consisted of 33 +long-styled and 26 short-styled plants, with not one mid-styled form. There can, +therefore, be no doubt that the legitimate offspring from any two forms of +Oxalis tend to belong to the same two forms as their parents; but that a few +seedlings belonging to the third form occasionally make their appearance; and +this latter fact, as Hildebrand remarks, may be attributed to atavism, as some +of their progenitors will almost certainly have belonged to the third form. + +When, however, any one form of Oxalis is fertilised illegitimately with pollen +from the same form, the seedlings appear to belong invariably to this form. Thus +Hildebrand states that long-styled plants of O. rosea growing by themselves have +been propagated in Germany year after year by seed, and have always produced +long-styled plants. (5/6. ‘Ueber den Trimorphismus in der Gattung Oxalis: +Monatsberichte der Akad. der Wissen. zu Berlin’ 21 June 1866 page 373 and +‘Botanische Zeitung’ 1871 page 435.) Again, 17 seedlings were raised from mid- +styled plants of O. hedysaroides growing by themselves, and these were all mid- +styled. So that the forms of Oxalis, when illegitimately fertilised with their +own pollen, behave like the long-styled form of Lythrum salicaria, which when +thus fertilised always produced with me long-styled offspring.] + +PRIMULA. + +Primula Sinensis. + +I raised during February 1862, from some long-styled plants illegitimately +fertilised with pollen from the same form, twenty-seven seedlings. These were +all long-styled. They proved fully fertile or even fertile in excess; for ten +flowers, fertilised with pollen from other plants of the same lot, yielded nine +capsules, containing on an average 39.75 seeds, with a maximum in one capsule of +66 seeds. Four other flowers legitimately crossed with pollen from a legitimate +plant, and four flowers on the latter crossed with pollen from the illegitimate +seedlings, yielded seven capsules with an average of 53 seeds, with a maximum of +72. I must here state that I have found some difficulty in estimating the normal +standard of fertility for the several unions of this species, as the results +differ much during successive years, and the seeds vary so greatly in size that +it is hard to decide which ought to be considered good. In order to avoid over- +estimating the infertility of the several illegitimate unions, I have taken the +normal standard as low as possible. + +From the foregoing twenty-seven illegitimate plants, fertilised with their own- +form pollen, twenty-five seedling grandchildren were raised; and these were all +long-styled; so that from the two illegitimate generations fifty-two plants were +raised, and all without exception proved long-styled. These grandchildren grew +vigorously, and soon exceeded in height two other lots of illegitimate seedlings +of different parentage and one lot of equal-styled seedlings presently to be +described. Hence I expected that they would have turned out highly ornamental +plants; but when they flowered, they seemed, as my gardener remarked, to have +gone back to the wild state; for the petals were pale-coloured, narrow, +sometimes not touching each other, flat, generally deeply notched in the middle, +but not flexuous on the margin, and with the yellow eye or centre conspicuous. +Altogether these flowers were strikingly different from those of their +progenitors; and this I think, can only be accounted for on the principle of +reversion. Most of the anthers on one plant were contabescent. Seventeen flowers +on the grandchildren were illegitimately fertilised with pollen taken from other +seedlings of the same lot, and produced fourteen capsules, containing on an +average 29.2 seeds; but they ought to have contained about 35 seeds. Fifteen +flowers legitimately fertilised with pollen from an illegitimate short-styled +plant (belonging to the lot next to be described) produced fourteen capsules, +containing an average of 46 seeds; they ought to have contained at least 50 +seeds. Hence these grandchildren of illegitimate descent appear to have lost, +though only in a very slight degree, their full fertility. + +We will now turn to the short-styled form: from a plant of this kind, fertilised +with its own-form pollen, I raised, during February 1862, eight seedlings, seven +of which were short-styled and one long-styled. They grew slowly, and never +attained to the full stature of ordinary plants; some of them flowered +precociously, and others late in the season. Four flowers on these short-styled +seedlings and four on the one long-styled seedling were illegitimately +fertilised with their own-form pollen and produced only three capsules, +containing on an average 23.6 seeds, with a maximum of 29; but we cannot judge +of their fertility from so few capsules; and I have greater doubts about the +normal standard for this union than about any other; but I believe that rather +above 25 seeds would be a fair estimate. Eight flowers on these same short- +styled plants, and the one long-styled illegitimate plant were reciprocally and +legitimately crossed; they produced five capsules, which contained an average of +28.6 seeds, with a maximum of 36. A reciprocal cross between legitimate plants +of the two forms would have yielded an average of at least 57 seeds, with a +possible maximum of 74 seeds; so that these illegitimate plants were sterile +when legitimately crossed. + +I succeeded in raising from the above seven short-styled illegitimate plants, +fertilised with their own-form pollen, only six plants--grandchildren of the +first union. These, like their parents, were of low stature, and had so poor a +constitution that four died before flowering. With ordinary plants it has been a +rare event with me to have more than a single plant die out of a large lot. The +two grandchildren which lived and flowered were short-styled; and twelve of +their flowers were fertilised with their own-form pollen and produced twelve +capsules containing an average of 28.2 seeds; so that these two plants, though +belonging to so weakly a set, were rather more fertile than their parents, and +perhaps not in any degree sterile. Four flowers on the same two grandchildren +were legitimately fertilised by a long-styled illegitimate plant, and produced +four capsules, containing only 32.2 seeds instead of about 64 seeds, which is +the normal average for legitimate short-styled plants legitimately crossed. + +By looking back, it will be seen that I raised at first from a short-styled +plant fertilised with its own-form pollen one long-styled and seven short-styled +illegitimate seedlings. These seedlings were legitimately intercrossed, and from +their seed fifteen plants were raised, grandchildren of the first illegitimate +union, and to my surprise all proved short-styled. Twelve short-styled flowers +borne by these grandchildren were illegitimately fertilised with pollen taken +from other plants of the same lot, and produced eight capsules which contained +an average of 21.8 seeds, with a maximum of 35. These figures are rather below +the normal standard for such a union. Six flowers were also legitimately +fertilised with pollen from an illegitimate long-styled plant and produced only +three capsules, containing on an average 23.6 seeds, with a maximum of 35. Such +a union in the case of a legitimate plant ought to have yielded an average of 64 +seeds, with a possible maximum of 73 seeds. + +SUMMARY ON THE TRANSMISSION OF FORM, CONSTITUTION, AND FERTILITY OF THE +ILLEGITIMATE OFFSPRING OF Primula Sinensis. + +In regard to the long-styled plants, their illegitimate offspring, of which +fifty-two were raised in the course of two generations, were all long-styled. +(5/7. Dr. Hildebrand, who first called attention to this subject ‘Botanische +Zeitung’ 1864 page 5, raised from a similar illegitimate union seventeen plants, +of which fourteen were long-styled and three short-styled. From a short-styled +plant illegitimately fertilised with its own pollen he raised fourteen plants, +of which eleven were short-styled and three long-styled.) These plants grew +vigorously; but the flowers in one instance were small, appearing as if they had +reverted to the wild state. In the first illegitimate generation they were +perfectly fertile, and in the second their fertility was only very slightly +impaired. With respect to the short-styled plants, twenty-four out of twenty- +five of their illegitimate offspring were short-styled. They were dwarfed in +stature, and one lot of grandchildren had so poor a constitution that four out +of six plants perished before flowering. The two survivors, when illegitimately +fertilised with their own-form pollen, were rather less fertile than they ought +to have been; but their loss of fertility was clearly shown in a special and +unexpected manner, namely, when legitimately fertilised by other illegitimate +plants: thus altogether eighteen flowers were fertilised in this manner, and +yielded twelve capsules, which included on an average only 28.5 seeds, with a +maximum of 45. Now a legitimate short-styled plant would have yielded, when +legitimately fertilised, an average of 64 seeds, with a possible maximum of 74. +This particular kind of infertility will perhaps be best appreciated by a +simile: we may assume that with mankind six children would be born on an average +from an ordinary marriage; but that only three would be born from an incestuous +marriage. According to the analogy of Primula Sinensis, the children of such +incestuous marriages, if they continued to marry incestuously, would have their +sterility only slightly increased; but their fertility would not be restored by +a proper marriage; for if two children, both of incestuous origin, but in no +degree related to each other, were to marry, the marriage would of course be +strictly legitimate, nevertheless they would not give birth to more than half +the full and proper number of children. + +[EQUAL-STYLED VARIETY OF Primula Sinensis. + +As any variation in the structure of the reproductive organs, combined with +changed function, is a rare event, the following cases are worth giving in +detail. My attention was first called to the subject by observing, in 1862, a +long-styled plant, descended from a self-fertilised long-styled parent, which +had some of its flowers in an anomalous state, namely, with the stamens placed +low down in the corolla as in the ordinary long-styled form, but with the +pistils so short that the stigmas stood on a level with the anthers. These +stigmas were nearly as globular and as smooth as in the short-styled form, +instead of being elongated and rough as in the long-styled form. Here, then, we +have combined in the same flower, the short stamens of the long-styled form with +a pistil closely resembling that of the short-styled form. But the structure +varied much even on the same umbel: for in two flowers the pistil was +intermediate in length between that of the long and that of the short-styled +form, with the stigma elongated as in the former, and smooth as in the latter; +and in three other flowers the structure was in all respects like that of the +long-styled form. These modifications appeared to me so remarkable that I +fertilised eight of the flowers with their own pollen, and obtained five +capsules, which contained on an average 43 seeds; and this number shows that the +flowers had become abnormally fertile in comparison with those of ordinary long- +styled plants when self-fertilised. I was thus led to examine the plants in +several small collections, and the result showed that the equal-styled variety +was not rare. + +TABLE 5.31. Primula Sinensis. Preponderance of long-styled over the short-styled +form. + +Column 1: Name of owner or place. +Column 2: Long-styled form. +Column 3: Short-styled form. +Column 4: equal-styled variety. + +Mr. Horwood : 0 : 0 : 17. +Mr. Duck : 20 : 0 : 9. +Baston : 30 : 18 : 15. +Chichester : 12 : 9 : 2. +Holwood : 42 : 12 : 0. +High Elms : 16 : 0 : 0. +Westerham : 1 : 5 : 0. +My own plants from purchased seeds : 13 : 7 : 0. +Total : 134 : 51 : 43. + +In a state of nature the long and short-styled forms would no doubt occur in +nearly equal numbers, as I infer from the analogy of the other heterostyled +species of Primula, and from having raised the two forms of the present species +in exactly the same number from flowers which had been LEGITIMATELY crossed. The +preponderance in Table 5.31 of the long-styled form over the short-styled (in +the proportion of 134 to 51) results from gardeners generally collecting seed +from self-fertilised flowers; and the long-styled flowers produce spontaneously +much more seed (as shown in the first chapter) than the short-styled, owing to +the anthers of the long-styled form being placed low down in the corolla, so +that, when the flowers fall off, the anthers are dragged over the stigma; and we +now also know that long-styled plants, when self-fertilised, very generally +reproduce long-styled offspring. From the consideration of this table, it +occurred to me in the year 1862, that almost all the plants of the Chinese +primrose cultivated in England would sooner or later become long-styled or +equal-styled; and now, at the close of 1876, I have had five small collections +of plants examined, and almost all consisted of long-styled, with some more or +less well-characterised equal-styled plants, but with not one short-styled. + +With respect to the equal-styled plants in the table, Mr. Horwood raised from +purchased seeds four plants, which he remembered were certainly not long-styled, +but either short or equal-styled, probably the latter. These four plants were +kept separate and allowed to fertilise themselves; from their seed the seventeen +plants in the table were raised, all of which proved equal-styled. The stamens +stood low down in the corolla as in the long-styled form; and the stigmas, which +were globular and smooth, were either completely surrounded by the anthers, or +stood close above them. My son William made drawings for me, by the aid of the +camera, of the pollen of one of the above equal-styled plants; and, in +accordance with the position of the stamens, the grains resembled in their small +size those of the long-styled form. He also examined pollen from two equal- +styled plants at Southampton; and in both of them the grains differed extremely +in size in the same anthers, a large number being small and shrivelled, whilst +many were fully as large as those of the short-styled form and rather more +globular. It is probable that the large size of these grains was due, not to +their having assumed the character of the short-styled form, but to monstrosity; +for Max Wichura has observed pollen-grains of monstrous size in certain hybrids. +The vast number of the small shrivelled grains in the above two cases explains +the fact that, though equal-styled plants are generally fertile in a high +degree, yet some of them yield few seeds. I may add that my son compared, in +1875, the grains from two white-flowered plants, in both of which the pistil +projected above the anthers, but neither were properly long-styled or equal- +styled; and in the one in which the stigma projected most, the grains were in +diameter to those in the other plant, in which the stigma projected less, as 100 +to 88; whereas the difference between the grains from perfectly characterised +long-styled and short-styled plants is as 100 to 57. So that these two plants +were in an intermediate condition. To return to the 17 plants in the first line +of Table 5.31: from the relative position of their stigmas and anthers, they +could hardly fail to fertilise themselves; and accordingly four of them +spontaneously yielded no less than 180 capsules; of these Mr. Horwood selected +eight fine capsules for sowing; and they included on an average 54.8 seeds, with +a maximum of 72. He gave me thirty other capsules, taken by hazard, of which +twenty-seven contained good seeds, averaging 35.5, with a maximum of 70; but if +six poor capsules, each with less than 13 seeds, be excluded, the average rises +to 42.5. These are higher numbers than could be expected from either well- +characterised form if self-fertilised; and this high degree of fertility accords +with the view that the male organs belonged to one form, and the female organs +partially to the other form; so that a self-union in the case of the equal- +styled variety is in fact a legitimate union. + +The seed saved from the above seventeen self-fertilised equal-styled plants +produced sixteen plants, which all proved equal-styled, and resembled their +parents in all the above-specified respects. The stamens, however, in one plant +were seated higher up the tube of the corolla than in the true long-styled form; +in another plant almost all the anthers were contabescent. These sixteen plants +were the grandchildren of the four original plants, which it is believed were +equal-styled; so that this abnormal condition was faithfully transmitted, +probably through three, and certainly through two generations. The fertility of +one of these grandchildren was carefully observed: six flowers were fertilised +with pollen from the same flower, and produced six capsules, containing on an +average 68 seeds, with a maximum of 82, and a minimum of 40. Thirteen capsules +spontaneously self-fertilised yielded an average of 53.2 seeds, with the +astonishing maximum in one of 97 seeds. In no legitimate union has so high an +average as 68 seeds been observed by me, or nearly so high a maximum as 82 and +97. These plants, therefore, not only have lost their proper heterostyled +structure and peculiar functional powers, but have acquired an abnormal grade of +fertility--unless, indeed, their high fertility may be accounted for by the +stigmas receiving pollen from the circumjacent anthers at exactly the most +favourable period. + +With respect to Mr. Duck’s lot in Table 5.31, seed was saved from a single +plant, of which the form was not observed, and this produced nine equal-styled +and twenty long-styled plants. The equal-styled resembled in all respects those +previously described; and eight of their capsules spontaneously self-fertilised +contained on an average 44.4 seeds, with a maximum of 61 and a minimum of 23. In +regard to the twenty long-styled plants, the pistil in some of the flowers did +not project quite so high as in ordinary long-styled flowers; and the stigmas, +though properly elongated, were smooth; so that we have here a slight approach +in structure to the pistil of the short-styled form. Some of these long-styled +plants also approached the equal-styled in function; for one of them produced no +less than fifteen spontaneously self-fertilised capsules, and of these eight +contained, on an average, 31.7 seeds, with a maximum of 61. This average would +be rather low for a long-styled plant artificially fertilised with its own +pollen, but is high for one spontaneously self-fertilised. For instance, thirty- +four capsules produced by the illegitimate grandchildren of a long-styled plant, +spontaneously self-fertilised, contained on an average only 9.1 seeds, with a +maximum of 46. Some seeds indiscriminately saved from the foregoing twenty-nine +equal-styled and long-styled plants produced sixteen seedlings, grandchildren of +the original plant belonging to Mr. Duck; and these consisted of fourteen equal- +styled and two long-styled plants; and I mention this fact as an additional +instance of the transmission of the equal-styled variety. + +The third lot in Table 5.31, namely the Baston plants, are the last which need +be mentioned. The long and short-styled plants, and the fifteen equal-styled +plants, were descended from two distinct stocks. The latter were derived from a +single plant, which the gardener is positive was not long-styled; hence, +probably, it was equal-styled. In all these fifteen plants the anthers, +occupying the same position as in the long-styled form, closely surrounded the +stigma, which in one instance alone was slightly elongated. Notwithstanding this +position of the stigma, the flowers, as the gardener assured me, did not yield +many seeds; and this difference from the foregoing cases may perhaps have been +caused by the pollen being bad, as in some of the Southampton equal-styled +plants.] + +CONCLUSIONS WITH RESPECT TO THE EQUAL-STYLED VARIETY OF P. Sinensis. + +That this is a variation, and not a third or distinct form, as in the trimorphic +genera Lythrum and Oxalis, is clear; for we have seen its first appearance in +one out of a lot of illegitimate long-styled plants; and in the case of Mr. +Duck’s seedlings, long-styled plants, only slightly deviating from the normal +state, as well as equal-styled plants were produced from the same self- +fertilised parent. The position of the stamens in their proper place low down in +the tube of the corolla, together with the small size of the pollen-grains, +show, firstly, that the equal-styled variety is a modification of the long- +styled form, and, secondly, that the pistil is the part which has varied most, +as indeed was obvious in many of the plants. This variation is of frequent +occurrence, and is strongly inherited when it has once appeared. It would, +however, have possessed little interest if it had consisted of a mere change of +structure; but this is accompanied by modified fertility. Its occurrence +apparently stands in close relation with the illegitimate birth of the parent +plant; but to this whole subject I shall hereafter recur. + +[Primula auricula. + +Although I made no experiments on the illegitimate offspring of this species, I +refer to it for two reasons:--First, because I have observed two equal-styled +plants in which the pistil resembled in all respects that of the long-styled +form, whilst the stamens had become elongated as in the short-styled form, so +that the stigma was almost surrounded by the anthers. The pollen-grains, +however, of the elongated stamens resembled in their small size those of the +shorter stamens proper to the long-styled form. Hence these plants have become +equal-styled by the increased length of the stamens, instead of, as with P. +Sinensis, by the diminished length of the pistil. Mr. J. Scott observed five +other plants in the same state, and he shows that one of them, when self- +fertilised, yielded more seed than an ordinary long- or short-styled form would +have done when similarly fertilised, but that it was far inferior in fertility +to either form when legitimately crossed. (5/8. ‘Journal of the Proceedings of +the Linnean Society’ 8 1864 page 91.) Hence it appears that the male and female +organs of this equal-styled variety have been modified in some special manner, +not only in structure but in functional powers. This, moreover, is shown by the +singular fact that both the long-styled and short-styled plants, fertilised with +pollen from the equal-styled variety, yield a lower average of seed than when +these two forms are fertilised with their own pollen. + +The second point which deserves notice is that florists always throw away the +long-styled plants, and save seed exclusively from the short-styled form. +Nevertheless, as Mr. Scott was informed by a man who raises this species +extensively in Scotland, about one-fourth of the seedlings appear long-styled; +so that the short-styled form of the Auricula, when fertilised by its own +pollen, does not reproduce the same form in so large a proportion as in the case +of P. Sinensis. We may further infer that the short-styled form is not rendered +quite sterile by a long course of fertilisation with pollen of the same form: +but as there would always be some liability to an occasional cross with the +other form, we cannot tell how long self-fertilisation has been continued. + +Primula farinosa. + +Mr. Scott says that it is not at all uncommon to find equal-styled plants of +this heterostyled species. (5/9. ‘Journal of the Proceedings of the Linnean +Society’ 8 1864 page 115.) Judging from the size of the pollen-grains, these +plants owe their structure, as in the case of P. auricula, to the abnormal +elongation of the stamens of the long-styled form. In accordance with this view, +they yield less seed when crossed with the long-styled form than with the short- +styled. But they differ in an anomalous manner from the equal-styled plants of +P. auricula in being extremely sterile with their own pollen. + +Primula elatior. + +It was shown in the first chapter, on the authority of Herr Breitenbach, that +equal-styled flowers are occasionally found on this species whilst growing in a +state of nature; and this is the only instance of such an occurrence known to +me, with the exception of some wild plants of the Oxlip--a hybrid between P. +veris and vulgaris--which were equal-styled. Herr Breitenbach’s case is +remarkable in another way; for equal-styled flowers were found in two instances +on plants which bore both long-styled and short-styled flowers. In every other +instance these two forms and the equal-styled variety have been produced by +distinct plants.] + +Primula vulgaris, BRIT. FL. + +VAR. acaulis OF LINN. AND P. acaulis OF JACQ. + +VAR. RUBRA. + +Mr. Scott states that this variety, which grew in the Botanic Garden in +Edinburgh, was quite sterile when fertilised with pollen from the common +primrose, as well as from a white variety of the same species, but that some of +the plants, when artificially fertilised with their own pollen, yielded a +moderate supply of seed. (5/10. ‘Journal of the Proceedings of the Linnean +Society’ 8 1864 page 98.) He was so kind as to send me some of these self- +fertilised seeds, from which I raised the plants immediately to be described. I +may premise that the results of my experiments on the seedlings, made on a large +scale, do not accord with those by Mr. Scott on the parent-plant. + +First, in regard to the transmission of form and colour. The parent-plant was +long-styled, and of a rich purple colour. From the self-fertilised seed 23 +plants were raised; of these 18 were purple of different shades, with two of +them a little streaked and freckled with yellow, thus showing a tendency to +reversion; and 5 were yellow, but generally with a brighter orange centre than +in the wild flower. All the plants were profuse flowerers. All were long-styled; +but the pistil varied a good deal in length even on the same plant, being rather +shorter, or considerably longer, than in the normal long-styled form; and the +stigmas likewise varied in shape. It is, therefore, probable that an equal- +styled variety of the primrose might be found on careful search; and I have +received two accounts of plants apparently in this condition. The stamens always +occupied their proper position low down in the corolla; and the pollen-grains +were of the small size proper to the long-styled form, but were mingled with +many minute and shrivelled grains. The yellow-flowered and the purple-flowered +plants of this first generation were fertilised under a net with their own +pollen, and the seed separately sown. From the former, 22 plants were raised, +and all were yellow and long-styled. From the latter or the purple-flowered +plants, 24 long-styled plants were raised, of which 17 were purple and 7 yellow. +In this last case we have an instance of reversion in colour, without the +possibility of any cross, to the grandparents or more distant progenitors of the +plants in question. Altogether 23 plants in the first generation and 46 in the +second generation were raised; and the whole of these 69 illegitimate plants +were long-styled! + +Eight purple-flowered and two yellow-flowered plants of the first illegitimate +generation were fertilised in various ways with their own pollen and with that +of the common primrose; and the seeds were separately counted, but as I could +detect no difference in fertility between the purple and yellow varieties, the +results are run together in Table 5.32. + +TABLE 5.32. Primula vulgaris. + +Column 1: Nature of plant experimented on, and kind of union. +Column 2: Number of flowers fertilised. +Column 3: Number of capsules produced. +Column 4: Average Number of seeds per capsule. +Column 5: Maximum Number of seeds in any one capsule. +Column 6: Minimum Number of seeds in any one capsule. + +Purple- and yellow-flowered illegitimate long-styled plants, ILLEGITIMATELY +fertilised with pollen from the same plant : +72 : 11 : 11.5 : 26 : 5. + +Purple- and yellow-flowered illegitimate long-styled plants, ILLEGITIMATELY +fertilised with pollen from the common long-styled primrose : +72 : 39 : 31.4 : 62 : 3. + +Or, if the ten poorest capsules, including less than 15 seeds, be rejected, we +get: +72 : 29 : 40.6 : 62 : 18. + +Purple- and yellow-flowered illegitimate long-styled plants, LEGITIMATELY +fertilised with pollen from the common short-styled primrose : +26 : 18 : 36.4 : 60 : 9. + +Or, if the two poorest capsules, including less than 15 seeds, be rejected, we +get: +26 : 16 : 41.2 : 60 : 15. + +The long-styled form of the common primrose ILLEGITIMATELY fertilised with +pollen from the long-styled illegitimate purple- and yellow-flowered plants: +20 : 14 : 15.4 : 46 : 1. + +Or, if the three poorest capsules be rejected, we get: +20 : 11 : 18.9 : 46 : 8. + +The short-styled form of the common primrose LEGITIMATELY fertilised with pollen +from the long-styled illegitimate purple- and yellow-flowered plants: +10 : 6 : 30.5 : 61 : 6. + +If we compare the figures in this table with those given in the first chapter, +showing the normal fertility of the common primrose, we shall see that the +illegitimate purple- and yellow-flowered varieties are very sterile. For +instance, 72 flowers were fertilised with their own pollen and produced only 11 +good capsules; but by the standard they ought to have produced 48 capsules; and +each of these ought to have contained on an average 52.2 seeds, instead of only +11.5 seeds. When these plants were illegitimately and legitimately fertilised +with pollen from the common primrose, the average numbers were increased, but +were far from attaining the normal standards. So it was when both forms of the +common primrose were fertilised with pollen from these illegitimate plants; and +this shows that their male as well as their female organs were in a deteriorated +condition. The sterility of these plants was shown in another way, namely, by +their not producing any capsules when the access of all insects (except such +minute ones as Thrips) was prevented; for under these circumstances the common +long-styled primrose produces a considerable number of capsules. There can, +therefore, be no doubt that the fertility of these plants was greatly impaired. +The loss is not correlated with the colour of the flower; and it was to +ascertain this point that I made so many experiments. As the parent-plant +growing in Edinburgh was found by Mr. Scott to be in a high degree sterile, it +may have transmitted a similar tendency to its offspring, independently of their +illegitimate birth. I am, however, inclined to attribute some weight to the +illegitimacy of their descent, both from the analogy of other cases, and more +especially from the fact that when the plants were LEGITIMATELY fertilised with +pollen of the common primrose they yielded an average, as may be seen in the +table, of only 5 more seeds than when ILLEGITIMATELY fertilised with the same +pollen. Now we know that it is eminently characteristic of the illegitimate +offspring of Primula Sinensis that they yield but few more seeds when +legitimately fertilised than when fertilised with their own-form pollen. + +Primula veris, Brit. Fl. + +Var. officinalis of Linn., P. officinalis OF Jacq. + +Seeds from the short-styled form of the cowslip fertilised with pollen from the +same form germinate so badly that I raised from three successive sowings only +fourteen plants, which consisted of nine short-styled and five long-styled +plants. Hence the short-styled form of the cowslip, when self-fertilised, does +not transmit the same form nearly so truly as does that of P. Sinensis. From the +long-styled form, always fertilised with its own-form pollen, I raised in the +first generation three long-styled plants,--from their seed 53 long-styled +grandchildren,--from their seed 4 long-styled great-grandchildren,--from their +seed 20 long-styled great-great-grandchildren,--and lastly, from their seed 8 +long-styled and 2 short-styled great-great-great-grandchildren. In this last +generation short-styled plants appeared for the first time in the course of the +six generations,--the parent long-styled plant which was fertilised with pollen +from another plant of the same form being counted as the first generation. Their +appearance may be attributed to atavism. From two other long-styled plants, +fertilised with their own-form pollen, 72 plants were raised, which consisted of +68 long-styled and 4 short-styled. So that altogether 162 plants were raised +from illegitimately fertilised long-styled cowslips, and these consisted of 156 +long-styled and 6 short-styled plants. + +We will now turn to the fertility and powers of growth possessed by the +illegitimate plants. From a short-styled plant, fertilised with its own-form +pollen, one short-styled and two long-styled plants, and from a long-styled +plant similarly fertilised three long-styled plants were at first raised. The +fertility of these six illegitimate plants was carefully observed; but I must +premise that I cannot give any satisfactory standard of comparison as far as the +number of the seeds is concerned; for though I counted the seeds of many +legitimate plants fertilised legitimately and illegitimately, the number varied +so greatly during successive seasons that no one standard will serve well for +illegitimate unions made during different seasons. Moreover the seeds in the +same capsule frequently differ so much in size that it is scarcely possible to +decide which ought to be counted as good seed. There remains as the best +standard of comparison the proportional number of fertilised flowers which +produce capsules containing any seed. + +First, for the one illegitimate short-styled plant. In the course of three +seasons 27 flowers were illegitimately fertilised with pollen from the same +plant, and they yielded only a single capsule, which, however, contained a +rather large number of seeds for a union of this nature, namely, 23. As a +standard of comparison I may state that during the same three seasons 44 flowers +borne by legitimate short-styled plants were self-fertilised, and yielded 26 +capsules; so that the fact of the 27 flowers on the illegitimate plant having +produced only one capsule proves how sterile it was. To show that the conditions +of life were favourable, I will add that numerous plants of this and other +species of Primula all produced an abundance of capsules whilst growing close by +in the same soil with the present and following plants. The sterility of the +above illegitimate short-styled plant depended on both the male and female +organs being in a deteriorated condition. This was manifestly the case with the +pollen; for many of the anthers were shrivelled or contabescent. Nevertheless +some of the anthers contained pollen, with which I succeeded in fertilising some +flowers on the illegitimate long-styled plants immediately to be described. Four +flowers on this same short-styled plant were likewise LEGITIMATELY fertilised +with pollen from one of the following long-styled plants; but only one capsule +was produced, containing 26 seeds; and this is a very low number for a +legitimate union. + +With respect to the five illegitimate long-styled plants of the first +generation, derived from the above self-fertilised short-styled and long-styled +parents, their fertility was observed during the same three years. These five +plants, when self-fertilised, differed considerably from one another in their +degree of fertility, as was the case with the illegitimate long-styled plants of +Lythrum salicaria; and their fertility varied much according to the season. I +may premise, as a standard of comparison, that during the same years 56 flowers +on legitimate long-styled plants of the same age and grown in the same soil, +were fertilised with their own pollen, and yielded 27 capsules; that is, 48 per +cent. On one of the five illegitimate long-styled plants 36 flowers were self- +fertilised in the course of the three years, but they did not produce a single +capsule. Many of the anthers on this plant were contabescent; but some seemed to +contain sound pollen. Nor were the female organs quite impotent; for I obtained +from a LEGITIMATE cross one capsule with good seed. On a second illegitimate +long-styled plant 44 flowers were fertilised during the same years with their +own pollen, but they produced only a single capsule. The third and fourth plants +were in a very slight degree more productive. The fifth and last plant was +decidedly more fertile; for 42 self-fertilised flowers yielded 11 capsules. +Altogether, in the course of the three years, no less than 160 flowers on these +five illegitimate long-styled plants were fertilised with their own pollen, but +they yielded only 22 capsules. According to the standard above given, they ought +to have yielded 80 capsules. These 22 capsules contained on an average 15.1 +seeds. I believe, subject to the doubts before specified, that with legitimate +plants the average number from a union of this nature would have been above 20 +seeds. Twenty-four flowers on these same five illegitimate long-styled plants +were legitimately fertilised with pollen from the above-described illegitimate +short-styled plant, and produced only 9 capsules, which is an extremely small +number for a legitimate union. These 9 capsules, however, contained an average +of 38 apparently good seeds, which is as large a number as legitimate plants +sometimes yield. But this high average was almost certainly false; and I mention +the case for the sake of showing the difficulty of arriving at a fair result; +for this average mainly depended on two capsules containing the extraordinary +numbers of 75 and 56 seeds; these seeds, however, though I felt bound to count +them, were so poor that, judging from trials made in other cases, I do not +suppose that one would have germinated; and therefore they ought not to have +been included. Lastly, 20 flowers were legitimately fertilised with pollen from +a legitimate plant, and this increased their fertility; for they produced 10 +capsules. Yet this is but a very small proportion for a legitimate union. + +There can, therefore, be no doubt that these five long-styled plants and the one +short-styled plant of the first illegitimate generation were extremely sterile. +Their sterility was shown, as in the case of hybrids, in another way, namely, by +their flowering profusely, and especially by the long endurance of the flowers. +For instance, I fertilised many flowers on these plants, and fifteen days +afterwards (namely on March 22nd) I fertilised numerous long-styled and short- +styled flowers on common cowslips growing close by. These latter flowers, on +April 8th, were withered, whilst most of the illegitimate flowers remained quite +fresh for several days subsequently; so that some of these illegitimate plants, +after being fertilised, remained in full bloom for above a month. + +We will now turn to the fertility of the 53 illegitimate long-styled +grandchildren, descended from the long-styled plant which was first fertilised +with its own pollen. The pollen in two of these plants included a multitude of +small and shrivelled grains. Nevertheless they were not very sterile; for 25 +flowers, fertilised with their own pollen, produced 15 capsules, containing an +average of 16.3 seeds. As already stated, the probable average with legitimate +plants for a union of this nature is rather above 20 seeds. These plants were +remarkably healthy and vigorous, as long as they were kept under highly +favourable conditions in pots in the greenhouse; and such treatment greatly +increases the fertility of the cowslip. When these same plants were planted +during the next year (which, however, was an unfavourable one), out of doors in +good soil, 20 self-fertilised flowers produced only 5 capsules, containing +extremely few and wretched seeds. + +Four long-styled great-grandchildren were raised from the self-fertilised +grandchildren, and were kept under the same highly favourable conditions in the +greenhouse; 10 of their flowers were fertilised with own-form pollen and yielded +the large proportion of 6 capsules, containing on an average 18.7 seeds. From +these seeds 20 long-styled great-great-grandchildren were raised, which were +likewise kept in the greenhouse. Thirty of their flowers were fertilised with +their own pollen and yielded 17 capsules, containing on an average no less than +32, mostly fine seeds. It appears, therefore, that the fertility of these plants +of the fourth illegitimate generation, as long as they were kept under highly +favourable conditions, had not decreased, but had rather increased. The result, +however, was widely different when they were planted out of doors in good soil, +where other cowslips grew vigorously and were completely fertile; for these +illegitimate plants now became much dwarfed in stature and extremely sterile, +notwithstanding that they were exposed to the visits of insects, and must have +been legitimately fertilised by the surrounding legitimate plants. A whole row +of these plants of the fourth illegitimate generation, thus freely exposed and +legitimately fertilised, produced only 3 capsules, containing on an average only +17 seeds. During the ensuing winter almost all these plants died, and the few +survivors were miserably unhealthy, whilst the surrounding legitimate plants +were not in the least injured. + +The seeds from the great-great-grandchildren were sown, and 8 long-styled and 2 +short-styled plants of the fifth illegitimate generation raised. These whilst +still in the greenhouse produced smaller leaves and shorter flower-stalks than +some legitimate plants with which they grew in competition; but it should be +observed that the latter were the product of a cross with a fresh stock,--a +circumstance which by itself would have added much to their vigour. (5/11. For +full details of this experiment, see my ‘Effects of Cross and Self- +fertilisation’ 1876 page 220.) When these illegitimate plants were transferred +to fairly good soil out of doors, they became during the two following years +much more dwarfed in stature and produced very few flower-stems; and although +they must have been legitimately fertilised by insects, they yielded capsules, +compared with those produced by the surrounding legitimate plants, in the ratio +only of 5 to 100! It is therefore certain that illegitimate fertilisation, +continued during successive generations, affects the powers of growth and +fertility of P. veris to an extraordinary degree; more especially when the +plants are exposed to ordinary conditions of life, instead of being protected in +a greenhouse. + +[EQUAL-STYLED RED VARIETY OF Primula veris. + +Mr. Scott has described a plant of this kind growing in the Botanic Garden of +Edinburgh. (5/12. ‘Proceedings of the Linnean Society’ volume 8 1864 page 105.) +He states that it was highly self-fertile, although insects were excluded; and +he explains this fact by showing, first, that the anthers and stigma are in +close apposition, and that the stamens in length, position and size of their +pollen-grains resemble those of the short-styled form, whilst the pistil +resembles that of the long-styled form both in length and in the structure of +the stigma. Hence the self-union of this variety is, in fact, a legitimate +union, and consequently is highly fertile. Mr. Scott further states that this +variety yielded very few seeds when fertilised by either the long- or short- +styled common cowslip, and, again, that both forms of the latter, when +fertilised by the equal-styled variety, likewise produced very few seeds. But +his experiments with the cowslip were few, and my results do not confirm his in +any uniform manner. + +I raised twenty plants from self-fertilised seed sent me by Mr. Scott; and they +all produced red flowers, varying slightly in tint. Of these, two were strictly +long-styled both in structure and in function; for their reproductive powers +were tested by crosses with both forms of the common cowslip. Six plants were +equal-styled; but on the same plant the pistil varied a good deal in length +during different seasons. This was likewise the case, according to Mr. Scott, +with the parent-plant. Lastly, twelve plants were in appearance short-styled; +but they varied much more in the length of their pistils than ordinary short- +styled cowslips, and they differed widely from the latter in their powers of +reproduction. Their pistils had become short-styled in structure, whilst +remaining long-styled in function. Short-styled cowslips, when insects are +excluded, are extremely barren: for instance, on one occasion six fine plants +produced only about 50 seeds (that is, less than the product of two good +capsules), and on another occasion not a single capsule. Now, when the above +twelve apparently short-styled seedlings were similarly treated, nearly all +produced a great abundance of capsules, containing numerous seeds, which +germinated remarkably well. Moreover three of these plants, which during the +first year were furnished with quite short pistils, on the following year +produced pistils of extraordinary length. The greater number, therefore, of +these short-styled plants could not be distinguished in function from the equal- +styled variety. The anthers in the six equal-styled and in the apparently twelve +short-styled plants were seated high up in the corolla, as in the true short- +styled cowslip; and the pollen-grains resembled those of the same form in their +large size, but were mingled with a few shrivelled grains. In function this +pollen was identical with that of the short-styled cowslip; for ten long-styled +flowers of the common cowslip, legitimately fertilised with pollen from a true +equal-styled variety, produced six capsules, containing on an average 34.4 +seeds; whilst seven capsules on a short-styled cowslip illegitimately fertilised +with pollen from the equal-styled variety, yielded an average of only 14.5 +seeds. + +As the equal-styled plants differ from one another in their powers of +reproduction, and as this is an important subject, I will give a few details +with respect to five of them. First, an equal-styled plant, protected from +insects (as was done in all the following cases, with one stated exception), +spontaneously produced numerous capsules, five of which gave an average of 44.8 +seeds, with a maximum in one capsule of 57. But six capsules, the product of +fertilisation with pollen from a short-styled cowslip (and this is a legitimate +union), gave an average of 28.5 seeds, with a maximum of 49; and this is a much +lower average than might have been expected. Secondly, nine capsules from +another equal-styled plant, which had not been protected from insects, but +probably was self-fertilised, gave an average of 45.2 seeds, with a maximum of +58. Thirdly, another plant which had a very short pistil in 1865, produced +spontaneously many capsules, six of which contained an average of 33.9 seeds, +with a maximum of 38. In 1866 this same plant had a pistil of wonderful length; +for it projected quite above the anthers, and the stigma resembled that of the +long-styled form. In this condition it produced spontaneously a vast number of +fine capsules, six of which contained almost exactly the same average number as +before, namely 34.3, with a maximum of 38. Four flowers on this plant, +legitimately fertilised with pollen from a short-styled cowslip, yielded +capsules with an average of 30.2 seeds. Fourthly another short-styled plant +spontaneously produced in 1865 an abundance of capsules, ten of which contained +an average of 35.6 seeds, with a maximum of 54. In 1866 this same plant had +become in all respects long-styled, and ten capsules gave almost exactly the +same average as before, namely 35.1 seeds, with a maximum of 47. Eight flowers +on this plant, legitimately fertilised with pollen from a short-styled cowslip, +produced six capsules, with the high average of 53 seeds, and the high maximum +of 67. Eight flowers were also fertilised with pollen from a long-styled cowslip +(this being an illegitimate union), and produced seven capsules, containing an +average of 24.4 seeds, with a maximum of 32. The fifth and last plant remained +in the same condition during both years: it had a pistil rather longer than that +of the true short-styled form, with the stigma smooth, as it ought to be in this +form, but abnormal in shape, like a much-elongated inverted cone. It produced +spontaneously many capsules, five of which, in 1865, gave an average of only +15.6 seeds; and in 1866 ten capsules still gave an average only a little higher, +namely of 22.1, with a maximum of 30. Sixteen flowers were fertilised with +pollen from a long-styled cowslip, and produced 12 capsules, with an average of +24.9 seeds, and a maximum of 42. Eight flowers were fertilised with pollen from +a short-styled cowslip, but yielded only two capsules, containing 18 and 23 +seeds. Hence this plant, in function and partially in structure, was in an +almost exactly intermediate state between the long-styled and short-styled form, +but inclining towards the short-styled; and this accounts for the low average of +seeds which it produced when spontaneously self-fertilised. + +The foregoing five plants thus differ much from one another in the nature of +their fertility. In two individuals a great difference in the length of the +pistil during two succeeding years made no difference in the number of seeds +produced. As all five plants possessed the male organs of the short-styled form +in a perfect state, and the female organs of the long-styled form in a more or +less complete state, they spontaneously produced a surprising number of +capsules, which generally contained a large average of remarkably fine seeds. +With ordinary cowslips LEGITIMATELY FERTILISED, I once obtained from plants +cultivated in the greenhouse the high average, from seven capsules, of 58.7 +seeds, with a maximum in one capsule of 87 seeds; but from plants grown out of +doors I never obtained a higher average than 41 seeds. Now two of the equal- +styled plants, grown out of doors and spontaneously SELF-FERTILISED, gave +averages of 44 and 45 seeds; but this high fertility may perhaps be in part +attributed to the stigma receiving pollen from the surrounding anthers at +exactly the right period. Two of these plants, fertilised with pollen from a +short-styled cowslip (and this in fact is a legitimate union), gave a lower +average than when self-fertilised. On the other hand, another plant, when +similarly fertilised by a cowslip, yielded the unusually high average of 53 +seeds, with a maximum of 67. Lastly, as we have just seen, one of these plants +was in an almost exactly intermediate condition in its female organs between the +long- and short-styled forms, and consequently, when self-fertilised, yielded a +low average of seed. If we add together all the experiments which I made on the +equal-styled plants, 41 spontaneously self-fertilised capsules (insects having +been excluded) gave an average of 34 seeds, which is exactly the same number as +the parent-plant yielded in Edinburgh. Thirty-four flowers, fertilised with +pollen from the short-styled cowslip (and this is an analogous union), produced +17 capsules, containing an average of 33.8 seeds. It is a rather singular +circumstance, for which I cannot account, that 20 flowers, artificially +fertilised on one occasion with pollen from the same plants yielded only ten +capsules, containing the low average of 26.7 seeds. + +As bearing on inheritance, it may be added that 72 seedlings were raised from +one of the red-flowered, strictly equal-styled, self-fertilised plants descended +from the similarly characterised Edinburgh plant. These 72 plants were therefore +grandchildren of the Edinburgh plant, and they all bore, as in the first +generation, red flowers, with the exception of one plant, which reverted in +colour to the common cowslip. In regard to structure, nine plants were truly +long-styled and had their stamens seated low down in the corolla in the proper +position; the remaining 63 plants were equal-styled, though the stigma in about +a dozen of them stood a little below the anthers. We thus see that the anomalous +combination in the same flower, of the male and female sexual organs which +properly exist in the two distinct forms, was inherited with much force. Thirty- +six seedlings were also raised from long and short-styled common cowslips, +crossed with pollen from the equal-styled variety. Of these plants one alone was +equal-styled, 20 were short-styled, but with the pistil in three of them rather +too long, and the remaining 15 were long-styled. In this case we have an +illustration of the difference between simple inheritance and prepotency of +transmission; for the equal-styled variety, when self-fertilised, transmits its +character, as we have just seen, with much force, but when crossed with the +common cowslip cannot withstand the greater power of transmission of the latter. + +PULMONARIA. + +I have little to say on this genus. I obtained seeds of P. officinalis from a +garden where the long-styled form alone grew, and raised 11 seedlings, which +were all long-styled. These plants were named for me by Dr. Hooker. They +differed, as has been shown, from the plants belonging to this species which in +Germany were experimented on by Hildebrand (5/13. ‘Botanische Zeitung’ 1865 page +13.); for he found that the long-styled form was absolutely sterile with its own +pollen, whilst my long-styled seedlings and the parent-plants yielded a fair +supply of seed when self-fertilised. Plants of the long-styled form of +Pulmonaria angustifolia were, like Hildebrand’s plants, absolutely sterile with +their own pollen, so that I could never procure a single seed. On the other +hand, the short-styled plants of this species, differently from those of P. +officinalis, were fertile with their own pollen in a quite remarkable degree for +a heterostyled plant. From seeds carefully self-fertilised I raised 18 plants, +of which 13 proved short-styled and 5 long-styled. + +Polygonum fagopyrum. + +From flowers on long-styled plants fertilised illegitimately with pollen from +the same plant, 49 seedlings were raised, and these consisted of 45 long-styled +and 4 short-styled. From flowers on short-styled plants illegitimately +fertilised with pollen from the same plant 33 seedlings were raised, and these +consisted of 20 short-styled and 13 long-styled. So that the usual rule of +illegitimately fertilised long-styled plants tending much more strongly than +short-styled plants to reproduce their own form here holds good. The +illegitimate plants derived from both forms flowered later than the legitimate, +and were to the latter in height as 69 to 100. But as these illegitimate plants +were descended from parents fertilised with their own pollen, whilst the +legitimate plants were descended from parents crossed with pollen from a +distinct individual, it is impossible to know how much of their difference in +height and period of flowering, is due to the illegitimate birth of the one set, +and how much to the other set being the product of a cross between distinct +plants.] + +CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF HETEROSTYLED TRIMORPHIC AND +DIMORPHIC PLANTS. + +It is remarkable how closely and in how many points illegitimate unions between +the two or three forms of the same heterostyled species, together with their +illegitimate offspring, resemble hybrid unions between distinct species together +with their hybrid offspring. In both cases we meet with every degree of +sterility, from very slightly lessened fertility to absolute barrenness, when +not even a single seed-capsule is produced. In both cases the facility of +effecting the first union is much influenced by the conditions to which the +plants are exposed. (5/14. This has been remarked by many experimentalists in +effecting crosses between distinct species; and in regard to illegitimate unions +I have given in the first chapter a striking illustration in the case of Primula +veris.) Both with hybrids and illegitimate plants the innate degree of sterility +is highly variable in plants raised from the same mother-plant. In both cases +the male organs are more plainly affected than the female; and we often find +contabescent anthers enclosing shrivelled and utterly powerless pollen-grains. +The more sterile hybrids, as Max Wichura has well shown, are sometimes much +dwarfed in stature, and have so weak a constitution that they are liable to +premature death (5/15. ‘Die Bastardbefruchtung im Pflanzenreich’ 1865.); and we +have seen exactly parallel cases with the illegitimate seedlings of Lythrum and +Primula. Many hybrids are the most persistent and profuse flowerers, as are some +illegitimate plants. When a hybrid is crossed by either pure parent-form, it is +notoriously much more fertile than when crossed inter se or by another hybrid; +so when an illegitimate plant is fertilised by a legitimate plant, it is more +fertile than when fertilised inter se or by another illegitimate plant. When two +species are crossed and they produce numerous seeds, we expect as a general rule +that their hybrid offspring will be moderately fertile; but if the parent +species produce extremely few seeds, we expect that the hybrids will be very +sterile. But there are marked exceptions, as shown by Gartner, to these rules. +So it is with illegitimate unions and illegitimate offspring. Thus the mid- +styled form of Lythrum salicaria, when illegitimately fertilised with pollen +from the longest stamens of the short-styled form, produced an unusual number of +seeds; and their illegitimate offspring were not at all, or hardly at all, +sterile. On the other hand, the illegitimate offspring from the long-styled +form, fertilised with pollen from the shortest stamens of the same form, yielded +few seeds, and the illegitimate offspring thus produced were very sterile; but +they were more sterile than might have been expected relatively to the +difficulty of effecting the union of the parent sexual elements. No point is +more remarkable in regard to the crossing of species than their unequal +reciprocity. Thus species A will fertilise B with the greatest ease; but B will +not fertilise A after hundreds of trials. We have exactly the same case with +illegitimate unions; for the mid-styled Lythrum salicaria was easily fertilised +by pollen from the longest stamens of the short-styled form, and yielded many +seeds; but the latter form did not yield a single seed when fertilised by the +longest stamens of the mid-styled form. + +Another important point is prepotency. Gartner has shown that when a species is +fertilised with pollen from another species, if it be afterwards fertilised with +its own pollen, or with that of the same species, this is so prepotent over the +foreign pollen that the effect of the latter, though placed on the stigma some +time previously, is entirely destroyed. Exactly the same thing occurs with the +two forms of a heterostyled species. Thus several long-styled flowers of Primula +veris were fertilised illegitimately with pollen from another plant of the same +form, and twenty-four hours afterwards legitimately with pollen from a short- +styled dark-red polyanthus which is a variety of P. veris; and the result was +that every one of the thirty seedlings thus raised bore flowers more or less +red, showing plainly how prepotent the legitimate pollen from a short-styled +plant was over the illegitimate pollen from a long-styled plant. + +In all the several foregoing points the parallelism is wonderfully close between +the effects of illegitimate and hybrid fertilisation. It is hardly an +exaggeration to assert that seedlings from an illegitimately fertilised +heterostyled plant are hybrids formed within the limits of one and the same +species. This conclusion is important, for we thus learn that the difficulty in +sexually uniting two organic forms and the sterility of their offspring, afford +no sure criterion of so-called specific distinctness. If any one were to cross +two varieties of the same form of Lythrum or Primula for the sake of +ascertaining whether they were specifically distinct, and he found that they +could be united only with some difficulty, that their offspring were extremely +sterile, and that the parents and their offspring resembled in a whole series of +relations crossed species and their hybrid offspring, he might maintain that his +varieties had been proved to be good and true species; but he would be +completely deceived. In the second place, as the forms of the same trimorphic or +dimorphic heterostyled species are obviously identical in general structure, +with the exception of the reproductive organs, and as they are identical in +general constitution (for they live under precisely the same conditions), the +sterility of their illegitimate unions and that of their illegitimate offspring, +must depend exclusively on the nature of the sexual elements and on their +incompatibility for uniting in a particular manner. And as we have just seen +that distinct species when crossed resemble in a whole series of relations the +forms of the same species when illegitimately united, we are led to conclude +that the sterility of the former must likewise depend exclusively on the +incompatible nature of their sexual elements, and not on any general difference +in constitution or structure. We are, indeed, led to this same conclusion by the +impossibility of detecting any differences sufficient to account for certain +species crossing with the greatest ease, whilst other closely allied species +cannot be crossed, or can be crossed only with extreme difficulty. We are led to +this conclusion still more forcibly by considering the great difference which +often exists in the facility of crossing reciprocally the same two species; for +it is manifest in this case that the result must depend on the nature of the +sexual elements, the male element of the one species acting freely on the female +element of the other, but not so in a reversed direction. And now we see that +this same conclusion is independently and strongly fortified by the +consideration of the illegitimate unions of trimorphic and dimorphic +heterostyled plants. In so complex and obscure a subject as hybridism it is no +slight gain to arrive at a definite conclusion, namely, that we must look +exclusively to functional differences in the sexual elements, as the cause of +the sterility of species when first crossed and of their hybrid offspring. It +was this consideration which led me to make the many observations recorded in +this chapter, and which in my opinion make them worthy of publication. + + +CHAPTER VI. +CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + +The essential character of heterostyled plants. +Summary of the differences in fertility between legitimately and illegitimately +fertilised plants. +Diameter of the pollen-grains, size of anthers and structure of stigma in the +different forms. +Affinities of the genera which include heterostyled species. +Nature of the advantages derived from heterostylism. +The means by which plants became heterostyled. +Transmission of form. +Equal-styled varieties of heterostyled plants. +Final remarks. + +In the foregoing chapters all the heterostyled plants known to me have been more +or less fully described. Several other cases have been indicated, especially by +Professor Asa Gray and Kuhn, in which the individuals of the same species differ +in the length of their stamens and pistils (6/1. Asa Gray ‘American Journal of +Science’ 1865 page 101 and elsewhere as already referred to. Kuhn ‘Botanische +Zeitung’ 1867 page 67.); but as I have been often deceived by this character +taken alone, it seems to me the more prudent course not to rank any species as +heterostyled, unless we have evidence of more important differences between the +forms, as in the diameter of the pollen-grains, or in the structure of the +stigma. The individuals of many ordinary hermaphrodite plants habitually +fertilise one another, owing to their male and female organs being mature at +different periods, or to the structure of the parts, or to self-sterility, etc.; +and so it is with many hermaphrodite animals, for instance, land-snails or +earth-worms; but in all these cases any one individual can fully fertilise or be +fertilised by any other individual of the same species. This is not so with +heterostyled plants: a long-styled, mid-styled or short-styled plant cannot +fully fertilise or be fertilised by any other individual, but only by one +belonging to another form. Thus the essential character of plants belonging to +the heterostyled class is that the individuals are divided into two or three +bodies, like the males and females of dioecious plants or of the higher animals, +which exist in approximately equal numbers and are adapted for reciprocal +fertilisation. The existence, therefore, of two or three bodies of individuals, +differing from one another in the above more important characteristics, offers +by itself good evidence that the species is heterostyled. But absolutely +conclusive evidence can be derived only from experiments, and by finding that +pollen must be applied from the one form to the other in order to ensure +complete fertility. + +In order to show how much more fertile each form is when legitimately fertilised +with pollen from the other form (or in the case of trimorphic species, with the +proper pollen from one of the two other forms) than when illegitimately +fertilised with its own-form pollen, I will append Table 6.33 giving a summary +of the results in all the cases hitherto ascertained. The fertility of the +unions may be judged by two standards, namely, by the proportion of flowers +which, when fertilised in the two methods, yield capsules, and by the average +number of seeds per capsule. When there is a dash in the left hand column +opposite to the name of the species, the proportion of the flowers which yielded +capsules was not recorded. + +TABLE 6.33. Fertility of the legitimate unions taken together, compared with +that of the illegitimate unions together. The fertility of the legitimate +unions, as judged by both standards, is taken as 100. + +Column 1: Name of species. +Column 2: Illegitimate unions : proportional number of flowers which produced +capsules. +Column 3: Illegitimate unions : average number of seeds per capsule. + +Primula veris : 69 : 65. + +Primula elatior : 27 : 75. + +Primula vulgaris : 60 : 54. + +Primula Sinensis : 84 : 63. + +Primula Sinensis (second trial) : 0 : 53. + +Primula Sinensis (Hildebrand) : 100 : 42. + +Primula auricula (Scott) : 80 : 15. + +Primula Sikkimensis (Scott) : 95 : 31. + +Primula cortusoides (Scott) : 74 : 66. + +Primula involucrata (Scott) : 72 : 48. + +Primula farinosa (Scott) : 71 : 44. + +Average of the nine species of Primula : 88.4 : 69. + +Hottonia palustris (H. Muller) : - : 61. + +Linum grandiflorum (the difference probably is much greater) : - : 69. + +Linum perenne : - : 20. + +Linum perenne (Hildebrand) : 0 : 0. + +Pulmonaria officinalis (German stock, Hildebrand) : 0 : 0. + +Pulmonaria angustifolia : 35 : 32. + +Mitchella repens : 20 : 47. + +Borreria, Brazilian sp. : - : 0. + +Polygonum fagopyrum : - : 46. + +Lythrum salicaria : 33 : 46. + +Oxalis Valdiviana (Hildebrand) : 2 : 34. + +Oxalis Regnelli : 0 : 0. + +Oxalis speciosa : 15 : 49. + +The two or three forms of the same heterostyled species do not differ from one +another in general habit or foliage, as sometimes, though rarely, happens with +the two sexes of dioecious plants. Nor does the calyx differ, but the corolla +sometimes differs slightly in shape, owing to the different position of the +anthers. In Borreria the hairs within the tube of the corolla are differently +situated in the long-styled and short-styled forms. In Pulmonaria there is a +slight difference in the size of the corolla, and in Pontederia in its colour. +In the reproductive organs the differences are much greater and more important. +In the one form the stamens may be all of the same length, and in the other +graduated in length, or alternately longer and shorter. The filaments may differ +in colour and thickness, and are sometimes nearly thrice as long in the one form +as in the other. They adhere also for very different proportional lengths to the +corolla. The anthers sometimes differ much in size in the two forms. Owing to +the rotation of the filaments, the anthers, when mature, dehisce towards the +circumference of the flower in one form of Faramea, and towards the centre in +the other form. The pollen-grains sometimes differ conspicuously in colour, and +often to an extraordinary degree in diameter. They differ also somewhat in +shape, and apparently in their contents, as they are unequally opaque. In the +short-styled form of Faramea the pollen-grains are covered with sharp points, so +as to cohere readily together or to an insect; whilst the smaller grains of the +long-styled form are quite smooth. + +With respect to the pistil, the style may be almost thrice as long in the one +form as in the other. In Oxalis it sometimes differs in hairiness in the three +forms. In Linum the pistils either diverge and pass out between the filaments, +or stand nearly upright and parallel to them. The stigmas in the two forms often +differ much in size and shape, and more especially in the length and thickness +of their papillae; so that the surface may be rough or quite smooth. Owing to +the rotation of the styles, the papillose surface of the stigma is turned +outwards in one form of Linum perenne, and inwards in the other form. In flowers +of the same age of Primula veris the ovules are larger in the long-styled than +in the short-styled form. The seeds produced by the two or three forms often +differ in number, and sometimes in size and weight; thus, five seeds from the +long-styled form of Lythrum salicaria equal in weight six from the mid-styled +and seven from the short-styled form. Lastly, short-styled plants of Pulmonaria +officinalis bear a larger number of flowers, and these set a larger proportional +number of fruit, which however yield a lower average number of seed, than the +long-styled plants. With heterostyled plants we thus see in how many and in what +important characters the forms of the same undoubted species often differ from +one another--characters which with ordinary plants would be amply sufficient to +distinguish species of the same genus. + +As the pollen-grains of ordinary species belonging to the same genus generally +resemble one another closely in all respects, it is worth while to show, in +Table 6.34, the difference in diameter between the grains from the two or three +forms of the same heterostyled species in the forty-three cases in which this +was ascertained. But it should be observed that some of the following +measurements are only approximately accurate, as only a few grains were +measured. In several cases, also, the grains had been dried and were then soaked +in water. Whenever they were of an elongated shape their longer diameters were +measured. The grains from the short-styled plants are invariably larger than +those from the long-styled, whenever there is any difference between them. The +diameter of the former is represented in the table by the number 100. + +TABLE 6.34. Relative diameter of the pollen-grains from the forms of the same +heterostyled species; those from the short-styled form being represented by 100. + +DIMORPHIC SPECIES. + +Column 1: Name of species. +Column 2: From the long-styled form : relative diameter. + +Primula veris : 67. + +Primula vulgaris : 71. + +Primula Sinensis (Hildebrand) : 57. + +Primula auricula : 71. + +Hottonia palustris (H. Muller) : 61. + +Hottonia palustris (self) : 64. + +Linum grandiflorum : 100. + +Linum perenne (diameter variable) : 100 (?). + +Linum flavum : 100. + +Pulmonaria officinalis : 78. + +Pulmonaria angustifolia : 91. + +Polygonum fagopyrum : 82. + +Leucosmia Burnettiana : 99. + +Aegiphila elata : 62. + +Menyanthes trifoliata : 84. + +Limnanthemum Indicum : 100. + +Villarsia (sp.?) : 75. + +Forsythia suspensa : 94. + +Cordia (sp.?) : 100. + +Gilia pulchella : 100. + +Gilia micrantha : 81. + +Sethia acuminata : 83. + +Erythroxylum (sp.?) : 93. + +Cratoxylon formosum : 86. + +Mitchella repens, pollen-grains of the long-styled a little smaller. + +Borreria (sp.?) : 92. + +Faramea (sp.?) : 67. + +Suteria (sp.?) (Fritz Muller) : 75. + +Houstonia coerulea : 72. + +Oldenlandia (sp.?) : 78. + +Hedyotis (sp.?) : 88. + +Coccocypselum (sp.?) (Fritz Muller) : 100. + +Lipostoma (sp.?) : 80. + +Cinchona micrantha : 91. + +TRIMORPHIC SPECIES. + +Column 1: Name of species. +Column 2: Ratio expressing the extreme differences in diameter of the pollen- +grains from the two sets of anthers in the three forms. + +Lythrum salicaria : 60. + +Nesaea verticillata : 65. + +Oxalis Valdiviana (Hildebrand) : 71. + +Oxalis Regnelli : 78. + +Oxalis speciosa : 69. + +Oxalis sensitiva : 84. + +Pontederia (sp.?) : 55. + +Column 1: Name of species. +Column 2: Ratio between the diameters of the pollen-grains of the two sets of +anthers in the same form. + +Oxalis rosea, long-styled form (Hildebrand) : 83. + +Oxalis compressa, short-styled form : 83. + +Pontederia (sp.?) short-styled form : 87. + +Pontederia other sp. mid-styled form : 86. + +We here see that, with seven or eight exceptions out of the forty-three cases, +the pollen-grains from one form are larger than those from the other form of the +same species. The extreme difference is as 100 to 55; and we should bear in mind +that in the case of spheres differing to this degree in diameter, their contents +differ in the ratio of six to one. With all the species in which the grains +differ in diameter, there is no exception to the rule that those from the +anthers of the short-styled form, the tubes of which have to penetrate the +longer pistil of the long-styled form, are larger than the grains from the other +form. This curious relation led Delpino (as it formerly did me) to believe that +the larger size of the grains in the short-styled flowers is connected with the +greater supply of matter needed for the development of their longer tubes. (6/2. +‘Sull’ Opera, la Distribuzione dei Sessi nelle Piante’ etc 1867 page 17.) But +the case of Linum, in which the grains of the two forms are of equal size, +whilst the pistil of the one is about twice as long as that of the other, made +me from the first feel very doubtful with respect to this view. My doubts have +since been strengthened by the cases of Limnanthemum and Coccocypselum, in which +the grains are of equal size in the two forms; whilst in the former genus the +pistil is nearly thrice and in the latter twice as long as in the other form. In +those species in which the grains are of unequal size in the two forms, there is +no close relationship between the degree of their inequality and that of their +pistils. Thus in Pulmonaria officinalis and in Erythroxylum the pistil in the +long-styled form is about twice the length of that in the other form, whilst in +the former species the pollen-grains are as 100 to 78, and in the latter as 100 +to 93 in diameter. In the two forms of Suteria the pistil differs but little in +length, whilst the pollen-grains are as 100 to 75 in diameter. These cases seem +to prove that the difference in size between the grains in the two forms is not +determined by the length of the pistil, down which the tubes have to grow. That +with plants in general there is no close relationship between the size of the +pollen-grains and the length of the pistil is manifest: for instance, I found +that the distended grains of Datura arborea were .00243 of an inch in diameter, +and the pistil no less than 9.25 inches in length; now the pistil in the small +flowers of Polygonum fagopyrum is very short, yet the larger pollen-grains from +the short-styled plants had exactly the same diameter as those from the Datura, +with its enormously elongated pistil. + +Notwithstanding these several considerations, it is difficult quite to give up +the belief that the pollen-grains from the longer stamens of heterostyled plants +have become larger in order to allow of the development of longer tubes; and the +foregoing opposing facts may possibly be reconciled in the following manner. The +tubes are at first developed from matter contained within the grains, for they +are sometimes exserted to a considerable length, before the grains have touched +the stigma; but botanists believe that they afterwards draw nourishment from the +conducting tissue of the pistil. It is hardly possible to doubt that this must +occur in such cases as that of the Datura, in which the tubes have to grow down +the whole length of the pistil, and therefore to a length equalling 3,806 times +the diameter of the grains (namely, .00243 of an inch) from which they are +protruded. I may here remark that I have seen the pollen-grains of a willow, +immersed in a very weak solution of honey, protrude their tubes, in the course +of twelve hours, to a length thirteen times as great as the diameter of the +grains. Now if we suppose that the tubes in some heterostyled species are +developed wholly or almost wholly from matter contained within the grains, while +in other species from matter yielded by the pistil, we can see that in the +former case it would be necessary that the grains of the two forms should differ +in size relatively to the length of the pistil which the tubes have to +penetrate, but that in the latter case it would not be necessary that the grains +should thus differ. Whether this explanation can be considered satisfactory must +remain at present doubtful. + +There is another remarkable difference between the forms of several heterostyled +species, namely in the anthers of the short-styled flowers, which contain the +larger pollen-grains, being longer than those of the long-styled flowers. This +is the case with Hottonia palustris in the ratio of 100 to 83. With Limnanthemum +Indicum the ratio is as 100 to 70. With the allied Menyanthes the anthers of the +short-styled form are a little and with Villarsia conspicuously larger than +those of the long-styled. With Pulmonaria angustifolia they vary much in size, +but from an average of seven measurements of each kind the ratio is as 100 to +91. In six genera of the Rubiaceae there is a similar difference, either +slightly or well marked. Lastly, in the trimorphic Pontederia the ratio is 100 +to 88; the anthers from the longest stamens in the short-styled form being +compared with those from the shortest stamens in the long-styled form. On the +other hand, there is a similar and well-marked difference in the length of the +stamens in the two forms of Forsythia suspensa and of Linum flavum; but in these +two cases the anthers of the short-styled flowers are shorter than those of the +long-styled. The relative size of the anthers was not particularly attended to +in the two forms of the other heterostyled plants, but I believe that they are +generally equal, as is certainly the case with those of the common primrose and +cowslip. + +The pistil differs in length in the two forms of every heterostyled plant, and +although a similar difference is very general with the stamens, yet in the two +forms of Linum grandiflorum and of Cordia they are equal. There can hardly be a +doubt that the relative length of these organs is an adaptation for the safe +transportal by insects of the pollen from the one form to the other. The +exceptional cases in which these organs do not stand exactly on a level in the +two forms may probably be explained by the manner in which the flowers are +visited. With most of the species, if there is any difference in the size of the +stigma of the two forms, that of the long-styled, whatever its shape may be, is +larger than that of the short-styled. But here again there are some exceptions +to the rule, for in the short-styled form of Leucosmia Burnettiana the stigmas +are longer and much narrower than those of the long-styled; the ratio between +the lengths of the stigmas in the two forms being 100 to 60. In the three +Rubiaceous genera, Faramea, Houstonia and Oldenlandia, the stigmas of the short- +styled form are likewise somewhat longer and narrower; and in the three forms of +Oxalis sensitiva the difference is strongly marked, for if the length of the two +stigmas of the long-styled pistil be taken as 100, it will be represented in the +mid- and short-styled forms by the numbers 141 and 164. As in all these cases +the stigmas of the short-styled pistil are seated low down within a more or less +tubular corolla, it is probable that they are better fitted by being long and +narrow for brushing the pollen off the inserted proboscis of an insect. + +With many heterostyled plants the stigma differs in roughness in the two forms, +and when this is the case there is no known exception to the rule that the +papillae on the stigma of the long-styled form are longer and often thicker than +those on that of the short-styled. For instance, the papillae on the long-styled +stigma of Hottonia palustris are more than twice the length of those in the +other form. This holds good even in the case of Houstonia coerulea, in which the +stigmas are much shorter and stouter in the long-styled than in the short-styled +form, for the papillae on the former compared with those on the latter are as +100 to 58 in length. The length of the pistil in the long-styled form of Linum +grandiflorum varies much, and the stigmatic papillae vary in a corresponding +manner. From this fact I inferred at first that in all cases the difference in +length between the stigmatic papillae in the two forms was one merely of +correlated growth; but this can hardly be the true or general explanation, as +the shorter stigmas of the long-styled form of Houstonia have the longer +papillae. It is a more probable view that the papillae, which render the stigma +of the long-styled form of various species rough, serve to entangle effectually +the large-sized pollen-grains brought by insects from the short-styled form, +thus ensuring its legitimate fertilisation. This view is supported by the fact +that the pollen-grains from the two forms of eight species in Table 6.34 hardly +differ in diameter, and the papillae on their stigmas do not differ in length. + +The species which are at present positively or almost positively known to be +heterostyled belong, as shown in Table 6.35, to 38 genera, widely distributed +throughout the world. These genera are included in fourteen Families, most of +which are very distinct from one another, for they belong to nine of the several +great Series, into which phanerogamic plants have been divided by Bentham and +Hooker. + +TABLE 6.35. List of genera including heterostyled species. + +DICOTYLEDONS. + +HYPERICINEAE: +Cratoxylon. + +ERYTHROXYLEAE: +Erythroxylum. +Sethia. + +GERANIACEAE: +Linum. +Oxalis. + +LYTHRACEAE: +Lythrum. +Neseae. + +RUBIACEAE: +Cinchona. +Bouvardia. +Manettia. +Hedyotis. +Oldenlandia. +Houstonia. +Coccocypselum. +Lipostoma. +Knoxia. +Faramea. +Psychotria. +Rudgea. +Suteria. +Mitchella. +Diodia. +Borreria. +Spermacoce. + +PRIMULACEAE: +Primula. +Hottonia. +Androsace. + +OLEACEAE: +Forsythia. + +GENTIANACEAE: +Menyanthes. +Limnanthemum. +Villarsia. + +POLEMONIACEAE: +Gilia. + +CORDIEAE: +Cordia. + +BORAGINEAE: +Pulmonaria. + +VERBENACEAE: +Aegiphila. + +POLYGONEAE: +Polygonum. + +THYMELEAE: +Thymelea. + +MONOCOTYLEDONS. + +PONTEDERIACEAE: +Pontederia. + +In some of these families the heterostyled condition must have been acquired at +a very remote period. Thus the three closely allied genera, Menyanthes, +Limnanthemum, and Villarsia, inhabit respectively Europe, India, and South +America. Heterostyled species of Hedyotis are found in the temperate regions of +North and the tropical regions of South America. Trimorphic species of Oxalis +live on both sides of the Cordillera in South America and at the Cape of Good +Hope. In these and some other cases it is not probable that each species +acquired its heterostyled structure independently of its close allies. If they +did not do so, the three closely connected genera of the Menyantheae and the +several trimorphic species of Oxalis must have inherited their structure from a +common progenitor. But an immense lapse of time will have been necessary in all +such cases for the modified descendants of a common progenitor to have spread +from a single centre to such widely remote and separated areas. The family of +the Rubiaceae contains not far short of as many heterostyled genera as all the +other thirteen families together; and hereafter no doubt other Rubiaceous genera +will be found to be heterostyled, although a large majority are homostyled. +Several closely allied genera in this family probably owe their heterostyled +structure to descent in common; but as the genera thus characterised are +distributed in no less than eight of the tribes into which this family has been +divided by Bentham and Hooker, it is almost certain that several of them must +have become heterostyled independently of one another. What there is in the +constitution or structure of the members of this family which favours their +becoming heterostyled, I cannot conjecture. Some families of considerable size, +such as the Boragineae and Verbenaceae, include, as far as is at present known, +only a single heterostyled genus. Polygonum also is the sole heterostyled genus +in its family; and though it is a very large genus, no other species except P. +fagopyrum is thus characterised. We may suspect that it has become heterostyled +within a comparatively recent period, as it seems to be less strongly so in +function than the species in any other genus, for both forms are capable of +yielding a considerable number of spontaneously self-fertilised seeds. Polygonum +in possessing only a single heterostyled species is an extreme case; but every +other genus of considerable size which includes some such species likewise +contains homostyled species. Lythrum includes trimorphic, dimorphic, and +homostyled species. + +Trees, bushes, and herbaceous plants, both large and small, bearing single +flowers or flowers in dense spikes or heads, have been rendered heterostyled. So +have plants which inhabit alpine and lowland sites, dry land, marshes and water. +(6/3. Out of the 38 genera known to include heterostyled species, about eight, +or 21 per cent, are more or less aquatic in their habits. I was at first struck +with this fact, for I was not then aware how large a proportion of ordinary +plants inhabit such stations. Heterostyled plants may be said in one sense to +have their sexes separated, as the forms must mutually fertilise one another. +Therefore it seemed worth while to ascertain what proportion of the genera in +the Linnean classes, Monoecia, Dioecia and Polygamia, contained species which +live “in water, marshes, bogs or watery places.” In Sir W.J. Hooker’s ‘British +Flora’ 4th edition 1838, these three Linnean classes include 40 genera, 17 of +which (i.e. 43 per cent) contain species inhabiting the just-specified stations. +So that 43 per cent of those British plants which have their sexes separated are +more or less aquatic in their habits, whereas only 21 per cent of heterostyled +plants have such habits. I may add that the hermaphrodite classes, from +Monandria to Gynandria inclusive, contain 447 genera, of which 113 are aquatic +in the above sense, or only 25 per cent. It thus appears, as far as can be +judged from such imperfect data, that there is some connection between the +separation of the sexes in plants and the watery nature of the sites which they +inhabit; but that this does not hold good with heterostyled species.) + +When I first began to experimentise on heterostyled plants it was under the +impression that they were tending to become dioecious; but I was soon forced to +relinquish this notion, as the long-styled plants of Primula which, from +possessing a longer pistil, larger stigma, shorter stamens with smaller pollen- +grains, seemed to be the more feminine of the two forms, yielded fewer seeds +than the short-styled plants which appeared to be in the above respects the more +masculine of the two. Moreover, trimorphic plants evidently come under the same +category with dimorphic, and the former cannot be looked at as tending to become +dioecious. With Lythrum salicaria, however, we have the curious and unique case +of the mid-styled form being more feminine or less masculine in nature than the +other two forms. This is shown by the large number of seeds which it yields in +whatever manner it may be fertilised, and by its pollen (the grains of which are +of smaller size than those from the corresponding stamens in the other two +forms) when applied to the stigma of any form producing fewer seeds than the +normal number. If we suppose the process of deterioration of the male organs in +the mid-styled form to continue, the final result would be the production of a +female plant; and Lythrum salicaria would then consist of two heterostyled +hermaphrodites and a female. No such case is known to exist, but it is a +possible one, as hermaphrodite and female forms of the same species are by no +means rare. Although there is no reason to believe that heterostyled plants are +regularly becoming dioecious, yet they offer singular facilities, as will +hereafter be shown, for such conversion; and this appears occasionally to have +been effected. + +We may feel sure that plants have been rendered heterostyled to ensure cross- +fertilisation, for we now know that a cross between the distinct individuals of +the same species is highly important for the vigour and fertility of the +offspring. The same end is gained by dichogamy or the maturation of the +reproductive elements of the same flower at different periods,--by +dioeciousness--self-sterility--the prepotency of pollen from another individual +over a plant’s own pollen,--and lastly, by the structure of the flower in +relation to the visits of insects. The wonderful diversity of the means for +gaining the same end in this case, and in many others, depends on the nature of +all the previous changes through which the species has passed, and on the more +or less complete inheritance of the successive adaptations of each part to the +surrounding conditions. Plants which are already well adapted by the structure +of their flowers for cross-fertilisation by the aid of insects often possess an +irregular corolla, which has been modelled in relation to their visits; and it +would have been of little or no use to such plants to have become heterostyled. +We can thus understand why it is that not a single species is heterostyled in +such great families as the Leguminosae, Labiatae, Scrophulariaceae, Orchideae, +etc., all of which have irregular flowers. Every known heterostyled plant, +however, depends on insects for its fertilisation, and not on the wind; so that +it is a rather surprising fact that only one genus, Pontederia, has a plainly +irregular corolla. + +Why some species are adapted for cross-fertilisation, whilst others within the +same genus are not so, or if they once were, have since lost such adaptation and +in consequence are now usually self-fertilised, I have endeavoured elsewhere to +explain to a certain limited extent. (6/4. ‘The Effects of Cross and Self- +fertilisation’ 1876 page 441.) If it be further asked why some species have been +adapted for this end by being made heterostyled, rather than by any of the above +specified means, the answer probably lies in the manner in which heterostylism +originated,--a subject immediately to be discussed. Heterostyled species, +however, have an advantage over dichogamous species, as all the flowers on the +same heterostyled plant belong to the same form, so that when fertilised +legitimately by insects two distinct individuals are sure to intercross. On the +other hand, with dichogamous plants, early or late flowers on the same +individual may intercross; and a cross of this kind does hardly any or no good. +Whenever it is profitable to a species to produce a large number of seeds and +this obviously is a very common case, heterostyled will have an advantage over +dioecious plants, as all the individuals of the former, whilst only half of the +latter, that is the females, yield seeds. On the other hand, heterostyled plants +seem to have no advantage, as far as cross-fertilisation is concerned, over +those which are sterile with their own pollen. They lie indeed under a slight +disadvantage, for if two self-sterile plants grow near together and far removed +from all other plants of the same species, they will mutually and perfectly +fertilise one another, whilst this will not be the case with heterostyled +dimorphic plants, unless they chance to belong to opposite forms. + +It may be added that species which are trimorphic have one slight advantage over +the dimorphic; for if only two individuals of a dimorphic species happen to grow +near together in an isolated spot, the chances are even that both will belong to +the same form, and in this case they will not produce the full number of +vigorous and fertile seedlings; all these, moreover, will tend strongly to +belong to the same form as their parents. On the other hand, if two plants of +the same trimorphic species happen to grow in an isolated spot, the chances are +two to one in favour of their not belonging to the same form; and in this case +they will legitimately fertilise one another, and yield the full complement of +vigorous offspring. + +THE MEANS BY WHICH PLANTS MAY HAVE BEEN RENDERED HETEROSTYLED. + +This is a very obscure subject, on which I can throw little light, but which is +worthy of discussion. It has been shown that heterostyled plants occur in +fourteen natural families, dispersed throughout the whole vegetable kingdom, and +that even within the family of the Rubiaceae they are dispersed in eight of the +tribes. We may therefore conclude that this structure has been acquired by +various plants independently of inheritance from a common progenitor, and that +it can be acquired without any great difficulty--that is, without any very +unusual combination of circumstances. + +It is probable that the first step towards a species becoming heterostyled is +great variability in the length of the pistil and stamens, or of the pistil +alone. Such variations are not very rare: with Amsinckia spectabilis and Nolana +prostrata these organs differ so much in length in different individuals that, +until experimenting on them, I thought both species heterostyled. The stigma of +Gesneria pendulina sometimes protrudes far beyond, and is sometimes seated +beneath the anthers; so it is with Oxalis acetosella and various other plants. I +have also noticed an extraordinary amount of difference in the length of the +pistil in cultivated varieties of Primula veris and vulgaris. + +As most plants are at least occasionally cross-fertilised by the aid of insects, +we may assume that this was the case with our supposed varying plant; but that +it would have been beneficial to it to have been more regularly cross- +fertilised. We should bear in mind how important an advantage it has been proved +to be to many plants, though in different degrees and ways, to be cross- +fertilised. It might well happen that our supposed species did not vary in +function in the right manner, so as to become either dichogamous or completely +self-sterile, or in structure so as to ensure cross-fertilisation. If it had +thus varied, it would never have been rendered heterostyled, as this state would +then have been superfluous. But the parent-species of our several existing +heterostyled plants may have been, and probably were (judging from their present +constitution) in some degree self-sterile; and this would have made regular +cross-fertilisation still more desirable. + +Now let us take a highly varying species with most or all of the anthers +exserted in some individuals, and in others seated low down in the corolla; with +the stigma also varying in position in like manner. Insects which visited such +flowers would have different parts of their bodies dusted with pollen, and it +would be a mere chance whether this were left on the stigma of the next flower +which was visited. If all the anthers could have been placed on the same level +in all the plants, then abundant pollen would have adhered to the same part of +the body of the insects which frequented the flowers, and would afterwards have +been deposited without loss on the stigma, if it likewise stood on the same +unvarying level in all the flowers. But as the stamens and pistils are supposed +to have already varied much in length and to be still varying, it might well +happen that they could be reduced much more easily through natural selection +into two sets of different lengths in different individuals, than all to the +same length and level in all the individuals. We know from innumerable +instances, in which the two sexes and the young of the same species differ, that +there is no difficulty in two or more sets of individuals being formed which +inherit different characters. In our particular case the law of compensation or +balancement (which is admitted by many botanists) would tend to cause the pistil +to be reduced in those individuals in which the stamens were greatly developed, +and to be increased in length in those which had their stamens but little +developed. + +Now if in our varying species the longer stamens were to be nearly equalised in +length in a considerable body of individuals, with the pistil more or less +reduced; and in another body, the shorter stamens to be similarly equalised, +with the pistil more or less increased in length, cross-fertilisation would be +secured with little loss of pollen; and this change would be so highly +beneficial to the species, that there is no difficulty in believing that it +could be effected through natural selection. Our plant would then make a close +approach in structure to a heterostyled dimorphic species; or to a trimorphic +species, if the stamens were reduced to two lengths in the same flower in +correspondence with that of the pistils in the other two forms. But we have not +as yet even touched on the chief difficulty in understanding how heterostyled +species could have originated. A completely self-sterile plant or a dichogamous +one can fertilise and be fertilised by any other individual of the same species; +whereas the essential character of a heterostyled plant is that an individual of +one form cannot fully fertilise or be fertilised by an individual of the same +form, but only by one belonging to another form. + +H. Muller has suggested that ordinary or homostyled plants may have been +rendered heterostyled merely through the effects of habit. (6/5. ‘Die +Befruchtung der Blumen’ page 352.) Whenever pollen from one set of anthers is +habitually applied to a pistil of particular length in a varying species, he +believes that at last the possibility of fertilisation in any other manner will +be nearly or completely lost. He was led to this view by observing that Diptera +frequently carried pollen from the long-styled flowers of Hottonia to the stigma +of the same form, and that this illegitimate union was not nearly so sterile as +the corresponding union in other heterostyled species. But this conclusion is +directly opposed by some other cases, for instance by that of Linum +grandiflorum; for here the long-styled form is utterly barren with its own-form +pollen, although from the position of the anthers this pollen is invariably +applied to the stigma. It is obvious that with heterostyled dimorphic plants the +two female and the two male organs differ in power; for if the same kind of +pollen be placed on the stigmas of the two forms, and again if the two kinds of +pollen be placed on the stigmas of the same form, the results are in each case +widely different. Nor can we see how this differentiation of the two female and +two male organs could have been effected merely through each kind of pollen +being habitually placed on one of the two stigmas. + +Another view seems at first sight probable, namely, that an incapacity to be +fertilised in certain ways has been specially acquired by heterostyled plants. +We may suppose that our varying species was somewhat sterile (as is often the +case) with pollen from its own stamens, whether these were long or short; and +that such sterility was transferred to all the individuals with pistils and +stamens of the same length, so that these became incapable of intercrossing +freely; but that such sterility was eliminated in the case of the individuals +which differed in the length of their pistils and stamens. It is, however, +incredible that so peculiar a form of mutual infertility should have been +specially acquired unless it were highly beneficial to the species; and although +it may be beneficial to an individual plant to be sterile with its own pollen, +cross-fertilisation being thus ensured, how can it be any advantage to a plant +to be sterile with half its brethren, that is, with all the individuals +belonging to the same form? Moreover, if the sterility of the unions between +plants of the same form had been a special acquirement, we might have expected +that the long-styled form fertilised by the long-styled would have been sterile +in the same degree as the short-styled fertilised by the short-styled; but this +is hardly ever the case. On the contrary, there is sometimes the widest +difference in this respect, as between the two illegitimate unions of Pulmonaria +angustifolia and of Hottonia palustris. + +It is a more probable view that the male and female organs in two sets of +individuals have been by some means specially adapted for reciprocal action; and +that the sterility between the individuals of the same set or form is an +incidental and purposeless result. The meaning of the term “incidental” may be +illustrated by the greater or less difficulty in grafting or budding together +two plants belonging to distinct species; for as this capacity is quite +immaterial to the welfare of either, it cannot have been specially acquired, and +must be the incidental result of differences in their vegetative systems. But +how the sexual elements of heterostyled plants came to differ from what they +were whilst the species was homostyled, and how they became co-adapted in two +sets of individuals, are very obscure points. We know that in the two forms of +our existing heterostyled plants the pistil always differs, and the stamens +generally differ in length; so does the stigma in structure, the anthers in +size, and the pollen-grains in diameter. It appears, therefore, at first sight +probable that organs which differ in such important respects could act on one +another only in some manner for which they had been specially adapted. The +probability of this view is supported by the curious rule that the greater the +difference in length between the pistils and stamens of the trimorphic species +of Lythrum and Oxalis, the products of which are united for reproduction, by so +much the greater is the infertility of the union. The same rule applies to the +two illegitimate unions of some dimorphic species, namely, Primula vulgaris and +Pulmonaria angustifolia; but it entirely fails in other cases, as with Hottonia +palustris and Linum grandiflorum. We shall, however, best perceive the +difficulty of understanding the nature and origin of the co-adaptation between +the reproductive organs of the two forms of heterostyled plants, by considering +the case of Linum grandiflorum: the two forms of this plant differ exclusively, +as far as we can see, in the length of their pistils; in the long-styled form, +the stamens equal the pistil in length, but their pollen has no more effect on +it than so much inorganic dust; whilst this pollen fully fertilises the short +pistil of the other form. Now, it is scarcely credible that a mere difference in +the length of the pistil can make a wide difference in its capacity for being +fertilised. We can believe this the less because with some plants, for instance, +Amsinckia spectabilis, the pistil varies greatly in length without affecting the +fertility of the individuals which are intercrossed. So again I observed that +the same plants of Primula veris and vulgaris differed to an extraordinary +degree in the length of their pistils during successive seasons; nevertheless +they yielded during these seasons exactly the same average number of seeds when +left to fertilise themselves spontaneously under a net. + +We must therefore look to the appearance of inner or hidden constitutional +differences between the individuals of a varying species, of such a nature that +the male element of one set is enabled to act efficiently only on the female +element of another set. We need not doubt about the possibility of variations in +the constitution of the reproductive system of a plant, for we know that some +species vary so as to be completely self-sterile or completely self-fertile, +either in an apparently spontaneous manner or from slightly changed conditions +of life. Gartner also has shown that the individual plants of the same species +vary in their sexual powers in such a manner that one will unite with a distinct +species much more readily than another. (6/6. Gartner ‘Bastarderzeugung im +Pflanzenreich’ 1849 page 165.) But what the nature of the inner constitutional +differences may be between the sets or forms of the same varying species, or +between distinct species, is quite unknown. It seems therefore probable that the +species which have become heterostyled at first varied so that two or three sets +of individuals were formed differing in the length of their pistils and stamens +and in other co-adapted characters, and that almost simultaneously their +reproductive powers became modified in such a manner that the sexual elements in +one set were adapted to act on the sexual elements of another set; and +consequently that these elements in the same set or form incidentally became +ill-adapted for mutual interaction, as in the case of distinct species. I have +elsewhere shown that the sterility of species when first crossed and of their +hybrid offspring must also be looked at as merely an incidental result, +following from the special co-adaptation of the sexual elements of the same +species. (6/7. ‘Origin of Species’ 6th edition page 247; ‘Variation of Animals +and Plants under Domestication’ 2nd edition volume 2 page 169; ‘The Effects of +Cross and Self-fertilisation’ page 463. It may be well here to remark that, +judging from the remarkable power with which abruptly changed conditions of life +act on the reproductive system of most organisms, it is probable that the close +adaptation of the male to the female elements in the two forms of the same +heterostyled species, or in all the individuals of the same ordinary species, +could be acquired only under long-continued nearly uniform conditions of life.) +We can thus understand the striking parallelism, which has been shown to exist +between the effects of illegitimately uniting heterostyled plants and of +crossing distinct species. The great difference in the degree of sterility +between the various heterostyled species when illegitimately fertilised, and +between the two forms of the same species when similarly fertilised, harmonises +well with the view that the result is an incidental one which follows from +changes gradually effected in their reproductive systems, in order that the +sexual elements of the distinct forms should act perfectly on one another. + +TRANSMISSION OF THE TWO FORMS BY HETEROSTYLED PLANTS. + +The transmission of the two forms by heterostyled plants, with respect to which +many facts were given in the last chapter, may perhaps be found hereafter to +throw some light on their manner of development. Hildebrand observed that +seedlings from the long-styled form of Primula Sinensis when fertilised with +pollen from the same form were mostly long-styled, and many analogous cases have +since been observed by me. All the known cases are given in Tables 6.36 and +6.37. + +TABLE 6.36. Nature of the offspring from illegitimately fertilised dimorphic +plants. + +Column 1: Species and form. +Column 2: Number of long-styled offspring. +Column 3: Number of short-styled offspring. + +Primula veris. Long-styled form, fertilised by own-form pollen during five +successive generations : 156 : 6. + +Primula veris. Short-styled form, fertilised by own-form pollen : 5 : 9. + +Primula vulgaris. Long-styled form, fertilised by own-form pollen during two +successive generations : 69 : 0. + +Primula auricula. Short-styled form, fertilised by own-form pollen, is said to +produce during successive generations offspring in about the following +proportions : 25 : 75. + +Primula Sinensis. Long-styled form, fertilised by own-form pollen during two +successive generations : 52 : 0. + +Primula Sinensis. Long-styled form, fertilised by own-form pollen (Hildebrand) : +14 : 3. + +Primula Sinensis. Short-styled form, fertilised by own-form pollen: 1 : 24. + +Pulmonaria officinalis. Long-styled form, fertilised by own-form pollen : 11 : +0. + +Polygonum fagopyrum. Long-styled form, fertilised by own-form pollen : 45 : 4. + +Polygonum fagopyrum. Short-styled form, fertilised by own-form pollen : 13 : 20. + +TABLE 6.37. Nature of the offspring from illegitimately fertilised trimorphic +plants. + +Column 1: Species and form. +Column 2: Number of long-styled offspring. +Column 3: Number of mid-styled offspring. +Column 4: Number of short-styled offspring. + +Lythrum salicaria. Long-styled form, fertilised by own-form pollen : 56 : 0 : 0. + +Lythrum salicaria. Short-styled form, fertilised by own-form pollen : 1 : 0 : 8. + +Lythrum salicaria. Short-styled form, fertilised by pollen from mid-length +stamens of long-styled form : 4 : 0 : 8. + +Lythrum salicaria. Mid-styled form, fertilised by own-form pollen : 1 : 3 : 0. + +Lythrum salicaria. Mid-styled form, fertilised by pollen from shortest stamens +of long-styled form : 17 : 8 : 0. + +Lythrum salicaria. Mid-styled form, fertilised by pollen from longest stamens of +short-styled form : 14 : 8 : 18. + +Oxalis rosea. Long-styled form, fertilised during several generations by own- +form pollen, produced offspring in the ratio of : 100 : 0 : 0. + +Oxalis hedysaroides. Mid-styled form, fertilised by own-form pollen : 0 : 17 : +0. + +We see in these two tables that the offspring from a form illegitimately +fertilised with pollen from another plant of the same form belong, with a few +exceptions, to the same form as their parents. For instance, out of 162 +seedlings from long-styled plants of Primula veris fertilised during five +generations in this manner, 156 were long-styled and only 6 short-styled. Of 69 +seedlings from P. vulgaris similarly raised all were long-styled. So it was with +56 seedlings from the long-styled form of the trimorphic Lythrum salicaria, and +with numerous seedlings from the long-styled form of Oxalis rosea. The offspring +from the short-styled forms of dimorphic plants, and from both the mid-styled +and short-styled forms of trimorphic plants, fertilised with their own-form +pollen, likewise tend to belong to the same form as their parents, but not in so +marked a manner as in the case of the long-styled form. There are three cases in +Table 6.37, in which a form of Lythrum was fertilised illegitimately with pollen +from another form; and in two of these cases all the offspring belonged to the +same two forms as their parents, whilst in the third case they belonged to all +three forms. + +The cases hitherto given relate to illegitimate unions, but Hildebrand, Fritz +Muller, and myself found that a very large proportion, or all of the offspring, +from a legitimate union between any two forms of the trimorphic species of +Oxalis belonged to the same two forms. A similar rule therefore holds good with +unions which are fully fertile, as with those of an illegitimate nature which +are more or less sterile. When some of the seedlings from a heterostyled plant +belong to a different form from that of its parents, Hildebrand accounts for the +fact by reversion. For instance, the long-styled parent-plant of Primula veris, +from which the 162 illegitimate seedlings in Table 6.36 were derived in the +course of five generations, was itself no doubt derived from the union of a +long-styled and a short-styled parent; and the 6 short-styled seedlings may be +attributed to reversion to their short-styled progenitor. But it is a surprising +fact in this case, and in other similar ones, that the number of the offspring +which thus reverted was not larger. The fact is rendered still more strange in +the particular instance of P. veris, for there was no reversion until four or +five generations of long-styled plants had been raised. It may be seen in both +tables that the long-styled form transmits its form much more faithfully than +does the short-styled, when both are fertilised with their own-form pollen; and +why this should be so it is difficult to conjecture, unless it be that the +aboriginal parent-form of most heterostyled species possessed a pistil which +exceeded its own stamens considerably in length. (6/8. It may be suspected that +this was the case with Primula, judging from the length of the pistil in several +allied genera (see Mr. J. Scott ‘Journal of the Linnean Society Botany’ volume 8 +1864 page 85). Herr Breitenbach found many specimens of Primula elatior growing +in a state of nature with some flowers on the same plant long-styled, others +short-styled and others equal-styled; and the long-styled form greatly +preponderated in number; there being 61 of this form to 9 of the short-styled +and 15 of the equal-styled.) I will only add that in a state of nature any +single plant of a trimorphic species no doubt produces all three forms; and this +may be accounted for either by its several flowers being separately fertilised +by both the other forms, as Hildebrand supposes; or by pollen from both the +other forms being deposited by insects on the stigma of the same flower. + +EQUAL-STYLED VARIETIES. + +The tendency of the dimorphic species of Primula to produce equal-styled +varieties deserves notice. Cases of this kind have been observed, as shown in +the last chapter, in no less than six species, namely, P. veris, vulgaris, +Sinensis, auricula, farinosa, and elatior. In the case of P. veris, the stamens +resemble in length, position and size of their pollen-grains the stamens of the +short-styled form; whilst the pistil closely resembles that of the long-styled, +but as it varies much in length, one proper to the short-styled form appears to +have been elongated and to have assumed at the same time the functions of a +long-styled pistil. Consequently the flowers are capable of spontaneous self- +fertilisation of a legitimate nature and yield a full complement of seed, or +even more than the number produced by ordinary flowers legitimately fertilised. +With P. Sinensis, on the other hand, the stamens resemble in all respects the +shorter ones proper to the long-styled form, whilst the pistil makes a near +approach to that of the short-styled, but as it varies in length, it would +appear as if a long-styled pistil had been reduced in length and modified in +function. The flowers in this case as in the last are capable of spontaneous +legitimate fertilisation, and are rather more productive than ordinary flowers +legitimately fertilised. With P. auricula and farinosa the stamens resemble +those of the short-styled form in length, but those of the long-styled in the +size of their pollen-grains; the pistil also resembles that of the long-styled, +so that although the stamens and pistil are of nearly equal length, and +consequently pollen is spontaneously deposited on the stigma, yet the flowers +are not legitimately fertilised and yield only a very moderate supply of seed. +We thus see, firstly, that equal-styled varieties have originated in various +ways, and, secondly, that the combination of the two forms in the same flower +differs in completeness. With P. elatior some of the flowers on the same plant +have become equal-styled, instead of all of them as in the other species. + +Mr. Scott has suggested that the equal-styled varieties arise through reversion +to the former homostyled condition of the genus. This view is supported by the +remarkable fidelity with which the equal-styled variation is transmitted after +it has once appeared. I have shown in Chapter 13 of my ‘Variation of Animals and +Plants under Domestication,’ that any cause which disturbs the constitution +tends to induce reversion, and it is chiefly the cultivated species of Primula +which become equal-styled. Illegitimate fertilisation, which is an abnormal +process, is likewise an exciting cause; and with illegitimately descended long- +styled plants of P. Sinensis, I have observed the first appearance and +subsequent stages of this variation. With some other plants of P. Sinensis of +similar parentage the flowers appeared to have reverted to their original wild +condition. Again, some hybrids between P. veris and vulgaris were strictly +equal-styled, and others made a near approach to this structure. All these facts +support the view that this variation results, at least in part, from reversion +to the original state of the genus, before the species had become heterostyled. +On the other hand, some considerations indicate, as previously remarked, that +the aboriginal parent-form of Primula had a pistil which exceeded the stamens in +length. The fertility of the equal-styled varieties has been somewhat modified, +being sometimes greater and sometimes less than that of a legitimate union. +Another view, however, may be taken with respect to the origin of the equal- +styled varieties, and their appearance may be compared with that of +hermaphrodites amongst animals which properly have their sexes separated; for +the two sexes are combined in a monstrous hermaphrodite in a somewhat similar +manner as the two sexual forms are combined in the same flower of an equal- +styled variety of a heterostyled species. + +FINAL REMARKS. + +The existence of plants which have been rendered heterostyled is a highly +remarkable phenomenon, as the two or three forms of the same undoubted species +differ not only in important points of structure, but in the nature of their +reproductive powers. As far as structure is concerned, the two sexes of many +animals and of some plants differ to an extreme degree; and in both kingdoms the +same species may consist of males, females, and hermaphrodites. Certain +hermaphrodite cirripedes are aided in their reproduction by a whole cluster of +what I have called complemental males, which differ wonderfully from the +ordinary hermaphrodite form. With ants we have males and females, and two or +three castes of sterile females or workers. With Termites there are, as Fritz +Muller has shown, both winged and wingless males and females, besides the +workers. But in none of these cases is there any reason to believe that the +several males or several females of the same species differ in their sexual +powers, except in the atrophied condition of the reproductive organs in the +workers of social insects. Many hermaphrodite animals must unite for +reproduction, but the necessity of such union apparently depends solely on their +structure. On the other hand, with heterostyled dimorphic species there are two +females and two sets of males, and with trimorphic species three females and +three sets of males, which differ essentially in their sexual powers. We shall, +perhaps, best perceive the complex and extraordinary nature of the marriage +arrangements of a trimorphic plant by the following illustration. Let us suppose +that the individuals of the same species of ant always lived in triple +communities; and that in one of these, a large-sized female (differing also in +other characters) lived with six middle-sized and six small-sized males; in the +second community a middle-sized female lived with six large- and six small-sized +males; and in the third, a small-sized female lived with six large- and six +middle-sized males. Each of these three females, though enabled to unite with +any male, would be nearly sterile with her own two sets of males, and likewise +with two other sets of males of the same size with her own which lived in the +other two communities; but she would be fully fertile when paired with a male of +her own size. Hence the thirty-six males, distributed by half-dozens in the +three communities, would be divided into three sets of a dozen each; and these +sets, as well as the three females, would differ from one another in their +reproductive powers in exactly the same manner as do the distinct species of the +same genus. But it is a still more remarkable fact that young ants raised from +any one of the three female ants, illegitimately fertilised by a male of a +different size would resemble in a whole series of relations the hybrid +offspring from a cross between two distinct species of ants. They would be +dwarfed in stature, and more or less, or even utterly barren. Naturalists are so +much accustomed to behold great diversities of structure associated with the two +sexes, that they feel no surprise at almost any amount of difference; but +differences in sexual nature have been thought to be the very touchstone of +specific distinction. We now see that such sexual differences--the greater or +less power of fertilising and being fertilised--may characterise the co-existing +individuals of the same species, in the same manner as they characterise and +have kept separate those groups of individuals, produced during the lapse of +ages, which we rank and denominate as distinct species. + + +CHAPTER VII. +POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + +The conversion in various ways of hermaphrodite into dioecious plants. +Heterostyled plants rendered dioecious. +Rubiaceae. +Verbenaceae. +Polygamous and sub-dioecious plants. +Euonymus. +Fragaria. +The two sub-forms of both sexes of Rhamnus and Epigaea. +Ilex. +Gyno-dioecious plants. +Thymus, difference in fertility of the hermaphrodite and female individuals. +Satureia. +Manner in which the two forms probably originated. +Scabiosa and other gyno-dioecious plants. +Difference in the size of the corolla in the forms of polygamous, dioecious, and +gyno-dioecious plants. + +There are several groups of plants in which all the species are dioecious, and +these exhibit no rudiments in the one sex of the organs proper to the other. +About the origin of such plants nothing is known. It is possible that they may +be descended from ancient lowly organised forms, which had from the first their +sexes separated; so that they have never existed as hermaphrodites. There are, +however, many other groups of species and single ones, which from being allied +on all sides to hermaphrodites, and from exhibiting in the female flowers plain +rudiments of male organs, and conversely in the male flowers rudiments of female +organs, we may feel sure are descended from plants which formerly had the two +sexes combined in the same flower. It is a curious and obscure problem how and +why such hermaphrodites have been rendered bisexual. + +If in some individuals of a species the stamens alone were to abort, females and +hermaphrodites would be left existing, of which many instances occur; and if the +female organs of the hermaphrodite were afterwards to abort, the result would be +a dioecious plant. Conversely, if we imagine the female organs alone to abort in +some individuals, males and hermaphrodites would be left; and the hermaphrodites +might afterwards be converted into females. + +In other cases, as in that of the common Ash-tree mentioned in the Introduction, +the stamens are rudimentary in some individuals, the pistils in others, others +again remaining as hermaphrodites. Here the modification of the two sets of +organs appears to have occurred simultaneously, as far as we can judge from +their equal state of abortion. If the hermaphrodites were supplanted by the +individuals having separated sexes, and if these latter were equalised in +number, a strictly dioecious species would be formed. + +There is much difficulty in understanding why hermaphrodite plants should ever +have been rendered dioecious. There would be no such conversion, unless pollen +was already carried regularly by insects or by the wind from one individual to +the other; for otherwise every step towards dioeciousness would lead towards +sterility. As we must assume that cross-fertilisation was assured before an +hermaphrodite could be changed into a dioecious plant, we may conclude that the +conversion has not been effected for the sake of gaining the great benefits +which follow from cross-fertilisation. We can, however, see that if a species +were subjected to unfavourable conditions from severe competition with other +plants, or from any other cause, the production of the male and female elements +and the maturation of the ovules by the same individual, might prove too great a +strain on its powers, and the separation of the sexes would then be highly +beneficial. This, however, would be effected only under the contingency of a +reduced number of seeds, produced by the females alone, being sufficient to keep +up the stock. + +There is another way of looking at the subject which partially removes a +difficulty that appears at first sight insuperable, namely, that during the +conversion of an hermaphrodite into a dioecious plant, the male organs must +abort in some individuals and the female organs in others. Yet as all are +exposed to the same conditions, it might have been expected that those which +varied would tend to vary in the same manner. As a general rule only a few +individuals of a species vary simultaneously in the same manner; and there is no +improbability in the assumption that some few individuals might produce larger +seeds than the average, better stocked with nourishment. If the production of +such seeds were highly beneficial to a species, and on this head there can be +little doubt, the variety with the large seeds would tend to increase. (7/1. See +the facts given in ‘The Effects of Cross and Self-fertilisation’ page 353.) But +in accordance with the law of compensation we might expect that the individuals +which produced such seeds would, if living under severe conditions, tend to +produce less and less pollen, so that their anthers would be reduced in size and +might ultimately become rudimentary. This view occurred to me owing to a +statement by Sir J.E. Smith that there are female and hermaphrodite plants of +Serratula tinctoria, and that the seeds of the former are larger than those of +the hermaphrodite form. (7/2. ‘Transactions of the Linnean Society’ volume 8 +page 600.) It may also be worth while to recall the case of the mid-styled form +of Lythrum salicaria, which produces a larger number of seeds than the other +forms, and has somewhat smaller pollen-grains which have less fertilising power +than those of the corresponding stamens in the other two forms; but whether the +larger number of seeds is the indirect cause of the diminished power of the +pollen, or vice versa, I know not. As soon as the anthers in a certain number of +individuals became reduced in size in the manner just suggested or from any +other cause, the other individuals would have to produce a larger supply of +pollen; and such increased development would tend to reduce the female organs +through the law of compensation, so as ultimately to leave them in a rudimentary +condition; and the species would then become dioecious. + +Instead of the first change occurring in the female organs we may suppose that +the male ones first varied, so that some individuals produced a larger supply of +pollen. This would be beneficial under certain circumstances, such as a change +in the nature of the insects which visited the flowers, or in their becoming +more anemophilous, for such plants require an enormous quantity of pollen. The +increased action of the male organs would tend to affect through compensation +the female organs of the same flower; and the final result would be that the +species would consist of males and hermaphrodites. But it is of no use +considering this case and other analogous ones, for, as stated in the +Introduction, the coexistence of male and hermaphrodite plants is excessively +rare. + +It is no valid objection to the foregoing views that changes of such a nature +would be effected with extreme slowness, for we shall presently see good reason +to believe that various hermaphrodite plants have become or are becoming +dioecious by many and excessively small steps. In the case of polygamous +species, which exist as males, females and hermaphrodites, the latter would have +to be supplanted before the species could become strictly dioecious; but the +extinction of the hermaphrodite form would probably not be difficult, as a +complete separation of the sexes appears often to be in some way beneficial. The +males and females would also have to be equalised in number, or produced in some +fitting proportion for the effectual fertilisation of the females. + +There are, no doubt, many unknown laws which govern the suppression of the male +or female organs in hermaphrodite plants, quite independently of any tendency in +them to become monoecious, dioecious, or polygamous. We see this in those +hermaphrodites which from the rudiments still present manifestly once possessed +more stamens or pistils than they now do,--even twice as many, as a whole +verticil has often been suppressed. Robert Brown remarks that “the order of +reduction or abortion of the stamina in any natural family may with some +confidence be predicted,” by observing in other members of the family, in which +their number is complete, the order of the dehiscence of the anthers (7/3. +‘Transactions of the Linnean Society’ volume 12 page 98 or ‘Miscellaneous Works’ +volume 2 pages 278-81.); for the lesser permanence of an organ is generally +connected with its lesser perfection, and he judges of perfection by priority of +development. He also states that whenever there is a separation of the sexes in +an hermaphrodite plant, which bears flowers on a simple spike, it is the females +which expand first; and this he likewise attributes to the female sex being the +more perfect of the two, but why the female should be thus valued he does not +explain. + +Plants under cultivation or changed conditions of life frequently become +sterile; and the male organs are much oftener affected than the female, though +the latter alone are sometimes affected. The sterility of the stamens is +generally accompanied by a reduction in their size; and we may feel sure, from a +wide-spread analogy, that both the male and female organs would become +rudimentary in the course of many generations if they failed altogether to +perform their proper functions. According to Gartner, if the anthers on a plant +are contabescent (and when this occurs it is always at a very early period of +growth) the female organs are sometimes precociously developed. (7/4. ‘Beitrage +zur Kenntniss’ etc. page 117 et seq. The whole subject of the sterility of +plants from various causes has been discussed in my ‘Variation of Animals and +Plants under Domestication’ chapter 18 2nd edition volume 2 pages 146-56.) I +mention this case as it appears to be one of compensation. So again is the well- +known fact, that plants which increase largely by stolons or other such means +are often utterly barren, with a large proportion of their pollen-grains in a +worthless condition. + +Hildebrand has shown that with hermaphrodite plants which are strongly +proterandrous, the stamens in the flowers which open first sometimes abort; and +this seems to follow from their being useless, as no pistils are then ready to +be fertilised. Conversely the pistils in the flowers which open last sometimes +abort; as when they are ready for fertilisation all the pollen has been shed. He +further shows by means of a series of gradations amongst the Compositae, that a +tendency from the causes just specified to produce either male or female +florets, sometimes spreads to all the florets on the same head, and sometimes +even to the whole plant (7/5. ‘Ueber die Geschlechtsverhaltnisse bei den +Compositen’ 1869 page 89.); and in this latter case the species becomes +dioecious. In those rare instances mentioned in the Introduction, in which some +of the individuals of both monoecious and hermaphrodite plants are +proterandrous, others being proterogynous, their conversion into a dioecious +condition would probably be much facilitated, as they already consist of two +bodies of individuals, differing to a certain extent in their reproductive +functions. + +Dimorphic heterostyled plants offer still more strongly marked facilities for +becoming dioecious; for they likewise consist of two bodies of individuals in +approximately equal numbers, and what probably is more important, both the male +and female organs differ in the two forms, not only in structure but in +function, in nearly the same manner as do the reproductive organs of two +distinct species belonging to the same genus. Now if two species are subjected +to changed conditions, though of the same nature, it is notorious that they are +often affected very differently; therefore the male organs, for instance, in one +form of a heterostyled plant might be affected by those unknown causes which +induce abortion, differently from the homologous but functionally different +organs in the other form; and so conversely with the female organs. Thus the +great difficulty before alluded to is much lessened in understanding how any +cause whatever could lead to the simultaneous reduction and ultimate suppression +of the male organs in half the individuals of a species, and of the female +organs in the other half, whilst all were subjected to exactly the same +conditions of life. + +That such reduction or suppression has occurred in some heterostyled plants is +almost certain. The Rubiaceae contain more heterostyled genera than any other +family, and from their wide distribution we may infer that many of them became +heterostyled at a remote period, so that there will have been ample time for +some of the species to have been since rendered dioecious. Asa Gray informs me +that Coprosma is dioecious, and that it is closely allied through Nertera to +Mitchella, which as we know is a heterostyled dimorphic species. In the male +flowers of Coprosma the stamens are exserted, and in the female flowers the +stigmas; so that, judging from the affinities of the above three genera, it +seems probable that an ancient short-styled form bearing long stamens with large +anthers and large pollen-grains (as in the case of several Rubiaceous genera) +has been converted into the male Coprosma; and that an ancient long-styled form +with short stamens, small anthers and small pollen-grains has been converted +into the female form. But according to Mr. Meehan, Mitchella itself is dioecious +in some districts; for he says that one form has small sessile anthers without a +trace of pollen, the pistil being perfect; while in another form the stamens are +perfect and the pistil rudimentary. (7/6. ‘Proceedings of the Academy of +Sciences of Philadelphia’ July 28, 1868 page 183.) He adds that plants may be +observed in the autumn bearing an abundant crop of berries, and others without a +single one. Should these statements be confirmed, Mitchella will be proved to be +heterostyled in one district and dioecious in another. + +Asperula is likewise a Rubiaceous genus, and from the published description of +the two forms of A. scoparia, an inhabitant of Tasmania, I did not doubt that it +was heterostyled; but on examining some flowers sent me by Dr. Hooker they +proved to be dioecious. The male flowers have large anthers and a very small +ovarium, surmounted by a mere vestige of a stigma without any style; whilst the +female flowers possess a large ovarium, the anthers being rudimentary and +apparently quite destitute of pollen. Considering how many Rubiaceous genera are +heterostyled, it is a reasonable suspicion that this Asperula is descended from +a heterostyled progenitor; but we should be cautious on this head, for there is +no improbability in a homostyled Rubiaceous plant becoming dioecious. Moreover, +in an allied plant, Galium cruciatum, the female organs have been suppressed in +most of the lower flowers, whilst the upper ones remain hermaphrodite; and here +we have a modification of the sexual organs without any connection with +heterostylism. + +Mr. Thwaites informs me that in Ceylon various Rubiaceous plants are +heterostyled; but in the case of Discospermum one of the two forms is always +barren, the ovary containing about two aborted ovules in each loculus; whilst in +the other form each loculus contains several perfect ovules; so that the species +appears to be strictly dioecious. + +Most of the species of the South American genus Aegiphila, a member of the +Verbenaceae, apparently are heterostyled; and both Fritz Muller and myself +thought that this was the case with Ae. obdurata, so closely did its flowers +resemble those of the heterostyled species. But on examining the flowers, the +anthers of the long-styled form were found to be entirely destitute of pollen +and less than half the size of those in the other form, the pistil being +perfectly developed. On the other hand, in the short-styled form the stigmas are +reduced to half their proper length, having also an abnormal appearance; whilst +the stamens are perfect. This plant therefore is dioecious; and we may, I think, +conclude that a short-styled progenitor, bearing long stamens exserted beyond +the corolla, has been converted into the male; and a long-styled progenitor with +fully developed stigmas into the female. + +From the number of bad pollen-grains in the small anthers of the short stamens +of the long-styled form of Pulmonaria angustifolia, we may suspect that this +form is tending to become female; but it does not appear that the other or +short-styled form is becoming more masculine. Certain appearances countenance +the belief that the reproductive system of Phlox subulata is likewise undergoing +a change of some kind. + +I have now given the few cases known to me in which heterostyled plants appear +with some considerable degree of probability to have been rendered dioecious. +Nor ought we to expect to find many such cases, for the number of heterostyled +species is by no means large, at least in Europe, where they could hardly have +escaped notice. Therefore the number of dioecious species which owe their origin +to the transformation of heterostyled plants is probably not so large as might +have been anticipated from the facilities which they offer for such conversion. + +In searching for cases like the foregoing ones, I have been led to examine some +dioecious or sub-dioecious plants, which are worth describing, chiefly as they +show by what fine gradations hermaphrodites may pass into polygamous or +dioecious species. + +POLYGAMOUS, DIOECIOUS, AND SUB-DIOECIOUS PLANTS. + +Euonymus Europaeus (CELASTRINEAE). + +(Figure 7.12. Euonymus Europaeus +Left: Hermaphrodite or male. +Right: Female.) + +The spindle-tree is described in all the botanical works which I have consulted +as an hermaphrodite. Asa Gray speaks of the flowers of the American species as +perfect, whilst those in the allied genus Celastrus are said to be “polygamo- +dioecious.” If a number of bushes of our spindle-tree be examined, about half +will be found to have stamens equal in length to the pistil, with well-developed +anthers; the pistil being likewise to all appearance well developed. The other +half have a perfect pistil, with the stamens short, bearing rudimentary anthers +destitute of pollen; so that these bushes are females. All the flowers on the +same plant present the same structure. The female corolla is smaller than that +on the polleniferous bushes. The two forms are shown in Figure 7.12. + +I did not at first doubt that this species existed under an hermaphrodite and +female form; but we shall presently see that some of the bushes which appear to +be hermaphrodites never produce fruit, and these are in fact males. The species, +therefore, is polygamous in the sense in which I use the term, and trioecious. +The flowers are frequented by many Diptera and some small Hymenoptera for the +sake of the nectar secreted by the disc, but I did not see a single bee at work; +nevertheless the other insects sufficed to fertilise effectually female bushes +growing at a distance of even 30 yards from any polleniferous bush. + +The small anthers borne by the short stamens of the female flowers are well +formed and dehisce properly, but I could never find in them a single grain of +pollen. It is somewhat difficult to compare the length of the pistils in the two +forms, as they vary somewhat in this respect and continue to grow after the +anthers are mature. The pistils, therefore, in old flowers on a polleniferous +plant are often of considerably greater length than in young flowers on a female +plant. On this account the pistils from five flowers from so many hermaphrodite +or male bushes were compared with those from five female bushes, before the +anthers had dehisced and whilst the rudimentary ones were of a pink colour and +not at all shrivelled. These two sets of pistils did not differ in length, or if +there was any difference those of the polleniferous flowers were rather the +longest. In one hermaphrodite plant, which produced during three years very few +and poor fruit, the pistil much exceeded in length the stamens bearing perfect +and as yet closed anthers; and I never saw such a case on any female plant. It +is a surprising fact that the pistil in the male and in the semi-sterile +hermaphrodite flowers has not been reduced in length, seeing that it performs +very poorly or not at all its proper function. The stigmas in the two forms are +exactly alike; and in some of the polleniferous plants which never produced any +fruit I found that the surface of the stigma was viscid, so that pollen-grains +adhered to it and had exserted their tubes. The ovules are of equal size in the +two forms. Therefore the most acute botanist, judging only by structure, would +never have suspected that some of the bushes were in function exclusively males. + +Thirteen bushes growing near one another in a hedge consisted of eight females +quite destitute of pollen and of five hermaphrodites with well-developed +anthers. In the autumn the eight females were well covered with fruit, excepting +one, which bore only a moderate number. Of the five hermaphrodites, one bore a +dozen or two fruits, and the remaining four bushes several dozen; but their +number was as nothing compared with those on the female bushes, for a single +branch, between two and three feet in length, from one of the latter, yielded +more than any one of the hermaphrodite bushes. The difference in the amount of +fruit produced by the two sets of bushes is all the more striking, as from the +sketches above given it is obvious that the stigmas of the polleniferous flowers +can hardly fail to receive their own pollen; whilst the fertilisation of the +female flowers depends on pollen being brought to them by flies and the smaller +Hymenoptera, which are far from being such efficient carriers as bees. + +I now determined to observe more carefully during successive seasons some bushes +growing in another place about a mile distant. As the female bushes were so +highly productive, I marked only two of them with the letters A and B, and five +polleniferous bushes with the letters C to G. I may premise that the year 1865 +was highly favourable for the fruiting of all the bushes, especially for the +polleniferous ones, some of which were quite barren except under such favourable +conditions. The season of 1864 was unfavourable. In 1863 the female A produced +“some fruit;” in 1864 only 9; and in 1865, 97 fruit. The female B in 1863 was +“covered with fruit;” in 1864 it bore 28; and in 1865 “innumerable very fine +fruits.” I may add, that three other female trees growing close by were +observed, but only during 1863, and they then bore abundantly. With respect to +the polleniferous bushes, the one marked C did not bear a single fruit during +the years 1863 and 1864, but during 1865 it produced no less than 92 fruit, +which, however, were very poor. I selected one of the finest branches with 15 +fruit, and these contained 20 seeds, or on an average 1.33 per fruit. I then +took by hazard 15 fruit from an adjoining female bush, and these contained 43 +seeds; that is, more than twice as many, or on an average 2.86 per fruit. Many +of the fruits from the female bushes included four seeds, and only one had a +single seed; whereas not one fruit from the polleniferous bushes contained four +seeds. Moreover when the two lots of seeds were compared, it was manifest that +those from the female bushes were the larger. The second polleniferous bush, D, +bore in 1863 about two dozen fruit,--in 1864 only 3 very poor fruit, each +containing a single seed,--and in 1865, 20 equally poor fruit. Lastly, the three +polleniferous bushes, E, F, and G, did not produce a single fruit during the +three years 1863, 1864, and 1865. + +We thus see that the female bushes differ somewhat in their degree of fertility, +and the polleniferous ones in the most marked manner. We have a perfect +gradation from the female bush, B, which in 1865 was covered with “innumerable +fruits,”--through the female A, which produced during the same year 97,--through +the polleniferous bush C, which produced this year 92 fruits, these, however, +containing a very low average number of seeds of small size,--through the bush +D, which produced only 20 poor fruit,--to the three bushes, E, F, and G, which +did not this year, or during the two previous years, produce a single fruit. If +these latter bushes and the more fertile female ones were to supplant the +others, the spindle-tree would be as strictly dioecious in function as any plant +in the world. This case appears to me very interesting, as showing how gradually +an hermaphrodite plant may be converted into a dioecious one. (7/7. According to +Fritz Muller ‘Botanische Zeitung’ 1870 page 151, a Chamissoa (Amaranthaceae) in +Southern Brazil is in nearly the same state as our Euonymus. The ovules are +equally developed in the two forms. In the female the pistil is perfect, whilst +the anthers are entirely destitute of pollen. In the polleniferous form, the +pistil is short and the stigmas never separate from one another, so that, +although their surfaces are covered with fairly well-developed papillae, they +cannot be fertilised, these latter plants do not commonly yield any fruit, and +are therefore in function males. Nevertheless, on one occasion Fritz Muller +found flowers of this kind in which the stigmas had separated, and they produced +some fruit.) + +Seeing how general it is for organs which are almost or quite functionless to be +reduced in size, it is remarkable that the pistils of the polleniferous plants +should equal or even exceed in length those of the highly fertile female plants. +This fact formerly led me to suppose that the spindle-tree had once been +heterostyled; the hermaphrodite and male plants having been originally long- +styled, with the pistils since reduced in length, but with the stamens retaining +their former dimensions; whilst the female plant had been originally short- +styled, with the pistil in its present state, but with the stamens since greatly +reduced and rendered rudimentary. A conversion of this kind is at least +possible, although it is the reverse of that which appears actually to have +occurred with some Rubiaceous genera and Aegiphila; for with these plants the +short-styled form has become the male, and the long-styled the female. It is, +however, a more simple view that sufficient time has not elapsed for the +reduction of the pistil in the male and hermaphrodite flowers of our Euonymus; +though this view does not account for the pistils in the polleniferous flowers +being sometimes longer than those in the female flowers. + +Fragaria vesca, Virginiana, chiloensis, etc. (ROSACEAE). + +A tendency to the separation of the sexes in the cultivated strawberry seems to +be much more strongly marked in the United States than in Europe; and this +appears to be the result of the direct action of climate on the reproductive +organs. In the best account which I have seen, it is stated that many of the +varieties in the United States consist of three forms, namely, females, which +produce a heavy crop of fruit,--of hermaphrodites, which “seldom produce other +than a very scanty crop of inferior and imperfect berries,”--and of males, which +produce none. (7/8. Mr. Leonard Wray ‘Gardener’s Chronicle’ 1861 page 716.) The +most skilful cultivators plant “seven rows of female plants, then one row of +hermaphrodites, and so on throughout the field.” The males bear large, the +hermaphrodites mid-sized, and the females small flowers. The latter plants +produce few runners, whilst the two other forms produce many; consequently, as +has been observed both in England and in the United States, the polleniferous +forms increase rapidly and tend to supplant the females. We may therefore infer +that much more vital force is expended in the production of ovules and fruit +than in the production of pollen. Another species, the Hautbois strawberry (F. +elatior), is more strictly dioecious; but Lindley made by selection an +hermaphrodite stock. (7/9. For references and further information on this +subject, see ‘Variation under Domestication’ chapter 10 2nd edition volume 1 +page 375.) + +Rhamnus catharticus (RHAMNEAE). + +(FIGURE 7.13. Rhamnus catharticus (from Caspary.) +Left: Long-styled male. +Right: Short-styled male.) + +(FIGURE 7.14. Rhamnus catharticus. +Left: Long-styled female. +Right: Short-styled female.) + +This plant is well known to be dioecious. My son William found the two sexes +growing in about equal numbers in the Isle of Wight, and sent me specimens, +together with observations on them. Each sex consists of two sub-forms. The two +forms of the male differ in their pistils: in some plants it is quite small, +without any distinct stigma; in others the pistil is much more developed, with +the papillae on the stigmatic surfaces moderately large. The ovules in both +kinds of males are in an aborted condition. On my mentioning this case to +Professor Caspary, he examined several male plants in the botanic gardens at +Konigsberg, where there were no females, and sent me the drawings in Figure +7.13. + +In the English plants the petals are not so greatly reduced as represented in +this drawing. My son observed that those males which had their pistils +moderately well-developed bore slightly larger flowers, and, what is very +remarkable, their pollen-grains exceeded by a little in diameter those of the +males with greatly reduced pistils. This fact is opposed to the belief that the +present species was once heterostyled; for in this case it might have been +expected that the shorter-styled plants would have had larger pollen-grains. + +In the female plants the stamens are in an extremely rudimentary condition, much +more so than the pistils in the males. The pistil varies considerably in length +in the female plants, so that they may be divided into two sub-forms according +to the length of this organ. Both the petals and sepals are decidedly smaller in +the females than in the males; and the sepals do not turn downwards, as do those +of the male flowers when mature. All the flowers on the same male or same female +bush, though subject to some variability, belong to the same sub-form; and as my +son never experienced any difficulty in deciding under which class a plant ought +to be included, he believes that the two sub-forms of the same sex do not +graduate into one another. I can form no satisfactory theory how the four forms +of this plant originated. + +Rhamnus lanceolatus. + +This plant exists in the United States, as I am informed by Professor Asa Gray, +under two hermaphrodite forms. In the one, which may be called the short-styled, +the flowers are sub-solitary, and include a pistil about two-thirds or only half +as long as that in the other form; it has also shorter stigmas. The stamens are +of equal length in the two forms; but the anthers of the short-styled contain +rather less pollen, as far as I could judge from a few dried flowers. My son +compared the pollen-grains from the two forms, and those from the long-styled +flowers were to those from the short-styled, on an average from ten +measurements, as 10 to 9 in diameter; so that the two hermaphrodite forms of +this species resemble in this respect the two male forms of R. catharticus. The +long-styled form is not so common as the short-styled. The latter is said by Asa +Gray to be the more fruitful of the two, as might have been expected from its +appearing to produce less pollen, and from the grains being of smaller size; it +is therefore the more highly feminine of the two. The long-styled form produces +a greater number of flowers, which are clustered together instead of being sub- +solitary; they yield some fruit, but as just stated are less fruitful than the +other form, so that this form appears to be the more masculine of the two. On +the supposition that we have here an hermaphrodite plant becoming dioecious, +there are two points deserving notice; firstly, the greater length of the pistil +in the incipient male form; and we have met with a nearly similar case in the +male and hermaphrodite forms of Euonymus compared with the females. Secondly, +the larger size of the pollen-grains in the more masculine flowers, which +perhaps may be attributed to their having retained their normal size; whilst +those in the incipient female flowers have been reduced. The long-styled form of +R. lanceolatus seems to correspond with the males of R. catharticus which have a +longer pistil and larger pollen-grains. Light will perhaps be thrown on the +nature of the forms in this genus, as soon as the power of both kinds of pollen +on both stigmas is ascertained. Several other species of Rhamnus are said to be +dioecious or sub-dioecious. (7/10. Lecoq ‘Geogr. Bot.’ tome 5 1856 pages 420- +26.) On the other hand, R. frangula is an ordinary hermaphrodite, for my son +found a large number of bushes all bearing an equal profusion of fruit. + +Epigaea repens (ERICACEAE). + +This plant appears to be in nearly the same state as Rhamnus catharticus. It is +described by Asa Gray as existing under four forms. (7/11. ‘American Journal of +Science’ July 1876. Also ‘The American Naturalist’ 1876 page 490.) (1.) With +long style, perfect stigma, and short abortive stamens. (2.) Shorter style, but +with stigma equally perfect, short abortive stamens. These two female forms +amounted to 20 per cent of the specimens received from one locality in Maine; +but all the fruiting specimens belonged to the first form. (3.) Style long, as +in Number 1, but with stigma imperfect, stamens perfect. (4.) Style shorter than +in the last, stigma imperfect, stamens perfect. These two latter forms are +evidently males. Therefore, as Asa Gray remarks, “the flowers may be classified +into two kinds, each with two modifications; the two main kinds characterised by +the nature and perfection of the stigma, along with more or less abortion of the +stamens; their modifications, by the length of the style.” Mr. Meehan has +described the extreme variability of the corolla and calyx in this plant, and +shows that it is dioecious. (7/12. “Variations in Epigaea repens” ‘Proc. Acad. +Nat. Soc. of Philadelphia’ May 1868 page 153.) It is much to be wished that the +pollen-grains in the two male forms should be compared, and their fertilising +power tried on the two female forms. + +Ilex aquifolium (AQUIFOLIACEAE). + +In the several works which I have consulted, one author alone says that the +holly is dioecious. (7/13. Vaucher ‘Hist. Phys. des Plantes d’Europe’ 1841 tome +2 page 11.) During several years I have examined many plants, but have never +found one that was really hermaphrodite. I mention this genus because the +stamens in the female flowers, although quite destitute of pollen, are but +slightly and sometimes not at all shorter than the perfect stamens in the male +flowers. In the latter the ovary is small and the pistil is almost aborted. The +filaments of the perfect stamens adhere for a greater length to the petals than +in the female flowers. The corolla of the latter is rather smaller than that of +the male. The male trees produce a greater number of flowers than the females. +Asa Gray informs me that I. opaca, which represents in the United States our +common holly, appears (judging from dried flowers) to be in a similar state; and +so it is, according to Vaucher, with several other but not with all the species +of the genus. + +GYNO-DIOECIOUS PLANTS. + +The plants hitherto described either show a tendency to become dioecious, or +apparently have become so within a recent period. But the species now to be +considered consist of hermaphrodites and females without males, and rarely show +any tendency to be dioecious, as far as can be judged from their present +condition and from the absence of species having separated sexes within the same +groups. Species belonging to the present class, which I have called gyno- +dioecious, are found in various widely distinct families; but are much more +common in the Labiatae (as has long been noticed by botanists) than in any other +group. Such cases have been noticed by myself in Thymus serpyllum and vulgaris, +Satureia hortensis, Origanum vulgare, and Mentha hirsuta; and by others in +Nepeta glechoma, Mentha vulgaris and aquatica, and Prunella vulgaris. In these +two latter species the female form, according to H. Muller, is infrequent. To +these must be added Dracocephalum Moldavicum, Melissa officinalis and +clinopodium, and Hyssopus officinalis. (7/14. H. Muller ‘Die Befruchtung der +Blumen’ 1873 and ‘Nature’ 1873 page 161. Vaucher ‘Plantes d’Europe’ tome 3 page +611. For Dracocephalum Schimper as quoted by Braun ‘Annals and Magazine of +Natural History’ 2nd series volume 18 1856 page 380. Lecoq ‘Geographie Bot. de +l’Europe’ tome 8 pages 33, 38, 44, etc. Both Vaucher and Lecoq were mistaken in +thinking that several of the plants named in the text are dioecious. They appear +to have assumed that the hermaphrodite form was a male; perhaps they were +deceived by the pistil not becoming fully developed and of proper length until +some time after the anthers have dehisced.) In the two last-named plants the +female form likewise appears to be rare, for I raised many seedlings of both, +and all were hermaphrodites. It has already been remarked in the Introduction +that andro-dioecious species, as they may be called, or those which consist of +hermaphrodites and males, are extremely rare, or hardly exist. + +Thymus serpyllum. + +The hermaphrodite plants present nothing particular in the state of their +reproductive organs; and so it is in all the following cases. The females of the +present species produce rather fewer flowers and have somewhat smaller corollas +than the hermaphrodites; so that near Torquay, where this plant abounds, I +could, after a little practice, distinguish the two forms whilst walking quickly +past them. According to Vaucher, the smaller size of the corolla is common to +the females of most or all of the above-mentioned Labiatae. The pistil of the +female, though somewhat variable in length, is generally shorter, with the +margins of the stigma broader and formed of more lax tissue, than that of the +hermaphrodite. The stamens in the female vary excessively in length; they are +generally enclosed within the tube of the corolla, and their anthers do not +contain any sound pollen; but after long search I found a single plant with the +stamens moderately exserted, and their anthers contained a very few full-sized +grains, together with a multitude of minute empty ones. In some females the +stamens are extremely short, and their minute anthers, though divided into the +two normal cells or loculi, contained not a trace of pollen: in others again the +anthers did not exceed in diameter the filaments which supported them, and were +not divided into two loculi. Judging from what I have myself seen and from the +descriptions of others, all the plants in Britain, Germany, and near Mentone, +are in the state just described; and I have never found a single flower with an +aborted pistil. It is, therefore, remarkable that, according to Delpino, this +plant near Florence is generally trimorphic, consisting of males with aborted +pistils, females with aborted stamens, and hermaphrodites. (7/15. ‘Sull’ Opera, +la Distribuzione dei Sessi nelle Piante, etc’ 1867 page 7. With respect to +Germany H. Muller ‘Die Befruchtung etc.’ page 327.) + +I found it very difficult to judge of the proportional number of the two forms +at Torquay. They often grow mingled together, but with large patches consisting +of one form alone. At first I thought that the two were nearly equal in number; +but on examining every plant which grew close to the edge of a little +overhanging dry cliff, about 200 yards in length, I found only 12 females; all +the rest, some hundreds in number, being hermaphrodites. Again, on an extensive +gently sloping bank, which was so thickly covered with this plant that, viewed +from the distance of half a mile it appeared of a pink colour, I could not +discover a single female. Therefore the hermaphrodites must greatly exceed in +number the females, at least in the localities examined by me. A very dry +station apparently favours the presence of the female form. With some of the +other above-named Labiatae the nature of the soil or climate likewise seems to +determine the presence of one or both forms; thus with Nepeta glechoma, Mr. Hart +found in 1873 that all the plants which he examined near Kilkenny in Ireland +were females; whilst all near Bath were hermaphrodites, and near Hertford both +forms were present, but with a preponderance of hermaphrodites. (7/16. ‘Nature’ +June 1873 page 162.) It would, however, be a mistake to suppose that the nature +of the conditions determines the form independently of inheritance; for I sowed +in the same small bed seeds of T. serpyllum, gathered at Torquay from the female +alone, and these produced an abundance of both forms. There is every reason to +believe, from large patches consisting of the same form, that the same +individual plant, however much it may spread, always retains the same form. In +two distant gardens I found masses of the lemon-thyme (T. citriodorus, a var. of +T. serpyllum, which I was informed had grown there during many years, and every +flower was female. + +With respect to the fertility of the two forms, I marked at Torquay a large +hermaphrodite and a large female plant of nearly equal sizes, and when the seeds +were ripe I gathered all the heads. The two heaps were of very nearly equal +bulk; but the heads from the female plant numbered 160, and their seeds weighed +8.7 grains; whilst those from the hermaphrodite plant numbered 200, and their +seeds weighed only 4.9 grains; so that the seeds from the female plant were to +those from the hermaphrodite as 100 to 56 in weight. If the relative weight of +the seeds from an equal number of flower-heads from the two forms be compared, +the ratio is as 100 for the female to 45 for the hermaphrodite form. + +Thymus vulgaris. + +(FIGURE 7.15. Thymus vulgaris (magnified). +Left: Hermaphrodite. +Right: Two females.) + +The common garden thyme resembles in almost every respect T. serpyllum. The same +slight differences between the stigmas of the two forms could be perceived. In +the females the stamens are not generally quite so much reduced as in the same +form of T. serpyllum. In some specimens sent me from Mentone by Mr. Moggridge, +together with the sketches in Figure 7.15, the anthers of the female, though +small, were well formed, but they contained very little pollen, and not a single +sound grain could be detected. Eighteen seedlings were raised from purchased +seed, sown in the same small bed; and these consisted of seven hermaphrodites +and eleven females. They were left freely exposed to the visits of bees, and no +doubt every female flower was fertilised; for on placing under the microscope a +large number of stigmas from female plants, not one could be found to which +pollen-grains of thyme did not adhere. The seeds were carefully collected from +the eleven female plants, and they weighed 98.7 grains; and those from the seven +hermaphrodites 36.5 grains. This gives for an equal number of plants the ratio +of 100 to 58; and we here see, as in the last case, how much more fertile the +females are than the hermaphrodites. These two lots of seeds were sown +separately in two adjoining beds, and the seedlings from both the hermaphrodite +and female parent-plants consisted of both forms. + +Satureia hortensis. + +Eleven seedlings were raised in separate pots in a hotbed and afterwards kept in +the greenhouse. They consisted of ten females and of a single hermaphrodite. +Whether or not the conditions to which they had been subjected caused the great +excess of females I do not know. In the females the pistil is rather longer than +that of the hermaphrodite, and the stamens are mere rudiments, with minute +colourless anthers destitute of pollen. The windows of the greenhouse were left +open, and the flowers were incessantly visited by humble and hive bees. Although +the ten females did not produce a single grain of pollen, yet they were all +thoroughly well fertilised by the one hermaphrodite plant, and this is an +interesting fact. It should be added that no other plant of this species grew in +my garden. The seeds were collected from the finest female plant, and they +weighed 78 grains; whilst those from the hermaphrodite, which was a rather +larger plant than the female, weighed only 33.2 grains; that is, in the ratio of +100 to 43. The female form, therefore, is very much more fertile than the +hermaphrodite, as in the two last cases; but the hermaphrodite was necessarily +self-fertilised, and this probably diminished its fertility. + +We may now consider the probable means by which so many of the Labiatae have +been separated into two forms, and the advantages thus gained. H. Muller +supposes that originally some individuals varied so as to produce more +conspicuous flowers; and that insects habitually visited these first, and then +dusted with their pollen visited and fertilised the less conspicuous flowers. +(7/17. ‘Die Befruchtung der Blumen’ pages 319, 326.) The production of pollen by +the latter plants would thus be rendered superfluous, and it would be +advantageous to the species that their stamens should abort, so as to save +useless expenditure. They would thus be converted into females. But another view +may be suggested: as the production of a large supply of seeds evidently is of +high importance to many plants, and as we have seen in the three foregoing cases +that the females produce many more seeds than the hermaphrodites, increased +fertility seems to me the more probable cause of the formation and separation of +the two forms. From the data above given it follows that ten plants of Thymus +serpyllum, if half consisted of hermaphrodites and half of females, would yield +seeds compared with ten hermaphrodite plants in the ratio of 100 to 72. Under +similar circumstances the ratio with Satureia hortensis (subject to the doubt +from the self-fertilisation of the hermaphrodite) would be as 100 to 60. Whether +the two forms originated in certain individuals varying and producing more seed +than usual, and consequently producing less pollen; or in the stamens of certain +individuals tending from some unknown cause to abort, and consequently producing +more seed, it is impossible to decide; but in either case, if the tendency to +the increased production of seed were steadily favoured, the result would be the +complete abortion of the male organs. I shall presently discuss the cause of the +smaller size of the female corolla. + +[Scabiosa arvensis (DIPSACEAE). + +It has been shown by H. Muller that this species exists in Germany under an +hermaphrodite and female form. (7/18. ‘Die Befruchtung der Blumen’ page 368. The +two forms occur not only in Germany, but in England and France. Lecoq +‘Geographie Bot.’ 1857 tome 6 pages 473, 477, says that male plants as well as +hermaphrodites and females coexist; it is, however, possible that he may have +been deceived by the flowers being so strongly proterandrous. From what Lecoq +says, S. succisa likewise appears to occur under two forms in France.) In my +neighbourhood (Kent) the female plants do not nearly equal in number the +hermaphrodites. The stamens of the females vary much in their degree of +abortion; in some plants they are quite short and produce no pollen; in others +they reach to the mouth of the corolla, but their anthers are not half the +proper size, never dehisce, and contain but few pollen-grains, these being +colourless and of small diameter. The hermaphrodite flowers are strongly +proterandrous, and H. Muller shows that, whilst all the stigmas on the same +flower-head are mature at nearly the same time, the stamens dehisce one after +the other; so that there is a great excess of pollen, which serves to fertilise +the female plants. As the production of pollen by one set of plants is thus +rendered superfluous, their male organs have become more or less completely +aborted. Should it be hereafter proved that the female plants yield, as is +probable, more seeds than the hermaphrodites, I should be inclined to extend the +same view to this plant as to the Labiatae. I have also observed the existence +of two forms in our endemic S. succisa, and in the exotic S. atro-purpurea. In +the latter plant, differently to what occurs in S. arvensis, the female flowers, +especially the larger circumferential ones, are smaller than those of the +hermaphrodite form. According to Lecoq, the female flower-heads of S. succisa +are likewise smaller than those of what he calls the male plants, but which are +probably hermaphrodites. + +Echium vulgare (BORAGINEAE). + +The ordinary hermaphrodite form appears to be proterandrous, and nothing more +need be said about it. The female differs in having a much smaller corolla and +shorter pistil, but a well-developed stigma. The stamens are short; the anthers +do not contain any sound pollen-grains, but in their place yellow incoherent +cells which do not swell in water. Some plants were in an intermediate +condition; that is, had one or two or three stamens of proper length with +perfect anthers, the other stamens being rudimentary. In one such plant half of +one anther contained green perfect pollen-grains, and the other half yellowish- +green imperfect grains. Both forms produced seed, but I neglected to observe +whether in equal numbers. As I thought that the state of the anthers might be +due to some fungoid growth, I examined them both in the bud and mature state, +but could find no trace of mycelium. In 1862 many female plants were found; and +in 1864, 32 plants were collected in two localities, exactly half of which were +hermaphrodites, fourteen were females, and two in an intermediate condition. In +1866, 15 plants were collected in another locality, and these consisted of four +hermaphrodites and eleven females. I may add that this season was a wet one, +which shows that the abortion of the stamens can hardly be due to the dryness of +the sites where the plants grew, as I at one time thought probable. Seeds from +an hermaphrodite were sown in my garden, and of the 23 seedlings raised, one +belonged to the intermediate form, all the others being hermaphrodites, though +two or three of them had unusually short stamens. I have consulted several +botanical works, but have found no record of this plant varying in the manner +here described. + +Plantago lanceolata (PLANTAGINEAE). + +Delpino states that this plant presents in Italy three forms, which graduate +from an anemophilous into an entomophilous condition. According to H. Muller, +there are only two forms in Germany, neither of which show any special +adaptation for insect fertilisation, and both appear to be hermaphrodites. +(7/19. ‘Die Befruchtung’ etc. page 342.) But I have found in two localities in +England female and hermaphrodite forms existing together; and the same fact has +been noticed by others. (7/20. Mr. C.W. Crocker ‘The Gardener’s Chronicle’ 1864 +page 294. Mr. W. Marshall writes to me to the same effect from Ely.) The females +are less frequent than the hermaphrodites; their stamens are short, and their +anthers, which are of a brighter green whilst young than those of the other +form, dehisce properly, yet contain either no pollen, or a small amount of +imperfect grains of variable size. All the flower-heads on a plant belong to the +same form. It is well known that this species is strongly proterogynous, and I +found that the protruding stigmas of both the hermaphrodite and female flowers +were penetrated by pollen-tubes, whilst their own anthers were immature and had +not escaped out of the bud. Plantago media does not present two forms; but it +appears from Asa Gray’s description, that such is the case with four of the +North American species. (7/21. ‘Manual of the Botany of the Northern United +States’ 2nd edition 1856 page 269. See also ‘American Journal of Science’ +November 1862 page 419 and ‘Proceedings of the American Academy of Science’ +October 14, 1862 page 53.) The corolla does not properly expand in the short- +stamened form of these plants. + +Cnicus, Serratula, Eriophorum. + +In the Compositae, Cnicus palustris and acaulis are said by Sir J.E. Smith to +exist as hermaphrodites and females, the former being the more frequent. With +Serratula tinctoria a regular gradation may be followed from the hermaphrodite +to the female form; in one of the latter plants the stamens were so tall that +the anthers embraced the style as in the hermaphrodites, but they contained only +a few grains of pollen, and these in an aborted condition; in another female, on +the other hand, the anthers were much more reduced in size than is usual. +Lastly, Dr. Dickie has shown that with Eriophorum angustifolium (Cyperaceae) +hermaphrodite and female forms exist in Scotland and the Arctic regions, both of +which yield seed. (7/22. Sir J.E. Smith ‘Transactions of the Linnean Society’ +volume 13 page 599. Dr. Dickie ‘Journal of the Linnean Society Botany’ volume 9 +1865 page 161.)] + +It is a curious fact that in all the foregoing polygamous, dioecious, and gyno- +dioecious plants in which any difference has been observed in the size of the +corolla in the two or three forms, it is rather larger in the females, which +have their stamens more or less or quite rudimentary, than in the hermaphrodites +or males. This holds good with Euonymus, Rhamnus catharticus, Ilex, Fragaria, +all or at least most of the before-named Labiatae, Scabiosa atro-purpurea, and +Echium vulgare. So it is, according to Von Mohl, with Cardamine amara, Geranium +sylvaticum, Myosotis, and Salvia. On the other hand, as Von Mohl remarks, when a +plant produces hermaphrodite flowers and others which are males owing to the +more or less complete abortion of the female organs, the corollas of the males +are not at all increased in size, or only exceptionally and in a slight degree, +as in Acer. (7/23. ‘Botanische Zeitung’ 1863 page 326.) It seems therefore +probable that the decreased size of the female corollas in the foregoing cases +is due to a tendency to abortion spreading from the stamens to the petals. We +see how intimately these organs are related in double flowers, in which the +stamens are readily converted into petals. Indeed some botanists believe that +petals do not consist of leaves directly metamorphosed, but of metamorphosed +stamens. That the lessened size of the corolla in the above case is in some +manner an indirect result of the modification of the reproductive organs is +supported by the fact that in Rhamnus catharticus not only the petals but the +green and inconspicuous sepals of the female have been reduced in size; and in +the strawberry the flowers are largest in the males, mid-sized in the +hermaphrodites, and smallest in the females. These latter cases,--the +variability in the size of the corolla in some of the above species, for +instance in the common thyme,--together with the fact that it never differs +greatly in size in the two forms--make me doubt much whether natural selection +has come into play;--that is whether, in accordance with H. Muller’s belief, the +advantage derived from the polleniferous flowers being visited first by insects +has been sufficient to lead to a gradual reduction of the corolla of the female. +We should bear in mind that as the hermaphrodite is the normal form, its corolla +has probably retained its original size. (7/24. It does not appear to me that +Kerner’s view ‘Die Schutzmittel des Pollens’ 1873 page 56, can be accepted in +the present cases, namely that the larger corolla in the hermaphrodites and +males serves to protect their pollen from rain. In the genus Thymus, for +instance, the aborted anthers of the female are much better protected than the +perfect ones of the hermaphrodite.) An objection to the above view should not be +passed over; namely, that the abortion of the stamens in the females ought to +have added through the law of compensation to the size of the corolla; and this +perhaps would have occurred, had not the expenditure saved by the abortion of +the stamens been directed to the female reproductive organs, so as to give to +this form increased fertility. + + +CHAPTER VIII. +CLEISTOGAMIC FLOWERS. + +General character of cleistogamic flowers. +List of the genera producing such flowers, and their distribution in the +vegetable series. +Viola, description of the cleistogamic flowers in the several species; their +fertility compared with that of the perfect flowers. +Oxalis acetosella. +O. sensitiva, three forms of cleistogamic flowers. +Vandellia. +Ononis. +Impatiens. +Drosera. +Miscellaneous observations on various other cleistogamic plants. +Anemophilous species producing cleistogamic flowers. +Leersia, perfect flowers rarely developed. +Summary and concluding remarks on the origin of cleistogamic flowers. +The chief conclusions which may be drawn from the observations in this volume. + +It was known even before the time of Linnaeus that certain plants produced two +kinds of flowers, ordinary open, and minute closed ones; and this fact formerly +gave rise to warm controversies about the sexuality of plants. These closed +flowers have been appropriately named cleistogamic by Dr. Kuhn. (8/1. +‘Botanische Zeitung’ 1867 page 65.) They are remarkable from their small size +and from never opening, so that they resemble buds; their petals are rudimentary +or quite aborted; their stamens are often reduced in number, with the anthers of +very small size, containing few pollen-grains, which have remarkably thin +transparent coats, and generally emit their tubes whilst still enclosed within +the anther-cells; and, lastly, the pistil is much reduced in size, with the +stigma in some cases hardly at all developed. These flowers do not secrete +nectar or emit any odour; from their small size, as well as from the corolla +being rudimentary, they are singularly inconspicuous. Consequently insects do +not visit them; nor if they did, could they find an entrance. Such flowers are +therefore invariably self-fertilised; yet they produce an abundance of seed. In +several cases the young capsules bury themselves beneath the ground, and the +seeds are there matured. These flowers are developed before, or after, or +simultaneously with the perfect ones. Their development seems to be largely +governed by the conditions to which the plants are exposed, for during certain +seasons or in certain localities only cleistogamic or only perfect flowers are +produced. + +Dr. Kuhn, in the article above referred to, gives a list of 44 genera including +species which bear flowers of this kind. To this list I have added some genera, +and the authorities are appended in a footnote. I have omitted three names, from +reasons likewise given in the footnote. But it is by no means easy to decide in +all cases whether certain flowers ought to be ranked as cleistogamic. For +instance, Mr. Bentham informs me that in the South of France some of the flowers +on the vine do not fully open and yet set fruit; and I hear from two experienced +gardeners that this is the case with the vine in our hothouses; but as the +flowers do not appear to be completely closed it would be imprudent to consider +them as cleistogamic. The flowers of some aquatic and marsh plants, for instance +of Ranunculus aquatalis, Alisma natans, Subularia, Illecebrum, Menyanthes, and +Euryale, remain closely shut as long as they are submerged, and in this +condition fertilise themselves. (8/2. Delpino ‘Sull’ Opera, la Distribuzione dei +Sessi nelle Piante’ etc. 1867 page 30. Subularia, however, sometimes has its +flowers fully expanded beneath the water, see Sir J.E. Smith ‘English Flora’ +volume 3 1825 page 157. For the behaviour of Menyanthes in Russia see Gillibert +in ‘Act. Acad. St. Petersb.’ 1777 part 2 page 45.--On Euryale ‘Gardener’s +Chronicle’ 1877 page 280.) They behave in this manner, apparently as a +protection to their pollen, and produce open flowers when exposed to the air; so +that these cases seem rather different from those of true cleistogamic flowers, +and have not been included in the list. Again, the flowers of some plants which +are produced very early or very late in the season do not properly expand; and +these might perhaps be considered as incipiently cleistogamic; but as they do +not present any of the remarkable peculiarities proper to the class, and as I +have not found any full record of such cases, they are not entered in the list. +When, however, it is believed on fairly good evidence that the flowers on a +plant in its native country do not open at any hour of the day or night, and yet +set seeds capable of germination, these may fairly be considered as +cleistogamic, notwithstanding that they present no peculiarities of structure. I +will now give as complete a list of the genera containing cleistogamic species +as I have been able to collect. + +TABLE 8.38. List of genera including cleistogamic species (chiefly after Kuhn). +(8/3. I have omitted Trifolium and Arachis from the list, because Von Mohl says +‘Botanische Zeitung’ 1863 page 312, that the flower-stems merely draw the +flowers beneath the ground, and that these do not appear to be properly +cleistogamic. Correa de Mello ‘Journal of the Linnean Society Botany’ volume 11 +1870 page 254, observed plants of Arachis in Brazil, and could never find such +flowers. Plantago has been omitted because as far as I can discover it produces +hermaphrodite and female flower-heads, but not cleistogamic flowers. +Krascheninikowia (vel Stellaria) has been omitted because it seems very doubtful +from Maximowicz’ description whether the lower flowers which have no petals or +very small ones, and barren stamens or none, are cleistogamic; the upper +hermaphrodite flowers are said never to produce fruit, and therefore probably +act as males. Moreover in Stellaria graminea, as Babington remarks ‘British +Botany’ 1851 page 51, “shorter and longer petals accompany an imperfection of +the stamens or germen.” + +I have added to the list the following cases: +Several Acanthaceae, for which see J. Scott in ‘Journal of Botany’ London new +series volume 1 1872 page 161. +With respect to salvia see Dr. Ascherson in ‘Botanische Zeitung’ 1871 page 555. +For Oxybaphus and Nyctaginia see Asa Gray in ‘American Naturalist’ November 1873 +page 692. +From Dr. Torrey’s account of Hottonia inflata ‘Bulletin of the Torrey Botanical +Club’ volume 2 June 1871, it is manifest that this plant produces true +cleistogamic flowers. +For Pavonia see Bouche in ‘Sitzungsberichte d. Gesellsch. Natur. Freunde’ +October 20, 1874 page 90. +I have added Thelymitra, as from the account given by Mr. Fitzgerald in his +magnificent work on ‘Australian Orchids’ it appears that the flowers of this +plant in its native home never open, but they do not appear to be reduced in +size. Nor is this the case with the flowers of certain species of Epidendron, +Cattleya, etc. see second edition of my ‘Fertilisation of Orchids’ page 147, +which without expanding produce capsules. It is therefore doubtful whether these +Orchideae ought to have been included in the list. From what Duval-Jouve says +about Cryptostachys in ‘Bulletin of the Soc. Bot. de France’ tome 10 1863 page +195, this plant appears to produce cleistogamic flowers. +the other additions to the list are noticed in my text.) + +DICOTYLEDONS. + +BORAGINEAE: +Eritrichium. + +CONVOLVULACEAE: +Cuscuta. + +SCROPHULARINEAE: +Scrophularia. +Linaria. +Vandellia. + +ACANTHACEAE: +Cryphiacanthus. +Eranthemum. +Daedalacanthus. +Dipteracanthus. +Aechmanthera. +Ruellia. + +LABIATAE: +Lamium. +Salvia. + +NYCTAGINEAE: +Oxybaphus. +Nyctaginia. + +ASCLEPIADAE: +Stapelia. + +CAMPANULACEAE: +Specularia. +Campanula. + +PRIMULACEAE: +Hottonia. + +COMPOSITAE: +Anandria. + +CRUCIFERAE: +Heterocarpaea. + +VIOLACEAE: +Viola. + +CISTINEAE: +Helianthemum. +Lechea. + +MALVEACEAE: +Pavonia. + +MALPIGHIACEAE: +Gaudichaudia. +Aspicarpa. +Camarea. +Janusia. + +POLYGALEAE: +Polygala. + +BALSAMINEAE: +Impatiens. + +GERANIACAEA: +Oxalis. + +LEGUMINOSAE: +Ononis. +Parochaetus. +Chapmannia. +Stylosanthus. +Lespedeza. +Vicia. +Lathyrus. +Martinsia vel Neurocarpum. +Amphicarpaea. +Glycine. +Galactia. +Voandzeia. + +DROSERACEAE: +Drosera. + +MONOCOTYLEDONS. + +JUNCEAE: +Juncus. + +GRAMINEAE: +Leersia. +Hordeum. +Cryptostachys. + +COMMELINEAE: +Commelina. + +PONTEDERACEAE: +Monochoria. + +ORCHIDEAE: +Schomburgkia. +Cattleya. +Epidendron. +Thelymitra. + +The first point that strikes us in considering this list of 55 genera, is that +they are very widely distributed in the vegetable series. They are more common +in the family of the Leguminosae than in any other, and next in order in that of +the Acanthaceae and Malpighiaceae. A large number, but not all the species, of +certain genera, as of Oxalis and Viola, bear cleistogamic as well as ordinary +flowers. A second point which deserves notice is that a considerable proportion +of the genera produce more or less irregular flowers; this is the case with +about 32 out of the 55 genera, but to this subject I shall recur. + +I formerly made many observations on cleistogamic flowers, but only a few of +them are worth giving, since the appearance of an admirable paper by Hugo Von +Mohl, whose examination was in some respects much more complete than mine. (8/4. +‘Botanische Zeitung’ 1863 page 309-28.) His paper includes also an interesting +history of our knowledge on the subject. + +Viola canina. + +The calyx of the cleistogamic flowers differs in no respect from that of the +perfect ones. The petals are reduced to five minute scales; the lower one, which +represents the lower lip, is considerably larger than the others, but with no +trace of the spur-like nectary; its margins are smooth, whilst those of the +other four scale-like petals are papillose. D. Muller of Upsala says that in the +specimens which he observed the petals were completely aborted. (8/5. Ibid. 1857 +page 730. This paper contains the first full and satisfactory account of any +cleistogamic flower.) The stamens are very small, and only the two lower ones +are provided with anthers, which do not cohere together as in the perfect +flowers. The anthers are minute, with the two cells or loculi remarkably +distinct; they contain very little pollen in comparison with those of the +perfect flowers. The connective expands into a membranous hood-like shield which +projects above the anther-cells. These two lower stamens have no vestige of the +curious appendages which secrete nectar in the perfect flowers. The three other +stamens are destitute of anthers and have broader filaments, with their terminal +membranous expansions flatter or not so hood-like as those of the two +antheriferous stamens. The pollen-grains have remarkably thin transparent coats; +when exposed to the air they shrivel up quickly; when placed in water they +swell, and are then 8-10/7000 of an inch in diameter, and therefore of smaller +size than the ordinary pollen-grains similarly treated, which have a diameter of +13-14/7000 of an inch. In the cleistogamic flowers, the pollen-grains, as far as +I could see, never naturally fall out of the anther-cells, but emit their tubes +through a pore at the upper end. I was able to trace the tubes from the grains +some way down the stigma. The pistil is very short, with the style hooked, so +that its extremity, which is a little enlarged or funnel-shaped and represents +the stigma, is directed downwards, being covered by the two membranous +expansions of the antheriferous stamens. It is remarkable that there is an open +passage from the enlarged funnel-shaped extremity to within the ovarium; this +was evident, as slight pressure caused a bubble of air, which had been drawn in +by some accident, to travel freely from one end to the other: a similar passage +was observed by Michalet in V. alba. The pistil therefore differs considerably +from that of the perfect flower; for in the latter it is much longer, and +straight with the exception of the rectangularly bent stigma; nor is it +perforated by an open passage. + +The ordinary or perfect flowers have been said by some authors never to produce +capsules; but this is an error, though only a small proportion of them do so. +This appears to depend in some cases on their anthers not containing even a +trace of pollen, but more generally on bees not visiting the flowers. I twice +covered with a net a group of flowers, and marked with threads twelve of them +which had not as yet expanded. This precaution is necessary, for though as a +general rule the perfect flowers appear considerably before the cleistogamic +ones, yet occasionally some of the latter are produced early in the season, and +their capsules might readily be mistaken for those produced by the perfect +flowers. Not one of the twelve marked perfect flowers yielded a capsule, whilst +others under the net which had been artificially fertilised produced five +capsules; and these contained exactly the same average number of seeds as some +capsules from flowers outside the net which had been fertilised by bees. I have +repeatedly seen Bombus hortorum, lapidarius, and a third species, as well as +hive-bees, sucking the flowers of this violet: I marked six which were thus +visited, and four of them produced fine capsules; the two others were gnawed off +by some animal. I watched Bombus hortorum for some time, and whenever it came to +a flower which did not stand in a convenient position to be sucked, it bit a +hole through the spur-like nectary. Such ill-placed flowers would not yield any +seed or leave descendants; and the plants bearing them would thus tend to be +eliminated through natural selection. + +The seeds produced by the cleistogamic and perfect flowers do not differ in +appearance or number. On two occasions I fertilised several perfect flowers with +pollen from other individuals, and afterwards marked some cleistogamic flowers +on the same plants; and the result was that 14 capsules produced by the perfect +flowers contained on an average 9.85 seeds; and 17 capsules from the +cleistogamic ones contained 9.64 seeds,--an amount of difference of no +significance. It is remarkable how much more quickly the capsules from the +cleistogamic flowers are developed than those from the perfect ones; for +instance, several perfect flowers were cross-fertilised on April 14th, 1863, and +a month afterwards (May 15th) eight young cleistogamic flowers were marked with +threads; and when the two sets of capsules thus produced were compared on June +3rd, there was scarcely any difference between them in size. + +Viola odorata (WHITE-FLOWERED, SINGLE, CULTIVATED VARIETY). + +The petals are represented by mere scales as in the last species; but +differently from in the last, all five stamens are provided with diminutive +anthers. Small bundles of pollen-tubes were traced from the five anthers into +the somewhat distant stigma. The capsules produced by these flowers bury +themselves in the soil, if it be loose enough, and there mature themselves. +(8/6. Vaucher says ‘Hist. Phys. des Plantes d’Europe’ tome 3 1844 page 309, that +V. hirta and collina likewise bury their capsules. See also Lecoq ‘Geograph. +Bot.’ tome 5 1856 page 180.) Lecoq says that it is only these latter capsules +which possess elastic valves; but I think this must be a misprint, as such +valves would obviously be of no use to the buried capsules, but would serve to +scatter the seeds of the sub-aerial ones, as in the other species of Viola. It +is remarkable that this plant, according to Delpino, does not produce +cleistogamic flowers in one part of Liguria, whilst the perfect flowers are +there abundantly fertile (8/7. ‘Sull’ Opera, la Distribuzione dei Sessi nelle +Piante’ etc. 1867 page 30.); on the other hand, cleistogamic flowers are +produced by it near Turin. Another fact is worth giving as an instance of +correlated development: I found on a purple variety, after it had produced its +perfect double flowers, and whilst the white single variety was bearing its +cleistogamic flowers, many bud-like bodies which from their position on the +plant were certainly of a cleistogamic nature. They consisted, as could be seen +on bisecting them, of a dense mass of minute scales closely folded over one +another, exactly like a cabbage-head in miniature. I could not detect any +stamens, and in the place of the ovarium there was a little central column. The +doubleness of the perfect flowers had thus spread to the cleistogamic ones, +which therefore were rendered quite sterile. + +Viola hirta. + +The five stamens of the cleistogamic flowers are provided, as in the last case, +with small anthers, from all of which pollen-tubes proceed to the stigma. The +petals are not quite so much reduced as in V. canina, and the short pistil +instead of being hooked is merely bent into a rectangle. Of several perfect +flowers which I saw visited by hive-and humble-bees, six were marked, but they +produced only two capsules, some of the others having been accidentally injured. +M. Monnier was therefore mistaken in this case as in that of V. odorata, in +supposing that the perfect flowers always withered away and aborted. He states +that the peduncles of the cleistogamic flowers curve downwards and bury the +ovaries beneath the soil. (8/8. These statements are taken from Professor +Oliver’s excellent article in the ‘Natural History Review’ July 1862 page 238. +With respect to the supposed sterility of the perfect flowers in this genus see +also Timbal-Lagrave ‘Botanische Zeitung’ 1854 page 772.) I may here add that +Fritz Muller, as I hear from his brother, has found in the highlands of Southern +Brazil a white-flowered species of violet which bears subterranean cleistogamic +flowers. + +Viola nana. + +Mr. Scott sent me seeds of this Indian species from the Sikkim Terai, from which +I raised many plants, and from these other seedlings during several successive +generations. They produced an abundance of cleistogamic flowers during the whole +of each summer, but never a perfect one. When Mr. Scott wrote to me his plants +in Calcutta were behaving similarly, though his collector saw the species in +flower in its native site. This case is valuable as showing that we ought not to +infer, as has sometimes been done, that a species does not bear perfect flowers +when growing naturally, because it produces only cleistogamic flowers under +culture. The calyx of these flowers is sometimes formed of only three sepals; +two being actually suppressed and not merely coherent with the others; this +occurred with five out of thirty flowers which were examined for this purpose. +The petals are represented by extremely minute scales. Of the stamens, two bear +anthers which are in the same state as in the previous species, but, as far as I +could judge, each of the two cells contained only from 20 to 25 delicate +transparent pollen-grains. These emitted their tubes in the usual manner. The +three other stamens bore very minute rudimentary anthers, one of which was +generally larger than the other two, but none of them contained any pollen. In +one instance, however, a single cell of the larger rudimentary anther included a +little pollen. The style consists of a short flattened tube, somewhat expanded +at its upper end, and this forms an open channel leading into the ovarium, as +described under V. canina. It is slightly bent towards the two fertile anthers. + +Viola Roxburghiana. + +This species bore in my hothouse during two years a multitude of cleistogamic +flowers, which resembled in all respects those of the last species; but no +perfect ones were produced. Mr. Scott informs me that in India it bears perfect +flowers only during the cold season, and that these are quite fertile. During +the hot, and more especially during the rainy season, it bears an abundance of +cleistogamic flowers. + +Many other species, besides the five now described, produce cleistogamic +flowers; this is the case, according to D. Muller, Michalet, Von Mohl, and +Hermann Muller, with V. elatior, lancifolia, sylvatica, palustris, mirabilis, +bicolor, ionodium, and biflora. But V. tricolor does not produce them. + +Michalet asserts that V. palustris produces near Paris only perfect flowers, +which are quite fertile; but that when the plant grows on mountains cleistogamic +flowers are produced; and so it is with V. biflora. The same author states that +he has seen in the case of V. alba flowers intermediate in structure between the +perfect and cleistogamic ones. According to M. Boisduval, an Italian species, V. +Ruppii, never bears in France “des fleurs bien apparentes, ce qui ne l’empeche +pas de fructifier.” + +It is interesting to observe the gradation in the abortion of the parts in the +cleistogamic flowers of the several foregoing species. It appears from the +statements by D. Muller and Von Mohl that in V. mirabilis the calyx does not +remain quite closed; all five stamens are provided with anthers, and some +pollen-grains probably fall out of the cells on the stigma, instead of +protruding their tubes whilst still enclosed, as in the other species. In V. +hirta all five stamens are likewise antheriferous; the petals are not so much +reduced and the pistil not so much modified as in the following species. In V. +nana and elatior only two of the stamens properly bear anthers, but sometimes +one or even two of the others are thus provided. Lastly, in V. canina never more +than two of the stamens, as far as I have seen, bear anthers; the petals are +much more reduced than in V. hirta, and according to D. Muller are sometimes +quite absent. + +Oxalis acetosella. + +The existence of cleistogamic flowers on this plant was discovered by Michalet. +(8/9. ‘Bulletin Soc. Bot. de France’ tome 7 1860 page 465.) They have been fully +described by Von Mohl, and I can add hardly anything to his description. In my +specimens the anthers of the five longer stamens were nearly on a level with the +stigmas; whilst the smaller and less plainly bilobed anthers of the five shorter +stamens stood considerably below the stigmas, so that their tubes had to travel +some way upwards. According to Michalet these latter anthers are sometimes quite +aborted. In one case the tubes, which ended in excessively fine points, were +seen by me stretching upwards from the lower anthers towards the stigmas, which +they had not as yet reached. My plants grew in pots, and long after the perfect +flowers had withered they produced not only cleistogamic but a few minute open +flowers, which were in an intermediate condition between the two kinds. In one +of these the pollen-tubes from the lower anthers had reached the stigmas, though +the flower was open. The footstalks of the cleistogamic flowers are much shorter +than those of the perfect flowers, and are so much bowed downwards that they +tend, according to Von Mohl, to bury themselves in the moss and dead leaves on +the ground. Michalet also says that they are often hypogean. In order to +ascertain the number of seeds produced by these flowers, I marked eight of them; +two failed, one cast its seed abroad, and the remaining five contained on an +average 10.0 seeds per capsule. This is rather above the average 9.2, which +eleven capsules from perfect flowers fertilised with their own pollen yielded, +and considerably above the average 7.9, from the capsules of perfect flowers +fertilised with pollen from another plant; but this latter result must, I think, +have been accidental. + +Hildebrand, whilst searching various Herbaria, observed that many other species +of Oxalis besides O. acetosella produce cleistogamic flowers (8/10. +‘Monatsbericht der Akad. der Wiss. zu Berlin’ 1866 page 369.); and I hear from +him that this is the case with the heterostyled trimorphic O. incarnata from the +Cape of Good Hope. + +Oxalis (Biophytum) sensitiva. + +This plant is ranked by many botanists as a distinct genus, but as a sub-genus +by Bentham and Hooker. Many of the early flowers on a mid-styled plant in my +hothouse did not open properly, and were in an intermediate condition between +cleistogamic and perfect. Their petals varied from a rudiment to about half +their proper size; nevertheless they produced capsules. I attributed their state +to unfavourable conditions, for later in the season fully expanded flowers of +the proper size appeared. But Mr. Thwaites afterwards sent me from Ceylon a +number of long-styled, mid-styled, and short-styled flower-stalks preserved in +spirits; and on the same stalks with the perfect flowers, some of which were +fully expanded and others still in bud, there were small bud-like bodies +containing mature pollen, but with their calyces closed. These cleistogamic +flowers do not differ much in structure from the perfect ones of the +corresponding form, with the exception that their petals are reduced to +extremely minute, barely visible scales, which adhere firmly to the rounded +bases of the shorter stamens. Their stigmas are much less papillose, and smaller +in about the ratio of 13 to 20 divisions of the micrometer, as measured +transversely from apex to apex, than the stigmas of the perfect flowers. The +styles are furrowed longitudinally, and are clothed with simple as well as +glandular hairs, but only in the cleistogamic flowers produced by the long- +styled and mid-styled forms. The anthers of the longer stamens are a little +smaller than the corresponding ones of the perfect flowers, in about the ratio +of 11 to 14. They dehisce properly, but do not appear to contain much pollen. +Many pollen-grains were attached by short tubes to the stigmas; but many others, +still adhering to the anthers, had emitted their tubes to a considerable length, +without having come in contact with the stigmas. Living plants ought to be +examined, as the stigmas, at least of the long-styled form, project beyond the +calyx, and if visited by insects (which, however, is very improbable) might be +fertilised with pollen from a perfect flower. The most singular fact about the +present species is that long-styled cleistogamic flowers are produced by the +long-styled plants, and mid-styled as well as short-styled cleistogamic flowers +by the other two forms; so that there are three kinds of cleistogamic and three +kinds of perfect flowers produced by this one species! Most of the heterostyled +species of Oxalis are more or less sterile, many absolutely so, if +illegitimately fertilised with their own-form pollen. It is therefore probable +that the pollen of the cleistogamic flowers has been modified in power, so as to +act on their own stigmas, for they yield an abundance of seeds. We may perhaps +account for the cleistogamic flowers consisting of the three forms, through the +principle of correlated growth, by which the cleistogamic flowers of the double +violet have been rendered double. + +Vandellia nummularifolia. + +Dr. Kuhn has collected all the notices with respect to cleistogamic flowers in +this genus, and has described from dried specimens those produced by an +Abyssinian species. (8/11. ‘Botanische Zeitung’ 1867 page 65.) Mr. Scott sent me +from Calcutta seeds of the above common Indian weed, from which many plants were +successively raised during several years. The cleistogamic flowers are very +small, being when fully mature under 1/20 of an inch (1.27 millimetres) in +length. The calyx does not open, and within it the delicate transparent corolla +remains closely folded over the ovarium. There are only two anthers instead of +the normal number of four, and their filaments adhere to the corolla. The cells +of the anthers diverge much at their lower ends and are only 5/700 of an inch +(.181 millimetres) in their longer diameter. They contain but few pollen-grains, +and these emit their tubes whilst still within the anther. The pistil is very +short, and is surmounted by a bilobed stigma. As the ovary grows the two anthers +together with the shrivelled corolla, all attached by the dried pollen-tubes to +the stigma, are torn off and carried upwards in the shape of a little cap. The +perfect flowers generally appear before the cleistogamic, but sometimes +simultaneously with them. During one season a large number of plants produced no +perfect flowers. It has been asserted that the latter never yield capsules; but +this is a mistake, as they do so even when insects are excluded. Fifteen +capsules from cleistogamic flowers on plants growing under favourable conditions +contained on an average 64.2 seeds, with a maximum of 87; whilst 20 capsules +from plants growing much crowded yielded an average of only 48. Sixteen capsules +from perfect flowers artificially crossed with pollen from another plant +contained on an average 93 seeds, with a maximum of 137. Thirteen capsules from +self-fertilised perfect flowers gave an average of 62 seeds, with a maximum of +135. Therefore the capsules from the cleistogamic flowers contained fewer seeds +than those from perfect flowers when cross-fertilised, and slightly more than +those from perfect flowers self-fertilised. + +Dr. Kuhn believes that the Abyssinian V. sessiflora does not differ specifically +from the foregoing species. But its cleistogamic flowers apparently include four +anthers instead of two as above described. The plants, moreover, of V. +sessiflora produce subterranean runners which yield capsules; and I never saw a +trace of such runners in V. nummularifolia, although many plants were +cultivated. + +Linaria spuria. + +Michalet says that short, thin, twisted branches are developed from the buds in +the axils of the lower leaves, and that these bury themselves in the ground. +(8/12. ‘Bulletin Soc. Bot. de France’ tome 7 1860 page 468.) They there produce +flowers not offering any peculiarity in structure, excepting that their +corollas, though properly coloured, are deformed. These flowers may be ranked as +cleistogamic, as they are developed, and not merely drawn, beneath the ground. + +Ononis columnae. + +Plants were raised from seeds sent me from Northern Italy. The sepals of the +cleistogamic flowers are elongated and closely pressed together; the petals are +much reduced in size, colourless, and folded over the interior organs. The +filaments of the ten stamens are united into a tube, and this is not the case, +according to Von Mohl, with the cleistogamic flowers of other Leguminosae. Five +of the stamens are destitute of anthers, and alternate with the five thus +provided. The two cells of the anthers are minute, rounded and separated from +one another by connective tissue; they contain but few pollen-grains, and these +have extremely delicate coats. The pistil is hook-shaped, with a plainly +enlarged stigma, which is curled down, towards the anthers; it therefore differs +much from that of the perfect flower. During the year 1867 no perfect flowers +were produced, but in the following year there were both perfect and +cleistogamic ones. + +Ononis minutissima. + +My plants produced both perfect and cleistogamic flowers; but I did not examine +the latter. Some of the former were crossed with pollen from a distinct plant, +and six capsules thus obtained yielded on an average 3.66 seeds, with a maximum +of 5 in one. Twelve perfect flowers were marked and allowed to fertilise +themselves spontaneously under a net, and they yielded eight capsules, +containing on an average 2.38 seeds, with a maximum of 3 in one. Fifty-three +capsules produced by the cleistogamic flowers contained on an average 4.1 seeds, +so that these were the most productive of all; and the seeds themselves looked +finer even than those from the crossed perfect flowers. According to Mr. Bentham +O. parviflora likewise bears cleistogamic flowers; and he informs me that these +flowers are produced by all three species early in the spring; whilst the +perfect ones appear afterwards, and therefore in a reversed order compared with +those of Viola and Oxalis. Some of the species, for instance Ononis columnae, +bear a fresh crop of cleistogamic flowers in the autumn. + +Lathyrus nissolia. + +This plant apparently offers a case of the first stage in the production of +cleistogamic flowers, for on plants growing in a state of nature, many of the +flowers never expand and yet produce fine pods. Some of the buds are so large +that they seem on the point of expansion; others are much smaller, but none so +small as the true cleistogamic flowers of the foregoing species. As I marked +these buds with thread and examined them daily, there could be no mistake about +their producing fruit without having expanded. + +Several other Leguminous genera produce cleistogamic flowers, as may be seen in +Table 8.38; but much does not appear to be known about them. Von Mohl says that +their petals are commonly rudimentary, that only a few of their anthers are +developed, their filaments are not united into a tube and their pistils are +hook-shaped. In three of the genera, namely Vicia, Amphicarpaea, and Voandzeia, +the cleistogamic flowers are produced on subterranean stems. The perfect flowers +of Voandzeia, which is a cultivated plant, are said never to produce fruit +(8/13. Correa de Mello ‘Journal of the Linnean Society Botany’ volume 11 1870 +page 254, particularly attended to the flowering and fruiting of this African +plant, which is sometimes cultivated in Brazil.); but we should remember how +often fertility is affected by cultivation. + +Impatiens fulva. + +Mr. A.W. Bennett has published an excellent description, with figures, of this +plant. (8/14. ‘Journal of the Linnean Society Botany’ volume 13 1872 page 147.) +He shows that the cleistogamic and perfect flowers differ in structure at a very +early period of growth, so that the existence of the former cannot be due merely +to the arrested development of the latter,--a conclusion which indeed follows +from most of the previous descriptions. Mr. Bennett found on the banks of the +Wey that the plants which bore cleistogamic flowers alone were to those bearing +perfect flowers as 20 to 1; but we should remember that this is a naturalised +species. The perfect flowers are usually barren in England; but Professor Asa +Gray writes to me that after midsummer in the United States some or many of them +produce capsules. + +Impatiens noli-me-tangere. + +I can add nothing of importance to Von Mohl’s description, excepting that one of +the rudimentary petals shows a vestige of a nectary, as Mr. Bennett likewise +found to be the case with I. fulva. As in this latter species all five stamens +produce some pollen, though small in amount; a single anther contains, according +to Von Mohl, not more than 50 grains, and these emit their tubes while still +enclosed within it. The pollen-grains of the perfect flowers are tied together +by threads, but not, so far as I could see, those of the cleistogamic flowers; +and a provision of this kind would here have been useless, as the grains can +never be transported by insects. The flowers of I. balsamina are visited by +humble-bees (8/15. H. Muller ‘Die Befruchtung’ etc. page 170.), and I am almost +sure that this is the case with the perfect flowers of I. noli-me-tangere. From +the perfect flowers of this latter species covered with a net eleven +spontaneously self-fertilised capsules were produced, and these yielded on an +average 3.45 seeds. Some perfect flowers with their anthers still containing an +abundance of pollen were fertilised with pollen from a distinct plant; and the +three capsules thus produced contained, to my surprise, only 2, 2, and 1 seed. +As I. balsamina is proterandrous, so probably is the present species; and if so, +cross-fertilisation was effected by me at too early a period, and this may +account for the capsules yielding so few seeds. + +Drosera rotundifolia. + +The first flower-stems which were thrown up by some plants in my greenhouse bore +only cleistogamic flowers. The petals of small size remained permanently closed +over the reproductive organs, but their white tips could just be seen between +the almost completely closed sepals. The pollen, which was scanty in amount, but +not so scanty as in Viola or Oxalis, remained enclosed within the anthers, +whence the tubes proceeded and penetrated the stigma. As the ovarium swelled the +little withered corolla was carried upwards in the form of a cap. These +cleistogamic flowers produced an abundance of seed. Later in the season perfect +flowers appeared. With plants in a state of nature the flowers open only in the +early morning, as I have been informed by Mr. Wallis, who particularly attended +to the time of their flowering. In the case of D. Anglica, the still folded +petals on some plants in my greenhouse opened just sufficiently to leave a +minute aperture; the anthers dehisced properly, but the pollen-grains adhered in +a mass to them, and thence emitted their tubes, which penetrated the stigmas. +These flowers, therefore, were in an intermediate condition, and could not be +called either perfect or cleistogamic. + +A few miscellaneous observations may be added with respect to some other +species, as throwing light on our subject. Mr. Scott states that Eranthemum +ambiguum bears three kinds of flowers,--large, conspicuous, open ones, which are +quite sterile,--others of intermediate size, which are open and moderately +fertile--and lastly small closed or cleistogamic ones, which are perfectly +fertile. (8/16. ‘Journal of Botany’ London new series volume 1 1872 pages 161- +4.) Ruellia tuberosa, likewise one of the Acanthaceae, produces both open and +cleistogamic flowers; the latter yield from 18 to 24, whilst the former only +from 8 to 10 seeds; these two kinds of flowers are produced simultaneously, +whereas in several other members of the family the cleistogamic ones appear only +during the hot season. According to Torrey and Gray, the North American species +of Helianthemum, when growing in poor soil, produce only cleistogamic flowers. +The cleistogamic flowers of Specularia perfoliata are highly remarkable, as they +are closed by a tympanum formed by the rudimentary corolla, and without any +trace of an opening. The stamens vary from 3 to 5 in number, as do the sepals. +(8/17. Von Mohl ‘Botanische Zeitung’ 1863 pages 314 and 323. Dr. Bromfield +‘Phytologist’ volume 3 page 530, also remarks that the calyx of the cleistogamic +flowers is usually only 3-cleft, while that of the perfect flower is mostly 5- +cleft.) The collecting hairs on the pistil, which play so important a part in +the fertilisation of the perfect flowers, are here quite absent. Drs. Hooker and +Thomson state that some of the Indian species of Campanula produce two kinds of +flowers; the smaller ones being borne on longer peduncles with differently +formed sepals, and producing a more globose ovary. (8/18. ‘Journal of the +Linnean Society’ volume 2 1857 page 7. See also Professor Oliver in ‘Natural +History Review’ 1862 page 240.) The flowers are closed by a tympanum like that +in Specularia. Some of the plants produce both kinds of flowers, others only one +kind; both yield an abundance of seeds. Professor Oliver adds that he has seen +flowers on Campanula colorata in an intermediate condition between cleistogamic +and perfect ones. + +The solitary almost sessile cleistogamic flowers produced by Monochoria +vaginalis are differently protected from those in any of the previous cases, +namely, within “a short sack formed of the membranous spathe, without any +opening or fissure.” There is only a single fertile stamen; the style is almost +obsolete, with the three stigmatic surfaces directed to one side. Both the +perfect and cleistogamic flowers produce seeds. (8/19. Dr. Kirk ‘Journal of the +Linnean Society’ volume 8 1864 page 147.) + +The cleistogamic flowers on some of the Malpighiaceae seem to be more profoundly +modified than those in any of the foregoing genera. According to A. de Jussieu +they are differently situated from the perfect flowers; they contain only a +single stamen, instead of 5 or 6; and it is a strange fact that this particular +stamen is not developed in the perfect flowers of the same species. (8/20. +‘Archives du Museum’ tome 3 1843 pages 35-38, 82-86, 589, 598.) The style is +absent or rudimentary; and there are only two ovaries instead of three. Thus +these degraded flowers, as Jussieu remarks, “laugh at our classifications, for +the greater number of the characters proper to the species, to the genus, to the +family, to the class disappear.” I may add that their calyces are not glandular, +and as, according to Kerner, the fluid secreted by such glands generally serves +to protect the flowers from crawling insects, which steal the nectar without +aiding in their cross-fertilisation (8/21. ‘Die Schutzmittel der Bluthen gegen +unberufene Gaste’ 1876 page 25.), the deficiency of the glands in the +cleistogamic flowers of these plants may perhaps be accounted for by their not +requiring any such protection. + +As the Asclepiadous genus Stapelia is said to produce cleistogamic flowers, the +following case may be worth giving. I have never heard of the perfect flowers of +Hoya carnosa setting seeds in this country, but some capsules were produced in +Mr. Farrer’s hothouse; and the gardener detected that they were the product of +minute bud-like bodies, three or four of which could sometimes be found on the +same umbel with the perfect flowers. They were quite closed and hardly thicker +than their peduncles. The sepals presented nothing particular, but internally +and alternating with them, there were five small flattened heart-shaped +papillae, like rudiments of petals; but the homological nature of which appeared +doubtful to Mr. Bentham and Dr. Hooker. No trace of anthers or of stamens could +be detected; and I knew from having examined many cleistogamic flowers what to +look for. There were two ovaries, full of ovules, quite open at their upper +ends, with their edges festooned, but with no trace of a proper stigma. In all +these flowers one of the two ovaries withered and blackened long before the +other. The one perfect capsule, 3 1/2 inches in length, which was sent me, had +likewise been developed from a single carpel. This capsule contained an +abundance of plumose seeds, many of which appeared quite sound, but they did not +germinate when sown at Kew. Therefore the little bud-like flower which produced +this capsule probably was as destitute of pollen as were those which I examined. + +Juncus bufonius and Hordeum. + +All the species hitherto mentioned which produce cleistogamic flowers are +entomophilous; but four genera, Juncus, Hordeum, Cryptostachys, and Leersia are +anemophilous. Juncus bufonius is remarkable by bearing in parts of Russia only +cleistogamic flowers, which contain three instead of the six anthers found in +the perfect flowers. (8/22. See Dr. Ascherson’s interesting paper in ‘Botanische +Zeitung’ 1871 page 551.) In the genus Hordeum it has been shown by Delpino that +the majority of the flowers are cleistogamic, some of the others expanding and +apparently allowing of cross-fertilisation. (8/23. ‘Bollettini del Comizio +agrario Parmense.’ Marzo e Aprile 1871. An abstract of this valuable paper is +given in ‘Botanische Zeitung’ 1871 page 537. See also Hildebrand on Hordeum in +‘Monatsbericht d. K. Akad Berlin’ October 1872 page 760.) I hear from Fritz +Muller that there is a grass in Southern Brazil, in which the sheath of the +uppermost leaf, half a metre in length, envelopes the whole panicle; and this +sheath never opens until the self-fertilised seeds are ripe. On the roadside +some plants had been cut down, whilst the cleistogamic panicles were developing, +and these plants afterwards produced free or unenclosed panicles of small size, +bearing perfect flowers. + +Leersia oryzoides. + +It has long been known that this plant produces cleistogamic flowers, but these +were first described with care by M. Duval-Jouve. (8/24. ‘Bulletin Bot. Soc. de +France’ tome 10 1863 page 194.) I procured plants from a stream near Reigate, +and cultivated them for several years in my greenhouse. The cleistogamic flowers +are very small, and usually mature their seeds within the sheaths of the leaves. +These flowers are said by Duval-Jouve to be filled by slightly viscid fluid; but +this was not the case with several that I opened; but there was a thin film of +fluid between the coats of the glumes, and when these were pressed the fluid +moved about, giving a similarly deceptive appearance of the whole inside of the +flower being thus filled. The stigma is very small and the filaments extremely +short; the anthers are less than 1/50 of an inch in length or about one-third of +the length of those in the perfect flowers. One of the three anthers dehisces +before the two others. Can this have any relation with the fact that in some +other species of Leersia only two stamens are fully developed? (8/25. Asa Gray +‘Manual of Botany of the United States’ 1856 page 540.) The anthers shed their +pollen on the stigma; at least in one instance this was clearly the case, and by +tearing open the anthers under water the grains were easily detached. Towards +the apex of the anther the grains are arranged in a single row and lower down in +two or three rows, so that they could be counted; and there were about 35 in +each cell, or 70 in the whole anther; and this is an astonishingly small number +for an anemophilous plant. The grains have very delicate coats, are spherical +and about 5/7000 of an inch (.0181 millimetres), whilst those of the perfect +flowers are about 7/7000 of an inch (.0254 millimetres) in diameter. + +M. Duval-Jouve states that the panicles very rarely protrude from their sheaths, +but that when this does happen the flowers expand and exhibit well-developed +ovaries and stigmas, together with full-sized anthers containing apparently +sound pollen; nevertheless such flowers are invariably quite sterile. Schreiber +had previously observed that if a panicle is only half protruded, this half is +sterile, whilst the still included half is fertile. Some plants which grew in a +large tub of water in my greenhouse behaved on one occasion in a very different +manner. They protruded two very large much-branched panicles; but the florets +never opened, though these included fully developed stigmas, and stamens +supported on long filaments with large anthers that dehisced properly. If these +florets had opened for a short time unperceived by me and had then closed again, +the empty anthers would have been left dangling outside. Nevertheless they +yielded on August 17th an abundance of fine ripe seeds. Here then we have a near +approach to the single case as yet known of this grass producing in a state of +nature (in Germany) perfect flowers which yielded a copious supply of fruit. +(8/26. Dr. Ascherson ‘Botanische Zeitung’ 1864 page 350.) Seeds from the +cleistogamic flowers were sent by me to Mr. Scott in Calcutta, who there +cultivated the plants in various ways, but they never produced perfect flowers. + +In Europe Leersia oryzoides is the sole representative of its genus, and Duval- +Jouve, after examining several exotic species, found that it apparently is the +sole one which bears cleistogamic flowers. It ranges from Persia to North +America, and specimens from Pennsylvania resembled the European ones in their +concealed manner of fructification. There can therefore be little doubt that +this plant generally propagates itself throughout an immense area by +cleistogamic seeds, and that it can hardly ever be invigorated by cross- +fertilisation. It resembles in this respect those plants which are now widely +spread, though they increase solely by asexual generation. (8/27. I have +collected several such cases in my ‘Variation under Domestication’ chapter 18 +2nd edition volume 2 page 153.) + +CONCLUDING REMARKS ON CLEISTOGAMIC FLOWERS. + +That these flowers owe their structure primarily to the arrested development of +perfect ones, we may infer from such cases as that of the lower rudimentary +petal in Viola being larger than the others, like the lower lip of the perfect +flower,--from a vestige of a spur in the cleistogamic flowers of Impatiens,-- +from the ten stamens of Ononis being united into a tube,--and other such +structures. The same inference may be drawn from the occurrence, in some +instances, on the same plant of a series of gradations between the cleistogamic +and perfect flowers. But that the former owe their origin wholly to arrested +development is by no means the case; for various parts have been specially +modified, so as to aid in the self-fertilisation of the flowers, and as a +protection to the pollen; for instance, the hook-shaped pistil in Viola and in +some other genera, by which the stigma is brought close to the fertile anthers,- +-the rudimentary corolla of Specularia modified into a perfectly closed +tympanum, and the sheath of Monochoria modified into a closed sack,--the +excessively thin coats of the pollen-grains,--the anthers not being all equally +aborted, and other such cases. Moreover Mr. Bennett has shown that the buds of +the cleistogamic and perfect flowers of Impatiens differ at a very early period +of growth. + +The degree to which many of the most important organs in these degraded flowers +have been reduced or even wholly obliterated, is one of their most remarkable +peculiarities, reminding us of many parasitic animals. In some cases only a +single anther is left, and this contains but few pollen-grains of diminished +size; in other cases the stigma has disappeared, leaving a simple open passage +into the ovarium. It is also interesting to note the complete loss of trifling +points in the structure or functions of certain parts, which though of service +to the perfect flowers, are of none to the cleistogamic; for instance the +collecting hairs on the pistil of Specularia, the glands on the calyx of the +Malpighiaceae, the nectar-secreting appendages to the lower stamens of Viola, +the secretion of nectar by other parts, the emission of a sweet odour, and +apparently the elasticity of the valves in the buried capsules of Viola odorata. +We here see, as throughout nature, that as soon as any part or character becomes +superfluous it tends sooner or later to disappear. + +Another peculiarity in these flowers is that the pollen-grains generally emit +their tubes whilst still enclosed within the anthers; but this is not so +remarkable a fact as was formerly thought, when the case of Asclepias was alone +known. (8/28. The case of Asclepias was described by R. Brown. Baillon asserts +‘Adansonia’ tome 2 1862 page 58, that with many plants the tubes are emitted +from pollen-grains which have not come into contact with the stigma; and that +they may be seen advancing horizontally through the air towards the stigma. I +have observed the emission of the tubes from the pollen-masses whilst still +within the anthers, in three widely distinct Orchidean genera namely Aceras, +Malaxis, and Neottia: see ‘The Various Contrivances by which Orchids are +Fertilised’ 2nd edition page 258.) It is, however, a wonderful sight to behold +the tubes directing themselves in a straight line to the stigma, when this is at +some little distance from the anthers. As soon as they reach the stigma or the +open passage leading into the ovarium, no doubt they penetrate it, guided by the +same means, whatever these may be, as in the case of ordinary flowers. I thought +that they might be guided by the avoidance of light: some pollen-grains of a +willow were therefore immersed in an extremely weak solution of honey, and the +vessel was placed so that the light entered only in one direction, laterally or +from below or from above, but the long tubes were in each case protruded in +every possible direction. + +As cleistogamic flowers are completely closed they are necessarily self- +fertilised, not to mention the absence of any attraction to insects; and they +thus differ widely from the great majority of ordinary flowers. Delpino believes +that cleistogamic flowers have been developed in order to ensure the production +of seeds under climatic or other conditions which tend to prevent the +fertilisation of the perfect flowers. (8/29. ‘Sull’ Opera la Distribuzione dei +Sessi nelle Piante’ 1867 page 30.) I do not doubt that this holds good to a +certain limited extent, but the production of a large supply of seeds with +little consumption of nutrient matter or expenditure of vital force is probably +a far more efficient motive power. The whole flower is much reduced in size; but +what is much more important, an extremely small quantity of pollen has to be +formed, as none is lost through the action of insects or the weather; and pollen +contains much nitrogen and phosphorus. Von Mohl estimated that a single +cleistogamic anther-cell of Oxalis acetosella contained from one to two dozen +pollen-grains; we will say 20, and if so the whole flower can have produced at +most 400 grains; with Impatiens the whole number may be estimated in the same +manner at 250; with Leersia at 210; and with Viola nana at only 100. These +figures are wonderfully low compared with the 243,600 pollen-grains produced by +a flower of Leontodon, the 4,863 by an Hibiscus, or the 3,654,000 by a Paeony. +(8/30. The authorities for these statements are given in my ‘Effects of Cross +and Self-Fertilisation’ page 376.) We thus see that cleistogamic flowers produce +seeds with a wonderfully small expenditure of pollen; and they produce as a +general rule quite as many seeds as the perfect flowers. + +That the production of a large number of seeds is necessary or beneficial to +many plants needs no evidence. So of course is their preservation before they +are ready for germination; and it is one of the many remarkable peculiarities of +the plants which bear cleistogamic flowers, that an incomparably larger +proportion of them than of ordinary plants bury their young ovaries in the +ground;--an action which it may be presumed serves to protect them from being +devoured by birds or other enemies. But this advantage is accompanied by the +loss of the power of wide dissemination. No less than eight of the genera in the +list at the beginning of this chapter include species which act in this manner, +namely, several kinds of Viola, Oxalis, Vandellia, Linaria, Commelina, and at +least three genera of Leguminosae. The seeds also of Leersia, though not buried, +are concealed in the most perfect manner within the sheaths of the leaves. +Cleistogamic flowers possess great facilities for burying their young ovaries or +capsules, owing to their small size, pointed shape, closed condition and the +absence of a corolla; and we can thus understand how it is that so many of them +have acquired this curious habit. + +It has already been shown that in about 32 out of the 55 genera in the list just +referred to, the perfect flowers are irregular; and this implies that they have +been specially adapted for fertilisation by insects. Moreover three of the +genera with regular flowers are adapted by other means for the same end. Flowers +thus constructed are liable during certain seasons to be imperfectly fertilised, +namely, when the proper insects are scarce; and it is difficult to avoid the +belief that the production of cleistogamic flowers, which ensures under all +circumstances a full supply of seed, has been in part determined by the perfect +flowers being liable to fail in their fertilisation. But if this determining +cause be a real one, it must be of subordinate importance, as four of the genera +in the list are fertilised by the wind; and there seems no reason why their +perfect flowers should fail to be fertilised more frequently than those in any +other anemophilous genus. In contrast with what we here see with respect to the +large proportion of the perfect flowers being irregular, one genus alone out of +the 38 heterostyled genera described in the previous chapters bears such +flowers; yet all these genera are absolutely dependent on insects for their +legitimate fertilisation. I know not how to account for this difference in the +proportion of the plants bearing regular and irregular flowers in the two +classes, unless it be that the heterostyled flowers are already so well adapted +for cross-fertilisation, through the position of their stamens and pistils and +the difference in power of their two or three kinds of pollen, that any +additional adaptation, namely, through the flowers being made irregular, has +been rendered superfluous. + +Although cleistogamic flowers never fail to yield a large number of seeds, yet +the plants bearing them usually produce perfect flowers, either simultaneously +or more commonly at a different period; and these are adapted for or admit of +cross-fertilisation. From the cases given of the two Indian species of Viola, +which produced in this country during several years only cleistogamic flowers, +and of the numerous plants of Vandellia and of some plants of Ononis which +behaved during one whole season in the same manner, it appears rash to infer +from such cases as that of Salvia cleistogama not having produced perfect +flowers during five years in Germany (8/31. Dr. Ascherson ‘Botanische Zeitung’ +1871 page 555.), and of an Aspicarpa not having done so during several years in +Paris, that these plants would not bear perfect flowers in their native homes. +Von Mohl and several other botanists have repeatedly insisted that as a general +rule the perfect flowers produced by cleistogamic plants are sterile; but it has +been shown under the head of the several species that this is not the case. The +perfect flowers Viola are indeed sterile unless they are visited by bees; but +when thus visited they yield the full number of seeds. As far as I have been +able to discover there is only one absolute exception to the rule that the +perfect flowers are fertile, namely, that of Voandzeia; and in this case we +should remember that cultivation often affects injuriously the reproductive +organs. Although the perfect flowers of Leersia sometimes yield seeds, yet this +occurs so rarely, as far as hitherto observed, that it practically forms a +second exception to the rule. + +As cleistogamic flowers are invariably fertilised, and as they are produced in +large numbers, they yield altogether a much larger supply of seeds than do the +perfect flowers on the same plant. But the latter flowers will occasionally be +cross-fertilised, and their offspring will thus be invigorated, as we may infer +from a wide-spread analogy. But of such invigoration I have only a small amount +of direct evidence: two crossed seedlings of Ononis minutissima were put into +competition with two seedlings raised from cleistogamic flowers; they were at +first all of equal height; the crossed were then slightly beaten; but on the +following year they showed the usual superiority of their class, and were to the +self-fertilised plants of cleistogamic origin as 100 to 88 in mean height. With +Vandellia twenty crossed plants exceeded in height twenty plants raised from +cleistogamic seeds only by a little, namely, in the ratio of 100 to 94. + +It is a natural inquiry how so many plants belonging to various very distinct +families first came to have the development of their flowers arrested, so as +ultimately to become cleistogamic. That a passage from the one state to the +other is far from difficult is shown by the many recorded cases of gradations +between the two states on the same plant, in Viola, Oxalis, Biophytum, +Campanula, etc. In the several species of Viola the various parts of the flowers +have also been modified in very different degrees. Those plants which in their +own country produce flowers of full or nearly full size, but never expand (as +with Thelymitra), and yet set fruit, might easily be rendered cleistogamic. +Lathyrus nissolia seems to be in an incipient transitional state, as does +Drosera Anglica, the flowers of which are not perfectly closed. There is good +evidence that flowers sometimes fail to expand and are somewhat reduced in size, +owing to exposure to unfavourable conditions, but still retain their fertility +unimpaired. Linnaeus observed in 1753 that the flowers on several plants brought +from Spain and grown at Upsala did not show any corolla and yet produced seeds. +Asa Gray has seen flowers on exotic plants in the Northern United States which +never expanded and yet fruited. With certain English plants, which bear flowers +during nearly the whole year, Mr. Bennett found that those produced during the +winter season were fertilised in the bud; whilst with other species having fixed +times for flowering, but “which had been tempted by a mild January to put forth +a few wretched flowers,” no pollen was discharged from the anthers, and no seed +was formed. The flowers of Lysimachia vulgaris if fully exposed to the sun +expand properly, while those growing in shady ditches have smaller corollas +which open only slightly; and these two forms graduate into one another in +intermediate stations. Herr Bouche’s observations are of especial interest, for +he shows that both temperature and the amount of light affect the size of the +corolla; and he gives measurements proving that with some plants the corolla is +diminished by the increasing cold and darkness of the changing season, whilst +with others it is diminished by the increasing heat and light. (8/32. For the +statement by Linnaeus see Mohl in ‘Botanische Zeitung’ 1863 page 327. Asa Gray +‘American Journal of Science’ 2nd series volume 39 1865 page 105. Bennett in +‘Nature’ November 1869 page 11. The Reverend G. Henslow also says ‘Gardener’s +Chronicle’ 1877 page 271, also ‘Nature’ October 19, 1876 page 543, “that when +the autumn draws on, and habitually in winter for such of our wild flowers as +blossom at that season” the flowers are self-fertilised. On Lysimachia H. Muller +‘Nature’ September 1873 page 433. Bouche ‘Sitzungsbericht der Gesell. +Naturforsch. Freunde’ October 1874 page 90.) + +The belief that the first step towards flowers being rendered cleistogamic was +due to the conditions to which they were exposed, is supported by the fact of +various plants belonging to this class either not producing their cleistogamic +flowers under certain conditions, or, on the other hand, producing them to the +complete exclusion of the perfect ones. Thus some species of Viola do not bear +cleistogamic flowers when growing on the lowlands or in certain districts. Other +plants when cultivated have failed to produce perfect flowers during several +successive years; and this is the case with Juncus bufonius in its native land +of Russia. Cleistogamic flowers are produced by some species late and by others +early in the season; and this agrees with the view that the first step towards +their development was due to climate; though the periods at which the two sorts +of flowers now appear must since have become much more distinctly defined. We do +not know whether too low are too high a temperature or the amount of light acts +in a direct manner on the size of the corolla, or indirectly through the male +organs being first affected. However this may be, if a plant were prevented +either early or late in the season from fully expanding its corolla, with some +reduction in its size, but with no loss of the power of self-fertilisation, then +natural selection might well complete the work and render it strictly +cleistogamic. The various organs would also, it is probable, be modified by the +peculiar conditions to which they are subjected within a completely closed +flower; also by the principle of correlated growth, and by the tendency in all +reduced organs finally to disappear. The result would be the production of +cleistogamic flowers such as we now see them; and these are admirably fitted to +yield a copious supply of seed at a wonderfully small cost to the plant. + +I will now sum up very briefly the chief conclusions which seem to follow from +the observations given in this volume. Cleistogamic flowers afford, as just +stated, an abundant supply of seeds with little expenditure; and we can hardly +doubt that they have had their structure modified and degraded for this special +purpose; perfect flowers being still almost always produced so as to allow of +occasional cross-fertilisation. Hermaphrodite plants have often been rendered +monoecious, dioecious or polygamous; but as the separation of the sexes would +have been injurious, had not pollen been already transported habitually by +insects or by the wind from flower to flower, we may assume that the process of +separation did not commence and was not completed for the sake of the advantages +to be gained from cross-fertilisation. The sole motive for the separation of the +sexes which occurs to me, is that the production of a great number of seeds +might become superfluous to a plant under changed conditions of life; and it +might then be highly beneficial to it that the same flower or the same +individual should not have its vital powers taxed, under the struggle for life +to which all organisms are subjected, by producing both pollen and seeds. With +respect to the plants belonging to the gyno-dioecious sub-class, or those which +co-exist as hermaphrodites and females, it has been proved that they yield a +much larger supply of seed than they would have done if they had all remained +hermaphrodites; and we may feel sure from the large number of seeds produced by +many plants that such production is often necessary or advantageous. It is +therefore probable that the two forms in this sub-class have been separated or +developed for this special end. + +Various hermaphrodite plants have become heterostyled, and now exist under two +or three forms; and we may confidently believe that this has been effected in +order that cross-fertilisation should be assured. For the full and legitimate +fertilisation of these plants pollen from the one form must be applied to the +stigma of another. If the sexual elements belonging to the same form are united +the union is an illegitimate one and more or less sterile. With dimorphic +species two illegitimate unions, and with trimorphic species twelve are +possible. There is reason to believe that the sterility of these unions has not +been specially acquired, but follows as an incidental result from the sexual +elements of the two or three forms having been adapted to act on one another in +a particular manner, so that any other kind of union is inefficient, like that +between distinct species. Another and still more remarkable incidental result is +that the seedlings from an illegitimate union are often dwarfed and more or less +or completely barren, like hybrids from the union of two widely distinct +species. + + +INDEX. + +Acanthaceae. + +Acer campestre. + +Adoxa. + +Aegiphila elata. +--mollis. +--obdurata. + +Alefeld, Dr., on Linum. + +Alisma natans. + +Amphicarpaea. + +Amsinckia spectabilis. +Variability in length of stamens and pistil. + +Anchusa arvensis. + +Androsace vitalliana. + +Anthers, size of, in different forms. +contabescent. + +Arachis. + +Arnebia hispidissima. + +Ascherson, Dr., on Salvia cleistogama. +Juncus bufonius. +Leersia oryzoides. + +Asclepias. + +Ash, the common. + +Asperula scoparia. + +Axell on Primula stricta. + +Babington, Professor, on Primula elatior. +Stellaria graminea. + +Baillon, emission of the tubes from pollen-grains. + +Belhomme, M., on ray-florets. + +Bennett, A.W., on Impatiens fulva. +flowers fertilised whilst in the bud state. + +Bentham, Mr., on the differentiation of the sexes. +on the cleistogamic flowers of Ononis. + +Boragineae. + +Boreau on cowslip and primrose. + +Borreria. + +Bouche on Pavonia. +effect of temperature and light on corolla. + +Bouvardia leiantha. + +Braun on Dracocephalum. + +Breitenbach, W., on Primula elatior. + +Bromfield, Dr., on primrose and cowslip. +Primula elatior. +Specularia perfoliata. + +Brown, Robert, on sexual changes. + +Buckwheat, the common. + +Caltha palustris. + +Campanula colorata. + +Cardamine amara. + +Caspary, Professor, on Rhamnus catharticus. + +Cattleya. + +Chamissoa. + +Cinchona micrantha. + +Cleistogamic flowers. +list of genera. +on their origin. + +Cnicus acaulis. +-- palustris. + +Coccocypselum. +pollen-grains of. + +Coprosma. + +Cordia. +pistil of. + +Corolla, difference in size in the sexes of the same species. + +Corydalis. + +Corylus avellana. + +Cowslip, the common. +short- and long-styled. + +Cratoxylon formosum. + +Crocker, C.W., on Plantago lanceolata. + +Cryptostachys. + +Cuphea purpurea. + +Darwin, Charles, on reproductive organs under cultivation. +intercrossed plants. +prepotency of pollen. +insects fertilising flowers. +Cephalanthera grandiflora. +Epidendron and Cattleya. +number of pollen-grains. + +Darwin, W., on Pulmonaria angustifolia. + +Datura arborea. + +Delpino, plants fertilised by the wind. +on the walnut. +Polygonaceae. +pollen-grains. +Thymus serpyllum. +closed or cleistogamic flowers. +Viola odorata. + +Dianthus barbatus. + +Dickie, Dr., on Eriophorum angustifolium. + +Dictamnus fraxinella. + +Diodia. + +Dioecious and sub-dioecious plants. + +Discospermum. + +Doubleday, H., on Primula elatior. + +Dracocephalum Moldavicum. + +Drosera Anglica. +-- rotundifolia. + +Duval-Jouve, M., on Cryptostachys. +Leersia oryzoides. + +Dyer, Thiselton, on Salvia Horminum. +Cratoxylon formosum. + +Echium vulgare. + +Epidendron. + +Epigaea repens. + +Eranthemum ambiguum. + +Eriophorum angustifolium. + +Erythroxylum. +pollen-grains of. + +Euonymus Europaeus. + +Euphrasia officinalis. + +Euryale. + +Faramea. +pollen-grains of. + +Fitzgerald, Mr., on Thelymitra. + +Forsythia suspensa. +stamens. +-- viridissima. + +Fragaria Chiloensis. +-- elatior. +-- vesca. +-- Virginiana. + +Fraxinus excelsior. + +Galium cruciatum. + +Gartner on the sterility of unions between distinct species. +Primula vulgaris and veris. +hybrid Verbascums. +prepotency of pollen. +variation in the sexual powers of plants. +contabescent anthers. + +Gentianeae. + +Geraniaceae. + +Geranium sylvaticum. + +Gesneria pendulina. + +Gilia aggregata. +-- coronopifolia. +-- micrantha. +-- nudicaulis. +-- pulchella. + +Gillibert on Menyanthes. + +Gloriosa Lily, the. + +Godron on hybrid Primulas. + +Gray, Professor Asa, proposes the term heterogone or heterogonous. +on Linum. +Leucosmia Burnettiana and acuminata. +Forsythia suspensa. +Gilia pulchella. +G. coronopifolia. +Phlox subulata. +Mitchella repens. +heterostyled plants. +Coprosma. +Euonymus. +Rhamnus lanceolatus. +Epigaea repens. +Ilex opaca. +Plantago media. +Oxybaphus and Nyctaginia. +Impatiens fulva. +Leersia. +cleistogamic flowers. + +Gyno-dioecious plants. + +Hart, Mr., on Nepeta glechoma. + +Hautbois Strawberry, the. + +Hedyotis. + +Henslow, Reverend Professor, on hybrid Primulae. + +Henslow, Reverend G., on flowers self-fertilised during the winter. + +Herbert, Dr., on hybrid Primulae. + +Heterostyled plants, illegitimate offspring of. +essential character of. +summary of the differences of fertility between legitimately and illegitimately +fertilised plants. +diameter of pollen-grains. +size of anthers, structure of stigma. +list of genera. +advantages derived from Heterostylism. +means by which plants became heterostyled. +transmission of form. +equal-styled varieties. +final remarks. +-- dimorphic plants. +-- trimorphic plants. + +Hibiscus, pollen-grains. + +Hildebrand, Professor, introduces the word “heterostyled.” +on the ray-florets of the Compositae. +Primula Sinensis. +Linum grandiflorum. +L. perenne. +Pulmonaria officinalis. +P. azurea. +Polygonum fagopyrum. +Oxalis. +hermaphrodite plants becoming uni-sexual. +Hordeum. + +Homostyled species of Primula. + +Hooker Dr., on Campanula. + +Hordeum. + +Hottonia inflata. +-- palustris. +relative fertility. +anthers of. +papillae on stigma. + +Houstonia coerulea. + +Hoya carnosa. + +Hybrid Primulas. + +Hydrangea. + +Hypericineae. +Hyssopus officinalis. + +Ilex aquifolium +-- opaca. + +Illegitimate offspring of heterostyled plants. +Lythrum salicaria, dwarfed stature and sterility. +Oxalis, transmission of form to seedlings. +Primula Sinensis, in some degree dwarfed. +equal-styled varieties. +Primula vulgaris. +transmission of form and colour. +seedlings. +P. veris. +dwarfed stature and sterility. +equal-styled varieties. +parallelism between illegitimate fertilisation and hybridism. + +Illecebrum. + +Impatiens, pollen-grains of. +-- balsamina. +-- fulva. +-- noli-me-tangere. + +Juglans regia. + +Juncus bufonius. + +Jussieu, A. de, on Malpighiaceae. + +Kerner, Professor, on ray-florets. +Auricula. +hybrid forms of Primula. +on use of hairs within the corolla. +size of corolla in male flowers. +use of glands as a protection to flowers. + +Kirk, Dr., on Monochoria vaginalis. + +Knoxia. + +Koch on Primula longiflora. + +Krascheninikowia. + +Kuhn, Dr., on cleistogamic flowers. +list of plants producing differently formed seeds. +heterostyled plants. +Vandellia nummularifolia. +V. sessiflora. + +Lagerstroemia Indica. +-- parviflora. +-- reginae. + +Lathyrus nissolia. + +Lecoq, H., on the common maple. +cowslips and primroses. +Primula elatior. +Linum Austriacum. +Lythrum hyssopifolia. +Rhamnus. +gyno-dioecious plants. +Scabiosa succisa. +Viola odorata. + +Leersia oryzoides. +pollen-grains of. + +Leggett, Mr., Pontederia cordata. + +Legitimate unions, summary on the fertility of the two, compared with that of +the two illegitimate in Primula. +fertility of, compared with illegitimate. + +Leighton, Reverend W.A., on the cowslip and primrose. +Verbascum virgatum. + +Leontodon, pollen-grains. + +Leptosiphon. + +Leucosmia acuminata. +-- Burnettiana. +stigma. + +Lily, the Gloriosa. + +Limnanthemum Indicum. +pollen-grains. +anthers. + +Linaria spuria. + +Lindley on Fragaria elatior. + +Linnaeus on Primula veris, vulgaris, and elatior. + +Linum angustifolium. +-- Austriacum. +-- catharticum +-- corymbiferum. +-- flavum. + stamens. +-- grandiflorum. + various experiments. + pistils and stamens. + sterile with its own-form pollen. +-- Lewisii. +-- perenne. + torsion of the styles. + long-styled form. + stigma. +-- salsoloides. +-- trigynum. +-- usitatissimum. + +Lipostoma. + +Lysimachia vulgaris. + +Lythrum Graefferi. +-- hyssopifolia. +-- salicaria. + power of mutual fertilisation between the three forms. + summary of results. + illegitimate offspring from the three forms. + concluding remarks on. + mid-styled form. + seeds. +-- thymifolia. + +Malpighiaceae. + +Manettia bicolor. + +Maple, the common. + +Marshall, W., on Primula elatior. +Plantago lanceolata. + +Masters, Dr. Maxwell, on cleistogamic flowers. + +Maximowicz on Krascheninikowia. + +Meehan, Mr., on Mitchella. +Epigaea repens. + +Melissa clinopodium +-- officinalis. + +Mello, Correa de, on Arachis. +Voandzeia. + +Mentha aquatica. +-- hirsuta. +-- vulgaris. + +Menyanthes. +-- trifoliata. + +Michalet on Oxalis acetosella. +Linaria spuria. + +Mitchella. +-- repens. + +Mohl, H. Von, on the common cowslip. +size of corolla in the sexes of the same species. +Trifolium and Arachis. +cleistogamic flowers. +Oxalis acetosella. +Impatiens noli-me-tangere. +Specularia perfoliata. + +Mollia lepidota. +-- speciosa. + +Monnier, M., on Viola. + +Monochoria vaginalis. + +Mulberry, the. + +Muller, D., on Viola canina. + +Muller, Fritz, on pollen of the Villarsia. +Faramea. +Posoqueria fragrans. +Nesaea. +Oxalis. +Pontederia. +Oxalis Regnelli. +Chamissoa. + +Muller, H., on the frequency of visits by insects to the Umbelliferae and +Compositae. +on dichogamy. +on Anthophora and Bombylius sucking the cowslip. +Primula elatior. +-- villosa. +Hottonia palustris. +table of relative fertility of. +Linum catharticum. +Polygonum fagopyrum. +Lythrum salicaria. +on the origin of heterostylism. +on the Labiatae. +Thymus serpyllum. +Scabiosa arvensis. +Plantago lanceolata. +size of corolla in the two sexes of the same species. +Impatiens balsamina. +Lysimachia. + +Myosotis. + +Nepeta glechoma. + +Nertera. + +Nesaea verticillata. + +Nolana prostrata, variability in length of stamens and pistil. + +Nyctaginia. + +Oldenlandia. + +Oleaceae. + +Oliver, Professor, on ovules of Primula veris. +Viola. +Campanula colorata. + +Ononis columnae. +-- minutissima. +-- parviflora. + +Origanum vulgare. + +Oxalis acetosella. +pisil of. +cleistogamic flowers. +pollen-grains. +-- Bowii. +-- compressa. +-- corniculata. +-- Deppei. +-- hedysaroides. +-- homostyled species. +-- incarnata. +-- Regnelli. +-- rosea. +-- (Biophytum) sensitiva. + stigma. +-- speciosa. +-- stricta. +-- tropaeoloides. +-- Valdiviana. + +Oxlip, the Bardfield. +--, the common. + differences in structure and function between the two parent-species. + effects of crossing. + a hybrid between the cowslip and primrose. + +Oxybaphus. + +Paeony, pollen-grains of. + +Parallelism between illegitimate and hybrid fertilisation. + +Pavonia. + +Phlox Hentzii. +-- nivalis. +-- subulata. + +Planchon on Linum salsoloides. +L. Lewisii. +on Hugonia. + +Plantago lanceolata. +-- media. + +Polemoniaceae. + +Pollen-grains, relative diameter of. + +Polyanthus. + +Polygonaceae. + +Polygonum bistorta. +-- fagopyrum. +pollen-grains. + +Pontederia. +pollen-grains. +size of anthers. +-- cordata. + +Posoqueria fragrans. + +Primrose, the common. + +Primula, the, heterostyled species of. +summary on. +homostyled species. +-- auricula. +-- equal-styled varieties. +-- cortusoides. +-- elata. +-- elatior, Jacq. + relative fertility of the two forms. + not a hybrid. + equal-styled var. of. +-- farinosa. + equal-styled var. +-- hirsuta. +-- involucrata. +-- longiflora. +-- mollis. +-- Scotica. +-- Sibirica. +-- Sikkimensis. +-- Sinensis. + relative fertility. + long-styled. + short-styled. + transmission of form, constitution and fertility. + equal-styled variety. +-- stricta. +-- veris. + difference in structure between the two forms. + degrees of fertility when legitimately or illegitimately united. + fertility possessed by illegitimate plants. + equal-styled red variety. + long-styled. + length of pistil. +-- verticillata. +-- villosa. +-- vulgaris (var. acaulis Linn.). + pollen-grains. + relative fertility of the two forms. + length of pistil + +Primula vulgaris, var. rubra. + +Prunella vulgaris. + +Psychotria. + +Pulmonaria angustifolia. +anthers. +-- azurea. +-- officinalis. + number of flowers. + pistil. + +Ranunculus aquatilis. + +Ray-florets, their use. + +Rhamnus catharticus. +size of corolla. +-- frangula. +-- lanceolatus. + +Rhinanthus crista-galli. + +Rubiaceae. +size of anthers. +stigmas. +number of heterostyled genera. + +Rudgea eriantha. + +Rue, the common. + +Ruellia tuberosa. + +Salvia. +-- cleistogama. +-- Horminum. + +Satureia hortensis. + +Scabiosa arvensis. +-- atro-purpurea. +-- succisa. + +Scott, J., on Primula auricula. +on Primula vulgaris. +on Primula var. rubra. +on Primula Sikkimensis. +on Primula farinosa. +homostyled Primulae. +hybrids. +length of pistil. +Hottonia palustris. +Androsace vitalliana. +Polyanthus. +Mitchella repens. +Acanthaceae. +Eranthemum ambiguum bearing three kinds of flowers. + +Scrophularia aquatica. + +Serratula tinctoria. + +Sethia acuminata. +-- obtusifolia. + +Smith, Sir J.E., on the carrot. +hybrid Verbascums. +Serratula tinctoria. +Cnicus. +Subularia. + +Soldanella alpina. + +Specularia perfoliata. + +Spence, Mr., on Mollia. + +Spermacoce. + +Sprengel on Hottonia palustris. + +Stellaria graminea. + +Strawberry, the Hautbois. + +Subularia. + +Suteria. + +Thelymitra. + +Thomson, Dr., on Campanula. + +Thrum-eyed, origin of term. + +Thwaites, Mr., on ovules of Limnanthemum Indicum. +Sethia acuminata. +Discospermum. + +Thymelia. + +Thymus citriodorus. +-- serpyllum +-- vulgaris. + +Timbal-Lagrave, M., on hybrids in genus Cistus. + +Torrey, Dr., on Hottonia inflata. + +Transmission of the two forms of heterostyled plants. + +Treviranus on Androsace vitalliana. +Linum. + +Vandellia nummularifolia. +-- sessifloria. + +Vaucher on the carrot. +Soldanella alpina. +Lythrum salicaria. +-- thymifolia. +Ilex aquifolium. +on Labiatae. +Viola hirta and collina. + +Verbascum, wild hybrids of. +-- lychnitis. +-- phoeniceum. +-- thapsus. +-- virgatum. + +Viburnum. + +Vicia. + +Villarsia. +anthers. + +Viola alba. +-- bicolor. +-- biflora. +-- canina. +-- collina. +-- elatior. +-- hirta. +-- ionodium. +-- lancifolia. +-- mirabilis. +-- nana. + pollen-grains of. +-- odorata. +-- palustris. +-- Roxburghiana. +-- Ruppii. +-- sylvatica. +-- tricolor. + +Voandzeia. + +Walnut, the. + +Watson, H.C., on cowslips, primroses, and Oxlips. +Primula elatior. + +Weddell, Dr., on hybrids between Aceras and Orchis. + +Wetterhan, Mr., on Corylus. + +Wichura, Max, on hybrid willows. +sterile hybrids. + +Wirtgen on Lythrum salicaria. + +Wooler, W., on Polyanthus. + +Wray, Leonard, on Fragaria. + + + + +*** END OF THE PROJECT GUTENBERG EBOOK THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES *** + +Updated editions will replace the previous one--the old editions will +be renamed. + +Creating the works from print editions not protected by U.S. copyright +law means that no one owns a United States copyright in these works, +so the Foundation (and you!) can copy and distribute it in the +United States without permission and without paying copyright +royalties. 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You may copy it, give it away or re-use it under the terms +of the Project Gutenberg License included with this eBook or online +at <a href="https://www.gutenberg.org">www.gutenberg.org</a>. If you +are not located in the United States, you will have to check the laws of the +country where you are located before using this eBook. +</div> +<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Title: The Different Forms of Flowers on Plants of the Same Species</div> +<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Author: Charles Darwin</div> +<div style='display:block; margin:1em 0'>Release Date: September 18, 2001 [eBook #3807]<br /> +[Most recently updated: January 3, 2022]</div> +<div style='display:block; margin:1em 0'>Language: English</div> +<div style='display:block; margin:1em 0'>Character set encoding: UTF-8</div> +<div style='display:block; margin-left:2em; text-indent:-2em'>Produced by: Sue Asscher and David Widger</div> +<div style='margin-top:2em; margin-bottom:4em'>*** START OF THE PROJECT GUTENBERG EBOOK THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES ***</div> + + <h1> + THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES + </h1> + <h2> + By Charles Darwin + </h2> + <h3> + TO + </h3> + <h3> + PROFESSOR ASA GRAY + </h3> + <h3> + THIS VOLUME IS DEDICATED BY THE AUTHOR + </h3> + <h3> + AS A SMALL TRIBUTE OF RESPECT AND AFFECTION. + </h3> + <hr /> + <p> + <b>CONTENTS</b> + </p> + <p class="toc"> + <a href="#link2H_4_0001"> DETAILED TABLE OF CONTENTS </a> + </p> + <p class="toc"> + <a href="#link2H_4_0003"> THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE + SAME SPECIES. </a> + </p> + <p class="toc"> + <a href="#link2H_INTR"> INTRODUCTION. </a> + </p> + <p class="toc"> + <a href="#link2HCH0001"> CHAPTER I. HETEROSTYLED DIMORPHIC PLANTS: + PRIMULACEÆ. </a> + </p> + <p class="toc"> + <a href="#link2HCH0002"> CHAPTER II. HYBRID PRIMULAS. </a> + </p> + <p class="toc"> + <a href="#link2HCH0003"> CHAPTER III. HETEROSTYLED DIMORPHIC PLANTS—continued. + </a> + </p> + <p class="toc"> + <a href="#link2HCH0004"> CHAPTER IV. HETEROSTYLED TRIMORPHIC PLANTS. </a> + </p> + <p class="toc"> + <a href="#link2HCH0005"> CHAPTER V. ILLEGITIMATE OFFSPRING OF HETEROSTYLED + PLANTS. </a> + </p> + <p class="toc"> + <a href="#link2H_CONC"> CONCLUSIONS WITH RESPECT TO THE EQUAL-STYLED + VARIETY OF P. Sinensis. </a> + </p> + <p class="toc"> + <a href="#link2HCH0006"> CHAPTER VI. CONCLUDING REMARKS ON HETEROSTYLED + PLANTS. </a> + </p> + <p class="toc"> + <a href="#link2HCH0007"> CHAPTER VII. POLYGAMOUS, DIOECIOUS, AND + GYNO-DIOECIOUS PLANTS. </a> + </p> + <p class="toc"> + <a href="#link2HCH0008"> CHAPTER VIII. CLEISTOGAMIC FLOWERS. </a> + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2H_4_0001" id="link2H_4_0001"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + DETAILED TABLE OF CONTENTS + </h2> + <p> + I. HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEÆ. + </p> + <p> + Primula veris or the cowslip.—Differences in structure between the + two forms.— Their degrees of fertility when legitimately and + illegitimately united.—P. elatior, vulgaris, Sinensis, auricula, + etc.—Summary on the fertility of the heterostyled species of + Primula.—Homostyled species of Primula.—Hottonia palustris.—Androsace + vitalliana. + </p> + <p> + II. HYBRID PRIMULAS. + </p> + <p> + The oxlip a hybrid naturally produced between Primula veris and vulgaris.—The + differences in structure and function between the two parent-species.—Effects + of crossing long-styled and short-styled oxlips with one another and with + the two forms of both parent-species.—Character of the offspring + from oxlips artificially self-fertilised and cross-fertilised in a state + of nature.—Primula elatior shown to be a distinct species.—Hybrids + between other heterostyled species of Primula.—Supplementary note on + spontaneously produced hybrids in the genus Verbascum. + </p> + <p> + III. HETEROSTYLED DIMORPHIC PLANTS—continued. + </p> + <p> + Linum grandiflorum, long-styled form utterly sterile with own-form pollen.— + Linum perenne, torsion of the pistils in the long-styled form alone.—Homostyled + species of Linum.—Pulmonaria officinalis, singular difference in + self-fertility between the English and German long-styled plants.—Pulmonaria + angustifolia shown to be a distinct species, long-styled form completely + self-sterile.— Polygonum fagopyrum.—Various other heterostyled + genera.—Rubiaceae.—Mitchella repens, fertility of the flowers + in pairs.—Houstonia.—Faramea, remarkable difference in the + pollen-grains of the two forms; torsion of the stamens in the short-styled + form alone; development not as yet perfect.—The heterostyled + structure in the several Rubiaceous genera not due to descent in common. + </p> + <p> + IV. HETEROSTYLED TRIMORPHIC PLANTS. + </p> + <p> + Lythrum salicaria.—Description of the three forms.—Their power + and complex manner of fertilising one another.—Eighteen different + unions possible.—Mid- styled form eminently feminine in nature.—Lythrum + Graefferi likewise trimorphic.—L. hymifolia dimorphic.—L. + hyssopifolia homostyled.—Nesaea verticillata trimorphic.—Lagerstroemia, + nature doubtful.—Oxalis, trimorphic species of.—O. Valdiviana.—O. + Regnelli, the illegitimate unions quite barren.- -O. speciosa.—O. + sensitiva.—Homostyled species of Oxalis.—Pontederia, the one + monocotyledonous genus known to include heterostyled species. + </p> + <p> + V. ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + </p> + <p> + Illegitimate offspring from all three forms of Lythrum salicaria.—Their + dwarfed stature and sterility, some utterly barren, some fertile.—Oxalis, + transmission of form to the legitimate and illegitimate seedlings.—Primula + Sinensis, illegitimate offspring in some degree dwarfed and infertile.—Equal-styled + varieties of P. Sinensis, auricula, farinosa, and elatior.—P. + vulgaris, red- flowered variety, illegitimate seedlings sterile.—P. + veris, illegitimate plants raised during several successive generations, + their dwarfed stature and sterility.—Equal-styled varieties of P. + veris.—Transmission of form by Pulmonaria and Polygonum.—Concluding + remarks.—Close parallelism between illegitimate fertilisation and + hybridism. + </p> + <p> + VI. CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + </p> + <p> + The essential character of heterostyled plants.—Summary of the + differences in fertility between legitimately and illegitimately + fertilised plants.—Diameter of the pollen-grains, size of anthers + and structure of stigma in the different forms.—Affinities of the + genera which include heterostyled species.—Nature of the advantages + derived from heterostylism.—The means by which plants became + heterostyled.—Transmission of form.—Equal-styled varieties of + heterostyled plants.—Final remarks. + </p> + <p> + VII. POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + </p> + <p> + The conversion in various ways of hermaphrodite into dioecious plants.— + Heterostyled plants rendered dioecious.—Rubiaceae.—Verbenaceae.—Polygamous + and sub-dioecious plants.—Euonymus.—Fragaria.—The two + sub-forms of both sexes of Rhamnus and Epigaea.—Ilex.—Gyno-dioecious + plants.—Thymus, difference in fertility of the hermaphrodite and + female individuals.—Satureia.—Manner in which the two forms + probably originated.—Scabiosa and other gyno-dioecious plants.—Difference + in the size of the corolla in the forms of polygamous, dioecious, and + gyno-dioecious plants. + </p> + <p> + VIII. CLEISTOGAMIC FLOWERS. + </p> + <p> + General character of cleistogamic flowers.—List of the genera + producing such flowers, and their distribution in the vegetable series.—Viola, + description of the cleistogamic flowers in the several species; their + fertility compared with that of the perfect flowers.—Oxalis + acetosella.—O. sensitiva, three forms of cleistogamic flowers.—Vandellia.—Ononis.—Impatiens.—Drosera.—Miscellaneous + observations on various other cleistogamic plants.—Anemophilous + species producing cleistogamic flowers.—Leersia, perfect flowers + rarely developed.— Summary and concluding remarks on the origin of + cleistogamic flowers.—The chief conclusions which may be drawn from + the observations in this volume. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2H_4_0003" id="link2H_4_0003"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES. + </h2> + <p> + <br /><br /> + </p> + <hr /> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2><a name="link2H_INTR" id="link2H_INTR"> </a> + INTRODUCTION. + </h2> + <p> + The subject of the present volume, namely the differently formed flowers + normally produced by certain kinds of plants, either on the same stock or + on distinct stocks, ought to have been treated by a professed botanist, to + which distinction I can lay no claim. As far as the sexual relations of + flowers are concerned, Linnaeus long ago divided them into hermaphrodite, + monoecious, dioecious, and polygamous species. This fundamental + distinction, with the aid of several subdivisions in each of the four + classes, will serve my purpose; but the classification is artificial, and + the groups often pass into one another. + </p> + <p> + The hermaphrodite class contains two interesting sub-groups, namely, + heterostyled and cleistogamic plants; but there are several other less + important subdivisions, presently to be given, in which flowers differing + in various ways from one another are produced by the same species. + </p> + <p> + Some plants were described by me several years ago, in a series of papers + read before the Linnean Society, the individuals of which exist under two + or three forms, differing in the length of their pistils and stamens and + in other respects. (Introduction/1. “On the Two Forms or Dimorphic + Condition in the Species of Primula, and on their remarkable Sexual + Relations” ‘Journal of the Proceedings of the Linnean Society’ volume 6 + 1862 page 77. “On the Existence of Two Forms, and on their Reciprocal + Sexual Relation, in several Species of the Genus Linum” Ibid volume 7 1863 + page 69. “On the Sexual Relations of the Three Forms of Lythrum salicaria” + Ibid volume 8 1864 page 169. “On the Character and Hybrid-like Nature of + the Offspring from the Illegitimate Unions of Dimorphic and Trimorphic + Plants” Ibid volume 10 1868 page 393. “On the Specific Differences between + Primula veris, Brit. Fl. (var. officinalis, Linn.), P. vulgaris, Brit. Fl. + (var. acaulis, Linn.), and P. elatior, Jacq.; and on the Hybrid Nature of + the Common oxlip. With Supplementary Remarks on Naturally Produced Hybrids + in the Genus Verbascum” Ibid volume 10 1868 page 437.) They were called by + me dimorphic and trimorphic, but have since been better named by + Hildebrand, heterostyled. (Introduction/2. The term “heterostyled” does + not express all the differences between the forms; but this is a failure + common in many cases. As the term has been adopted by writers in various + countries, I am unwilling to change it for that of heterogone or + heterogonous, though this has been proposed by so high an authority as + Professor Asa Gray: see the ‘American Naturalist’ January 1877 page 42.) + As I have many still unpublished observations with respect to these + plants, it has seemed to me advisable to republish my former papers in a + connected and corrected form, together with the new matter. It will be + shown that these heterostyled plants are adapted for reciprocal + fertilisation; so that the two or three forms, though all are + hermaphrodites, are related to one another almost like the males and + females of ordinary unisexual animals. I will also give a full abstract of + such observations as have been published since the appearance of my + papers; but only those cases will be noticed, with respect to which the + evidence seems fairly satisfactory. Some plants have been supposed to be + heterostyled merely from their pistils and stamens varying greatly in + length, and I have been myself more than once thus deceived. With some + species the pistil continues growing for a long time, so that if old and + young flowers are compared they might be thought to be heterostyled. + Again, a species tending to become dioecious, with the stamens reduced in + some individuals and with the pistils in others, often presents a + deceptive appearance. Unless it be proved that one form is fully fertile + only when it is fertilised with pollen from another form, we have not + complete evidence that the species is heterostyled. But when the pistils + and stamens differ in length in two or three sets of individuals, and this + is accompanied by a difference in the size of the pollen-grains or in the + state of the stigma, we may infer with much safety that the species is + heterostyled. I have, however, occasionally trusted to a difference + between the two forms in the length of the pistil alone, or in the length + of the stigma together with its more or less papillose condition; and in + one instance differences of this kind have been proved by trials made on + the fertility of the two forms, to be sufficient evidence. + </p> + <p> + The second sub-group above referred to consists of hermaphrodite plants, + which bear two kinds of flowers—the one perfect and fully expanded—the + other minute, completely closed, with the petals rudimentary, often with + some of the anthers aborted, and the remaining ones together with the + stigmas much reduced in size; yet these flowers are perfectly fertile. + They have been called by Dr. Kuhn cleistogamic, and they will be described + in the last chapter of this volume. (Introduction/3. ‘Botanische Zeitung’ + 1867 page 65. Several plants are known occasionally to produce flowers + destitute of a corolla; but they belong to a different class of cases from + cleistogamic flowers. This deficiency seems to result from the conditions + to which the plants have been subjected, and partakes of the nature of a + monstrosity. All the flowers on the same plant are commonly affected in + the same manner. Such cases, though they have sometimes been ranked as + cleistogamic, do not come within our present scope: see Dr. Maxwell + Masters ‘Vegetable Teratology’ 1869 page 403.) They are manifestly adapted + for self- fertilisation, which is effected at the cost of a wonderfully + small expenditure of pollen; whilst the perfect flowers produced by the + same plant are capable of cross-fertilisation. Certain aquatic species, + when they flower beneath the water, keep their corollas closed, apparently + to protect their pollen; they might therefore be called cleistogamic, but + for reasons assigned in the proper place are not included in the present + sub-group. Several cleistogamic species, as we shall hereafter see, bury + their ovaries or young capsules in the ground; but some few other plants + behave in the same manner; and, as they do not bury all their flowers, + they might have formed a small separate subdivision. + </p> + <p> + Another interesting subdivision consists of certain plants, discovered by + H. Muller, some individuals of which bear conspicuous flowers adapted for + cross- fertilisation by the aid of insects, and others much smaller and + less conspicuous flowers, which have often been slightly modified so as to + ensure self-fertilisation. Lysimachia vulgaris, Euphrasia officinalis, + Rhinanthus crista-galli, and Viola tricolor come under this head. + (Introduction/4. H. Muller ‘Nature’ September 25, 1873 volume 8 page 433 + and November 20, 1873 volume 9 page 44. Also ‘Die Befruchtung der Blumen’ + etc. 1873 page 294.) The smaller and less conspicuous flowers are not + closed, but as far as the purpose which they serve is concerned, namely, + the assured propagation of the species, they approach in nature + cleistogamic flowers; but they differ from them by the two kinds being + produced on distinct plants. + </p> + <p> + With many plants, the flowers towards the outside of the inflorescence are + much larger and more conspicuous than the central ones. As I shall not + have occasion to refer to plants of this kind in the following chapters, I + will here give a few details respecting them. It is familiar to every one + that the ray-florets of the Compositae often differ remarkably from the + others; and so it is with the outer flowers of many Umbelliferae, some + Cruciferae and a few other families. Several species of Hydrangea and + Viburnum offer striking instances of the same fact. The Rubiaceous genus + Mussaenda presents a very curious appearance from some of the flowers + having the tip of one of the sepals developed into a large petal-like + expansion, coloured either white or purple. The outer flowers in several + Acanthaceous genera are large and conspicuous but sterile; the next in + order are smaller, open, moderately fertile and capable of + cross-fertilisation; whilst the central ones are cleistogamic, being still + smaller, closed and highly fertile; so that here the inflorescence + consists of three kinds of flowers. (Introduction/5. J. Scott ‘Journal of + Botany’ London new series volume 1 1872 pages 161-164.) From what we know + in other cases of the use of the corolla, coloured bracteae, etc., and + from what H. Muller has observed on the frequency of the visits of insects + to the flower-heads of the Umbelliferae and Compositae being largely + determined by their conspicuousness, there can be no doubt that the + increased size of the corolla of the outer flowers, the inner ones being + in all the above cases small, serves to attract insects. (Introduction/6. + ‘Die Befruchtung der Blumen’ pages 108, 412.) The result is that + cross-fertilisation is thus favoured. Most flowers wither soon after being + fertilised, but Hildebrand states that the ray-florets of the Compositae + last for a long time, until all those on the disc are impregnated; and + this clearly shows the use of the former. (Introduction/7. See his + interesting memoir ‘Ueber die Geschlechtsverhaltniss bei den Compositen’ + 1869 page 92.) The ray-florets, however, are of service in another and + very different manner, namely, by folding inwards at night and during cold + rainy weather, so as to protect the florets of the disc. (Introduction/8. + Kerner clearly shows that this is the case: ‘Die Schutzmittel des Pollens’ + 1873 page 28.) Moreover they often contain matter which is excessively + poisonous to insects, as may be seen in the use of flea- powder, and in + the case of Pyrethrum, M. Belhomme has shown that the ray-florets are more + poisonous than the disc-florets in the ratio of about three to two. We may + therefore believe that the ray-florets are useful in protecting the + flowers from being gnawed by insects. (Introduction/9. ‘Gardener’s + Chronicle’ 1861 page 1067. Lindley ‘Vegetable Kingdom’ on Chrysanthemum + 1853 page 706. Kerner in his interesting essay ‘Die Schutzmittel der + Bluthen gegen unberufene Gaste’ 1875 page 19, insists that the petals of + most plants contain matter which is offensive to insects, so that they are + seldom gnawed, and thus the organs of fructification are protected. My + grandfather in 1790 ‘Loves of the Plants’ canto 3 note to lines 184, 188, + remarks that “The flowers or petals of plants are perhaps in general more + acrid than their leaves; hence they are much seldomer eaten by insects.”) + </p> + <p> + It is a well-known yet remarkable fact that the circumferential flowers of + many of the foregoing plants have both their male and female reproductive + organs aborted, as with the Hydrangea, Viburnum and certain Compositae; or + the male organs alone are aborted, as in many Compositae. Between the + sexless, female and hermaphrodite states of these latter flowers, the + finest gradations may be traced, as Hildebrand has shown. + (Introduction/10. ‘Ueber die Geschlechtsverhaltnisse bei den Compositen’ + 1869 pages 78-91.) He also shows that there is a close relation between + the size of the corolla in the ray- florets and the degree of abortion in + their reproductive organs. As we have good reason to believe that these + florets are highly serviceable to the plants which possess them, more + especially by rendering the flower-heads conspicuous to insects, it is a + natural inference that their corollas have been increased in size for this + special purpose; and that their development has subsequently led, through + the principle of compensation or balancement, to the more or less complete + reduction of the reproductive organs. But an opposite view may be + maintained, namely, that the reproductive organs first began to fail, as + often happens under cultivation, and, as a consequence, the corolla + became, through compensation, more highly developed. (Introduction/11. I + have discussed this subject in my ‘Variation of Animals and Plants under + Domestication’ chapter 18 2nd edition volume 2 pages 152, 156.) This view, + however, is not probable, for when hermaphrodite plants become dioecious + or gyno-dioecious—that is, are converted into hermaphrodites and + females—the corolla of the female seems to be almost invariably + reduced in size in consequence of the abortion of the male organs. The + difference in the result in these two classes of cases, may perhaps be + accounted for by the matter saved through the abortion of the male organs + in the females of gyno-dioecious and dioecious plants being directed (as + we shall see in a future chapter) to the formation of an increased supply + of seeds; whilst in the case of the exterior florets and flowers of the + plants which we are here considering, such matter is expended in the + development of a conspicuous corolla. Whether in the present class of + cases the corolla was first affected, as seems to me the more probable + view, or the reproductive organs first failed, their states of development + are now firmly correlated. We see this well-illustrated in Hydrangea and + Viburnum; for when these plants are cultivated, the corollas of both the + interior and exterior flowers become largely developed, and their + reproductive organs are aborted. + </p> + <p> + There is a closely analogous subdivision of plants, including the genus + Muscari (or Feather Hyacinth) and the allied Bellevalia, which bear both + perfect flowers and closed bud-like bodies that never expand. The latter + resemble in this respect cleistogamic flowers, but differ widely from them + in being sterile and conspicuous. Not only the aborted flower-buds and + their peduncles (which are elongated apparently through the principle of + compensation) are brightly coloured, but so is the upper part of the spike—all, + no doubt, for the sake of guiding insects to the inconspicuous perfect + flowers. From such cases as these we may pass on to certain Labiatae, for + instance, Salvia Horminum in which (as I hear from Mr. Thiselton Dyer) the + upper bracts are enlarged and brightly coloured, no doubt for the same + purpose as before, with the flowers suppressed. + </p> + <p> + In the Carrot and some allied Umbelliferae, the central flower has its + petals somewhat enlarged, and these are of a dark purplish-red tint; but + it cannot be supposed that this one small flower makes the large white + umbel at all more conspicuous to insects. The central flowers are said to + be neuter or sterile, but I obtained by artificial fertilisation a seed + (fruit) apparently perfect from one such flower. (Introduction/12. ‘The + English Flora’ by Sir J.E. Smith 1824 volume 2 page 39.) Occasionally two + or three of the flowers next to the central one are similarly + characterised; and according to Vaucher “cette singuliere degeneration + s’etend quelquefois a l’ombelle entiere.” (Introduction/13. ‘Hist. Phys. + des Plantes d’Europe’ 1841 tome 2 page 614. On the Echinophora page 627.) + That the modified central flower is of no functional importance to the + plant is almost certain. It may perhaps be a remnant of a former and + ancient condition of the species, when one flower alone, the central one, + was female and yielded seeds, as in the Umbelliferous genus Echinophora. + There is nothing surprising in the central flower tending to retain its + former condition longer than the others; for when irregular flowers become + regular or peloric, they are apt to be central; and such peloric flowers + apparently owe their origin either to arrested development—that is, + to the preservation of an early stage of development—or to + reversion. Central and perfectly developed flowers in not a few plants in + their normal condition (for instance, the common Rue and Adoxa) differ + slightly in structure, as in the number of the parts, from the other + flowers on the same plant. All such cases seem connected with the fact of + the bud which stands at the end of the shoot being better nourished than + the others, as it receives the most sap. (Introduction/14. This whole + subject, including pelorism, has been discussed, and references given in + my ‘Variation of Animals and Plants under Domestication’ chapter 26 2nd + edition volume 2 page 338.) + </p> + <p> + The cases hitherto mentioned relate to hermaphrodite species which bear + differently constructed flowers; but there are some plants that produce + differently formed seeds, of which Dr. Kuhn has given a list. + (Introduction/15. ‘Botanische Zeitung’ 1867 page 67.) With the + Umbelliferae and Compositae, the flowers that produce these seeds likewise + differ, and the differences in the structure of the seeds are of a very + important nature. The causes which have led to differences in the seeds on + the same plant are not known; and it is very doubtful whether they + subserve any special end. + </p> + <p> + We now come to our second Class, that of monoecious species, or those + which have their sexes separated but borne on the same plant. The flowers + necessarily differ, but when those of one sex include rudiments of the + other sex, the difference between the two kinds is usually not great. When + the difference is great, as we see in catkin-bearing plants, this depends + largely on many of the species in this, as well as in the next or + dioecious class, being fertilised by the aid of the wind; for the male + flowers have in this case to produce a surprising amount of incoherent + pollen. (Introduction/16. Delpino ‘Studi sopra uno Lignaggio Anemofilo’ + Firenze 1871.) Some few monoecious plants consist of two bodies of + individuals, with their flowers differing in function, though not in + structure; for certain individuals mature their pollen before the female + flowers on the same plant are ready for fertilisation, and are called + proterandrous; whilst conversely other individuals, called proterogynous, + have their stigmas mature before their pollen is ready. The purpose of + this curious functional difference obviously is to favour the + cross-fertilisation of distinct plants. A case of this kind was first + observed by Delpino in the Walnut (Juglans regia), and has since been + observed with the common Nut (Corylus avellana). I may add that according + to H. Muller the individuals of some few hermaphrodite plants differ in a + like manner; some being proterandrous and others proterogynous. + (Introduction/17. Delpino ‘Ult. Osservazioni sulla Dicogamia’ part 2 fasc + 2 page 337. Mr. Wetterhan and H. Muller on Corylus ‘Nature’ volume 11 page + 507 and 1875 page 26. On proterandrous and proterogynous hermaphrodite + individuals of the same species, see H. Muller ‘Die Befruchtung’ etc. + pages 285, 339.) On cultivated trees of the Walnut and Mulberry, the male + flowers have been observed to abort on certain individuals, which have + thus been converted into females; but whether there are any species in a + state of nature which co-exist as monoecious and female individuals, I do + not know. (Introduction/18. ‘Gardener’s Chronicle’ 1847 pages 541, 558.) + </p> + <p> + The third Class consists of dioecious species, and the remarks made under + the last class with respect to the amount of difference between the male + and female flowers are here applicable. It is at present an inexplicable + fact that with some dioecious plants, of which the Restiaceae of Australia + and the Cape of Good Hope offer the most striking instance, the + differentiation of the sexes has affected the whole plant to such an + extent (as I hear from Mr. Thiselton Dyer) that Mr. Bentham and Professor + Oliver have often found it impossible to match the male and female + specimens of the same species. In my seventh chapter some observations + will be given on the gradual conversion of heterostyled and of ordinary + hermaphrodite plants into dioecious or sub-dioecious species. + </p> + <p> + The fourth and last Class consists of the plants which were called + polygamous by Linnaeus; but it appears to me that it would be convenient + to confine this term to the species which coexist as hermaphrodites, males + and females; and to give new names to several other combinations of the + sexes—a plan which I shall here follow. Polygamous plants, in this + confined sense of the term, may be divided into two sub-groups, according + as the three sexual forms are found on the same individual or on distinct + individuals. Of this latter or trioicous sub-group, the common Ash + (Fraxinus excelsior) offers a good instance: thus, I examined during the + spring and autumn fifteen trees growing in the same field; and of these, + eight produced male flowers alone, and in the autumn not a single seed; + four produced only female flowers, which set an abundance of seeds; three + were hermaphrodites, which had a different aspect from the other trees + whilst in flower, and two of them produced nearly as many seeds as the + female trees, whilst the third produced none, so that it was in function a + male. The separation of the sexes, however, is not complete in the Ash; + for the female flowers include stamens, which drop off at an early period, + and their anthers, which never open or dehisce, generally contain pulpy + matter instead of pollen. On some female trees, however, I found a few + anthers containing pollen grains apparently sound. On the male trees most + of the flowers include pistils, but these likewise drop off at an early + period; and the ovules, which ultimately abort, are very small compared + with those in female flowers of the same age. + </p> + <p> + Of the other or monoicous sub-group of polygamous plants, or those which + bear hermaphrodite, male and female flowers on the same individual, the + common Maple (Acer campestre) offers a good instance; but Lecoq states + that some trees are truly dioecious, and this shows how easily one state + passes into another. (Introduction/19. ‘Geographie Botanique’ tome 5 page + 367.) + </p> + <p> + A considerable number of plants generally ranked as polygamous exist under + only two forms, namely, as hermaphrodites and females; and these may be + called gyno- dioecious, of which the common Thyme offers a good example. + In my seventh chapter I shall give some observations on plants of this + nature. Other species, for instance several kinds of Atriplex, bear on the + same plant hermaphrodite and female flowers; and these might be called + gyno-monoecious, if a name were desirable for them. + </p> + <p> + Again there are plants which produce hermaphrodite and male flowers on the + same individual, for instance, some species of Galium, Veratrum, etc.; and + these might be called andro-monoecious. If there exist plants, the + individuals of which consist of hermaphrodites and males, these might be + distinguished as andro-dioecious. But, after making inquiries from several + botanists, I can hear of no such cases. Lecoq, however, states, but + without entering into full details, that some plants of Caltha palustris + produce only male flowers, and that these live mingled with the + hermaphrodites. (Introduction/20. ‘Geographie Botanique’ tome 4 page 488.) + The rarity of such cases as this last one is remarkable, as the presence + of hermaphrodite and male flowers on the same individual is not an unusual + occurrence; it would appear as if nature did not think it worth while to + devote a distinct individual to the production of pollen, excepting when + this was indispensably necessary, as in the case of dioecious species. + </p> + <p> + I have now finished my brief sketch of the several cases, as far as known + to me, in which flowers differing in structure or in function are produced + by the same species of plant. Full details will be given in the following + chapters with respect to many of these plants. I will begin with the + heterostyled, then pass on to certain dioecious, sub-dioecious, and + polygamous species, and end with the cleistogamic. For the convenience of + the reader, and to save space, the less important cases and details have + been printed in smaller type. + </p> + <p> + I cannot close this Introduction without expressing my warm thanks to Dr. + Hooker for supplying me with specimens and for other aid; and to Mr. + Thiselton Dyer and Professor Oliver for giving me much information and + other assistance. Professor Asa Gray, also, has uniformly aided me in many + ways. To Fritz Muller of St. Catharina, in Brazil, I am indebted for many + dried flowers of heterostyled plants, often accompanied with valuable + notes. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0001" id="link2HCH0001"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER I. HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEÆ. + </h2> +<pre xml:space="preserve"> + Primula veris or the cowslip. + Differences in structure between the two forms. + Their degrees of fertility when legitimately and illegitimately united. + P. elatior, vulgaris, Sinensis, auricula, etc. + Summary on the fertility of the heterostyled species of Primula. + Homostyled species of Primula. + Hottonia palustris. + Androsace vitalliana. + + (FIGURE 1.1. Primula veris. + Left: Long-styled form. + Right: Short-styled form.) +</pre> + <p> + It has long been known to botanists that the common cowslip (Primula + veris, Brit. Flora, var. officinalis, Lin.) exists under two forms, about + equally numerous, which obviously differ from each other in the length of + their pistils and stamens. (1/1. This fact, according to Von Mohl + ‘Botanische Zeitung’ 1863 page 326, was first observed by Persoon in the + year 1794.) This difference has hitherto been looked at as a case of mere + variability, but this view, as we shall presently see, is far from the + true one. Florists who cultivate the Polyanthus and Auricula have long + been aware of the two kinds of flowers, and they call the plants which + display the globular stigma at the mouth of the corolla, “pin-headed” or + “pin-eyed,” and those which display the anthers, “thrum-eyed.” (1/2. In + Johnson’s Dictionary, “thrum” is said to be the ends of weavers’ threads; + and I suppose that some weaver who cultivated the Polyanthus invented this + name, from being struck with some degree of resemblance between the + cluster of anthers in the mouth of the corolla and the ends of his + threads.) I will designate the two forms as the long-styled and + short-styled. + </p> + <p> + The pistil in the long-styled form is almost exactly twice as long as that + of the short-styled. The stigma stands in the mouth of the corolla or + projects just above it, and is thus externally visible. It stands high + above the anthers, which are situated halfway down the tube and cannot be + easily seen. In the short-styled form the anthers are attached near the + mouth of the tube, and therefore stand above the stigma, which is seated + in about the middle of the tubular corolla. The corolla itself is of a + different shape in the two forms; the throat or expanded portion above the + attachment of the anthers being much longer in the long-styled than in the + short-styled form. Village children notice this difference, as they can + best make necklaces by threading and slipping the corollas of the + long-styled flowers into one another. But there are much more important + differences. The stigma in the long-styled form is globular; in the + short-styled it is depressed on the summit, so that the longitudinal axis + of the former is sometimes nearly double that of the latter. Although + somewhat variable in shape, one difference is persistent, namely, in + roughness: in some specimens carefully compared, the papillae which render + the stigma rough were in the long- styled form from twice to thrice as + long as in the short-styled. The anthers do not differ in size in the two + forms, which I mention because this is the case with some heterostyled + plants. The most remarkable difference is in the pollen- grains. I + measured with the micrometer many specimens, both dry and wet, taken from + plants growing in different situations, and always found a palpable + difference. The grains distended with water from the short-styled flowers + were about .038 millimetres (10 to 11/7000 of an inch) in diameter, whilst + those from the long-styled were about .0254 millimetres (7/7000 of an + inch), which is in the ratio of 100 to 67. The pollen-grains therefore + from the longer stamens of the short-styled form are plainly larger than + those from the shorter stamens of the long-styled. When examined dry, the + smaller grains are seen under a low power to be more transparent than the + larger grains, and apparently in a greater degree than can be accounted + for by their less diameter. There is also a difference in shape, the + grains from the short-styled plants being nearly spherical, those from the + long-styled being oblong with the angles rounded; this difference + disappears when the grains are distended with water. The long-styled + plants generally tend to flower a little before the short-styled: for + instance, I had twelve plants of each form growing in separate pots and + treated in every respect alike; and at the time when only a single + short-styled plant was in flower, seven of the long-styled had expanded + their flowers. + </p> + <p> + We shall, also, presently see that the short-styled plants produce more + seed than the long-styled. It is remarkable, according to Professor + Oliver, that the ovules in the unexpanded and unimpregnated flowers of the + latter are considerably larger than those of the short-styled flowers + (1/3. ‘Natural History Review’ July 1862 page 237.); and this I suppose is + connected with the long-styled flowers producing fewer seeds, so that the + ovules have more space and nourishment for rapid development. + </p> + <p> + To sum up the differences:—The long-styled plants have a much longer + pistil, with a globular and much rougher stigma, standing high above the + anthers. The stamens are short; the grains of pollen smaller and oblong in + shape. The upper half of the tube of the corolla is more expanded. The + number of seeds produced is smaller and the ovules larger. The plants tend + to flower first. + </p> + <p> + The short-styled plants have a short pistil, half the length of the tube + of the corolla, with a smooth depressed stigma standing beneath the + anthers. The stamens are long; the grains of pollen are spherical and + larger. The tube of the corolla is of uniform diameter except close to the + upper end. The number of seeds produced is larger. + </p> + <p> + I have examined a large number of flowers; and though the shape of the + stigma and the length of the pistil both vary, especially in the + short-styled form, I have never met with any transitional states between + the two forms in plants growing in a state of nature. There is never the + slightest doubt under which form a plant ought to be classed. The two + kinds of flowers are never found on the same individual plant. I marked + many cowslips and primroses, and on the following year all retained the + same character, as did some in my garden which flowered out of their + proper season in the autumn. Mr. W. Wooler, of Darlington, however, + informs us that he has seen early blossoms on the Polyanthus, which were + not long-styled, but became so later in the season. (1/4. I have proved by + numerous experiments, hereafter to be given, that the Polyanthus is a + variety of Primula veris.) Possibly in this case the pistils may not have + been fully developed during the early spring. An excellent proof of the + permanence of the two forms may be seen in nursery-gardens, where choice + varieties of the Polyanthus are propagated by division; and I found whole + beds of several varieties, each consisting exclusively of the one or the + other form. The two forms exist in the wild state in about equal numbers: + I collected 522 umbels from plants growing in several stations, taking a + single umbel from each plant; and 241 were long-styled, and 281 + short-styled. No difference in tint or size could be perceived in the two + great masses of flowers. + </p> + <p> + We shall presently see that most of the species of Primula exist under two + analogous forms; and it may be asked what is the meaning of the + above-described important differences in their structure? The question + seems well worthy of careful investigation, and I will give my + observations on the cowslip in detail. The first idea which naturally + occurred to me was, that this species was tending towards a dioecious + condition; that the long-styled plants, with their longer pistils, rougher + stigmas, and smaller pollen-grains, were more feminine in nature, and + would produce more seed;—that the short-styled plants, with their + shorter pistils, longer stamens and larger pollen-grains, were more + masculine in nature. Accordingly, in 1860, I marked a few cowslips of both + forms growing in my garden, and others growing in an open field, and + others in a shady wood, and gathered and weighed the seed. In all the lots + the short-styled plants yielded, contrary to my expectation, most seed. + Taking the lots together, the following is the result:— + </p> + <h3> + TABLE 1.1. + </h3> + <p> + Column 1: Plant. Column 2: Number of Plants. Column 3: Number of Umbels + Produced. Column 4: Number of Capsules Produced. Column 5: Weight of Seed + In Grains. + </p> + <p> + Short-styled cowslips : 9 : 33 : 199 : 83. Long-styled cowslips : 13 : 51 + : 261 : 91. + </p> + <p> + If we compare the weight from an equal number of plants, and from an equal + number of umbels, and from an equal number of capsules of the two forms, + we get the following results:— + </p> + <h3> + TABLE 1.2. + </h3> + <p> + Column 1: Plant. Column 2: Number of Plants. Column 3: Weight of Seed in + grains. ... Column 4: Number of Umbels. Column 5: Weight of Seed. ... + Column 6: Number of Capsules. Column 7: Weight of Seed in grains. + </p> + <p> + Short-styled cowslips : 10 : 92 :: 100 : 251 :: 100 : 41. Long-styled + cowslips : 10 : 70 :: 100 : 178 :: 100 : 34. + </p> + <p> + So that, by all these standards of comparison, the short-styled form is + the more fertile; if we take the number of umbels (which is the fairest + standard, for large and small plants are thus equalised), the short-styled + plants produce more seed than the long-styled, in the proportion of nearly + four to three. + </p> + <p> + In 1861 the trial was made in a fuller and fairer manner. A number of wild + plants had been transplanted during the previous autumn into a large bed + in my garden, and all were treated alike; the result was:— + </p> + <h3> + TABLE 1.3. + </h3> + <p> + Column 1: Plant. Column 2: Number of Plants. Column 3: Number of Umbels. + Column 4: Weight of Seed in grains. + </p> + <p> + Short-styled cowslips : 47 : 173 : 745. Long-styled cowslips : 58 : 208 : + 692. + </p> + <p> + These figures give us the following proportions:— + </p> + <h3> + TABLE 1.4. + </h3> + <p> + Column 1: Plant. Column 2: Number of Plants. Column 3: Weight of Seed in + grains. ... Column 4: Number of Umbels. Column 5: Weight of Seed in + grains. + </p> + <p> + Short-styled cowslips : 100 : 1585 :: 100 : 430. Long-styled cowslips : + 100 : 1093 :: 100 : 332. + </p> + <p> + The season was much more favourable this year than the last; the plants + also now grew in good soil, instead of in a shady wood or struggling with + other plants in the open field; consequently the actual produce of seed + was considerably larger. Nevertheless we have the same relative result; + for the short-styled plants produced more seed than the long-styled in + nearly the proportion of three to two; but if we take the fairest standard + of comparison, namely, the product of seeds from an equal number of + umbels, the excess is, as in the former case, nearly as four to three. + </p> + <p> + Looking to these trials made during two successive years on a large number + of plants, we may safely conclude that the short-styled form is more + productive than the long-styled form, and the same result holds good with + some other species of Primula. Consequently my anticipation that the + plants with longer pistils, rougher stigmas, shorter stamens and smaller + pollen-grains, would prove to be more feminine in nature, is exactly the + reverse of the truth. + </p> + <p> + In 1860 a few umbels on some plants of both the long-styled and + short-styled form, which had been covered by a net, did not produce any + seed, though other umbels on the same plants, artificially fertilised, + produced an abundance of seed; and this fact shows that the mere covering + in itself was not injurious. Accordingly, in 1861, several plants were + similarly covered just before they expanded their flowers; these turned + out as follows:— + </p> + <h3> + TABLE 1.5. + </h3> + <p> + Column 1: Plant. Column 2: Number of Plants. Column 3: Number of Umbels + produced. Column 4: Product of Seed. + </p> + <p> + Short-styled : 6 : 24 : 1.3 grain weight of seed, or about 50 in number. + Long-styled : 18 : 74 : Not one seed. + </p> + <p> + Judging from the exposed plants which grew all round in the same bed, and + had been treated in the same manner, excepting that they had been exposed + to the visits of insects, the above six short-styled plants ought to have + produced 92 grains’ weight of seed instead of only 1.3; and the eighteen + long-styled plants, which produced not one seed, ought to have produced + above 200 grains’ weight. The production of a few seeds by the + short-styled plants was probably due to the action of Thrips or of some + other minute insect. It is scarcely necessary to give any additional + evidence, but I may add that ten pots of Polyanthuses and cowslips of both + forms, protected from insects in my greenhouse, did not set one pod, + though artificially fertilised flowers in other pots produced an + abundance. We thus see that the visits of insects are absolutely necessary + for the fertilisation of Primula veris. If the corolla of the long-styled + form had dropped off, instead of remaining attached in a withered state to + the ovarium, the anthers attached to the lower part of the tube with some + pollen still adhering to them would have been dragged over the stigma, and + the flowers would have been partially self-fertilised, as is the case with + Primula Sinensis through this means. It is a rather curious fact that so + trifling a difference as the falling-off of the withered corolla, should + make a very great difference in the number of seeds produced by a plant if + its flowers are not visited by insects. + </p> + <p> + The flowers of the cowslip and of the other species of the genus secrete + plenty of nectar; and I have often seen humble bees, especially B. + hortorum and muscorum, sucking the former in a proper manner, though they + sometimes bite holes through the corolla. (1/5. H. Muller has also seen + Anthophora pilipes and a Bombylius sucking the flowers. ‘Nature’ December + 10, 1874 page 111.) No doubt moths likewise visit the flowers, as one of + my sons caught Cucullia verbasci in the act. The pollen readily adheres to + any thin object which is inserted into a flower. The anthers in the one + form stand nearly, but not exactly, on a level with the stigma of the + other; for the distance between the anthers and stigma in the short-styled + form is greater than that in the long-styled, in the ratio of 100 to 90. + This difference is the result of the anthers in the long-styled form + standing rather higher in the tube than does the stigma in the + short-styled, and this favours their pollen being deposited on it. It + follows from the position of the organs that if the proboscis of a dead + humble-bee, or a thick bristle or rough needle, be pushed down the + corolla, first of one form and then of the other, as an insect would do in + visiting the two forms growing mingled together, pollen from the + long-stamened form adheres round the base of the object, and is left with + certainty on the stigma of the long-styled form; whilst pollen from the + short stamens of the long-styled form adheres a little way above the + extremity of the object, and some is generally left on the stigma of the + other form. In accordance with this observation I found that the two kinds + of pollen, which could easily be recognised under the microscope, adhered + in this manner to the proboscides of the two species of humble-bees and of + the moth, which were caught visiting the flowers; but some small grains + were mingled with the larger grains round the base of the proboscis, and + conversely some large grains with the small grains near the extremity of + the proboscis. Thus pollen will be regularly carried from the one form to + the other, and they will reciprocally fertilise one another. Nevertheless + an insect in withdrawing its proboscis from the corolla of the long-styled + form cannot fail occasionally to leave pollen from the same flower on the + stigma; and in this case there might be self- fertilisation. But this will + be much more likely to occur with the short-styled form; for when I + inserted a bristle or other such object into the corolla of this form, and + had, therefore, to pass it down between the anthers seated round the mouth + of the corolla, some pollen was almost invariably carried down and left on + the stigma. Minute insects, such as Thrips, which sometimes haunt the + flowers, would likewise be apt to cause the self-fertilisation of both + forms. + </p> + <p> + The several foregoing facts led me to try the effects of the two kinds of + pollen on the stigmas of the two forms. Four essentially different unions + are possible; namely, the fertilisation of the stigma of the long-styled + form by its own-form pollen, and by that of the short-styled; and the + stigma of the short-styled form by its own-form pollen, and by that of the + long-styled. The fertilisation of either form with pollen from the other + form may be conveniently called a LEGITIMATE UNION, from reasons hereafter + to be made clear; and that of either form with its own-form pollen an + ILLEGITIMATE UNION. I formerly applied the term “heteromorphic” to the + legitimate unions, and “homomorphic” to the illegitimate unions; but after + discovering the existence of trimorphic plants, in which many more unions + are possible, these two terms ceased to be applicable. The illegitimate + unions of both forms might have been tried in three ways; for a flower of + either form may be fertilised with pollen from the same flower, or with + that from a another flower on the same plant, or with that from a distinct + plant of the same form. But to make my experiments perfectly fair, and to + avoid any evil result from self-fertilisation or too close interbreeding, + I have invariably employed pollen from a distinct plant of the same form + for the illegitimate unions of all the species; and therefore it may be + observed that I have used the term “own-form pollen” in speaking of such + unions. The several plants in all my experiments were treated in exactly + the same manner, and were carefully protected by fine nets from the access + of insects, excepting Thrips, which it is impossible to exclude. I + performed all the manipulations myself, and weighed the seeds in a + chemical balance; but during many subsequent trials I followed the more + accurate plan of counting the seeds. Some of the capsules contained no + seeds, or only two or three, and these are excluded in the column headed + “good capsules” in several of the following tables:— + </p> + <p> + TABLE 1.6. Primula veris. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Capsules produced. Column 4: Number of good Capsules. + Column 5: Weight of Seed in grains. Column 6: Calculated Weight of Seed + from 100 good Capsules. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 22 : 15 : 14 : + 8.8 : 62. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 20 : 8 : 5 : 2.1 : + 42. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union : 13 : 12 : 11 : + 4.9 : 44. + </p> + <p> + Short-styled by own-form pollen. Illegitimate union : 15 : 8 : 6 : 1.8 : + 30. + </p> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions : 35 : 27 : 25 : 13.7 : 54. + </p> + <p> + The two illegitimate unions : 35 : 16 : 11 : 3.9 : 35. + </p> + <p> + The results may be given in another form (Table 1.7) by comparing, first, + the number of capsules, whether good or bad, or of the good alone, + produced by 100 flowers of both forms when legitimately and illegitimately + fertilised; secondly, by comparing the weight of seed in 100 of these + capsules, whether good or bad; or, thirdly, in 100 of the good capsules. + </p> + <p> + TABLE 1.7. Primula veris. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Capsules. Column 4: Number of good Capsules. Column 5: + Weight of Seed in grains. ... Column 6: Number of Capsules. Column 7: + Weight of Seed in grains. ... Column 8: Number of good Capsules. Column 9: + Weight of Seed in grains. + </p> + <p> + The two legitimate unions : 100 : 77 : 71 : 39 :: 100 : 50 :: 100 : 54. + </p> + <p> + The two illegitimate unions : 100 : 45 : 31 : 11 :: 100 : 24 :: 100 : 35. + </p> + <p> + We here see that the long-styled flowers fertilised with pollen from the + short- styled yield more capsules, especially good ones (i.e. containing + more than one or two seeds), and that these capsules contain a greater + proportional weight of seeds than do the flowers of the long-styled when + fertilised with pollen from a distinct plant of the same form. So it is + with the short-styled flowers, if treated in an analogous manner. + Therefore I have called the former method of fertilisation a legitimate + union, and the latter, as it fails to yield the full complement of + capsules and seeds, an illegitimate union. These two kinds of union are + graphically represented in Figure 1.2. + </p> + <p> + (FIGURE 1.2. Primula veris. Graphic representation of two kinds of union + between: Left: Long-styled form. Right: Short-styled form.) + </p> + <p> + If we consider the results of the two legitimate unions taken together and + the two illegitimate ones, as shown in Table 1.7, we see that the former + compared with the latter yielded capsules, whether containing many seeds + or only a few, in the proportion of 77 to 45, or as 100 to 58. But the + inferiority of the illegitimate unions is here perhaps too great, for on a + subsequent occasion 100 long-styled and short-styled flowers were + illegitimately fertilised, and they together yielded 53 capsules: + therefore the rate of 77 to 53, or as 100 to 69, is a fairer one than that + of 100 to 58. Returning to Table 1.7, if we consider only the good + capsules, those from the two legitimate unions were to those from the two + illegitimate in number as 71 to 31, or as 100 to 44. Again, if we take an + equal number of capsules, whether good or bad, from the legitimately and + illegitimately fertilised flowers, we find that the former contained seeds + by weight compared with the latter as 50 to 24, or as 100 to 48; but if + all the poor capsules are rejected, of which many were produced by the + illegitimately fertilised flowers, the proportion is 54 to 35, or as 100 + to 65. In this and all other cases, the relative fertility of the two + kinds of union can, I think, be judged of more truly by the average number + of seeds per capsule than by the proportion of flowers which yield + capsules. The two methods might have been combined by giving the average + number of seeds produced by all the flowers which were fertilised, whether + they yielded capsules or not; but I have thought that it would be more + instructive always to show separately the proportion of flowers which + produced capsules, and the average number of apparently good seeds which + the capsules contained. + </p> + <p> + Flowers legitimately fertilised set seeds under conditions which cause the + almost complete failure of illegitimately fertilised flowers. Thus in the + spring of 1862 forty flowers were fertilised at the same time in both + ways. The plants were accidentally exposed in the greenhouse to too hot a + sun, and a large number of umbels perished. Some, however, remained in + moderately good health, and on these there were twelve flowers which had + been fertilised legitimately, and eleven which had been fertilised + illegitimately. The twelve legitimate unions yielded seven fine capsules, + containing on an average each 57.3 good seeds; whilst the eleven + illegitimate unions yielded only two capsules, of which one contained 39 + seeds, but so poor, that I do not suppose one would have germinated, and + the other contained 17 fairly good seeds. + </p> + <p> + From the facts now given the superiority of a legitimate over an + illegitimate union admits of not the least doubt; and we have here a case + to which no parallel exists in the vegetable or, indeed, in the animal + kingdom. The individual plants of the present species, and as we shall see + of several other species of Primula, are divided into two sets or bodies, + which cannot be called distinct sexes, for both are hermaphrodites; yet + they are to a certain extent sexually distinct, for they require + reciprocal union for perfect fertility. As quadrupeds are divided into two + nearly equal bodies of different sexes, so here we have two bodies, + approximately equal in number, differing in their sexual powers and + related to each other like males and females. There are many hermaphrodite + animals which cannot fertilise themselves, but most unite with another + hermaphrodite. So it is with numerous plants; for the pollen is often + mature and shed, or is mechanically protruded, before the flower’s own + stigma is ready; and such flowers absolutely require the presence of + another hermaphrodite for sexual union. But with the cowslip and various + other species of Primula there is this wide difference, that one + individual, though it can fertilise itself imperfectly, must unite with + another individual for full fertility; it cannot, however, unite with any + other individual in the same manner as an hermaphrodite plant can unite + with any other one of the same species; or as one snail or earth-worm can + unite with any other hermaphrodite individual. On the contrary, an + individual belonging to one form of the cowslip in order to be perfectly + fertile must unite with one of the other form, just as a male quadruped + must and can unite only with the female. + </p> + <p> + I have spoken of the legitimate unions as being fully fertile; and I am + fully justified in doing so, for flowers artificially fertilised in this + manner yielded rather more seeds than plants naturally fertilised in a + state of nature. The excess may be attributed to the plants having been + grown separately in good soil. With respect to the illegitimate unions, we + shall best appreciate their degree of lessened fertility by the following + facts. Gartner estimated the sterility of the unions between distinct + species, in a manner which allows of a strict comparison with the results + of the legitimate and illegitimate unions of Primula. (1/6. ‘Versuche uber + die Bastarderzeugung’ 1849 page 216.) With P. veris, for every 100 seeds + yielded by the two legitimate unions, only 64 were yielded by an equal + number of good capsules from the two illegitimate unions. With P. + Sinensis, as we shall hereafter see, the proportion was nearly the same- + -namely, as 100 to 62. Now Gartner has shown that, on the calculation of + Verbascum lychnitis yielding with its own pollen 100 seeds, it yielded + when fertilised by the pollen of Verbascum Phoeniceum 90 seeds; by the + pollen of Verbascum nigrum, 63 seeds; by that of Verbascum blattaria, 62 + seeds. So again, Dianthus barbatus fertilised by the pollen of D. superbus + yielded 81 seeds, and by the pollen of D. japonicus 66 seeds, relatively + to the 100 seeds produced by its own pollen. We thus see—and the + fact is highly remarkable—that with Primula the illegitimate unions + relatively to the legitimate are more sterile than crosses between + distinct species of other genera relatively to their pure unions. Mr. + Scott has given a still more striking illustration of the same fact: he + crossed Primula auricula with pollen of four other species (P. palinuri, + viscosa, hirsuta, and verticillata), and these hybrid unions yielded a + larger average number of seeds than did P. auricula when fertilised + illegitimately with its own-form pollen. (1/7. ‘Journal of the Linnean + Society Botany’ volume 8 1864 page 93.) + </p> + <p> + The benefit which heterostyled dimorphic plants derive from the existence + of the two forms is sufficiently obvious, namely, the intercrossing of + distinct plants being thus ensured. (1/8. I have shown in my work on the + ‘Effects of Cross and Self-fertilisation’ how greatly the offspring from + intercrossed plants profit in height, vigour, and fertility.) Nothing can + be better adapted for this end than the relative positions of the anthers + and stigmas in the two forms, as shown in Figure 1.2; but to this whole + subject I shall recur. No doubt pollen will occasionally be placed by + insects or fall on the stigma of the same flower; and if + cross-fertilisation fails, such self-fertilisation will be advantageous to + the plant, as it will thus be saved from complete barrenness. But the + advantage is not so great as might at first be thought, for the seedlings + from illegitimate unions do not generally consist of both forms, but all + belong to the parent form; they are, moreover, in some degree weakly in + constitution, as will be shown in a future chapter. If, however, a + flower’s own pollen should first be placed by insects or fall on the + stigma, it by no means follows that cross-fertilisation will be thus + prevented. It is well known that if pollen from a distinct species be + placed on the stigma of a plant, and some hours afterwards its own pollen + be placed on it, the latter will be prepotent and will quite obliterate + any effect from the foreign pollen; and there can hardly be a doubt that + with heterostyled dimorphic plants, pollen from the other form will + obliterate the effects of pollen from the same form, even when this has + been placed on the stigma a considerable time before. To test this belief, + I placed on several stigmas of a long-styled cowslip plenty of pollen from + the same plant, and after twenty-four hours added some from a short-styled + dark-red Polyanthus, which is a variety of the cowslip. From the flowers + thus treated 30 seedlings were raised, and all these, without exception, + bore reddish flowers; so that the effect of pollen from the same form, + though placed on the stigmas twenty-four hours previously, was quite + destroyed by that of pollen from a plant belonging to the other form. + </p> + <p> + Finally, I may remark that of the four kinds of unions, that of the + short-styled illegitimately fertilised with its own-form pollen seems to + be the most sterile of all, as judged by the average number of seeds, + which the capsules contained. A smaller proportion, also, of these seeds + than of the others germinated, and they germinated more slowly. The + sterility of this union is the more remarkable, as it has already been + shown that the short-styled plants yield a larger number of seeds than the + long-styled, when both forms are fertilised, either naturally or + artificially, in a legitimate manner. + </p> + <p> + In a future chapter, when I treat of the offspring from heterostyled + dimorphic and trimorphic plants illegitimately fertilised with their + own-form pollen, I shall have occasion to show that with the present + species and several others, equal-styled varieties sometimes appear. + </p> + <p> + Primula elatior, Jacq. Bardfield oxlip of English authors. + </p> + <p> + This plant, as well as the last or cowslip (P. veris, vel officinalis), + and the primrose (P. vulgaris, vel acaulis) have been considered by some + botanists as varieties of the same species. But they are all three + undoubtedly distinct, as will be shown in the next chapter. The present + species resembles to a certain extent in general appearance the common + oxlip, which is a hybrid between the cowslip and primrose. Primula elatior + is found in England only in two or three of the eastern counties; and I + was supplied with living plants by Mr. Doubleday, who, as I believe, first + called attention to its existence in England. It is common in some parts + of the Continent; and H. Muller has seen several kinds of humble-bees and + other bees, and Bombylius, visiting the flowers in North Germany. (1/9. + ‘Die Befruchtung der Blumen’ page 347.) + </p> + <p> + The results of my trials on the relative fertility of the two forms, when + legitimately and illegitimately fertilised, are given in Table 1.8. + </p> + <p> + TABLE 1.8. Primula elatior. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of good Capsules produced. Column 4: Maximum Number of + Seeds in any one Capsule. Column 5: Minimum Number of Seeds in any one + Capsule. Column 6: Average Number of Seeds per Capsule. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 10 : 6 : 62 : 34 + : 46.5. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 20 : 4 : 49* : 2 : + 27.7. (*These seeds were so poor and small that they could hardly have + germinated.) + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 10 : 8 : 61 : 37 + : 47.7. + </p> + <p> + Short-styled by own-form pollen. Illegitimate union : 17 : 3 : 19 : 9 : + 12.1. + </p> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions together : 20 : 14 : 62 : 37 : 47.1. + </p> + <p> + The two illegitimate unions together : 37 : 7 : 49* : 2 : 35.5. (*These + seeds were so poor and small that they could hardly have germinated.) + </p> + <p> + If we compare the fertility of the two legitimate unions taken together + with that of the two illegitimate unions together, as judged by the + proportional number of flowers which when fertilised in the two methods + yielded capsules, the ratio is as 100 to 27; so that by this standard the + present species is much more sterile than P. veris, when both species are + illegitimately fertilised. If we judge of the relative fertility of the + two kinds of unions by the average number of seeds per capsule, the ratio + is as 100 to 75. But this latter number is probably much too high, as many + of the seeds produced by the illegitimately fertilised long-styled flowers + were so small that they probably would not have germinated, and ought not + to have been counted. Several long-styled and short- styled plants were + protected from the access of insects, and must have been spontaneously + self-fertilised. They yielded altogether only six capsules, containing any + seeds; and their average number was only 7.8 per capsule. Some, moreover, + of these seeds were so small that they could hardly have germinated. + </p> + <p> + Herr W. Breitenbach informs me that he examined, in two sites near the + Lippe (a tributary of the Rhine), 894 flowers produced by 198 plants of + this species; and he found 467 of these flowers to be long-styled, 411 + short-styled, and 16 equal- styled. I have heard of no other instance with + heterostyled plants of equal- styled flowers appearing in a state of + nature, though far from rare with plants which have been long cultivated. + It is still more remarkable that in eighteen cases the same plant produced + both long-styled and short-styled, or long-styled and equal-styled + flowers; and in two out of the eighteen cases, long-styled, short-styled, + and equal-styled flowers. The long-styled flowers greatly preponderated on + these eighteen plants,—61 consisting of this form, 15 of + equal-styled, and 9 of the short-styled form. + </p> + <p> + Primula vulgaris (var. acaulis, Linn.) The primrose of English Writers. + </p> + <p> + (FIGURE 1.3. Outlines of pollen-grains of Primula vulgaris, distended with + water, much magnified and drawn under the camera lucida. The upper and + smaller grains from the long-styled form; the lower and larger grains from + the short- styled.) + </p> + <p> + Mr. J. Scott examined 100 plants growing near Edinburgh, and found 44 to + be long-styled, and 56 short-styled; and I took by chance 79 plants in + Kent, of which 39 were long-styled and 40 short-styled; so that the two + lots together consisted of 83 long-styled and 96 short-styled plants. In + the long-styled form the pistil is to that of the short-styled in length, + from an average of five measurements, as 100 to 51. The stigma in the + long-styled form is conspicuously more globose and much more papillose + than in the short-styled, in which latter it is depressed on the summit; + it is equally broad in the two forms. In both it stands nearly, but not + exactly, on a level with the anthers of the opposite form; for it was + found, from an average of 15 measurements, that the distance between the + middle of the stigma and the middle of the anthers in the short- styled + form is to that in the long-styled as 100 to 93. The anthers do not differ + in size in the two forms. The pollen-grains from the short-styled flowers + before they were soaked in water were decidedly broader, in proportion to + their length, than those from the long-styled; after being soaked they + were relatively to those from the long-styled as 100 to 71 in diameter, + and more transparent. A large number of flowers from the two forms were + compared, and 12 of the finest flowers from each lot were measured, but + there was no sensible difference between them in size. Nine long-styled + and eight short-styled plants growing together in a state of nature were + marked, and their capsules collected after they had been naturally + fertilised; and the seeds from the short-styled weighed exactly twice as + much as those from an equal number of long-styled plants. So that the + primrose resembles the cowslip in the short-styled plants, being the more + productive of the two forms. The results of my trials on the fertility of + the two forms, when legitimately and illegitimately fertilised, are given + in Table 1.9. + </p> + <p> + TABLE 1.9. Primula vulgaris. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of good Capsules produced. Column 4: Maximum Number of + Seeds in any one Capsule. Column 5: Minimum Number of Seeds in any one + Capsule. Column 6: Average Number of Seeds per Capsule. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 12 : 11 : 77 : + 47 : 66.9. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 21 : 14 : 66 : 30 : + 52.2. + </p> +<pre xml:space="preserve"> +Short-styled by pollen of long-styled. Legitimate union: + 8 : 7 : 75 : 48 : 65.0. +</pre> + <p> + Short-styled by own-form pollen. Illegitimate union : 18 : 7 : 43 : 5 : + 18.8 (This average is perhaps rather too low). + </p> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions together : 20 : 18 : 77 : 47 : 66.0. + </p> + <p> + The two illegitimate unions together : 39 : 21 : 66 : 5 : 35.5 (This + average is perhaps rather too low). + </p> + <p> + We may infer from this table that the fertility of the two legitimate + unions taken together is to that of the two illegitimate unions together, + as judged by the proportional number of flowers which when fertilised in + the two methods yielded capsules, as 100 to 60. If we judge by the average + number of seeds per capsule produced by the two kinds of unions, the ratio + is as 100 to 54; but this latter figure is perhaps rather too low. It is + surprising how rarely insects can be seen during the day visiting the + flowers, but I have occasionally observed small kinds of bees at work; I + suppose, therefore, that they are commonly fertilised by nocturnal + Lepidoptera. The long-styled plants when protected from insects yield a + considerable number of capsules, and they thus differ remarkably from the + same form of the cowslip, which is quite sterile under the same + circumstances. Twenty-three spontaneously self-fertilised capsules from + this form contained, on an average, 19.2 seeds. The short-styled plants + produced fewer spontaneously self-fertilised capsules, and fourteen of + them contained only 6.2 seeds per capsule. The self-fertilisation of both + forms was probably aided by Thrips, which abounded within the flowers; but + these minute insects could not have placed nearly sufficient pollen on the + stigmas, as the spontaneously self-fertilised capsules contained much + fewer seeds, on an average, than those (as may be seen in Table 1.9.) + which were artificially fertilised with their own-form pollen. But this + difference may perhaps be attributed in part to the flowers in the table + having been fertilised with pollen from a distinct plant belonging to the + same form; whilst those which were spontaneously self-fertilised no doubt + generally received their own pollen. In a future part of this volume some + observations will be given on the fertility of a red-coloured variety of + the primrose. + </p> + <p> + Primula Sinensis. + </p> + <p> + In the long-styled form the pistil is about twice as long as that of the + short- styled, and the stamens differ in a corresponding, but reversed, + manner. The stigma is considerably more elongated and rougher than that of + the short-styled, which is smooth and almost spherical, being somewhat + depressed on the summit; but the stigma varies much in all its characters, + the result, probably, of cultivation. The pollen-grains of the + short-styled form, according to Hildebrand, are 7 divisions of the + micrometer in length and 5 in breadth; whereas those of the long-styled + are only 4 in length and 3 in breadth. (1/10. After the appearance of my + paper this author published some excellent observations on the present + species ‘Botanische Zeitung’ January 1, 1864, and he shows that I erred + greatly about the size of the pollen-grains in the two forms. I suppose + that by mistake I measured twice over pollen-grains from the same form.) + The grains, therefore, of the short-styled are to those of the long- + styled in length as 100 to 57. Hildebrand also remarked, as I had done in + the case of P. veris, that the smaller grains from the long-styled are + much more transparent than the larger ones from the short-styled form. We + shall hereafter see that this cultivated plant varies much in its + dimorphic condition and is often equal-styled. Some individuals may be + said to be sub-heterostyled; thus in two white-flowered plants the pistil + projected above the stamens, but in one of them it was longer and had a + more elongated and rougher stigma, than in the other; and the + pollen-grains from the latter were to those from the plant with a more + elongated pistil only as 100 to 88 in diameter, instead of as 100 to 57. + The corolla of the long-styled and short-styled form differs in shape, in + the same manner as in P. veris. The long-styled plants tend to flower + before the short-styled. When both forms were legitimately fertilised, the + capsules from the short-styled plants contained, on an average, more seeds + than those from the long-styled, in the ratio of 12.2 to 9.3 by weight, + that is, as 100 to 78. In Table 1.10 we have the results of two sets of + experiments tried at different periods. + </p> + <p> + TABLE 1.10. Primula Sinensis. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of good Capsules produced. Column 4: Average Weight of + Seeds per Capsule. ... Column 5: Average Number of Seeds per Capsule as + ascertained on a subsequent occasion. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 24 : 16 : 0.58 + :: 50. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 20 : 13 : 0.45 :: 35. + </p> +<pre xml:space="preserve"> +Short-styled by pollen of long-styled. Legitimate union: + 8 : 8 : 0.76 :: 64. +</pre> +<pre xml:space="preserve"> +Short-styled by own-form pollen. Illegitimate union : + 7 : 4 : 0.23 :: 25. +</pre> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions together : 32 : 24 : 0.64 :: 57. + </p> + <p> + The two illegitimate unions together : 27 : 17 : 0.40 :: 30. + </p> + <p> + The fertility, therefore, of the two legitimate unions together to that of + the two illegitimate unions, as judged by the proportional number of + flowers which yielded capsules, is as 100 to 84. Judging by the average + weight of seeds per capsule produced by the two kinds of unions, the ratio + is as 100 to 63. On another occasion a large number of flowers of both + forms were fertilised in the same manner, but no account of their number + was kept. The seeds, however, were carefully counted, and the averages are + shown in the right hand column. The ratio for the number of seeds produced + by the two legitimate compared with the two illegitimate unions is here + 100 to 53, which is probably more accurate than the foregoing one of 100 + to 63. + </p> + <p> + TABLE 1.11. Primula Sinensis (from Hildebrand). + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of good Capsules produced. Column 4: Average Number of + Seeds per Capsule. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 14 : 14 : 41. + </p> + <p> + Long-styled by own-form pollen, from a distinct plant. Illegitimate union + : 26 : 26 : 18. + </p> + <p> + Long-styled by pollen from same flower. Illegitimate union : 27 : 21 : 17. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 14 : 14 : 44. + </p> + <p> + Short-styled by own-form pollen, from a distinct plant. Illegitimate union + : 16 : 16 : 20. + </p> + <p> + Short-styled by pollen from the same flower. Illegitimate union : 21 : 11 + : 8. + </p> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions together : 28 : 28 : 43. + </p> + <p> + The two illegitimate unions together (own-form pollen): 42 : 42 : 18. + </p> + <p> + The two illegitimate unions together (pollen from the same flower ): 48 : + 32 : 13. + </p> + <p> + Hildebrand in the paper above referred to gives the results of his + experiments on the present species; and these are shown in a condensed + form in Table 1.11. Besides using for the illegitimate unions pollen from + a distinct plant of the same form, as was always done by me, he tried, in + addition, the effects of the plant’s own pollen. He counted the seeds. + </p> + <p> + It is remarkable that here all the flowers which were fertilised + legitimately, as well as those fertilised illegitimately with pollen from + a distinct plant belonging to the same form, yielded capsules; and from + this fact it might be inferred that the two forms were reciprocally much + more fertile in his case than in mine. But his illegitimately fertilised + capsules from both forms contained fewer seeds relatively to the + legitimately fertilised capsules than in my experiments; for the ratio in + his case is as 42 to 100, instead of, as in mine, as 53 to 100. Fertility + is a very variable element with most plants, being determined by the + conditions to which they are subjected, of which fact I have observed + striking instances with the present species; and this may account for the + difference between my results and those of Hildebrand. His plants were + kept in a room, and perhaps were grown in too small pots or under some + other unfavourable conditions, for his capsules in almost every case + contained a smaller number of seeds than mine, as may be seen by comparing + the right hand columns in Tables 1.10 and 1.11. + </p> + <p> + The most interesting point in Hildebrand’s experiments is the difference + in the effects of illegitimate fertilisation with a flower’s own pollen, + and with that from a distinct plant of the same form. In the latter case + all the flowers produced capsules, whilst only 67 out of 100 of those + fertilised with their own pollen produced capsules. The self-fertilised + capsules also contained seeds, as compared with capsules from flowers + fertilised with pollen from a distinct plant of the same form, in the + ratio of 72 to 100. + </p> + <p> + In order to ascertain how far the present species was spontaneously self- + fertile, five long-styled plants were protected by me from insects; and + they bore up to a given period 147 flowers which set 62 capsules; but many + of these soon fell off, showing that they had not been properly + fertilised. At the same time five short-styled plants were similarly + treated, and they bore 116 flowers which ultimately produced only seven + capsules. On another occasion 13 protected long-styled plants yielded by + weight 25.9 grains of spontaneously self- fertilised seeds. At the same + time seven protected short-styled plants yielded only half-a-grain weight + of seeds. Therefore the long-styled plants yielded nearly 24 times as many + spontaneously self-fertilised seeds as did the same number of short-styled + plants. The chief cause of this great difference appears to be, that when + the corolla of a long-styled plant falls off, the anthers, from being + situated near the bottom of the tube are necessarily dragged over the + stigma and leave pollen on it, as I saw when I hastened the fall of nearly + withered flowers; whereas in the short-styled flowers, the stamens are + seated at the mouth of the corolla, and in falling off do not brush over + the lowly-seated stigmas. Hildebrand likewise protected some long-styled + and short-styled plants, but neither ever yielded a single capsule. He + thinks that the difference in our results may be accounted for by his + plants having been kept in a room and never having been shaken; but this + explanation seems to me doubtful; his plants were in a less fertile + condition than mine, as shown by the difference in the number of seeds + produced, and it is highly probable that their lessened fertility would + have interfered with especial force with their capacity for producing + self- fertilised seeds. + </p> + <p> + [Primula auricula. (1/11. According to Kerner our garden auriculas are + descended from P. pubescens, Jacq., which is a hybrid between the true P. + auricula and hirsuta. This hybrid has now been propagated for about 300 + years, and produces, when legitimately fertilised, a large number of + seeds; the long-styled forms yielding an average number of 73, and the + short-styled 98 seeds per capsule: see his “Geschichte der Aurikel” + ‘Zeitschr. des Deutschen und Oest. Alpen-Vereins’ Band 6 page 52. Also + ‘Die Primulaceen-Bastarten’ ‘Oest. Botanische Zeitschrift’ 1835 Numbers 3, + 4 and 5.) + </p> + <p> + This species is heterostyled, like the preceding ones; but amongst the + varieties distributed by florists the long-styled form is rare, as it is + not valued. There is a much greater relative inequality in the length of + the pistil and stamens in the two forms of the auricula than in the + cowslip; the pistil in the long-styled being nearly four times as long as + that in the short-styled, in which it is barely longer than the ovarium. + The stigma is nearly of the same shape in both forms, but is rougher in + the long-styled, though the difference is not so great as between the two + forms of the cowslip. In the long-styled plants the stamens are very + short, rising but little above the ovarium. The pollen-grains of these + short stamens, when distended with water, were barely 5/6000 of an inch in + diameter, whereas those from the long stamens of the short-styled plants + were barely 7/6000, showing a relative difference of about 71 to 100. The + smaller grains of the long-styled plant are also much more transparent, + and before distention with water more triangular in outline than those of + the other form. Mr. Scott compared ten plants of both forms growing under + similar conditions, and found that, although the long-styled plant + produced more umbels and more capsules than the short-styled, yet they + yielded fewer seeds, in the ratio of 66 to 100. (1/12. ‘Journal of the + Linnean Society Botany’ volume 8 1864 page 86.) Three short-styled plants + were protected by me from the access of insects, and they did not produce + a single seed. Mr. Scott protected six plants of both forms, and found + them excessively sterile. The pistil of the long-styled form stands so + high above the anthers, that it is scarcely possible that pollen should + reach the stigma without some aid; and one of Mr. Scott’s long-styled + plants which yielded a few seeds (only 18 in number) was infested by + aphides, and he does not doubt that these had imperfectly fertilised it. + </p> + <p> + I tried a few experiments by reciprocally fertilising the two forms in the + same manner as before, but my plants were unhealthy, so I will give, in a + condensed form, the results of Mr. Scott’s experiments. For fuller + particulars with respect to this and the five following species, the paper + lately referred to may be consulted. In each case the fertility of the two + legitimate unions, taken together, is compared with that of the two + illegitimate unions together, by the same two standards as before, namely, + by the proportional number of flowers which produced good capsules, and by + the average number of seeds per capsule. The fertility of the legitimate + unions is always taken at 100. + </p> + <p> + By the first standard, the fertility of the two legitimate unions of the + auricula is to that of the two illegitimate unions as 100 to 80; and by + the second standard as 100 to 15. + </p> + <p> + Primula Sikkimensis. + </p> + <p> + According to Mr. Scott, the pistil of the long-styled form is fully four + times as long as that of the short-styled, but their stigmas are nearly + alike in shape and roughness. The stamens do not differ so much in + relative length as the pistils. The pollen-grains differ in a marked + manner in the two forms; “those of the long-styled plants are sharply + triquetrous, smaller, and more transparent than those of the short-styled, + which are of a bluntly triangular form.” The fertility of the two + legitimate unions to that of the two illegitimate unions is by the first + standard as 100 to 95, and by the second standard as 100 to 31. + </p> + <p> + Primula cortusoides. + </p> + <p> + The pistil of the long-styled form is about thrice as long as that of the + short- styled, the stigma being double as long and covered with much + longer papillae. The pollen-grains of the short-styled form are, as usual, + “larger, less transparent, and more bluntly triangular than those from the + long-styled plants.” The fertility of the two legitimate unions to that of + the two illegitimate unions is by the first standard as 100 to 74, and by + the second standard as 100 to 66. + </p> + <p> + Primula involucrata. + </p> + <p> + The pistil of the long-styled form is about thrice as long as that of the + short- styled; the stigma of the former is globular and closely beset with + papillae, whilst that of the short-styled is smooth and depressed on the + apex. The pollen- grains of the two forms differ in size and transparency + as before, but not in shape. The fertility of the two legitimate to that + of the two illegitimate unions is by the first standard as 100 to 72; and + by the second standard as 100 to 47. + </p> + <p> + Primula farinosa. + </p> + <p> + According to Mr. Scott, the pistil of the long-styled form is only about + twice as long as that of the short-styled. The stigmas of the two forms + differ but little in shape. The pollen-grains differ in the usual manner + in size, but not in form. The fertility of the two legitimate to that of + the two illegitimate unions is by the first standard as 100 to 71, and by + the second standard as 100 to 44.] + </p> + <h3> + A SUMMARY ON THE FOREGOING HETEROSTYLED SPECIES OF PRIMULA. + </h3> + <p> + TABLE 1.12. Summary on the Fertility of the two Legitimate Unions, + compared with that of the two Illegitimate Unions, in the genus Primula. + The former taken at 100. + </p> + <p> + Column 1: Name of Species. Column 2: Illegitimate Unions, Judged of by the + Proportional Number of Flowers which produced Capsules. Column 3: + Illegitimate Unions, Judged of by the Average Number (or Weight in some + cases) of Seeds per Capsule. + </p> + <p> + Primula veris : 69 : 65. + </p> + <p> + Primula elatior : 27 : 75 (Probably too high). + </p> + <p> + Primula vulgaris : 60 : 54 (Perhaps too low). + </p> + <p> + Primula Sinensis : 84 : 63. + </p> + <p> + Primula Sinensis (second trial) : ? : 53. Primula Sinensis (after + Hildebrand) : 100 : 42. + </p> + <p> + Primula auricula (Scott) : 80 : 15. + </p> + <p> + Primula Sikkimensis (Scott): 95 : 31. + </p> + <p> + Primula cortusoides (Scott): 74 : 66. + </p> + <p> + Primula involucrata (Scott): 72 : 48. + </p> + <p> + Primula farinosa (Scott): 71 : 44. + </p> + <p> + Average of the nine species : 88.4 : 61.8. + </p> + <p> + The fertility of the long-and short-styled plants of the above species of + Primula, when the two forms are fertilised legitimately, and + illegitimately with pollen of the same form taken from a distinct plant, + has now been given. The results are seen in Table 1.12; the fertility + being judged by two standards, namely, by that of the proportional number + of flowers which yielded capsules, and by that of the average number of + seeds per capsule. But for full accuracy many more observations, under + varied conditions, would be requisite. + </p> + <p> + With plants of all kinds some flowers generally fail to produce capsules, + from various accidental causes; but this source of error has been + eliminated, as far as possible, in all the previous cases, by the manner + in which the calculations have been made. Supposing, for instance, that 20 + flowers were fertilised legitimately and yielded 18 capsules, and that 30 + flowers were fertilised illegitimately and yielded 15 capsules, we may + assume that on an average an equal proportion of the flowers in both lots + would fail to produce capsules from various accidental causes; and the + ratio of 18/20 to 15/30, or as 100 to 56 (in whole numbers), would show + the proportional number of capsules due to the two methods of + fertilisation; and the number 56 would appear in the left-hand column of + Table 1.12, and in my other tables. With respect to the average number of + seeds per capsule hardly anything need be said: supposing that the + legitimately fertilised capsules contained, on an average, 50 seeds, and + the illegitimately fertilised capsules 25 seeds; then as 50 is to 25 so is + 100 to 50; and the latter number would appear in the right hand column. + </p> + <p> + It is impossible to look at the above table and doubt that the legitimate + unions between the two forms of the above nine species of Primula are much + more fertile than the illegitimate unions; although in the latter case + pollen was always taken from a distinct plant of the same form. There is, + however, no close correspondence in the two rows of figures, which give, + according to the two standards, the difference of fertility between the + legitimate and illegitimate unions. Thus all the flowers of P. Sinensis + which were illegitimately fertilised by Hildebrand produced capsules; but + these contained only 42 per cent of the number of seeds yielded by the + legitimately fertilised capsules. So again, 95 per cent of the + illegitimately fertilised flowers of P. Sikkimensis produced capsules; but + these contained only 31 per cent of the number of seeds in the legitimate + capsules. On the other hand, with P. elatior only 27 per cent of the + illegitimately fertilised flowers yielded capsules; but these contained + nearly 75 per cent of the legitimate number of seeds. It appears that the + setting of the flowers, that is, the production of capsules whether good + or bad, is not so much influenced by legitimate and illegitimate + fertilisation as is the number of seeds which the capsules contain. For, + as may be seen at the bottom of Table 1.12, 88.4 per cent of the + illegitimately fertilised flowers yielded capsules; but these contained + only 61.8 per cent of seeds, in comparison, in each case, with the + legitimately fertilised flowers and capsules of the same species. There is + another point which deserves notice, namely, the relative degree of + infertility in the several species of the long-styled and short-styled + flowers, when both are illegitimately fertilised. The data may be found in + the earlier tables, and in those given by Mr. Scott in the Paper already + referred to. If we call the number of seeds per capsule produced by the + illegitimately fertilised long-styled flowers 100, the seeds from the + illegitimately fertilised short- styled flowers will be represented by the + following numbers (Table 1.a.):— + </p> + <p> + TABLE 1.a. + </p> + <p> + Primula veris : 71. + </p> + <p> + Primula elatior : 44 (Probably too low). + </p> + <p> + Primula vulgaris : 36 (Perhaps too low). + </p> + <p> + Primula Sinensis : 71. + </p> + <p> + Primula auricula : 119. + </p> + <p> + Primula Sikkimensis : 57. + </p> + <p> + Primula cortusoides : 93. + </p> + <p> + Primula involucrata : 74. + </p> + <p> + Primula farinosa : 63. + </p> + <p> + We thus see that, with the exception of P. auricula, the long-styled + flowers of all nine species are more fertile than the short-styled + flowers, when both forms are illegitimately fertilised. Whether P. + auricula really differs from the other species in this respect I can form + no opinion, as the result may have been accidental. The degree of + self-fertility of a plant depends on two elements, namely, on the stigma + receiving its own pollen and on its more or less efficient action when + placed there. Now as the anthers of the short-styled flowers of several + species of Primula stand directly above the stigma, their pollen is more + likely to fall on it, or to be carried down to it by insects, than in the + case of the long-styled form. It appears probable, therefore, at first + sight, that the lessened capacity of the short-styled flowers to be + fertilised with their own pollen, is a special adaptation for + counteracting their greater liability to receive their own pollen, and + thus for checking self-fertilisation. But from facts with respect to other + species hereafter to be given, this view can hardly be admitted. In + accordance with the above liability, when some of the species of Primula + were allowed to fertilise themselves spontaneously under a net, all + insects being excluded, except such minute ones as Thrips, the + short-styled flowers, notwithstanding their greater innate self-sterility, + yielded more seed than did the long-styled. None of the species, however, + when insects were excluded, made a near approach to full fertility. But + the long-styled form of P. Sinensis gave, under these circumstances, a + considerable number of seeds, as the corolla in falling off drags the + anthers, which are seated low down in the tube, over the stigma, and thus + leaves plenty of pollen on it. + </p> + <h3> + HOMOSTYLED SPECIES OF PRIMULA. + </h3> + <p> + It has now been shown that nine of the species in this genus exist under + two forms, which differ not only in structure but in function. Besides + these Mr. Scott enumerates 27 other species which are heterostyled (1/13. + H. Muller has given in ‘Nature’ December 10, 1874 page 110, a drawing of + one of these species, viz. The alpine P. villosa, and shows that it is + fertilised exclusively by Lepidoptera.); and to these probably others will + be hereafter added. Nevertheless, some species are homostyled; that is, + they exist only under a single form; but much caution is necessary on this + head, as several species when cultivated are apt to become equal-styled. + Mr. Scott believes that P. Scotica, verticillata, a variety of Sibirica, + elata, mollis, and longiflora, are truly homostyled; and to these may be + added, according to Axell, P. stricta. (1/14. Koch was aware that this + species was homostyled: see “Treviranus uber Dichogamie nach Sprengel und + Darwin” ‘Botanische Zeitung’ January 2, 1863 page 4.) Mr. Scott + experimented on P. Scotica, mollis, and verticillata, and found that their + flowers yielded an abundance of seeds when fertilised with their own + pollen. This shows that they are not heterostyled in function. P. Scotica + is, however, only moderately fertile when insects are excluded, but this + depends merely on the coherent pollen not readily falling on the stigma + without their aid. Mr. Scott also found that the capsules of P. + verticillata contained rather more seed when the flowers were fertilised + with pollen from a distinct plant than when with their own pollen; and + from this fact he infers that they are sub- heterostyled in function, + though not in structure. But there is no evidence that two sets of + individuals exist, which differ slightly in function and are adapted for + reciprocal fertilisation; and this is the essence of heterostylism. The + mere fact of a plant being more fertile with pollen from a distinct + individual than with its own pollen, is common to very many species, as I + have shown in my work ‘On the Effects of Cross and Self-fertilisation.’ + </p> + <p> + Hottonia palustris. + </p> + <p> + This aquatic member of the Primulaceae is conspicuously heterostyled, as + the pistil of the long-styled form projects far out of the flower, the + stamens being enclosed within the tube; whilst the stamens of the + short-styled flower project far outwards, the pistil being enclosed. This + difference between the two forms has attracted the attention of various + botanists, and that of Sprengel, in 1793, who, with his usual sagacity, + adds that he does not believe the existence of the two forms to be + accidental, though he cannot explain their purpose. (1/15. ‘Das entdeckte + Geheimniss der Nature’ page 103.) The pistil of the long-styled form is + more than twice as long as that of the short-styled, with the stigma + rather smaller, though rougher. H. Muller gives figures of the stigmatic + papillae of the two forms, and those of the long-styled are seen to be + more than double the length, and much thicker than the papillae of the + short-styled form. (1/16. ‘Die Befruchtung’ etc. page 350.) The anthers in + the one form do not stand exactly on a level with the stigma in the other + form; for the distance between the organs is greater in the short-styled + than in the long-styled flowers in the proportion of 100 to 71. In dried + specimens soaked in water the anthers of the short-styled form are larger + than those of the long-styled, in the ratio of 100 to 83. The + pollen-grains, also, from the short-styled flowers are conspicuously + larger than those from the long-styled; the ratio between the diameters of + the moistened grains being as 100 to 64, according to my measurements, but + according to the measurements of H. Muller as 100 to 61; and his are + probably the more accurate of the two. The contents of the larger + pollen-grains appear more coarsely granular and of a browner tint, than + those in the smaller grains. The two forms of Hottonia thus agree closely + in most respects with those of the heterostyled species of Primula. The + flowers of Hottonia are cross-fertilised, according to Muller, chiefly by + Diptera. + </p> + <p> + Mr. Scott made a few trials on a short-styled plant, and found that the + legitimate unions were in all ways more fertile than the illegitimate + (1/17. ‘Journal of the Linnean Society Botany’ volume 8 1864 page 79.); + but since the publication of his paper H. Muller has made much fuller + experiments, and I give his results in Table 1.13, drawn up in accordance + with my usual plan:— + </p> + <p> + TABLE 1.13. Hottonia palustris (from H. Muller). + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Capsules examined. + Column 3: Average Number of Seeds per Capsule. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union: 34 : 91.4. + </p> + <p> + Long-styled by own-form pollen, from a distinct plant. Illegitimate union: + 18 : 77.5. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 30 : 66.2. + </p> + <p> + Short-styled by own-form pollen, from a distinct plant. Illegitimate + union: 19 : 18.7. + </p> + <h3> + A SUMMARY: + </h3> + <p> + The two legitimate unions together: 64 : 78.8. + </p> + <p> + The two illegitimate unions together: 37 : 48.1. + </p> + <p> + The most remarkable point in this table is the small average number of + seeds from the short-styled flowers when illegitimately fertilised, and + the unusually large average number of seeds yielded by the illegitimately + fertilised long- styled flowers, relatively in both cases to the product + of the legitimately fertilised flowers. (1/18. H. Muller says ‘Die + Befruchtung’ etc. page 352, that the long-styled flowers, when + illegitimately fertilised, yield as many seeds as when legitimately + fertilised; but by adding up the number of seeds from all the capsules + produced by the two methods of fertilisation, as given by him, I arrive at + the results shown in Table 1.13. The average number in the long-styled + capsules, when legitimately fertilised, is 91.4, and when illegitimately + fertilised, 77.5; or as 100 to 85. H. Muller agrees with me that this is + the proper manner of viewing the case.) The two legitimate unions compared + with the two illegitimate together yield seeds in the ratio of 100 to 61. + </p> + <p> + H. Muller also tried the effects of illegitimately fertilising the + long-styled and short-styled flowers with their own pollen, instead of + with that from another plant of the same form; and the results are very + striking. For the capsules from the long-styled flowers thus treated + contained, on an average, only 15.7 seeds instead of 77.5; and those from + the short-styled 6.5, instead of 18.7 seeds per capsule. The number 6.5 + agrees closely with Mr. Scott’s result from the same form similarly + fertilised. + </p> + <p> + From some observations by Dr. Torrey, Hottonia inflata, an inhabitant of + the United States, does not appear to be heterostyled, but is remarkable + from producing cleistogamic flowers, as will be seen in the last chapter + of this volume. + </p> + <p> + Besides the genera Primula and Hottonia, Androsace (vel Gregoria, vel + Aretia) vitalliana is heterostyled. Mr. Scott fertilised with their own + pollen 21 flowers on three short-styled plants in the Edinburgh Botanic + Gardens, and not one yielded a single seed; but eight of them which were + fertilised with pollen from one of the other plants of the same form, set + two empty capsules. (1/19. See also Treviranus in ‘Botanische Zeitung’ + 1863 page 6 on this plant being dimorphic.) He was able to examine only + dried specimens of the long-styled forms. But the evidence seems + sufficient to leave hardly a doubt that Androsace is heterostyled. Fritz + Muller sent me from South Brazil dried flowers of a Statice which he + believed to be heterostyled. In the one form the pistil was considerably + longer and the stamens slightly shorter than the corresponding organs in + the other form. But as in the shorter-styled form the stigmas reached up + to the anthers of the same flower, and as I could not detect in the dried + specimens of the two forms any difference in their stigmas, or in the size + of their pollen-grains, I dare not rank this plant as heterostyled. From + statements made by Vaucher I was led to think that Soldanella alpina was + heterostyled, but it is impossible that Kerner, who has closely studied + this plant, could have overlooked the fact. So again from other statements + it appeared probable that Pyrola might be heterostyled, but H. Muller + examined for me two species in North Germany, and found this not to be the + case. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0002" id="link2HCH0002"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER II. HYBRID PRIMULAS. + </h2> +<pre xml:space="preserve"> + The oxlip a hybrid naturally produced between Primula veris and vulgaris. + The differences in structure and function between the two parent-species. + Effects of crossing long-styled and short-styled oxlips with one another and + with the two forms of both parent-species. + Character of the offspring from oxlips artificially self-fertilised and cross- + fertilised in a state of nature. + Primula elatior shown to be a distinct species. + Hybrids between other heterostyled species of Primula. + Supplementary note on spontaneously produced hybrids in the genus Verbascum. +</pre> + <p> + The various species of Primula have produced in a state of nature + throughout Europe an extraordinary number of hybrid forms. For instance, + Professor Kerner has found no less than twenty-five such forms in the + Alps. (2/1. “Die Primulaceen-Bastarten” ‘Oesterr. Botanische Zeitschrift’ + Jahr 1875 Numbers 3, 4 and 5. See also Godron on hybrid Primulas in ‘Bull. + Soc. Bot. de France’ tome 10 1853 page 178. Also in ‘Revue des Sciences + Nat.’ 1875 page 331.) The frequent occurrence of hybrids in this genus no + doubt has been favoured by most of the species being heterostyled, and + consequently requiring cross-fertilisation by insects; yet in some other + genera, species which are not heterostyled and which in some respects + appear not well adapted for hybrid-fertilisation, have likewise been + largely hybridised. In certain districts of England, the common oxlip—a + hybrid between the cowslip (P. veris, vel officinalis) and the primrose + (P. vulgaris, vel acaulis)—is frequently found, and it occurs + occasionally almost everywhere. Owing to the frequency of this + intermediate hybrid form, and to the existence of the Bardfield oxlip (P. + elatior), which resembles to a certain extent the common oxlip, the claim + of the three forms to rank as distinct species has been discussed oftener + and at greater length than that of almost any other plant. Linnaeus + considered P. veris, vulgaris and elatior to be varieties of the same + species, as do some distinguished botanists at the present day; whilst + others who have carefully studied these plants do not doubt that they are + distinct species. The following observations prove, I think, that the + latter view is correct; and they further show that the common oxlip is a + hybrid between P. veris and vulgaris. + </p> + <p> + The cowslip differs so conspicuously in general appearance from the + primrose, that nothing need here be said with respect to their external + characters. (2/2. The Reverend W.A. Leighton has pointed out certain + differences in the form of the capsules and seed in ‘Annals and Magazine + of Natural History’ 2nd series volume 2 1848 page 164.) But some less + obvious differences deserve notice. As both species are heterostyled, + their complete fertilisation depends on insects. The cowslip is habitually + visited during the day by the larger humble-bees (namely Bombus muscorum + and hortorum), and at night by moths, as I have seen in the case of + Cucullia. The primrose is never visited (and I speak after many years’ + observation) by the larger humble-bees, and only rarely by the smaller + kinds; hence its fertilisation must depend almost exclusively on moths. + There is nothing in the structure of the flowers of the two plants which + can determine the visits of such widely different insects. But they emit a + different odour, and perhaps their nectar may have a different taste. Both + the long-styled and short-styled forms of the primrose, when legitimately + and naturally fertilised, yield on an average many more seeds per capsule + than the cowslip, namely, in the proportion of 100 to 55. When + illegitimately fertilised they are likewise more fertile than the two + forms of the cowslip, as shown by the larger proportion of their flowers + which set capsules, and by the larger average number of seeds which the + capsules contain. The difference also between the number of seeds produced + by the long-styled and short-styled flowers of the primrose, when both are + illegitimately fertilised, is greater than that between the number + produced under similar circumstances by the two forms of the cowslip. The + long-styled flowers of the primrose when protected from the access of all + insects, except such minute ones as Thrips, yield a considerable number of + capsules containing on an average 19.2 seeds per capsule; whereas 18 + plants of the long-styled cowslip similarly treated did not yield a single + seed. + </p> + <p> + The primrose, as every one knows, flowers a little earlier in the spring + than the cowslip, and inhabits slightly different stations and districts. + The primrose generally grows on banks or in woods, whilst the cowslip is + found in more open places. The geographical range of the two forms is + different. Dr. Bromfield remarks that “the primrose is absent from all the + interior region of northern Europe, where the cowslip is indigenous.” + (2/3. ‘Phytologist’ volume 3 page 694.) In Norway, however, both plants + range to the same degree of north latitude. (2/4. H. Lecoq ‘Geograph. Bot. + de l’Europe’ tome 8 1858 pages 141, 144. See also ‘Annals and Magazine of + Natural History’ 9 1842 pages 156, 515. Also Boreau ‘Flore du centre de la + France’ 1840 tome 2 page 376. With respect to the rarity of P. veris in + western Scotland, see H.C. Watson ‘Cybele Britannica’ 2 page 293.) + </p> + <p> + The cowslip and primrose, when intercrossed, behave like distinct species, + for they are far from being mutually fertile. Gartner crossed 27 flowers + of P. vulgaris with pollen of P. veris, and obtained 16 capsules; but + these did not contain any good seed. (2/5. ‘Bastarderzeugung’ 1849 page + 721.) He also crossed 21 flowers of P. veris with pollen of P. vulgaris; + and now he got only five capsules, containing seed in a still less perfect + condition. Gartner knew nothing about heterostylism; and his complete + failure may perhaps be accounted for by his having crossed together the + same forms of the cowslip and primrose; for such crosses would have been + of an illegitimate as well as of a hybrid nature, and this would have + increased their sterility. My trials were rather more fortunate. + Twenty-one flowers, consisting of both forms of the cowslip and primrose, + were intercrossed legitimately, and yielded seven capsules (i.e. 33 per + cent), containing on an average 42 seeds; some of these seeds, however, + were so poor that they probably would not have germinated. Twenty-one + flowers on the same cowslip and primrose plants were also intercrossed + illegitimately, and they likewise yielded seven capsules (or 33 per cent), + but these contained on an average only 13 good and bad seeds. I should, + however, state that some of the above flowers of the primrose were + fertilised with pollen from the polyanthus, which is certainly a variety + of the cowslip, as may be inferred from the perfect fertility inter se of + the crossed offspring from these two plants. (2/6. Mr. Scott has discussed + the nature of the polyanthus (‘Proceedings of the Linnean Society’ 8 + Botany 1864 page 103), and arrives at a different conclusion; but I do not + think that his experiments were sufficiently numerous. The degree of + infertility of a cross is liable to much fluctuation. Pollen from the + cowslip at first appears rather more efficient on the primrose than that + of the polyanthus; for 12 flowers of both forms of the primrose, + fertilised legitimately and illegitimately with pollen of the cowslip gave + five capsules, containing on an average 32.4 seeds; whilst 18 flowers + similarly fertilised by polyanthus-pollen yielded only five capsules, + containing only 22.6 seeds. On the other hand, the seeds produced by the + polyanthus-pollen were much the finest of the whole lot, and were the only + ones which germinated.) To show how sterile these hybrid unions were I may + remind the reader that 90 per cent of the flowers of the primrose + fertilised legitimately with primrose-pollen yielded capsules, containing + on an average 66 seeds; and that 54 per cent of the flowers fertilised + illegitimately yielded capsules containing on an average 35.5 seeds per + capsule. The primrose, especially the short-styled form, when fertilised + by the cowslip, is less sterile, as Gartner likewise observed, than is the + cowslip when fertilised by the primrose. The above experiments also show + that a cross between the same forms of the primrose and cowslip is much + more sterile than that between different forms of these two species. + </p> + <p> + The seeds from the several foregoing crosses were sown, but none + germinated except those from the short-styled primrose fertilised with + pollen of the polyanthus; and these seeds were the finest of the whole + lot. I thus raised six plants, and compared them with a group of wild + oxlips which I had transplanted into my garden. One of these wild oxlips + produced slightly larger flowers than the others, and this one was + identical in every character (in foliage, flower- peduncle, and flowers) + with my six plants, excepting that the flowers of the latter were tinged + of a dingy red colour, from being descended from the polyanthus. + </p> + <p> + We thus see that the cowslip and primrose cannot be crossed either way + except with considerable difficulty, that they differ conspicuously in + external appearance, that they differ in various physiological characters, + that they inhabit slightly different stations and range differently. Hence + those botanists who rank these plants as varieties ought to be able to + prove that they are not as well fixed in character as are most species; + and the evidence in favour of such instability of character appears at + first sight very strong. It rests, first, on statements made by several + competent observers that they have raised cowslips, primroses, and oxlips + from seeds of the same plant; and, secondly, on the frequent occurrence in + a state of nature of plants presenting every intermediate gradation + between the cowslip and primrose. + </p> + <p> + The first statement, however, is of little value; for, heterostylism not + being formerly understood, the seed-bearing plants were in no instance + protected from the visits of insects (2/7. One author states in the + ‘Phytologist’ volume 3 page 703 that he covered with bell-glasses some + cowslips, primroses, etc., on which he experimented. He specifies all the + details of his experiment, but does not say that he artificially + fertilised his plants; yet he obtained an abundance of seed, which is + simply impossible. Hence there must have been some strange error in these + experiments, which may be passed over as valueless.); and there would be + almost as much risk of an isolated cowslip, or of several cowslips if + consisting of the same form, being crossed by a neighbouring primrose and + producing oxlips, as of one sex of a dioecious plant, under similar + circumstances, being crossed by the opposite sex of an allied and + neighbouring species. Mr. H.C. Watson, a critical and most careful + observer, made many experiments by sowing the seeds of cowslips and of + various kinds of oxlips, and arrived at the following conclusion, namely, + “that seeds of a cowslip can produce cowslips and oxlips, and that seeds + of an oxlip can produce cowslips, oxlips, and primroses.” (2/8. + ‘Phytologist’ 2 pages 217, 852; 3 page 43.) This conclusion harmonises + perfectly with the view that in all cases, when such results have been + obtained, the unprotected cowslips have been crossed by primroses, and the + unprotected oxlips by either cowslips or primroses; for in this latter + case we might expect, by the aid of reversion, which notoriously comes + into powerful action with hybrids, that the two parent-forms in appearance + pure, as well as many intermediate gradations, would be occasionally + produced. Nevertheless the two following statements offer considerable + difficulty. The Reverend Professor Henslow raised from seeds of a cowslip + growing in his garden, various kinds of oxlips and one perfect primrose; + but a statement in the same paper perhaps throws light on this anomalous + result. (2/9. Loudon’s ‘Magazine of Natural History’ 3 1830 page 409.) + Professor Henslow had previously transplanted into his garden a cowslip, + which completely changed its appearance during the following year, and now + resembled an oxlip. Next year again it changed its character, and + produced, in addition to the ordinary umbels, a few single- flowered + scapes, bearing flowers somewhat smaller and more deeply coloured than + those of the common primrose. From what I have myself observed with + oxlips, I cannot doubt that this plant was an oxlip in a highly variable + condition, almost like that of the famous Cytisus adami. This presumed + oxlip was propagated by offsets, which were planted in different parts of + the garden; and if Professor Henslow took by mistake seeds from one of + these plants, especially if it had been crossed by a primrose, the result + would be quite intelligible. Another case is still more difficult to + understand: Dr. Herbert raised, from the seeds of a highly cultivated red + cowslip, cowslips, oxlips of various kinds, and a primrose. (2/10. + ‘Transactions of the Horticultural Society’ 4 page 19.) This case, if + accurately recorded, which I much doubt, is explicable only on the + improbable assumption that the red cowslip was not of pure parentage. With + species and varieties of many kinds, when intercrossed, one is sometimes + strongly prepotent over the other; and instances are known of a variety + crossed by another, producing offspring which in certain characters, as in + colour, hairiness, etc., have proved identical with the pollen-bearing + parent, and quite dissimilar to the mother-plant (2/11. I have given + instances in my work ‘On the Variation of Animals and Plants under + Domestication’ chapter 15 2nd edition volume 2 page 69.); but I do not + know of any instance of the offspring of a cross perfectly resembling, in + a considerable number of important characters, the father alone. It is, + therefore, very improbable that a pure cowslip crossed by a primrose + should ever produce a primrose in appearance pure. Although the facts + given by Dr. Herbert and Professor Henslow are difficult to explain, yet + until it can be shown that a cowslip or a primrose, carefully protected + from insects, will give birth to at least oxlips, the cases hitherto + recorded have little weight in leading us to admit that the cowslip and + primrose are varieties of one and the same species. + </p> + <p> + Negative evidence is of little value; but the following facts may be worth + giving:—Some cowslips which had been transplanted from the fields + into a shrubbery were again transplanted into highly manured land. In the + following year they were protected from insects, artificially fertilised, + and the seed thus procured was sown in a hotbed. The young plants were + afterwards planted out, some in very rich soil, some in stiff poor clay, + some in old peat, and some in pots in the greenhouse; so that these + plants, 765 in number, as well as their parents, were subjected to + diversified and unnatural treatment; but not one of them presented the + least variation except in size—those in the peat attaining almost + gigantic dimensions, and those in the clay being much dwarfed. + </p> + <p> + I do not, of course, doubt that cowslips exposed during SEVERAL successive + generations to changed conditions would vary, and that this might + occasionally occur in a state of nature. Moreover, from the law of + analogical variation, the varieties of any one species of Primula would + probably in some cases resemble other species of the genus. For instance I + raised a red primrose from seed from a protected plant, and the flowers, + though still resembling those of the primrose, were borne during one + season in umbels on a long foot-stalk like that of a cowslip. + </p> + <p> + With regard to the second class of facts in support of the cowslip and + primrose being ranked as mere varieties, namely, the well-ascertained + existence in a state of nature of numerous linking forms (2/12. See an + excellent article on this subject by Mr. H.C. Watson in the ‘Phytologist’ + volume 3 page 43.):—If it can be shown that the common wild oxlip, + which is intermediate in character between the cowslip and primrose, + resembles in sterility and other essential respects a hybrid plant, and if + it can further be shown that the oxlip, though in a high degree sterile, + can be fertilised by either parent-species, thus giving rise to still + finer gradational links, then the presence of such linking forms in a + state of nature ceases to be an argument of any weight in favour of the + cowslip and primrose being varieties, and becomes, in fact, an argument on + the other side. The hybrid origin of a plant in a state of nature can be + recognised by four tests: first, by its occurrence only where both + presumed parent-species exist or have recently existed; and this holds + good, as far as I can discover, with the oxlip; but the P. elatior of + Jacq., which, as we shall presently see, constitutes a distinct species, + must not be confounded with the common oxlip. Secondly, by the supposed + hybrid plant being nearly intermediate in character between the two + parent-species, and especially by its resembling hybrids artificially made + between the same two species. Now the oxlip is intermediate in character, + and resembles in every respect, except in the colour of the corolla, + hybrids artificially produced between the primrose and the polyanthus, + which latter is a variety of the cowslip. Thirdly, by the supposed hybrids + being more or less sterile when crossed inter se: but to try this fairly + two distinct plants of the same parentage, and not two flowers on the same + plant, should be crossed; for many pure species are more or less sterile + with pollen from the same individual plant; and in the case of hybrids + from heterostyled species the opposite forms should be crossed. Fourthly + and lastly, by the supposed hybrids being much more fertile when crossed + with either pure parent-species than when crossed inter se, but still not + as fully fertile as the parent-species. + </p> + <p> + For the sake of ascertaining the two latter points, I transplanted a group + of wild oxlips into my garden. They consisted of one long-styled and three + short- styled plants, which, except in the corolla of one being slightly + larger, resembled each other closely. The trials which were made, and the + results obtained, are shown in tables 2.14, 2.15, 2.16, 2.17 and 2.18. No + less than twenty different crosses are necessary in order to ascertain + fully the fertility of hybrid heterostyled plants, both inter se and with + their two parent-species. In this instance 256 flowers were crossed in the + course of four seasons. I may mention, as a mere curiosity, that if any + one were to raise hybrids between two trimorphic heterostyled species, he + would have to make 90 distinct unions in order to ascertain their + fertility in all ways; and as he would have to try at least 10 flowers in + each case, he would be compelled to fertilise 900 flowers and count their + seeds. This would probably exhaust the patience of the most patient man. + </p> + <p> + TABLE 2.14. Crosses inter se between the two forms of the common Oxlip. + </p> + <p> + Column 1: Illegitimate union. Short-styled oxlip, by pollen of + short-styled oxlip: 20 flowers fertilised, did not produce one capsule. + </p> + <p> + Column 2: Legitimate union. Short-styled oxlip, by pollen of long-styled + oxlip: 10 flowers fertilised, did not produce one capsule. + </p> + <p> + Column 3: Illegitimate union. Long-styled oxlip, by its own pollen: 24 + flowers fertilised, produced five capsules, containing 6, 10, 20, 8, and + 14 seeds. Average 11.6. + </p> + <p> + Column 4: Legitimate union. Long-styled oxlip, by pollen of short-styled + oxlip: 10 flowers fertilised, did not produce one capsule. + </p> + <p> + TABLE 2.15. Both forms of the Oxlip crossed with Pollen of both forms of + the Cowslip, P. veris. + </p> + <p> + Column 1: Illegitimate union. Short-styled oxlip, by pollen of + short-styled cowslip: 18 flowers fertilised, did not produce one capsule. + </p> + <p> + Column 2: Legitimate union. Short-styled oxlip, by pollen of long-styled + cowslip: 18 flowers fertilised, produced three capsules, containing 7, 3, + and 3 wretched seeds, apparently incapable of germination. + </p> + <p> + Column 3: Illegitimate union. Long-styled oxlip, by pollen of long-styled + cowslip: 11 flowers fertilised, produced one capsule, containing 13 + wretched seeds. + </p> + <p> + Column 4: Legitimate union. Long-styled oxlip, by pollen of short-styled + cowslip: 5 flowers fertilised, produced two capsules, containing 21 and 28 + very fine seeds. + </p> + <p> + TABLE 2.16. Both forms of the Oxlip crossed with Pollen of both forms of + the Primrose, P. vulgaris. + </p> + <p> + Column 1: Illegitimate union. Short-styled oxlip, by pollen of + short-styled primrose: 34 flowers fertilised, produced two capsules, + containing 5 and 12 seeds. + </p> + <p> + Column 2: Legitimate union. Short-styled oxlip, by pollen of long-styled + primrose: 26 flowers fertilised, produced six capsules, containing 16, 20, + 5, 10, 19, and 24 seeds. Average 15.7. Many of the seeds very poor, some + good. + </p> + <p> + Column 3: Illegitimate union. Long-styled oxlip, by pollen of long-styled + primrose: 11 flowers fertilised, produced four capsules, containing 10, 7, + 5, and 6 wretched seeds. Average 7.0. + </p> + <p> + Column 4: Legitimate union. Long-styled oxlip, by pollen of short-styled + primrose: 5 flowers fertilised, produced five capsules, containing 26, 32, + 23, 28, and 34 seeds. Average 28.6. + </p> + <p> + TABLE 2.17. Both forms of the Cowslip crossed with Pollen of both forms of + the Oxlip. + </p> + <p> + Column 1: Illegitimate union. Short-styled cowslip, by pollen of + short-styled oxlip: 8 flowers fertilised, did not produce one capsule. + </p> + <p> + Column 2: Legitimate union. Long-styled cowslip, by pollen of short-styled + oxlip: 8 flowers fertilised, produced one capsule, containing 26 seeds. + </p> + <p> + Column 3: Illegitimate union. Long-styled cowslip, by pollen of + long-styled oxlip: 8 flowers fertilised, produced three capsules, + containing 5, 6 and 14 seeds. Average 8.3. + </p> + <p> + Column 4: Legitimate union. Short-styled cowslip, by pollen of long-styled + oxlip: 8 flowers fertilised, produced 8 capsules, containing 58, 38, 31, + 44, 23, 26, 37, and 66 seeds. Average 40.4. + </p> + <p> + TABLE 2.18. Both forms of the Primrose crossed with Pollen of both forms + of the Oxlip. + </p> + <p> + Column 1: Illegitimate union. Short-styled primrose, by pollen of + short-styled oxlip: 8 flowers fertilised, did not produce one capsule. + </p> + <p> + Column 2: Legitimate union. Long-styled primrose, by pollen of + short-styled oxlip: 8 flowers fertilised, produced two capsules, + containing 5 and 2 seeds. + </p> + <p> + Column 3: Illegitimate union. Long-styled primrose, by pollen of + long-styled oxlip: 8 flowers fertilised, produced 8 capsules, containing + 15, 7, 12, 20, 22, 7, 16, and 13 seeds. Average 14.0. + </p> + <p> + Column 4: Legitimate union. Short-styled primrose, by pollen of + long-styled oxlip: 8 flowers fertilised, produced 4 capsules, containing + 52, 52, 42, and 49 seeds, some good and some bad. Average 48.7. + </p> + <p> + We see in Tables 2/14 to 2/18 the number of capsules and of seeds + produced, by crossing both forms of the oxlip in a legitimate and + illegitimate manner with one another, and with the two forms of the + primrose and cowslip. I may premise that the pollen of two of the + short-styled oxlips consisted of nothing but minute aborted whitish cells; + but in the third short-styled plant about one- fifth of the grains + appeared in a sound condition. Hence it is not surprising that neither the + short-styled nor the long-styled oxlip produced a single seed when + fertilised with this pollen. Nor did the pure cowslips or primroses when + illegitimately fertilised with it; but when thus legitimately fertilised + they yielded a few good seeds. The female organs of the short-styled + oxlips, though greatly deteriorated in power, were in a rather better + condition than the male organs; for though the short-styled oxlips yielded + no seed when fertilised by the long-styled oxlips, and hardly any when + illegitimately fertilised by pure cowslips or primroses, yet when + legitimately fertilised by these latter species, especially by the + long-styled primrose, they yielded a moderate supply of good seed. + </p> + <p> + The long-styled oxlip was more fertile than the three short-styled oxlips, + and about half its pollen-grains appeared sound. It bore no seed when + legitimately fertilised by the short-styled oxlips; but this no doubt was + due to the badness of the pollen of the latter; for when illegitimately + fertilised (Table 2.14) by its own pollen it produced some good seeds, + though much fewer than self- fertilised cowslips or primroses would have + produced. The long-styled oxlip likewise yielded a very low average of + seed, as may be seen in the third compartment of Tables 2.15 to 2.18, when + illegitimately fertilised by, and when illegitimately fertilising, pure + cowslips and primroses. The four corresponding legitimate unions, however, + were moderately fertile, and one (namely that between a short-styled + cowslip and the long-styled oxlip in Table 2.17) was nearly as fertile as + if both parents had been pure. A short-styled primrose legitimately + fertilised by the long-styled oxlip (Table 2.18) also yielded a moderately + good average, namely 48.7 seeds; but if this short-styled primrose had + been fertilised by a long-styled primrose it would have yielded an average + of 65 seeds. If we take the ten legitimate unions together, and the ten + illegitimate unions together, we shall find that 29 per cent of the + flowers fertilised in a legitimate manner yielded capsules, these + containing on an average 27.4 good and bad seeds; whilst only 15 per cent + of the flowers fertilised in an illegitimate manner yielded capsules, + these containing on an average only 11.0 good and bad seeds. + </p> + <p> + In a previous part of this chapter it was shown that illegitimate crosses + between the long-styled form of the primrose and the long-styled cowslip, + and between the short-styled primrose and short-styled cowslip, are more + sterile than legitimate crosses between these two species; and we now see + that the same rule holds good almost invariably with their hybrid + offspring, whether these are crossed inter se, or with either + parent-species; so that in this particular case, but not as we shall + presently see in other cases, the same rule prevails with the pure unions + between the two forms of the same heterostyled species, with crosses + between two distinct heterostyled species, and with their hybrid + offspring. + </p> + <p> + Seeds from the long-styled oxlip fertilised by its own pollen were sown, + and three long-styled plants raised. The first of these was identical in + every character with its parent. The second bore rather smaller flowers, + of a paler colour, almost like those of the primrose; the scapes were at + first single- flowered, but later in the season a tall thick scape, + bearing many flowers, like that of the parent oxlip, was thrown up. The + third plant likewise produced at first only single-flowered scapes, with + the flowers rather small and of a darker yellow; but it perished early. + The second plant also died in September; and the first plant, though all + three grew under very favourable conditions, looked very sickly. Hence we + may infer that seedlings from self-fertilised oxlips would hardly be able + to exist in a state of nature. I was surprised to find that all the + pollen-grains in the first of these seedling oxlips appeared sound; and in + the second only a moderate number were bad. These two plants, however, had + not the power of producing a proper number of seeds; for though left + uncovered and surrounded by pure primroses and cowslips, the capsules were + estimated to include an average of only from fifteen to twenty seeds. + </p> + <p> + From having many experiments in hand, I did not sow the seed obtained by + crossing both forms of the primrose and cowslip with both forms of the + oxlip, which I now regret; but I ascertained an interesting point, namely, + the character of the offspring from oxlips growing in a state of nature + near both primroses and cowslips. The oxlips were the same plants which, + after their seeds had been collected, were transplanted and experimented + on. From the seeds thus obtained eight plants were raised, which, when + they flowered, might have been mistaken for pure primroses; but on close + comparison the eye in the centre of the corolla was seen to be of a darker + yellow, and the peduncles more elongated. As the season advanced, one of + these plants threw up two naked scapes, 7 inches in height, which bore + umbels of flowers of the same character as before. This fact led me to + examine the other plants after they had flowered and were dug up; and I + found that the flower-peduncles of all sprung from an extremely short + common scape, of which no trace can be found in the pure primrose. Hence + these plants are beautifully intermediate between the oxlip and the + primrose, inclining rather towards the latter; and we may safely conclude + that the parent oxlips had been fertilised by the surrounding primroses. + </p> + <p> + From the various facts now given, there can be no doubt that the common + oxlip is a hybrid between the cowslip (P. veris, Brit. Fl.) and the + primrose (P. vulgaris, Brit. Fl.), as has been surmised by several + botanists. It is probable that oxlips may be produced either from the + cowslip or the primrose as the seed- bearer, but oftenest from the latter, + as I judge from the nature of the stations in which oxlips are generally + found (2/13. See also on this head Hardwicke’s ‘Science Gossip’ 1867 pages + 114, 137.), and from the primrose when crossed by the cowslip being more + fertile than, conversely, the cowslip by the primrose. The hybrids + themselves are also rather more fertile when crossed with the primrose + than with the cowslip. Whichever may be the seed-bearing plant, the cross + is probably between different forms of the two species; for we have seen + that legitimate hybrid unions are more fertile than illegitimate hybrid + unions. Moreover a friend in Surrey found that 29 oxlips which grew in the + neighbourhood of his house consisted of 13 long-styled and 16 short-styled + plants; now, if the parent-plants had been illegitimately united, either + the long- or short-styled form would have greatly preponderated, as we + shall hereafter see good reason to believe. The case of the oxlip is + interesting; for hardly any other instance is known of a hybrid + spontaneously arising in such large numbers over so wide an extent of + country. The common oxlip (not the P. elatior of Jacq.) is found almost + everywhere throughout England, where both cowslips and primroses grow. In + some districts, as I have seen near Hartfield in Sussex and in parts of + Surrey, specimens may be found on the borders of almost every field and + small wood. In other districts the oxlip is comparatively rare: near my + own residence I have found, during the last twenty-five years, not more + than five or six plants or groups of plants. It is difficult to conjecture + what is the cause of this difference in their number. It is almost + necessary that a plant, or several plants belonging to the same form, of + one parent-species, should grow near the opposite form of the other + parent-species; and it is further necessary that both species should be + frequented by the same kind of insect, no doubt a moth. The cause of the + rare appearance of the oxlip in certain districts may be the rarity of + some moth, which in other districts habitually visits both the primrose + and cowslip. + </p> + <p> + Finally, as the cowslip and primrose differ in the various characters + above specified,—as they are in a high degree sterile when + intercrossed,—as there is no trustworthy evidence that either + species, when uncrossed, has ever given birth to the other species or to + any intermediate form,—and as the intermediate forms which are often + found in a state of nature have been shown to be more or less sterile + hybrids of the first or second generation,—we must for the future + look at the cowslip and primrose as good and true species. + </p> + <p> + Primula elatior, Jacq., or the Bardfield Oxlip, is found in England only + in two or three of the eastern counties. On the Continent it has a + somewhat different range from that of the cowslip and primrose; and it + inhabits some districts where neither of these species live. (2/14. For + England, see Hewett C. Watson ‘Cybele Britannica’ volume 2 1849 page 292. + For the Continent, see Lecoq ‘Geograph. Botanique de l’Europe’ tome 8 1858 + page 142. For the Alps see ‘Annals and Magazine of Natural History’ volume + 9 1842 pages 156 and 515.) In general appearance it differs so much from + the common oxlip, that no one accustomed to see both forms in the living + state could afterwards confound them; but there is scarcely more than a + single character by which they can be distinctly defined, namely, their + linear-oblong capsules equalling the calyx in length. (2/15. Babington + ‘Manual of British Botany’ 1851 page 258.) The capsules when mature differ + conspicuously, owing to their length, from those of the cowslip and + primrose. With respect to the fertility of the two forms when these are + united in the four possible methods, they behave like the other + heterostyled species of the genus, but differ somewhat (see Tables 1.8 and + 1.12.) in the smaller proportion of the illegitimately fertilised flowers + which set capsules. That P. elatior is not a hybrid is certain, for when + the two forms were legitimately united they yielded the large average of + 47.1 seeds, and when illegitimately united 35.5 per capsule; whereas, of + the four possible unions (Table 2.14) between the two forms of the common + oxlip which we know to be a hybrid, one alone yielded any seed; and in + this case the average number was only 11.6 per capsule. Moreover I could + not detect a single bad pollen-grain in the anthers of the short-styled P. + elatior; whilst in two short-styled plants of the common oxlip all the + grains were bad, as were a large majority in a third plant. As the common + oxlip is a hybrid between the primrose and cowslip, it is not surprising + that eight long-styled flowers of the primrose, fertilised by pollen from + the long-styled common oxlip, produced eight capsules (Table 1.18), + containing, however, only a low average of seeds; whilst the same number + of flowers of the primrose, similarly fertilised by the long-styled + Bardfield oxlip, produced only a single capsule; this latter plant being + an altogether distinct species from the primrose. Plants of P. elatior + have been propagated by seed in a garden for twenty-five years, and have + kept all this time quite constant, excepting that in some cases the + flowers varied a little in size and tint. (2/16. See Mr. H. Doubleday in + the ‘Gardener’s Chronicle’ 1867 page 435, also Mr. W. Marshall ibid. page + 462.) Nevertheless, according to Mr. H.C. Watson and Dr. Bromfield (2/17. + ‘Phytologist’ volume 1 page 1001 and volume 3 page 695.), plants may be + occasionally found in a state of nature, in which most of the characters + by which this species can be distinguished from P. veris and vulgaris + fail; but such intermediate forms are probably due to hybridisation; for + Kerner states, in the paper before referred to, that hybrids sometimes, + though rarely, arise in the Alps between P. elatior and veris. + </p> + <p> + Finally, although we may freely admit that Primula veris, vulgaris, and + elatior, as well as all the other species of the genus, are descended from + a common primordial form, yet from the facts above given, we must conclude + that these three forms are now as fixed in character as are many others + which are universally ranked as true species. Consequently they have as + good a right to receive distinct specific names as have, for instance, the + ass, quagga, and zebra. + </p> + <p> + Mr. Scott has arrived at some interesting results by crossing other + heterostyled species of Primula. (2/18. ‘Journal of the Linnean Society + Botany’ volume 8 1864 page 93 to end.) I have already alluded to his + statement, that in four instances (not to mention others) a species when + crossed with a distinct one yielded a larger number of seeds than the same + species fertilised illegitimately with its own-form pollen, though taken + from a distinct plant. It has long been known from the researches of + Kolreuter and Gartner, that two species when crossed reciprocally + sometimes differ as widely as is possible in their fertility: thus A when + crossed with the pollen of B will yield a large number of seeds, whilst B + may be crossed repeatedly with pollen of A, and will never yield a single + seed. Now Mr. Scott shows in several cases that the same law holds good + when two heterostyled species of Primula are intercrossed, or when one is + crossed with a homostyled species. But the results are much more + complicated than with ordinary plants, as two heterostyled dimorphic + species can be intercrossed in eight different ways. I will give one + instance from Mr. Scott. The long-styled P. hirsuta fertilised + legitimately and illegitimately with pollen from the two forms of P. + auricula, and reciprocally the long-styled P. auricula fertilised + legitimately and illegitimately with pollen from the two forms of P. + hirsuta, did not produce a single seed. Nor did the short-styled P. + hirsuta when fertilised legitimately and illegitimately with the pollen of + the two forms of P. auricula. On the other hand, the short-styled P. + auricula fertilised with pollen from the long-styled P. hirsuta yielded + capsules containing on an average no less than 56 seeds; and the + short-styled P. auricula by pollen of the short- styled P. hirsuta yielded + capsules containing on an average 42 seeds per capsule. So that out of the + eight possible unions between the two forms of these two species, six were + utterly barren, and two fairly fertile. We have seen also the same sort of + extraordinary irregularity in the results of my twenty different crosses + (Tables 2.14 to 2.18), between the two forms of the oxlip, primrose, and + cowslip. Mr. Scott remarks, with respect to the results of his trials, + that they are very surprising, as they show us that “the sexual forms of a + species manifest in their respective powers for conjunction with those of + another species, physiological peculiarities which might well entitle + them, by the criterion of fertility, to specific distinction.” + </p> + <p> + Finally, although P. veris and vulgaris, when crossed legitimately, and + especially when their hybrid offspring are crossed in this manner with + both parent-species, were decidedly more fertile, than when crossed in an + illegitimate manner, and although the legitimate cross effected by Mr. + Scott between P. auricula and hirsuta was more fertile, in the ratio of 56 + to 42, than the illegitimate cross, nevertheless it is very doubtful, from + the extreme irregularity of the results in the various other hybrid + crosses made by Mr. Scott, whether it can be predicted that two + heterostyled species are generally more fertile if crossed legitimately + (i.e. when opposite forms are united) than when crossed illegitimately. + </p> + <h3> + SUPPLEMENTARY NOTE ON SOME WILD HYBRID VERBASCUMS. + </h3> + <p> + In an early part of this chapter I remarked that few other instances could + be given of a hybrid spontaneously arising in such large numbers, and over + so wide an extent of country, as that of the common oxlip; but perhaps the + number of well-ascertained cases of naturally produced hybrid willows is + equally great. (2/19. Max Wichura ‘Die Bastardbefruchtung etc. der Weiden’ + 1865.) Numerous spontaneous hybrids between several species of Cistus, + found near Narbonne, have been carefully described by M. Timbal-Lagrave + (2/20. ‘Mem. de l’Acad. des Sciences de Toulouse’ 5e serie tome 5 page + 28.), and many hybrids between an Aceras and Orchis have been observed by + Dr. Weddell. (2/21. ‘Annales des Sc. Nat.’ 3e serie Bot. tome 18 page 6.) + In the genus Verbascum, hybrids are supposed to have often originated in a + state of nature (2/22. See for instance the ‘English Flora’ by Sir J.E. + Smith 1824 volume 1 page 307.); some of these undoubtedly are hybrids, and + several hybrids have originated in gardens; but most of these cases + require, as Gartner remarks, verification. (2/23. See Gartner + ‘Bastarderzeugung’ 1849 page 590.) Hence the following case is worth + recording, more especially as the two species in question, V. thapsus and + lychnitis, are perfectly fertile when insects are excluded, showing that + the stigma of each flower receives its own pollen. Moreover the flowers + offer only pollen to insects, and have not been rendered attractive to + them by secreting nectar. + </p> + <p> + I transplanted a young wild plant into my garden for experimental + purposes, and when it flowered it plainly differed from the two species + just mentioned and from a third which grows in this neighbourhood. I + thought that it was a strange variety of V. thapsus. It attained the + height (by measurement) of 8 feet! It was covered with a net, and ten + flowers were fertilised with pollen from the same plant; later in the + season, when uncovered, the flowers were freely visited by + pollen-collecting bees; nevertheless, although many capsules were + produced, not one contained a single seed. During the following year this + same plant was left uncovered near plants of V. thapsus and lychnitis; but + again it did not produce a single seed. Four flowers, however, which were + repeatedly fertilised with pollen of V. lychnitis, whilst the plant was + temporarily kept under a net, produced four capsules, which contained + five, one, two, and two seeds; at the same time three flowers were + fertilised with pollen of V. thapsus, and these produced two, two, and + three seeds. To show how unproductive these seven capsules were, I may + state that a fine capsule from a plant of V. thapsus growing close by + contained above 700 seeds. These facts led me to search the + moderately-sized field whence my plant had been removed, and I found in it + many plants of V. thapsus and lychnitis as well as thirty-three plants + intermediate in character between these two species. These thirty-three + plants differed much from one another. In the branching of the stem they + more closely resembled V. lychnitis than V. thapsus, but in height the + latter species. In the shape of their leaves they often closely approached + V. lychnitis, but some had leaves extremely woolly on the upper surface + and decurrent like those of V. thapsus; yet the degree of woolliness and + of decurrency did not always go together. In the petals being flat and + remaining open, and in the manner in which the anthers of the longer + stamens were attached to the filaments, these plants all took more after + V. lychnitis than V. thapsus. In the yellow colour of the corolla they all + resembled the latter species. On the whole, these plants appeared to take + rather more after V. lychnitis than V. thapsus. On the supposition that + they were hybrids, it is not an anomalous circumstance that they should + all have produced yellow flowers; for Gartner crossed white and + yellow-flowered varieties of Verbascum, and the offspring thus produced + never bore flowers of an intermediate tint, but either pure white or pure + yellow flowers, generally of the latter colour. (2/24. ‘Bastardzeugung’ + page 307.) + </p> + <p> + My observations were made in the autumn; so that I was able to collect + some half-matured capsules from twenty of the thirty-three intermediate + plants, and likewise capsules of the pure V. lychnitis and thapsus growing + in the same field. All the latter were filled with perfect but immature + seeds, whilst the capsules of the twenty intermediate plants did not + contain one single perfect seed. These plants, consequently, were + absolutely barren. From this fact,—from the one plant which was + transplanted into my garden yielding when artificially fertilised with + pollen from V. lychnitis and thapsus some seeds, though extremely few in + number,—from the circumstance of the two pure species growing in the + same field,—and from the intermediate character of the sterile + plants, there can be no doubt that they were hybrids. Judging from the + position in which they were chiefly found, I am inclined to believe they + were descended from V. thapsus as the seed-bearer, and V. lychnitis as the + pollen-bearer. + </p> + <p> + It is known that many species of Verbascum, when the stem is jarred or + struck by a stick, cast off their flowers. (2/25. This was first observed + by Correa de Serra: see Sir J.E. Smith’s ‘English Flora’ 1824 volume 1 + page 311; also ‘Life of Sir J.E. Smith’ volume 2 page 210. I was guided to + these references by the Reverend W.A. Leighton, who observed this same + phenomenon with V. virgatum.) This occurs with V. thapsus, as I have + repeatedly observed. The corolla first separates from its attachment, and + then the sepals spontaneously bend inwards so as to clasp the ovarium, + pushing off the corolla by their movement, in the course of two or three + minutes. Nothing of this kind takes place with young barely expanded + flowers. With Verbascum lychnitis and, as I believe, V. phoeniceum the + corolla is not cast off, however often and severely the stem may be + struck. In this curious property the above-described hybrids took after V. + thapsus; for I observed, to my surprise, that when I pulled off the + flower-buds round the flowers which I wished to mark with a thread, the + slight jar invariably caused the corollas to fall off. + </p> + <p> + These hybrids are interesting under several points of view. First, from + the number found in various parts of the same moderately-sized field. That + they owed their origin to insects flying from flower to flower, whilst + collecting pollen, there can be no doubt. Although insects thus rob the + flowers of a most precious substance, yet they do great good; for, as I + have elsewhere shown, the seedlings of V. thapsus raised from flowers + fertilised with pollen from another plant, are more vigorous than those + raised from self-fertilised flowers. (2/26. ‘The Effects of Cross and + Self-fertilisation’ 1876 page 89.) But in this particular instance the + insects did great harm, as they led to the production of utterly barren + plants. Secondly, these hybrids are remarkable from differing much from + one another in many of their characters; for hybrids of the first + generation, if raised from uncultivated plants, are generally uniform in + character. That these hybrids belonged to the first generation we may + safely conclude, from the absolute sterility of all those observed by me + in a state of nature and of the one plant in my garden, excepting when + artificially and repeatedly fertilised with pure pollen, and then the + number of seeds produced was extremely small. As these hybrids varied so + much, an almost perfectly graduated series of forms, connecting together + the two widely distinct parent-species, could easily have been selected. + This case, like that of the common oxlip, shows that botanists ought to be + cautious in inferring the specific identity of two forms from the presence + of intermediate gradations; nor would it be easy in the many cases in + which hybrids are moderately fertile to detect a slight degree of + sterility in such plants growing in a state of nature and liable to be + fertilised by either parent-species. Thirdly and lastly, these hybrids + offer an excellent illustration of a statement made by that admirable + observer Gartner, namely, that although plants which can be crossed with + ease generally produce fairly fertile offspring, yet well-pronounced + exceptions to this rule occur; and here we have two species of Verbascum + which evidently cross with the greatest ease, but produce hybrids which + are excessively sterile. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0003" id="link2HCH0003"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER III. HETEROSTYLED DIMORPHIC PLANTS—continued. + </h2> +<pre xml:space="preserve"> + Linum grandiflorum, long-styled form utterly sterile with own-form pollen. + Linum perenne, torsion of the pistils in the long-styled form alone. + Homostyled species of Linum. + Pulmonaria officinalis, singular difference in self-fertility between the + English and German long-styled plants. + Pulmonaria angustifolia shown to be a distinct species, long-styled form + completely self-sterile. + Polygonum fagopyrum. + Various other heterostyled genera. + Rubiaceae. + Mitchella repens, fertility of the flowers in pairs. + Houstonia. + Faramea, remarkable difference in the pollen-grains of the two forms; torsion of + the stamens in the short-styled form alone; development not as yet perfect. + The heterostyled structure in the several Rubiaceous genera not due to descent + in common. + + (FIGURE 3.4. Linum grandiflorum. + Left: Long-styled form. + Right: Short-styled form. + s, s: stigmas.) +</pre> + <p> + It has long been known that several species of Linum present two forms + (3/1. Treviranus has shown that this is the case in his review of my + original paper ‘Botanische Zeitung’ 1863 page 189.), and having observed + this fact in L. flavum more than thirty years ago, I was led, after + ascertaining the nature of heterostylism in Primula, to examine the first + species of Linum which I met with, namely, the beautiful L. grandiflorum. + This plant exists under two forms, occurring in about equal numbers, which + differ little in structure, but greatly in function. The foliage, corolla, + stamens, and pollen-grains (the latter examined both distended with water + and dry) are alike in the two forms (Figure 3.4). The difference is + confined to the pistil; in the short-styled form the styles and the + stigmas are only about half the length of those in the long- styled. A + more important distinction is, that the five stigmas in the short- styled + form diverge greatly from one another, and pass out between the filaments + of the stamens, and thus lie within the tube of the corolla. In the + long-styled form the elongated stigmas stand nearly upright, and alternate + with the anthers. In this latter form the length of the stigmas varies + considerably, their upper extremities projecting even a little above the + anthers, or reaching up only to about their middle. Nevertheless, there is + never the slightest difficulty in distinguishing between the two forms; + for, besides the difference in the divergence of the stigmas, those of the + short-styled form never reach even to the bases of the anthers. In this + form the papillae on the stigmatic surfaces are shorter, darker-coloured, + and more crowded together than in the long-styled form; but these + differences seem due merely to the shortening of the stigma, for in the + varieties of the long-styled form with shorter stigmas, the papillae are + more crowded and darker-coloured than in those with the longer stigmas. + Considering the slight and variable differences between the two forms of + this Linum, it is not surprising that hitherto they have been overlooked. + </p> + <p> + In 1861 I had eleven plants in my garden, eight of which were long-styled, + and three short-styled. Two very fine long-styled plants grew in a bed a + hundred yards off all the others, and separated from them by a screen of + evergreens. I marked twelve flowers, and placed on their stigmas a little + pollen from the short-styled plants. The pollen of the two forms is, as + stated, identical in appearance; the stigmas of the long-styled flowers + were already thickly covered with their own pollen—so thickly that I + could not find one bare stigma, and it was late in the season, namely, + September 15th. Altogether, it seemed almost childish to expect any + result. Nevertheless from my experiments on Primula, I had faith, and did + not hesitate to make the trial, but certainly did not anticipate the full + result which was obtained. The germens of these twelve flowers all + swelled, and ultimately six fine capsules (the seed of which germinated on + the following year) and two poor capsules were produced; only four + capsules shanking off. These same two long-styled plants produced, in the + course of the summer, a vast number of flowers, the stigmas of which were + covered with their own pollen; but they all proved absolutely barren, and + their germens did not even swell. + </p> + <p> + The nine other plants, six long-styled and three short-styled, grew not + very far apart in my flower-garden. Four of these long-styled plants + produced no seed- capsules; the fifth produced two; and the remaining one + grew so close to a short-styled plant that their branches touched, and + this produced twelve capsules, but they were poor ones. The case was + different with the short-styled plants. The one which grew close to the + long-styled plant produced ninety-four imperfectly fertilised capsules + containing a multitude of bad seeds, with a moderate number of good ones. + The two other short-styled plants growing together were small, being + partly smothered by other plants; they did not stand very close to any + long-styled plants, yet they yielded together nineteen capsules. These + facts seem to show that the short-styled plants are more fertile with + their own pollen than are the long-styled, and we shall immediately see + that this probably is the case. But I suspect that the difference in + fertility between the two forms was in this instance in part due to a + distinct cause. I repeatedly watched the flowers, and only once saw a + humble-bee momentarily alight on one, and then fly away. If bees had + visited the several plants, there cannot be a doubt that the four + long-styled plants, which did not produce a single capsule, would have + borne an abundance. But several times I saw small diptera sucking the + flowers; and these insects, though not visiting the flowers with anything + like the regularity of bees, would carry a little pollen from one form to + the other, especially when growing near together; and the stigmas of the + short-styled plants, diverging within the tube of the corolla, would be + more likely than the upright stigmas of the long-styled plants, to receive + a small quantity of pollen if brought to them by small insects. Moreover + from the greater number of the long-styled than of the short-styled plants + in the garden, the latter would be more likely to receive pollen from the + long-styled, than the long-styled from the short-styled. + </p> + <p> + In 1862 I raised thirty-four plants of this Linum in a hot-bed; and these + consisted of seventeen long-styled and seventeen short-styled forms. Seed + sown later in the flower-garden yielded seventeen long-styled and twelve + short-styled forms. These facts justify the statement that the two forms + are produced in about equal numbers. The thirty-four plants of the first + lot were kept under a net which excluded all insects, except such minute + ones as Thrips. I fertilised fourteen long-styled flowers legitimately + with pollen from the short-styled, and got eleven fine seed-capsules, + which contained on an average 8.6 seeds per capsule, but only 5.6 appeared + to be good. It may be well to state that ten seeds is the maximum + production for a capsule, and that our climate cannot be very favourable + to this North-African plant. On three occasions the stigmas of nearly a + hundred flowers were fertilised illegitimately with their own-form pollen, + taken from separate plants, so as to prevent any possible ill effects from + close inter-breeding. Many other flowers were also produced, which, as + before stated, must have received plenty of their own pollen; yet from all + these flowers, borne by the seventeen long-styled plants, only three + capsules were produced. One of these included no seed, and the other two + together gave only five good seeds. It is probable that this miserable + product of two half-fertile capsules from the seventeen plants, each of + which must have produced at least fifty or sixty flowers, resulted from + their fertilisation with pollen from the short-styled plants by the aid of + Thrips; for I made a great mistake in keeping the two forms under the same + net, with their branches often interlocking; and it is surprising that a + greater number of flowers were not accidentally fertilised. + </p> + <p> + Twelve short-styled flowers were in this instance castrated, and + afterwards fertilised legitimately with pollen from the long-styled form; + and they produced seven fine capsules. These included on an average 7.6 + seeds, but of apparently good seed only 4.3 per capsule. At three separate + times nearly a hundred flowers were fertilised illegitimately with their + own-form pollen, taken from separate plants; and numerous other flowers + were produced, many of which must have received their own pollen. From all + these flowers on the seventeen short-styled plants only fifteen capsules + were produced, of which only eleven contained any good seed, on an average + 4.2 per capsule. As remarked in the case of the long- styled plants, some + even of these capsules were perhaps the product of a little pollen + accidentally fallen from the adjoining flowers of the other form on to the + stigmas, or transported by Thrips. Nevertheless the short-styled plants + seem to be slightly more fertile with their own pollen than the + long-styled, in the proportion of fifteen capsules to three; nor can this + difference be accounted for by the short-styled stigmas being more liable + to receive their own pollen than the long-styled, for the reverse is the + case. The greater self-fertility of the short-styled flowers was likewise + shown in 1861 by the plants in my flower- garden, which were left to + themselves, and were but sparingly visited by insects. + </p> + <p> + On account of the probability of some of the flowers on the plants of both + forms, which were covered under the same net, having been legitimately + fertilised in an accidental manner, the relative fertility of the two + legitimate and two illegitimate unions cannot be compared with certainty; + but judging from the number of good seeds per capsule, the difference was + at least in the ratio of 100 to 7, and probably much greater. + </p> + <p> + Hildebrand tested my results, but only on a single short-styled plant, by + fertilising many flowers with their own-form pollen; and these did not + produce any seed. This confirms my suspicion that some of the few capsules + produced by the foregoing seventeen short-styled plants were the product + of accidental legitimate fertilisation. Other flowers on the same plant + were fertilised by Hildebrand with pollen from the long-styled form, and + all produced fruit. (3/2. ‘Botanische Zeitung’ January 1, 1864 page 2.) + </p> + <p> + The absolute sterility (judging from the experiments of 1861) of the + long-styled plants with their own-form pollen led me to examine into its + apparent cause; and the results are so curious that they are worth giving + in detail. The experiments were tried on plants grown in pots and brought + successively into the house. + </p> + <h3> + FIRST. + </h3> + <p> + Pollen from a short-styled plant was placed on the five stigmas of a + long-styled flower, and these, after thirty hours, were found deeply + penetrated by a multitude of pollen-tubes, far too numerous to be counted; + the stigmas had also become discoloured and twisted. I repeated this + experiment on another flower, and in eighteen hours the stigmas were + penetrated by a multitude of long pollen- tubes. This is what might have + been expected, as the union is a legitimate one. The converse experiment + was likewise tried, and pollen from a long-styled flower was placed on the + stigmas of a short-styled flower, and in twenty-four hours the stigmas + were discoloured, twisted, and penetrated by numerous pollen-tubes; and + this, again, is what might have been expected, as the union was a + legitimate one. + </p> + <h3> + SECONDLY. + </h3> + <p> + Pollen from a long-styled flower was placed on all five stigmas of a + long-styled flower on a separate plant: after nineteen hours the stigmas + were dissected, and only a single pollen-grain had emitted a tube, and + this was a very short one. To make sure that the pollen was good, I took + in this case, and in most of the other cases, pollen either from the same + anther or from the same flower, and proved it to be good by placing it on + the stigma of a short-styled plant, and found numerous pollen-tubes + emitted. + </p> + <h3> + THIRDLY. + </h3> + <p> + Repeated last experiment, and placed own-form pollen on all five stigmas + of a long-styled flower; after nineteen hours and a half, not one single + grain had emitted its tube. + </p> + <h3> + FOURTHLY. + </h3> + <p> + Repeated the experiment, with the same result after twenty-four hours. + </p> + <h3> + FIFTHLY. + </h3> + <p> + Repeated last experiment, and, after leaving pollen on for nineteen hours, + put on an additional quantity of own-form pollen on all five stigmas. + After an interval of three days, the stigmas were examined, and, instead + of being discoloured and twisted, they were straight and fresh-coloured. + Only one grain had emitted a quite short tube, which was drawn out of the + stigmatic tissue without being ruptured. + </p> + <p> + The following experiments are more striking:— + </p> + <h3> + SIXTHLY. + </h3> + <p> + I placed own-form pollen on three of the stigmas of a long-styled flower, + and pollen from a short-styled flower on the other two stigmas. After + twenty-two hours these two stigmas were discoloured, slightly twisted, and + penetrated by the tubes of numerous pollen-grains: the other three + stigmas, covered with their own-form pollen, were fresh, and all the + pollen-grains were loose; but I did not dissect the whole stigma. + </p> + <h3> + SEVENTHLY. + </h3> + <p> + Experiment repeated in the same manner, with the same result. + </p> + <h3> + EIGHTHLY. + </h3> + <p> + Experiment repeated, but the stigmas were carefully examined after an + interval of only five hours and a half. The two stigmas with pollen from a + short-styled flower were penetrated by innumerable tubes, which were as + yet short, and the stigmas themselves were not at all discoloured. The + three stigmas covered with their own-form pollen were not penetrated by a + single pollen-tube. + </p> + <h3> + NINTHLY. + </h3> + <p> + Put pollen of a short-styled flower on a single long-styled stigma, and + own-form pollen on the other four stigmas; after twenty-four hours the one + stigma was somewhat discoloured and twisted, and penetrated by many long + tubes: the other four stigmas were quite straight and fresh; but on + dissecting them I found that three pollen-grains had protruded very short + tubes into the tissue. + </p> + <h3> + TENTHLY. + </h3> + <p> + Repeated the experiment, with the same result after twenty-four hours, + excepting that only two own-form grains had penetrated the stigmatic + tissue with their tubes to a very short depth. The one stigma, which was + deeply penetrated by a multitude of tubes from the short-styled pollen, + presented a conspicuous difference in being much curled, half-shrivelled, + and discoloured, in comparison with the other four straight and bright + pink stigmas. + </p> + <p> + I could add other experiments; but those now given amply suffice to show + that the pollen-grains of a short-styled flower placed on the stigma of a + long-styled flower emit a multitude of tubes after an interval of from + five to six hours, and penetrate the tissue ultimately to a great depth; + and that after twenty-four hours the stigmas thus penetrated change + colour, become twisted, and appear half-withered. On the other hand, + pollen-grains from a long-styled flower placed on its own stigmas, do not + emit their tubes after an interval of a day, or even three days; or at + most only three or four grains out of a multitude emit their tubes, and + these apparently never penetrate the stigmatic tissue deeply, and the + stigmas themselves do not soon become discoloured and twisted. + </p> + <p> + This seems to me a remarkable physiological fact. The pollen-grains of the + two forms are undistinguishable under the microscope; the stigmas differ + only in length, degree of divergence, and in the size, shade of colour, + and approximation of their papillae, these latter differences being + variable and apparently due merely to the degree of elongation of the + stigma. Yet we plainly see that the two kinds of pollen and the two + stigmas are widely dissimilar in their mutual reaction—the stigmas + of each form being almost powerless on their own pollen, but causing, + through some mysterious influence, apparently by simple contact (for I + could detect no viscid secretion), the pollen-grains of the opposite form + to protrude their tubes. It may be said that the two pollens and the two + stigmas mutually recognise each other by some means. Taking fertility as + the criterion of distinctness, it is no exaggeration to say that the + pollen of the long-styled Linum grandiflorum (and conversely that of the + other form) has been brought to a degree of differentiation, with respect + to its action on the stigma of the same form, corresponding with that + existing between the pollen and stigma of species belonging to distinct + genera. + </p> + <p> + Linum perenne. + </p> + <p> + This species is conspicuously heterostyled, as has been noticed by several + authors. The pistil in the long-styled form is nearly twice as long as + that of the short-styled. In the latter the stigmas are smaller and, + diverging to a greater degree, pass out low down between the filaments. I + could detect no difference in the two forms in the size of the stigmatic + papillae. In the long- styled form alone the stigmatic surfaces of the + mature pistils twist round, so as to face the circumference of the flower; + but to this point I shall presently return. Differently from what occurs + in L. grandiflorum, the long-styled flowers have stamens hardly more than + half the length of those in the short-styled. The size of the + pollen-grains is rather variable; after some doubt, I have come to the + conclusion that there is no uniform difference between the grains in the + two forms. The long-stamens in the short-styled form project to some + height above the corolla, and their filaments are coloured blue apparently + from exposure to the light. The anthers of the longer stamens correspond + in height with the lower part of the stigmas of the long-styled flowers; + and the anthers of the shorter stamens of the latter correspond in the + same manner in height with the stigmas of the short-styled flowers. + </p> + <p> + I raised from seed twenty-six plants, of which twelve proved to be + long-styled and fourteen short-styled. They flowered well, but were not + large plants. As I did not expect them to flower so soon, I did not + transplant them, and they unfortunately grew with their branches closely + interlocked. All the plants were covered under the same net, excepting one + of each form. Of the flowers on the long-styled plants, twelve were + illegitimately fertilised with their own-form pollen, taken in every case + from a separate plant; and not one set a seed- capsule: twelve other + flowers were legitimately fertilised with pollen from short-styled + flowers; and they set nine capsules, each including on an average 7 good + seeds, ten being the maximum number ever produced. Of the flowers on the + short-styled plants, twelve were illegitimately fertilised with own-form + pollen, and they yielded one capsule, including only 3 good seeds; twelve + other flowers were legitimately fertilised with pollen from long-styled + flowers, and these produced nine capsules, but one was bad; the eight good + capsules contained on an average 8 good seeds each. Judging from the + number of seeds per capsule, the fertility of the two legitimate to that + of the two illegitimate unions is as 100 to 20. + </p> + <p> + The numerous flowers on the eleven long-styled plants under the net, which + were not fertilised, produced only three capsules, including 8, 4, and 1 + good seeds. Whether these three capsules were the product of accidental + legitimate fertilisation, owing to the branches of the plants of the two + forms interlocking, I will not pretend to decide. The single long-styled + plant which was left uncovered, and grew close by the uncovered + short-styled plant, produced five good pods; but it was a poor and small + plant. + </p> + <p> + The flowers borne on the thirteen short-styled plants under the net, which + were not fertilised, produced twelve capsules, containing on an average + 5.6 seeds. As some of these capsules were very fine, and as five were + borne on one twig, I suspect that some minute insect had accidentally got + under the net and had brought pollen from the other form to the flowers + which produced this little group of capsules. The one uncovered + short-styled plant which grew close to the uncovered long-styled plant + yielded twelve capsules. + </p> + <p> + From these facts we have some reason to believe, as in the case of L. + grandiflorum, that the short-styled plants are in a slight degree more + fertile with their own pollen than are the long-styled plants. Anyhow we + have the clearest evidence, that the stigmas of each form require for full + fertility that pollen from the stamens of corresponding height belonging + to the opposite form should be brought to them. + </p> + <p> + Hildebrand, in the paper lately referred to, confirms my results. He + placed a short-styled plant in his house, and fertilised about 20 flowers + with their own pollen, and about 30 with pollen from another plant + belonging to the same form, and these 50 flowers did not set a single + capsule. On the other hand he fertilised about 30 flowers with pollen from + the long-styled form, and these, with the exception of two, yielded + capsules, containing good seeds. + </p> + <p> + It is a singular fact, in contrast with what occurred in the case of L. + grandiflorum, that the pollen-grains of both forms of L. perenne, when + placed on their own-form stigmas, emitted their tubes, though this action + did not lead to the production of seeds. After an interval of eighteen + hours, the tubes penetrated the stigmatic tissue, but to what depth I did + not ascertain. In this case the impotence of the pollen-grains on their + own stigmas must have been due either to the tubes not reaching the + ovules, or to their not acting properly after reaching them. + </p> + <p> + The plants both of L. perenne and grandiflorum, grew, as already stated, + with their branches interlocked, and with scores of flowers of the two + forms close together; they were covered by a rather coarse net, through + which the wind, when high, passed; and such minute insects as Thrips could + not, of course, be excluded; yet we have seen that the utmost possible + amount of accidental fertilisation on seventeen long-styled plants in the + one case, and on eleven long-styled plants in the other, resulted in the + production, in each case, of three poor capsules; so that when the proper + insects are excluded, the wind does hardly anything in the way of carrying + pollen from plant to plant. I allude to this fact because botanists in + speaking of the fertilisation of various flowers, often refer to the wind + or to insects as if the alternative were indifferent. This view, according + to my experience, is entirely erroneous. When the wind is the agent in + carrying pollen, either from one sex to the other, or from hermaphrodite + to hermaphrodite, we can recognise structure as manifestly adapted to its + action as to that of insects when these are the carriers. We see + adaptation to the wind in the incoherence of the pollen,—in the + inordinate quantity produced (as in the Coniferae, Spinage, etc.),—in + the dangling anthers well fitted to shake out the pollen,—in the + absence or small size of the perianth,—in the protrusion of the + stigmas at the period of fertilisation,—in the flowers being + produced before they are hidden by the leaves,—and in the stigmas + being downy or plumose (as in the Gramineae, Docks, etc), so as to secure + the chance-blown grains. In plants which are fertilised by the wind, the + flowers do not secrete nectar, their pollen is too incoherent to be easily + collected by insects, they have not bright-coloured corollas to serve as + guides, and they are not, as far as I have seen, visited by insects. When + insects are the agents of fertilisation (and this is incomparably the more + frequent case with hermaphrodite plants), the wind plays no part, but we + see an endless number of adaptations to ensure the safe transport of the + pollen by the living workers. These adaptations are most easily recognised + in irregular flowers; but they are present in regular flowers, of which + those of Linum offer a good instance, as I will now endeavour to show. + </p> + <p> + I have already alluded to the rotation of each separate stigma in the + long- styled form of Linum perenne. In both forms of the other + heterostyled species and in the homostyled species of Linum which I have + seen, the stigmatic surfaces face the centre of the flower, with the + furrowed backs of the stigmas, to which the styles are attached, facing + outwards. This is the case with the stigmas of the long-styled flowers of + L. perenne whilst in bud. But by the time the flowers have expanded, the + five stigmas twist round so as to face the circumference, owing to the + torsion of that part of the style which lies beneath the stigma. I should + state that the five stigmas do not always turn round completely, two or + three sometimes facing only obliquely outwards. My observations were made + during October; and it is not improbable that earlier in the season the + torsion would have been more complete; for after two or three cold and wet + days the movement was very imperfectly performed. The flowers should be + examined shortly after their expansion, as their duration is brief; as + soon as they begin to wither, the styles become spirally twisted all + together, the original position of the parts being thus lost. + </p> + <p> + He who will compare the structure of the whole flower in both forms of L. + perenne and grandiflorum, and, as I may add, of L. flavum, will not doubt + about the meaning of this torsion of the styles in the one form alone of + L. perenne, as well as the meaning of the divergence of the stigmas in the + short-styled form of all three species. It is absolutely necessary as we + know, that insects should carry pollen from the flowers of the one form + reciprocally to those of the other. Insects are attracted by five drops of + nectar, secreted exteriorly at the base of the stamens, so that to reach + these drops they must insert their proboscides outside the ring of broad + filaments, between them and the petals. In the short-styled form of the + above three species, the stigmas face the axis of the flower; and had the + styles retained their original upright and central position, not only + would the stigmas have presented their backs to the insects which sucked + the flowers, but their front and fertile surfaces would have been + separated from the entering insects by the ring of broad filaments, and + would never have received any pollen. As it is, the styles diverge and + pass out between the filaments. After this movement the short stigmas lie + within the tube of the corolla; and their papillous surfaces being now + turned upwards are necessarily brushed by every entering insect, and thus + receive the required pollen. + </p> + <p> + In the long-styled form of L. grandiflorum, the almost parallel or + slightly diverging anthers and stigmas project a little above the tube of + the somewhat concave flower; and they stand directly over the open space + leading to the drops of nectar. Consequently when insects visit the + flowers of either form (for the stamens in this species occupy the same + position in both forms), they will get their foreheads or proboscides well + dusted with the coherent pollen. As soon as they visit the flowers of the + long-styled form they will necessarily leave pollen on the proper surface + of the elongated stigmas; and when they visit the short-styled flowers, + they will leave pollen on the upturned stigmatic surfaces. Thus the + stigmas of both forms will receive indifferently the pollen of both forms; + but we know that the pollen alone of the opposite form causes + fertilisation. + </p> + <p> + (Figure 3.5. Long-styled form of L. perenne var. Austriacum in its early + condition before the stigmas have rotated. The petals and calyx have been + removed on the near side. (3/3. I neglected to get drawings made from + fresh flowers of the two forms. But Mr. Fitch has made the above sketch of + a long- styled flower from dried specimens and from published engravings. + His well-known skill ensures accuracy in the proportional size of the + parts.) + </p> + <p> + In the case of L. perenne, affairs are arranged more perfectly; for the + stamens in the two forms stand at different heights, so that pollen from + the anthers of the longer stamens will adhere to one part of an insect’s + body, and will afterwards be brushed off by the rough stigmas of the + longer pistils; whilst pollen from the anthers of the shorter stamens will + adhere to a different part of the insect’s body, and will afterwards be + brushed off by the stigmas of the shorter pistils; and this is what is + required for the legitimate fertilisation of both forms. The corolla of L. + perenne is more expanded than that of L. grandiflorum, and the stigmas of + the long-styled form do not diverge greatly from one another; nor do the + stamens of either form. Hence insects, especially rather small ones, will + not insert their proboscides between the stigmas of the long-styled form, + nor between the anthers of either form (Figure 3.5), but will strike + against them, at nearly right angles, with the backs of their head or + thorax. Now, in the long-styled flowers, if each stigma did not rotate on + its axis, insects in visiting them would strike their heads against the + backs of the stigmas; as it is, they strike against that surface which is + covered with papillae, with their heads already charged with pollen from + the stamens of corresponding height borne by the flowers of the other + form, and legitimate fertilisation is thus ensured. + </p> + <p> + Thus we can understand the meaning of the torsion of the styles in the + long- styled flowers alone, as well as their divergence in the + short-styled flowers. + </p> + <p> + One other point is worth notice. In botanical works many flowers are said + to be fertilised in the bud. This statement generally rests, as far as I + can discover, on the anthers opening in the bud; no evidence being adduced + that the stigma is at this period mature, or that it is not subsequently + acted on by pollen brought from other flowers. In the case of + Cephalanthera grandiflora I have shown that precocious and partial + self-fertilisation, with subsequent full fertilisation, is the regular + course of events. (3/4. ‘Fertilisation of Orchids’ page 108; 2nd edition + 1877 page 84.) The belief that the flowers of many plants are fertilised + in the bud, that is, are perpetually self-fertilised, is a most effectual + bar to understanding their real structure. I am, however, far from wishing + to assert that some flowers, during certain seasons, are not fertilised in + the bud; for I have reason to believe that this is the case. A good + observer, resting his belief on the usual kind of evidence, states that in + Linum Austriacum (which is heterostyled, and is considered by Planchon as + a variety of L. perenne) the anthers open the evening before the expansion + of the flowers, and that the stigmas are then almost always fertilised. + (3/5. H. Lecoq ‘Etudes sur la Geogr. Bot.’ 1856 tome 5 page 325.) Now we + know positively that, so far from Linum perenne being fertilised by its + own pollen in the bud, its own pollen is as powerless on the stigma as so + much inorganic dust. + </p> + <p> + Linum flavum. + </p> + <p> + The pistil of the long-styled form of this species is nearly twice as long + as that of the short-styled; the stigmas are longer and the papillae + coarser. In the short-styled form the stigmas diverge and pass out between + the filaments, as in the previous species. The stamens in the two forms + differ in length; and, what is singular, the anthers of the longer stamens + are not so long as those of the other form; so that in the short-styled + form both the stigmas and the anthers are shorter than in the long-styled + form. The pollen-grains of the two forms do not differ in size. As this + species is propagated by cuttings, generally all the plants in the same + garden belong to the same form. I have inquired, but have never heard of + its seeding in this country. Certainly my own plants never produced a + single seed as long as I possessed only one of the two forms. After + considerable search I procured both forms, but from want of time only a + few experiments were made. Two plants of the two forms were planted some + way apart in my garden, and were not covered by nets. Three flowers on the + long- styled plant were legitimately fertilised with pollen from the + short-styled plant, and one of them set a fine capsule. No other capsules + were produced by this plant. Three flowers on the short-styled plant were + legitimately fertilised with pollen from the long-styled, and all three + produced capsules, containing respectively no less than 8, 9, and 10 + seeds. Three other flowers on this plant, which had not been artificially + fertilised, produced capsules containing 5, 1, and 5 seeds; and it is + quite possible that pollen may have been brought to them by insects from + the long-styled plant growing in the same garden. Nevertheless, as they + did not yield half the number of seeds compared with the other flowers on + the same plant which had been artificially and legitimately fertilised, + and as the short-styled plants of the two previous species apparently + evince some slight capacity for fertilisation with their own-form pollen, + these three capsules may have been the product of self-fertilisation. + </p> + <p> + Besides the three species now described, the yellow-flowered L. + corymbiferum is certainly heterostyled, as is, according to Planchon, L. + salsoloides. (3/6. Hooker’s ‘London Journal of Botany’ 1848 volume 7 page + 174.) This botanist is the only one who seems to have inferred that + heterostylism might have some important functional bearing. Dr. Alefeld, + who has made a special study of the genus, says that about half of the + sixty-five species known to him are heterostyled. (3/7. ‘Botanische + Zeitung’ September 18, 1863 page 281.) This is the case with L. trigynum, + which differs so much from the other species that it has been formed by + him into a distinct genus. (3/8. It is not improbable that the allied + genus, Hugonia, is heterostyled, for one species is said by Planchon + (Hooker’s ‘London Journal of Botany’ 1848 volume 7 page 525) to be + provided with “staminibus exsertis;” another with “stylis staminibus + longioribus,” and another has “stamina 5, majora, stylos longe + superantia.”) According to the same author, none of the species which + inhabit America and the Cape of Good Hope are heterostyled. + </p> + <p> + I have examined only three homostyled species, namely, L. usitatissimum, + angustifolium, and catharticum. I raised 111 plants of a variety of the + first- named species, and these, when protected under a net, all produced + plenty of seed. The flowers, according to H. Muller, are frequented by + bees and moths. (3/9. ‘Die Befruchtung der Blumen’ etc. page 168.) With + respect to L. catharticum, the same author shows that the flowers are so + constructed that they can freely fertilise themselves; but if visited by + insects they might be cross- fertilised. He has, however, only once seen + the flowers thus visited during the day; but it may be suspected that they + are frequented during the night by small moths for the sake of the five + minute drops of nectar secreted. Lastly, L. Lewisii is said by Planchon to + bear on the same plant flowers with stamens and pistils of the same + height, and others with the pistils either longer or shorter than the + stamens. This case formerly appeared to me an extraordinary one; but I am + now inclined to believe that it is one merely of great variability. (3/10. + Planchon in Hooker’s ‘London Journal of Botany’ 1848 volume 7 page 175. + See on this subject Asa Gray in ‘American Journal of Science’ volume 36 + September 1863 page 284.) + </p> + <h3> + PULMONARIA (BORAGINEAE). + </h3> + <p> + Pulmonaria officinalis. + </p> + <p> + Hildebrand has published a full account of this heterostyled plant. (3/11. + ‘Botanische Zeitung’ 1865 January 13 page 13.) The pistil of the + long-styled form is twice as long as that of the short-styled; and the + stamens differ in a corresponding, though converse, manner. There is no + marked difference in the shape or state of surface of the stigma in the + two forms. The pollen-grains of the short-styled form are to those of the + long-styled as 9 to 7, or as 100 to 78, in length, and as 7 to 6 in + breadth. They do not differ in the appearance of their contents. The + corolla of the one form differs in shape from that of the other in nearly + the same manner as in Primula; but besides this difference the flowers of + the short-styled are generally the larger of the two. Hildebrand collected + on the Siebengebirge, ten wild long-styled and ten short-styled plants. + The former bore 289 flowers, of which 186 (i.e. 64 per cent) had set + fruit, yielding 1.88 seed per fruit. The ten short-styled plants bore 373 + flowers, of which 262 (i.e. 70 per cent) had set fruit, yielding 1.86 seed + per fruit. So that the short-styled plants produced many more flowers, and + these set a rather larger proportion of fruit, but the fruits themselves + yielded a slightly lower average number of seeds than did the long-styled + plants. The results of Hildebrand’s experiments on the fertility of the + two forms are given in Table 3.19. + </p> + <p> + TABLE 3.19. Pulmonaria officinalis (from Hildebrand). + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Fruits produced. Column 4: Average Number of Seeds per + Fruit. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 14 : 10 : 1.30. + </p> + <p> + Long-styled 14 by own-pollen, and 16 by pollen of other plant of same + form. Illegitimate union : 30 : 0 : 0. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 16 : 14 : 1.57. + </p> + <p> + Short-styled 11 by own-pollen, 14 by pollen of other plant of same form. + Illegitimate union : 25 : 0 : 0. + </p> + <p> + In the summer of 1864, before I had heard of Hildebrand’s experiments, I + noticed some long-styled plants of this species (named for me by Dr. + Hooker) growing by themselves in a garden in Surrey; and to my surprise + about half the flowers had set fruit, several of which contained 2, and + one contained even 3 seeds. These seeds were sown in my garden and eleven + seedlings thus raised, all of which proved long-styled, in accordance with + the usual rule in such cases. Two years afterwards the plants were left + uncovered, no other plant of the same genus growing in my garden, and the + flowers were visited by many bees. They set an abundance of seeds: for + instance, I gathered from a single plant rather less than half of the + seeds which it had produced, and they numbered 47. Therefore this + illegitimately fertilised plant must have produced about 100 seeds; that + is, thrice as many as one of the wild long-styled plants collected on the + Siebengebirge by Hildebrand, and which, no doubt, had been legitimately + fertilised. In the following year one of my plants was covered by a net, + and even under these unfavourable conditions it produced spontaneously a + few seeds. It should be observed that as the flowers stand either almost + horizontally or hang considerably downwards, pollen from the short stamens + would be likely to fall on the stigma. We thus see that the English + long-styled plants when illegitimately fertilised were highly fertile, + whilst the German plants similarly treated by Hildebrand were completely + sterile. How to account for this wide discordance in our results I know + not. Hildebrand cultivated his plants in pots and kept them for a time in + the house, whilst mine were grown out of doors; and he thinks that this + difference of treatment may have caused the difference in our results. But + this does not appear to me nearly a sufficient cause, although his plants + were slightly less productive than the wild ones growing on the + Siebengbirge. My plants exhibited no tendency to become equal-styled, so + as to lose their proper long-styled character, as not rarely happens under + cultivation with several heterostyled species of Primula; but it would + appear that they had been greatly affected in function, either by + long-continued cultivation or by some other cause. We shall see in a + future chapter that heterostyled plants illegitimately fertilised during + several successive generations sometimes become more self-fertile; and + this may have been the case with my stock of the present species of + Pulmonaria; but in this case we must assume that the long-styled plants + were at first sufficiently fertile to yield some seed, instead of being + absolutely self-sterile like the German plants. + </p> + <p> + Pulmonaria angustifolia. + </p> + <p> + (FIGURE 3.6. Pulmonaria angustifolia. Left: Long-styled form. Right: + Short-styled form.) + </p> + <p> + Seedlings of this plant, raised from plants growing wild in the Isle of + Wight, were named for me by Dr. Hooker. It is so closely allied to the + last species, differing chiefly in the shape and spotting of the leaves, + that the two have been considered by several eminent botanists—for + instance, Bentham—as mere varieties. But, as we shall presently see, + good evidence can be assigned for ranking them as distinct. Owing to the + doubts on this head, I tried whether the two would mutually fertilise one + another. Twelve short-styled flowers of P. angustifolia were legitimately + fertilised with pollen from long-styled plants of P. officinalis (which, + as we have just seen, are moderately self-fertile), but they did not + produce a single fruit. Thirty-six long-styled flowers of P. angustifolia + were also illegitimately fertilised during two seasons with pollen from + the long-styled P. officinalis, but all these flowers dropped off + unimpregnated. Had the plants been mere varieties of the same species + these illegitimate crosses would probably have yielded some seeds, judging + from my success in illegitimately fertilising the long-styled flowers of + P. officinalis; and the twelve legitimate crosses, instead of yielding no + fruit, would almost certainly have yielded a considerable number, namely, + about nine, judging from the results given in Table 3.20. Therefore P. + officinalis and angustifolia appear to be good and distinct species, in + conformity with other important functional differences between them, + immediately to be described. + </p> + <p> + TABLE 3.20. Pulmonaria angustifolia. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Fruits produced. Column 4: Average Number of Seeds per + Fruit. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 18 : 9 : 2.11. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 18 : 0 : 0. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 18 : 15 : 2.60. + </p> + <p> + Short-styled by own-form pollen. Illegitimate union : 12 : 7 : 1.86. + </p> + <p> + The long-styled and short-styled flowers of P. angustifolia differ from + one another in structure in nearly the same manner as those of P. + officinalis. But in Figure 3.6 a slight bulging of the corolla in the + long-styled form, where the anthers are seated, has been overlooked. My + son William, who examined a large number of wild plants in the Isle of + Wight, observed that the corolla, though variable in size, was generally + larger in the long-styled flowers than in the short-styled; and certainly + the largest corollas of all were found on the long- styled plants, and the + smallest on the short-styled. Exactly the reverse occurs, according to + Hildebrand, with P. officinalis. Both the pistils and stamens of P. + angustifolia vary much in length; so that in the short-styled form the + distance between the stigma and the anthers varied from 119 to 65 + divisions of the micrometer, and in the long-styled from 115 to 112. From + an average of seven measurements of each form the distance between these + organs in the long-styled is to the same distance in the short-styled form + as 100 to 69; so that the stigma in the one form does not stand on a level + with the anthers in the other. The long-styled pistil is sometimes thrice + as long as that of the short-styled; but from an average of ten + measurements of both, its length to that of the short-styled was as 100 to + 56. The stigma varies in being more or less, though slightly, lobed. The + anthers also vary much in length in both forms, but in a greater degree in + the long-styled than in the short-styled-form; many in the former being + from 80 to 63, and in the latter from 80 to 70 divisions of the micrometer + in length. From an average of seven measurements, the short-styled anthers + were to those from the long-styled as 100 to 91 in length. Lastly, the + pollen-grains from the long-styled flowers varied between 13 and 11.5 + divisions of the micrometer, and those from the short-styled between 15 + and 13. The average diameter of 25 grains from the latter, or short-styled + form, was to that of 20 grains from the long-styled as 100 to 91. We see, + therefore, that the pollen-grains from the smaller anthers of the shorter + stamens in the long-styled form are, as usual, of smaller size than those + in the other form. But what is remarkable, a larger proportion of the + grains were small, shrivelled, and worthless. This could be seen by merely + comparing the contents of the anthers from several distinct plants of each + form. But in one instance my son found, by counting, that out of 193 + grains from a long-styled flower, 53 were bad, or 27 per cent; whilst out + of 265 grains from a short-styled flower only 18 were bad, or 7 per cent. + From the condition of the pollen in the long-styled form, and from the + extreme variability of all the organs in both forms, we may perhaps + suspect that the plant is undergoing a change, and tending to become + dioecious. + </p> + <p> + My son collected in the Isle of Wight on two occasions 202 plants, of + which 125 were long-styled and 77 short-styled; so that the former were + the more numerous. On the other hand, out of 18 plants raised by me from + seed, only 4 were long- styled and 14 short-styled. The short-styled + plants seemed to my son to produce a greater number of flowers than the + long-styled; and he came to this conclusion before a similar statement had + been published by Hildebrand with respect to P. officinalis. My son + gathered ten branches from ten different plants of both forms, and found + the number of flowers of the two forms to be as 100 to 89, 190 being + short-styled and 169 long-styled. With P. officinalis the difference, + according to Hildebrand, is even greater, namely, as 100 flowers for the + short- styled to 77 for the long-styled plants. Table 3.20 shows the + results of my experiments. + </p> + <p> + We see in Table 3.20 that the fertility of the two legitimate unions to + that of the two illegitimate together is as 100 to 35, judged by the + proportion of flowers which produced fruit; and as 100 to 32, judged by + the average number of seeds per fruit. But the small number of fruit + yielded by the 18 long-styled flowers in the first line was probably + accidental, and if so, the difference in the proportion of legitimately + and illegitimately fertilised flowers which yield fruit is really greater + than that represented by the ratio of 100 to 35. The 18 long-styled + flowers illegitimately fertilised yielded no seeds,—not even a + vestige of one. Two long-styled plants which were placed under a net + produced 138 flowers, besides those which were artificially fertilised, + and none of these set any fruit; nor did some plants of the same form + which were protected during the next summer. Two other long-styled plants + were left uncovered (all the short-styled plants having been previously + covered up), and humble-bees, which had their foreheads white with pollen, + incessantly visited the flowers, so that their stigmas must have received + an abundance of pollen, yet these flowers did not produce a single fruit. + We may therefore conclude that the long-styled plants are absolutely + barren with their own-form pollen, though brought from a distinct plant. + In this respect they differ greatly from the long-styled English plants of + P. officinalis which were found by me to be moderately self-fertile; but + they agree in their behaviour with the German plants of P. officinalis + experimented on by Hildebrand. + </p> + <p> + Eighteen short-styled flowers legitimately fertilised yielded, as may be + seen in Table 3.20, 15 fruits, each having on an average 2.6 seeds. Four + of these fruits contained the highest possible number of seeds, namely 4, + and four other fruits contained each 3 seeds. The 12 illegitimately + fertilised short-styled flowers yielded 7 fruits, including on an average + 1.86 seed; and one of these fruits contained the maximum number of 4 + seeds. This result is very surprising in contrast with the absolute + barrenness of the long-styled flowers when illegitimately fertilised; and + I was thus led to attend carefully to the degree of self-fertility of the + short-styled plants. A plant belonging to this form and covered by a net + bore 28 flowers besides those which had been artificially fertilised, and + of all these only two produced a fruit each including a single seed. This + high degree of self-sterility no doubt depended merely on the stigmas not + receiving any pollen, or not a sufficient quantity. For after carefully + covering all the long-styled plants in my garden, several short-styled + plants were left exposed to the visits of humble-bees, and their stigmas + will thus have received plenty of short-styled pollen; and now about half + the flowers, thus illegitimately fertilised, set fruit. I judge of this + proportion partly from estimation and partly from having examined three + large branches, which had borne 31 flowers, and these produced 16 fruits. + Of the fruits produced 233 were collected (many being left ungathered), + and these included on an average 1.82 seed. No less than 16 out of the 233 + fruits included the highest possible number of seeds, namely 4, and 31 + included 3 seeds. So we see how highly fertile these short-styled plants + were when illegitimately fertilised with their own-form pollen by the aid + of bees. + </p> + <p> + The great difference in the fertility of the long and short-styled + flowers, when both are illegitimately fertilised, is a unique case, as far + as I have observed with heterostyled plants. The long-styled flowers when + thus fertilised are utterly barren, whilst about half of the short-styled + ones produce capsules, and these include a little above two-thirds of the + number of seeds yielded by them when legitimately fertilised. The + sterility of the illegitimately fertilised long-styled flowers is probably + increased by the deteriorated condition of their pollen; nevertheless this + pollen was highly efficient when applied to the stigmas of the + short-styled flowers. With several species of Primula the short- styled + flowers are much more sterile than the long-styled, when both are + illegitimately fertilised; and it is a tempting view, as formerly + remarked, that this greater sterility of the short-styled flowers is a + special adaptation to check self-fertilisation, as their stigmas are + eminently liable to receive their own pollen. This view is even still more + tempting in the case of the long-styled form of Linum grandiflorum. On the + other hand, with Pulmonaria angustifolia, it is evident, from the corolla + projecting obliquely upwards, that pollen is much more likely to fall on, + or to be carried by insects down to the stigma of the short-styled than of + the long-styled flowers; yet the short-styled instead of being more + sterile, as a protection against self-fertilisation, are far more fertile + than the long-styled, when both are illegitimately fertilised. + </p> + <p> + Pulmonaria azurea, according to Hildebrand, is not heterostyled. (3/12. + ‘Die Geschlechter-Vertheilung bei den Pflanzen’ 1867 page 37.) + </p> + <p> + [From an examination of dried flowers of Amsinckia spectabilis, sent me by + Professor Asa Gray, I formerly thought that this plant, a member of the + Boragineae, was heterostyled. The pistil varies to an extraordinary degree + in length, being in some specimens twice as long as in others, and the + point of insertion of the stamens likewise varies. But on raising many + plants from seed, I soon became convinced that the whole case was one of + mere variability. The first-formed flowers are apt to have stamens + somewhat arrested in development, with very little pollen in their + anthers; and in such flowers the stigma projects above the anthers, whilst + generally it stands below and sometimes on a level with them. I could + detect no difference in the size of the pollen-grain or in the structure + of the stigma in the plants which differed most in the above respects; and + all of them, when protected from the access of insects, yielded plenty of + seeds. Again, from statements made by Vaucher, and from a hasty + inspection, I thought at first that the allied Anchusa arvensis and Echium + vulgare were heterostyled, but soon saw my error. From information given + me, I examined dried flowers of another member of the Boragineae, Arnebia + hispidissima, collected from several sites, and though the corolla, + together with the included organs, differed much in length, there was no + sign of heterostylism.] + </p> + <p> + Polygonum fagopyrum (Polygonaceae). + </p> + <p> + (FIGURE 3.7. Polygonum fagopyrum. (From H. Muller.) Upper figure, the + long-styled form; lower figure, the short-styled. Some of the anthers have + dehisced, others have not.) + </p> + <p> + Hildebrand has shown that this plant, the common Buck-wheat, is + heterostyled. (3/13. ‘Die Geschlechter-Vertheilung’ etc. 1867 page 34.) In + the long-styled form (Figure 3.7), the three stigmas project considerably + above the eight short stamens, and stand on a level with the anthers of + the eight long stamens in the short-styled form; and so it is conversely + with the stigmas and stamens of this latter form. I could perceive no + difference in the structure of the stigmas in the two forms. The + pollen-grains of the short-styled form are to those of the long-styled as + 100 to 82 in diameter. This plant is therefore without doubt heterostyled. + </p> + <p> + I experimented only in an imperfect manner on the relative fertility of + the two forms. Short-styled flowers were dragged several times over two + heads of flowers on long-styled plants, protected under a net, which were + thus legitimately, though not fully, fertilised. They produced 22 seeds, + or 11 per flower-head. + </p> + <p> + Three flower-heads on long-styled plants received pollen in the same + manner from other long-styled plants, and were thus illegitimately + fertilised. They produced 14 seeds, or only 4.66 per flower-head. + </p> + <p> + Two flower-heads on short-styled plants received pollen in like manner + from long-styled flowers, and were thus legitimately fertilised. They + produced 8 seeds, or 4 per flower-head. + </p> + <p> + Four heads on short-styled plants similarly received pollen from other + short- styled plants, and were thus illegitimately fertilised. They + produced 9 seeds, or 2.25 per flower-head. + </p> + <p> + The results from fertilising the flower-heads in the above imperfect + manner cannot be fully trusted; but I may state that the four legitimately + fertilised flower-heads yielded on an average 7.50 seeds per head; whereas + the seven illegitimately fertilised heads yielded less than half the + number, or on an average only 3.28 seeds. The legitimately crossed seeds + from the long-styled flowers were finer than those from the illegitimately + fertilised flowers on the same plants, in the ratio of 100 to 82, as shown + by the weights of an equal number. + </p> + <p> + About a dozen plants, including both forms, were protected under nets, and + early in the season they produced spontaneously hardly any seeds, though + at this period the artificially fertilised flowers produced an abundance; + but it is a remarkable fact that later in the season, during September, + both forms became highly self-fertile. They did not, however, produce so + many seeds as some neighbouring uncovered plants which were visited by + insects. Therefore the flowers of neither form when left to fertilise + themselves late in the season without the aid of insects, are nearly so + sterile as most other heterostyled plants. A large number of insects, + namely 41 kinds as observed by H. Muller, visit the flowers for the sake + of the eight drops of nectar. (3/14. ‘Die Befruchtung’ etc. page 175 and + ‘Nature’ January 1, 1874 page 166.) He infers from the structure of the + flowers that insects would be apt to fertilise them both illegitimately as + well as legitimately; but he is mistaken in supposing that the long-styled + flowers cannot spontaneously fertilise themselves. + </p> + <p> + Differently to what occurs in the other genera hitherto noticed, + Polygonum, though a very large genus, contains, as far as is at present + known, only a single heterostyled species, namely the present one. H. + Muller in his interesting description of several other species shows that + P. bistorta is so strongly proterandrous (the anthers generally falling + off before the stigmas are mature) that the flowers must be + cross-fertilised by the many insects which visit them. Other species bear + much less conspicuous flowers which secrete little or no nectar, and + consequently are rarely visited by insects; these are adapted for + self-fertilisation, though still capable of cross-fertilisation. According + to Delpino, the Polygonaceae are generally fertilised by the wind, instead + of by insects as in the present genus. + </p> + <p> + [Leucosmia Burnettiana (Thymeliae). + </p> + <p> + As Professor Asa Gray has expressed his belief that this species and L. + acuminata, as well as some species in the allied genus Drymispermum, are + dimorphic or heterostyled (3/15. ‘American Journal of Science’ 1865 page + 101 and Seemann’s ‘Journal of Botany’ volume 3 1865 page 305.), I procured + from Kew, through the kindness of Dr. Hooker, two dried flowers of the + former species, an inhabitant of the Friendly Islands in the Pacific. The + pistil of the long-styled form is to that of the short-styled as 100 to 86 + in length; the stigma projects just above the throat of the corolla, and + is surrounded by five anthers, the tips of which reach up almost to its + base; and lower down, within the tubular corolla, five other and rather + smaller anthers are seated. In the short-styled form, the stigma stands + some way down the tube of the corolla, nearly on a level with the lower + anthers of the other form: it differs remarkably from the stigma of the + long-styled form, in being more papillose, and in being longer in the + ratio of 100 to 60. The anthers of the upper stamens in the short-styled + form are supported on free filaments, and project above the throat of the + corolla, whilst the anthers of the lower stamens are seated in the throat + on a level with the upper stamens of the other form. The diameters of a + considerable number of grains from both sets of anthers in both forms were + measured, but they did not differ in any trustworthy degree. The mean + diameter of twenty-two grains from the short-styled flower was to that of + twenty-four grains from the long-styled, as 100 to 99. The anthers of the + upper stamens in the short-styled form appeared to be poorly developed, + and contained a considerable number of shrivelled grains which were + omitted in striking the above average. Notwithstanding the fact of the + pollen-grains from the two forms not differing in diameter in any + appreciable degree, there can hardly be a doubt from the great difference + in the two forms in the length of the pistil, and especially of the + stigma, together with its more papillose condition in the short-styled + form, that the present species is truly heterostyled. This case resembles + that of Linum grandiflorum, in which the sole difference between the two + forms consists in the length of the pistils and stigmas. From the great + length of the tubular corolla of Leucosmia, it is clear that the flowers + are cross-fertilised by large Lepidoptera or by honey-sucking birds, and + the position of the stamens in two whorls one beneath the other, which is + a character that I have not seen in any other heterostyled dimorphic + plant, probably serves to smear the inserted organ thoroughly with pollen. + </p> + <p> + Menyanthes trifoliata (Gentianeae). + </p> + <p> + This plant inhabits marshes: my son William gathered 247 flowers from so + many distinct plants, and of these 110 were long-styled, and 137 + short-styled. The pistil of the long-styled form is in length to that of + the short-styled in the ratio of about 3 to 2. The stigma of the former, + as my son observed, is decidedly larger than that of the short-styled; but + in both forms it varies much in size. The stamens of the short-styled are + almost double the length of those of the long-styled; so that their + anthers stand rather above the level of the stigma of the long-styled + form. The anthers also vary much in size, but seem often to be of larger + size in the short-styled flowers. My son made with the camera many + drawings of the pollen-grains, and those from the short-styled flowers + were in diameter in nearly the ratio of 100 to 84 to those from the + long-styled flowers. I know nothing about the capacity for fertilisation + in the two forms; but short-styled plants, living by themselves in the + gardens at Kew, have produced an abundance of capsules, yet the seeds have + never germinated; and this looks as if the short-styled form was sterile + with its own pollen. + </p> + <p> + Limnanthemum Indicum (Gentianeae). + </p> + <p> + This plant is mentioned by Mr. Thwaites in his Enumeration of the Plants + of Ceylon as presenting two forms; and he was so kind as to send me + specimens preserved in spirits. The pistil of the long-styled form is + nearly thrice as long (i.e. as 14 to 5) as that of the short-styled, and + is very much thinner in the ratio of about 3 to 5. The foliaceous stigma + is more expanded, and twice as large as that of the short-styled form. In + the latter the stamens are about twice as long as those of the + long-styled, and their anthers are larger in the ratio of 100 to 70. The + pollen-grains, after having been long kept in spirits, were of the same + shape and size in both forms. The ovules, according to Mr. Thwaites, are + equally numerous (namely from 70 to 80) in the two forms. + </p> + <p> + Villarsia [sp.?] (Gentianeae). + </p> + <p> + Fritz Muller sent me from South Brazil dried flowers of this aquatic + plant, which is closely allied to Limnanthemum. In the long-styled form + the stigma stands some way above the anthers, and the whole pistil, + together with the ovary, is in length to that of the short-styled form as + about 3 to 2. In the latter form the anthers stand above the stigma, and + the style is very short and thick; but the pistil varies a good deal in + length, the stigma being either on a level with the tips of the sepals or + considerably beneath them. The foliaceous stigma in the long-styled form + is larger, with the expansions running farther down the style, than in the + other form. One of the most remarkable differences between the two forms + is that the anthers of the longer stamens in the short- styled flowers are + conspicuously longer than those of the shorter stamens in the long-styled + flowers. In the former the sub-triangular pollen-grains are larger; the + ratio between their breadth (measured from one angle to the middle of the + opposite side) and that of the grains from the long-styled flowers being + about 100 to 75. Fritz Muller also informs me that the pollen of the + short-styled flowers has a bluish tint, whilst that of the long-styled is + yellow. When we treat of Lythrum salicaria we shall find a strongly marked + contrast in the colour of the pollen in two of the forms. + </p> + <p> + The three genera, Menyanthes, Limnanthemum, and Villarsia, now described, + constitute a well-marked sub-tribe of the Gentianeae. All the species, as + far as at present known, are heterostyled, and all inhabit aquatic or + sub-aquatic stations. + </p> + <p> + Forsythia suspensa (Oleaceae). + </p> + <p> + Professor Asa Gray states that the plants of this species growing in the + Botanic Gardens at Cambridge, U.S., are short-styled, but that Siebold and + Zuccarini describe the long-styled form, and give figures of two forms; so + that there can be little doubt, as he remarks, about the plant being + dimorphic. (3/16. ‘The American Naturalist’ July 1873 page 422.) I + therefore applied to Dr. Hooker, who sent me a dried flower from Japan, + another from China, and another from the Botanic Gardens at Kew. The first + proved to be long-styled, and the other two short-styled. In the + long-styled form, the pistil is in length to that of the short-styled as + 100 to 38, the lobes of the stigma being a little longer (as 10 to 9), but + narrower and less divergent. This last character, however, may be only a + temporary one. There seems to be no difference in the papillose condition + of the two stigmas. In the short-styled form, the stamens are in length to + those of the long-styled as 100 to 66, but the anthers are shorter in the + ratio of 87 to 100; and this is unusual, for when there is any difference + in size between the anthers of the two forms, those from the longer + stamens of the short-styled are generally the longest. The pollen-grains + from the short-styled flowers are certainly larger, but only in a slight + degree, than those from the long-styled, namely, as 100 to 94 in diameter. + The short-styled form, which grows in the Gardens at Kew, has never there + produced fruit. + </p> + <p> + Forsythia viridissima appears likewise to be heterostyled; for Professor + Asa Gray says that although the long-styled form alone grows in the + gardens at Cambridge, U.S., the published figures of this species belong + to the short- styled form. + </p> + <p> + Cordia [sp.?] (Cordiaceae). + </p> + <p> + Fritz Muller sent me dried specimens of this shrub, which he believes to + be heterostyled; and I have not much doubt that this is the case, though + the usual characteristic differences are not well pronounced in the two + forms. Linum grandiflorum shows us that a plant may be heterostyled in + function in the highest degree, and yet the two forms may have stamens of + equal length, and pollen-grains of equal size. In the present species of + Cordia, the stamens of both forms are of nearly equal length, those of the + short-styled being rather the longest; and the anthers of both are seated + in the mouth of the corolla. Nor could I detect any difference in the size + of the pollen-grains, when dry or after being soaked in water. The stigmas + of the long-styled form stand clear above the anthers, and the whole + pistil is longer than that of the short-styled, in about the ratio of 3 to + 2. + </p> + <p> + The stigmas of the short-styled form are seated beneath the anthers, and + they are considerably shorter than those of the long-styled form. This + latter difference is the most important one of any between the two forms. + </p> + <p> + Gilia (Ipomopsis) pulchella vel aggregata (Polemoniaceae). + </p> + <p> + Professor Asa Gray remarks with respect to this plant: “the tendency to + dimorphism, of which there are traces, or perhaps rather incipient + manifestations in various portions of the genus, is most marked in G. + aggregata.” (3/17. ‘Proceedings of the American Academy of Arts and + Sciences.’ June 14, 1870 page 275.) He sent me some dried flowers, and I + procured others from Kew. They differ greatly in size, some being nearly + twice as long as others (namely as 30 to 17), so that it was not possible + to compare, except by calculation, the absolute length of the organs from + different plants. Moreover, the relative position of the stigmas and + anthers is variable: in some long- styled flowers the stigmas and anthers + were exserted only just beyond the throat of the corolla; whilst in others + they were exserted as much as 4/10 of an inch. I suspect also that the + pistil goes on growing for some time after the anthers have dehisced. + Nevertheless it is possible to class the flowers under two forms. In some + of the long-styled, the length of pistil to that of the short-styled was + as 100 to 82; but this result was gained by reducing the size of the + corollas to the same scale. In another pair of flowers the difference in + length between the pistils of the two forms was certainly greater, but + they were not actually measured. In the short-styled flowers whether large + or small, the stigma is seated low down within the tube of the corolla. + The papillae on the long-styled stigma are longer than those on the + short-styled, in the ratio of 100 to 40. The filaments in some of the + short-styled flowers were, to those of the long-styled, as 100 to 25 in + length, the free, or unattached portion being alone measured; but this + ratio cannot be trusted, owing to the great variability of the stamens. + The mean diameter of eleven pollen-grains from long-styled flowers, and of + twelve from the short-styled, was exactly the same. It follows from these + several statements, that the difference in length and state of surface of + the stigmas in the flowers is the sole reliable evidence that this species + is heterostyled; for it would be rash to trust to the difference in the + length of the pistils, seeing how variable they are. I should have left + the case altogether doubtful, had it not been for the observations on the + following species; and these leave little doubt on my mind that the + present plant is truly heterostyled. Professor Gray informs me that in + another species, G. coronopifolia, belonging to the same section of the + genus, he can see no sign of dimorphism. + </p> + <p> + Gilia (Leptosiphon) micrantha. + </p> + <p> + A few flowers sent me from Kew had been somewhat injured, so that I cannot + say anything positively with respect to the position and relative length + of the organs in the two forms. But their stigmas differed almost exactly + in the same manner as in the last species; the papillae on the long-styled + stigma being longer than those on the short-styled, in the ratio of 100 to + 42. My son measured nine pollen-grains from the long-styled, and the same + number from the short-styled form; and the mean diameter of the former was + to that of the latter as 100 to 81. Considering this difference, as well + as that between the stigmas of the two forms, there can be no doubt that + this species is heterostyled. So probably is Gilia nudicaulis, which + likewise belongs to the Leptosiphon section of the genus, for I hear from + Professor Asa Gray that in some individuals the style is very long, with + the stigma more or less exserted, whilst in others it is deeply included + within the tube; the anthers being always seated in the throat of the + corolla. + </p> + <p> + Phlox subulata (Polemoniaceae). + </p> + <p> + Professor Asa Gray informs me that the greater number of the species in + this genus have a long pistil, with the stigma more or less exserted; + whilst several other species, especially the annuals, have a short pistil + seated low down within the tube of the corolla. In all the species the + anthers are arranged one below the other, the uppermost just protruding + from the throat of the corolla. In Phlox subulata alone he has “seen both + long and short styles; and here the short-styled plant has (irrespective + of this character) been described as a distinct species (P. nivalis, P. + Hentzii), and is apt to have a pair of ovules in each cell, while the + long-styled P. subulata rarely shows more than one.” (3/18. ‘Proceedings + of the American Academy of Arts and Sciences’ June 14, 1870 page 248.) + Some dried flowers of both forms were sent me by him, and I received + others from Kew, but I have failed to make out whether the species is + heterostyled. In two flowers of nearly equal size, the pistil of the + long-styled form was twice as long as that of the short-styled; but in + other cases the difference was not nearly so great. The stigma of the + long-styled pistil stands nearly in the throat of the corolla; whilst in + the short-styled it is placed low down—sometimes very low down in + the tube, for it varies greatly in position. The stigma is more papillose, + and of greater length (in one instance in the ratio of 100 to 67), in the + short-styled flowers than in the long-styled. My son measured twenty + pollen-grains from a short-styled flower, and nine from a long- styled, + and the former were in diameter to the latter as 100 to 93; and this + difference accords with the belief that the plant is heterostyled. But the + grains from the short-styled varied much in diameter. He afterwards + measured ten grains from a distinct long-styled flower, and ten from + another plant of the same form, and these grains differed in diameter in + the ratio of 100 to 90. The mean diameter of these two lots of twenty + grains was to that of twelve grains from another short-styled flower as + 100 to 75: here, then, the grains from the short-styled form were + considerably smaller than those from the long-styled, which is the reverse + of what occurred in the former instance, and of what is the general rule + with heterostyled plants. The whole case is perplexing in the highest + degree, and will not be understood until experiments are tried on living + plants. The greater length, and more papillose condition of the stigma in + the short-styled than in the long-styled flowers, looks as if the plant + was heterostyled; for we know that with some species—for instance, + Leucosmia and certain Rubiaceae—the stigma is longer and more + papillose in the short-styled form, though the reverse of this holds good + in Gilia, a member of the same family with Phlox. The similar position of + the anthers in the two forms is somewhat opposed to the present species + being heterostyled; as is the great difference in the length of the pistil + in several short-styled flowers. But the extraordinary variability in + diameter of the pollen-grains, and the fact that in one set of flowers the + grains from the long-styled flowers were larger than those from the + short-styled, is strongly opposed to the belief that Phlox subulata is + heterostyled. Possibly this species was once heterostyled, but is now + becoming sub-dioecious; the short-styled plants having been rendered more + feminine in nature. This would account for their ovaries usually + containing more ovules, and for the variable condition of their + pollen-grains. Whether the long- styled plants are now changing their + nature, as would appear to be the case from the variability of their + pollen-grains, and are becoming more masculine, I will not pretend to + conjecture; they might remain as hermaphrodites, for the coexistence of + hermaphrodite and female plants of the same species is by no means a rare + event. + </p> + <p> + Erythroxylum [sp.?] (Erythroxylidae). + </p> + <p> + (FIGURE 3.8. Erythroxylon [sp.?] Left: Long-styled form. Right: + Short-styled form. From a sketch by Fritz Muller, magnified five times.) + </p> + <p> + Fritz Muller sent me from South Brazil dried flowers of this tree, + together with the drawings (Figure 3.8.), which show the two forms, + magnified about five times, with the petals removed. In the long-styled + form the stigmas project above the anthers, and the styles are nearly + twice as long as those of the short-styled form, in which the stigmas + stand beneath the anthers. The stigmas in many, but not in all the + short-styled flowers are larger than those in the long-styled. The anthers + of the short-styled flowers stand on a level with the stigmas of the other + form; but the stamens are longer by only one-fourth or one- fifth of their + own length than those of the long-styled. Consequently the anthers of the + latter do not stand on a level with, but rather above the stigmas of the + other form. Differently from what occurs in the following closely allied + genus, Sethia, the stamens are of nearly equal length in the flowers of + the same form. The pollen-grains of the short-styled flowers, measured in + their dry state, are a little larger than those from the long-styled + flowers in about the ratio of 100 to 93. (3/19. F. Muller remarks in his + letter to me that the flowers, of which he carefully examined many + specimens, are curiously variable in the number of their parts: 5 sepals + and petals, 10 stamens and 3 pistils are the prevailing numbers; but the + sepals and petals often vary from 5 to 7; the stamens from 10 to 14, and + the pistils from 3 to 4.) + </p> + <p> + Sethia acuminata (Erythroxylidae). + </p> + <p> + Mr. Thwaites pointed out several years ago that this plant exists under + two forms, which he designated as forma stylosa et staminea; and the + flowers sent to me by him are clearly heterostyled. (3/20. ‘Enumeratio + Plantarum Zeylaniae’ 1864 page 54.) In the long-styled form the pistil is + nearly twice as long, and the stamens half as long as the corresponding + organs in the short-styled form. The stigmas of the long-styled seem + rather smaller than those of the short-styled. All the stamens in the + short-styled flowers are of nearly equal length, whereas in long-styled + they differ in length, being alternately a little longer and shorter; and + this difference in the stamens of the two forms is probably related, as we + shall hereafter see in the case of the short-styled flowers of Lythrum + salicaria, to the manner in which insects can best transport pollen from + the long-styled flowers to the stigmas of the short-styled. The + pollen-grains from the short-styled flowers, though variable in size, are + to those of the long-styled, as far as I could make out, as 100 to 83 in + their longer diameter. Sethia obtusifolia is heterostyled like S. + acuminata. + </p> + <p> + Cratoxylon formosum (Hypericineae). + </p> + <p> + Mr. Thiselton Dyer remarks that this tree, an inhabitant of Malacca and + Borneo, appears to be heterostyled. (3/21. ‘Journal of Botany’ London 1872 + page 26.) He sent me dried flowers, and the difference between the two + forms is conspicuous. In the short-styled form the pistils are in length + to those of the short-styled as 100 to 40, with their globular stigmas + about twice as thick. These stand just above the numerous anthers and a + little beneath the tips of the petals. In the short-styled form the + anthers project high above the pistils, the stigmas of which diverge + between the three bundles of stamens, and stand only a little above the + tips of the sepals. The stamens in this form are to those of the long- + styled as 100 to 86 in length; and therefore they do not differ so much in + length as do the pistils. Ten pollen-grains from each form were measured, + and those from the short-styled were to those from the long-styled as 100 + to 86 in diameter. This plant, therefore, is in all respects a + well-characterised heterostyled species. + </p> + <p> + Aegiphila elata (Verbenaceae). + </p> + <p> + Mr. Bentham was so kind as to send me dried flowers of this species and of + Ae. mollis, both inhabitants of South America. The two forms differ + conspicuously, as the deeply bifid stigma of the one, and the anthers of + the other project far above the mouth of the corolla. In the long-styled + form of the present species, the style is twice and a half as long as that + of the short-styled. The divergent stigmas of the two forms do not differ + much in length, nor as far as I could perceive in their papillae. In the + long-styled flowers the filaments adhere to the corolla close up to the + anthers, which are enclosed some way down within the tube. In the + short-styled flowers the filaments are free above the point where the + anthers are seated in the other form, and they project from the corolla to + an equal height with that of the stigmas in the long-styled flowers. It is + often difficult to measure with accuracy pollen-grains, which have long + been dried and then soaked in water; but they here manifestly differed + greatly in size. Those from the short-styled flowers were to those from + the long-styled in diameter in about the ratio of 100 to 62. The two forms + of Ae. mollis present a like difference in the length of their pistils and + stamens. + </p> + <p> + Aegiphila obdurata. + </p> + <p> + Flowers of this bush were sent me from St. Catharina in Brazil, by Fritz + Muller, and were named for me at Kew. They appeared at first sight grandly + heterostyled, as the stigma of the long-styled form projects far out of + the corolla, whilst the anthers are seated halfway down within the tube; + whereas in the short-styled form the anthers project from the corolla and + the stigma is enclosed in the tube at nearly the same level with the + anthers of the other form. The pistil of the long-styled is to that of the + short-styled as 100 to 60 in length, and the stigmas, taken by themselves, + as 100 to 55. Nevertheless, this plant cannot be heterostyled. The anthers + in the long-styled form are brown, tough, and fleshy, and less than half + the length of those in the short-styled form, strictly as 44 to 100; and + what is much more important, they were in a rudimentary condition in the + two flowers examined by me, and did not contain a single grain of pollen. + In the short-styled form, the divided stigma, which as we have seen is + much shortened, is thicker and more fleshy than the stigma of the + long-styled, and is covered with small irregular projections, formed of + rather large cells. It had the appearance of having suffered from + hyperthrophy, and is probably incapable of fertilisation. If this be so + the plant is dioecious, and judging from the two species previously + described, it probably was once heterostyled, and has since been rendered + dioecious by the pistil in the one form, and the stamens in the other + having become functionless and reduced in size. It is, however, possible + that the flowers may be in the same state as those of the common thyme and + of several other Labiatae, in which females and hermaphrodites regularly + co-exist. Fritz Muller, who thought that the present plant was + heterostyled, as I did at first, informs me that he found bushes in + several places growing quite isolated, and that these were completely + sterile; whilst two plants growing close together were covered with fruit. + This fact agrees better with the belief that the species is dioecious than + that it consists of hermaphrodites and females; for if any one of the + isolated plants had been an hermaphrodite, it would probably have produced + some fruit.] + </p> + <h3> + RUBIACEAE. + </h3> + <p> + This great natural family contains a much larger number of heterostyled + genera than any other one, as yet known. + </p> + <p> + Mitchella repens. + </p> + <p> + Professor Asa Gray sent me several living plants collected when out of + flower, and nearly half of these proved long-styled, and the other half + short-styled. The white flowers, which are fragrant and which secrete + plenty of nectar, always grow in pairs with their ovaries united, so that + the two together produce “a berry-like double drupe.” (3/22. A. Gray + ‘Manual of the Botany of the United States’ 1856 page 172.) In my first + series of experiments (1864) I did not suppose that this curious + arrangement of the flowers would have any influence on their fertility; + and in several instances only one of the two flowers in a pair was + fertilised; and a large proportion or all of these failed to produce + berries. In the ensuing year both flowers of each pair were invariably + fertilised in the same manner; and the latter experiments alone serve to + show the proportion of flowers which yield berries, when legitimately and + illegitimately fertilised; but for calculating the average number of seeds + per berry I have used those produced during both seasons. + </p> + <p> + In the long-styled flowers the stigma projects just above the bearded + throat of the corolla, and the anthers are seated some way down the tube. + In the short- styled flowers those organs occupy reversed positions. In + this latter form the fresh pollen-grains are a little larger and more + opaque than those of the long- styled form. The results of my experiments + are given in Table 3.21. + </p> + <p> + TABLE 3.21. Mitchella repens. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Pairs of Flowers + fertilised during the second season. Column 3: Number of Drupes produced + during the second season. Column 4: Average Number of good Seeds per Drupe + in all the Drupes during the two Seasons. + </p> + <p> + Long-styled by pollen of short-styled. Legitimate union : 9 : 8 : 4.6. + </p> + <p> + Long-styled by own-form pollen. Illegitimate union : 8 : 3 : 2.2. + </p> + <p> + Short-styled by pollen of long-styled. Legitimate union: 8 : 7 : 4.1. + </p> + <p> + Short-styled by own-form pollen. Illegitimate union : 9 : 0 : 2.0. + </p> + <p> + The two legitimate unions together : 17 : 15 : 4.4. + </p> + <p> + The two illegitimate unions together : 17 : 3 : 2.1. + </p> + <p> + It follows from this table that 88 per cent of the paired flowers of both + forms, when legitimately fertilised, yielded double berries, nineteen of + which contained on an average 4.4 seeds, with a maximum in one of 8 seeds. + Of the illegitimately fertilised paired flowers only 18 per cent yielded + berries, six of which contained on an average only 2.1 seeds, with a + maximum in one of 4 seeds. Thus the two legitimate unions are more fertile + than the two illegitimate, according to the proportion of flowers which + yielded berries, in the ratio of 100 to 20; and according to the average + number of contained seeds as 100 to 47. + </p> + <p> + Three long-styled and three short-styled plants were protected under + separate nets, and they produced altogether only 8 berries, containing on + an average only 1.5 seed. Some additional berries were produced which + contained no seeds. The plants thus treated were therefore excessively + sterile, and their slight degree of fertility may be attributed in part to + the action of the many individuals of Thrips which haunted the flowers. + Mr. J. Scott informs me that a single plant (probably a long-styled one), + growing in the Botanic Gardens at Edinburgh, which no doubt was freely + visited by insects, produced plenty of berries, but how many of them + contained seeds was not observed. + </p> + <p> + Borreria, nov. sp. near valerianoides (Rubiaceae). + </p> + <p> + Fritz Muller sent me seeds of this plant, which is extremely abundant in + St. Catharina, in South Brazil; and ten plants were raised, consisting of + five long- styled and five short-styled. The pistil of the long-styled + flowers projects just beyond the mouth of the corolla, and is thrice as + long as that of the short-styled, and the divergent stigmas are likewise + rather larger. The anthers in the long-styled form stand low down within + the corolla, and are quite hidden. In the short-styled flowers the anthers + project just above the mouth of the corolla, and the stigma stands low + down within the tube. Considering the great difference in the length of + the pistils in the two forms, it is remarkable that the pollen-grains + differ very little in size, and Fritz Muller was struck with the same + fact. In a dry state the grains from the short-styled flowers could just + be perceived to be larger than those from the long-styled, and when both + were swollen by immersion in water, the former were to the latter in + diameter in the ratio of 100 to 92. In the long-styled flowers beaded + hairs almost fill up the mouth of the corolla and project above it; they + therefore stand above the anthers and beneath the stigma. In the + short-styled flowers a similar brush of hairs is situated low down within + the tubular corolla, above the stigma and beneath the anthers. The + presence of these beaded hairs in both forms, though occupying such + different positions, shows that they are probably of considerable + functional importance. They would serve to guard the stigma of each form + from its own pollen; but in accordance with Professor Kerner’s view their + chief use probably is to prevent the copious nectar being stolen by small + crawling insects, which could not render any service to the species by + carrying pollen from one form to the other. (3/23. ‘Die Schutzmittel der + Bluthen gegen unberufene Gaste’ 1876 page 37.) + </p> + <p> + The flowers are so small and so crowded together that I was not willing to + expend time in fertilising them separately; but I dragged repeatedly heads + of short-styled flowers over three long-styled flower-heads, which were + thus legitimately fertilised; and they produced many dozen fruits, each + containing two good seeds. I fertilised in the same manner three heads on + the same long- styled plant with pollen from another long-styled plant, so + that these were fertilised illegitimately, and they did not yield a single + seed. Nor did this plant, which was of course protected by a net, bear + spontaneously any seeds. Nevertheless another long-styled plant, which was + carefully protected, produced spontaneously a very few seeds; so that the + long-styled form is not always quite sterile with its own pollen. + </p> + <p> + Faramea [sp.?] (Rubiaceae). + </p> + <p> + (FIGURE 3.9. Faramea [sp.?] Left: Short-styled form. Right: Long-styled + form. Outlines of flowers from dried specimens. Pollen-grains magnified + 180 times, by Fritz Muller.) + </p> + <p> + Fritz Muller has fully described the two forms of this remarkable plant, + an inhabitant of South Brazil. (3/24. ‘Botanische Zeitung’ September 10, + 1869 page 606.) In the long-styled form the pistil projects above the + corolla, and is almost exactly twice as long as that of the short-styled, + which is included within the tube. The former is divided into two rather + short and broad stigmas, whilst the short-styled pistil is divided into + two long, thin, sometimes much curled stigmas. The stamens of each form + correspond in height or length with the pistils of the other form. The + anthers of the short-styled form are a little larger than those of the + long-styled; and their pollen-grains are to those of the other form as 100 + to 67 in diameter. But the pollen-grains of the two forms differ in a much + more remarkable manner, of which no other instance is known; those from + the short-styled flowers being covered with sharp points; the smaller ones + from the long-styled being quite smooth. Fritz Muller remarks that this + difference between the pollen-grains of the two forms is evidently of + service to the plant; for the grains from the projecting stamens of the + short-styled form, if smooth, would have been liable to be blown away by + the wind, and would thus have been lost; but the little points on their + surfaces cause them to cohere, and at the same time favour their adhesion + to the hairy bodies of insects, which merely brush against the anthers of + these stamens whilst visiting the flowers. On the other hand, the smooth + grains of the long-styled flowers are safely included within the tube of + the corolla, so that they cannot be blown away, but are almost sure to + adhere to the proboscis of an entering insect, which is necessarily + pressed close against the enclosed anthers. + </p> + <p> + It may be remembered that in the long-styled form of Linum perenne each + separate stigma rotates on its own axis, when the flower is mature, so as + to turn its papillose surface outwards. There can be no doubt that this + movement, which is confined to the long-styled form, is effected in order + that the proper surface of the stigma should receive pollen brought by + insects from the other form. Now with Faramea, as Fritz Muller shows, it + is the stamens which rotate on their axes in one of the two forms, namely, + the short-styled, in order that their pollen should be brushed off by + insects and transported to the stigmas of the other form. In the + long-styled flowers the anthers of the short enclosed stamens do not + rotate on their axes, but dehisce on their inner sides, as is the common + rule with the Rubiaceae; and this is the best position for the adherence + of the pollen-grains to the proboscis of an entering insect. Fritz Muller + therefore infers that as the plant became heterostyled, and as the stamens + of the short- styled form increased in length, they gradually acquired the + highly beneficial power of rotating on their own axes. But he has further + shown, by the careful examination of many flowers, that this power has not + as yet been perfected; and, consequently, that a certain proportion of the + pollen is rendered useless, namely, that from the anthers which do not + rotate properly. It thus appears that the development of the plant has not + as yet been completed; the stamens have indeed acquired their proper + length, but not their full and perfect power of rotation. (3/25. Fritz + Muller gives another instance of the want of absolute perfection in the + flowers of another member of the Rubiaceae, namely, Posoqueria fragrans, + which is adapted in a most wonderful manner for cross-fertilisation by the + agency of moths. (See ‘Botanische Zeitung’ 1866 Number 17.) In accordance + with the nocturnal habits of these insects, most of the flowers open only + during the night; but some open in the day, and the pollen of such flowers + is robbed, as Fritz Muller has often seen, by humble-bees and other + insects, without any benefit being thus conferred on the plant.) + </p> + <p> + The several points of difference in structure between the two forms of + Faramea are highly remarkable. Until within a recent period, if any one + had been shown two plants which differed in a uniform manner in the length + of their stamens and pistils,—in the form of their stigmas,—in + the manner of dehiscence and slightly in the size of their anthers,—and + to an extraordinary degree in the diameter and structure of their + pollen-grains, he would have declared it impossible that the two could + have belonged to one and the same species. + </p> + <p> + [Suteria (species unnamed in the herbarium at Kew.) (Rubiaceae). + </p> + <p> + I owe to the kindness of Fritz Muller dried flowers of this plant from St. + Catharina, in Brazil. In the long-styled form the stigma stands in the + mouth of the corolla, above the anthers, which latter are enclosed within + the tube, but only a short way down. In the short-styled form the anthers + are placed in the mouth of the corolla above the stigma, which occupies + the same position as the anthers in the other form, being seated only a + short way down the tube. Therefore the pistil of the long-styled form does + not exceed in length that of the short-styled in nearly so great a degree + as in many other Rubiaceae. Nevertheless there is a considerable + difference in the size of the pollen-grains in the two forms; for, as + Fritz Muller informs me, those of the short-styled are to those of the + long-styled as 100 to 75 in diameter. + </p> + <p> + Houstonia coerulea (Rubiaceae). + </p> + <p> + Professor Asa Gray has been so kind as to send me an abstract of some + observations made by Dr. Rothrock on this plant. The pistil is exserted in + the one form and the stamens in the other, as has long been observed. The + stigmas of the long-styled form are shorter, stouter, and far more hispid + than in the other form. The stigmatic hairs or papillae on the former are + .04 millimetres, and on the latter only .023 millimetres in length. In the + short-styled form the anthers are larger, and the pollen-grains, when + distended with water, are to those from the long-styled form as 100 to 72 + in diameter. + </p> + <p> + Selected capsules from some long-styled plants growing in the Botanic + Gardens at Cambridge, U.S., near where plants of the other form grew, + contained on an average 13 seeds; but these plants must have been + subjected to unfavourable conditions, for some long-styled plants in a + state of nature yielded an average of 21.5 seeds per capsule. Some + short-styled plants, which had been planted by themselves in the Botanic + Gardens, where it was not likely that they would have been visited by + insects that had previously visited long-styled plants, produced capsules, + eleven of which were wholly sterile, but one contained 4, and another 8 + seeds. So that the short-styled form seems to be very sterile with its own + pollen. Professor Asa Gray informs me that the other North American + species of this genus are likewise heterostyled. + </p> + <p> + Oldenlandia [sp.?] (Rubiaceae). + </p> + <p> + Mr. J. Scott sent me from India dried flowers of a heterostyled species of + this genus, which is closely allied to the last. The pistil in the + long-styled flowers is longer by about a quarter of its length, and the + stamens shorter in about the same proportion, than the corresponding + organs in the short-styled flowers. In the latter the anthers are longer, + and the divergent stigmas decidedly longer and apparently thinner than in + the long-styled form. Owing to the state of the specimens, I could not + decide whether the stigmatic papillae were longer in the one form than in + the other. The pollen-grains, distended with water, from the short-styled + flowers were to those from the long-styled as 100 to 78 in diameter, as + deduced from the mean of ten measurements of each kind. + </p> + <p> + Hedyotis [sp.?] (Rubiaceae). + </p> + <p> + Fritz Muller sent me from St. Catharina, in Brazil, dried flowers of a + small delicate species, which grows on wet sand near the edges of + fresh-water pools. In the long-styled form the stigma projects above the + corolla, and stands on a level with the projecting anthers of the + short-styled form; but in the latter the stigmas stand rather beneath the + level of the anthers in the other or long- styled form, these being + enclosed within the tube of the corolla. The pistil of the long-styled + form is nearly thrice as long as that of the short-styled, or, speaking + strictly, as 100 to 39; and the papillae on the stigma of the former are + broader, in the ratio of 4 to 3, but whether longer than those of the + short- styled, I could not decide. In the short-styled form, the anthers + are rather larger, and the pollen-grains are to those from the long-styled + flowers, as 100 to 88 in diameter. Fritz Muller sent me a second, + small-sized species, which is likewise heterostyled. + </p> + <p> + Coccocypselum [sp.?] (Rubiaceae). + </p> + <p> + Fritz Muller also sent me dried flowers of this plant from St. Catharina, + in Brazil. The exserted stigma of the long-styled form stands a little + above the level of the exserted anthers of the short-styled form; and the + enclosed stigma of the latter also stands a little above the level of the + enclosed anthers in the long-styled form. The pistil of the long-styled is + about twice as long as that of the short-styled, with its two stigmas + considerably longer, more divergent, and more curled. Fritz Muller informs + me that he could detect no difference in the size of the pollen-grains in + the two forms. Nevertheless, there can be no doubt that this plant is + heterostyled. + </p> + <p> + Lipostoma [sp.?] (Rubiaceae). + </p> + <p> + Dried flowers of this plant, which grows in small wet ditches in St. + Catharina, in Brazil, were likewise sent me by Fritz Muller. In the + long-styled form the exserted stigma stands rather above the level of the + exserted anthers of the other form; whilst in the short-styled form it + stands on a level with the anthers of the other form. So that the want of + strict correspondence in height between the stigmas and anthers in the two + forms is reversed, compared with what occurs in Hedyotis. The long-styled + pistil is to that of the short-styled as 100 to 36 in length; and its + divergent stigmas are longer by fully one-third of their own length than + those of the short-styled form. In the latter the anthers are a little + larger, and the pollen-grains are as 100 to 80 in diameter, compared with + those from the long-styled form. + </p> + <p> + Cinchona micrantha (Rubiaceae). + </p> + <p> + Dried specimens of both forms of this plant were sent me from Kew. (3/26. + My attention was called to this plant by a drawing copied from Howard’s + ‘Quinologia’ Table 3 given by Mr. Markham in his ‘Travels in Peru’ page + 539.) In the long-styled form the apex of the stigma stands just beneath + the bases of the hairy lobes of the corolla; whilst the summits of the + anthers are seated about halfway down the tube. The pistil is in length as + 100 to 38 to that of the short-styled form. In the latter the anthers + occupy the same position as the stigma of the other form, and they are + considerably longer than those of the long-styled form. As the summit of + the stigma in the short-styled form stands beneath the bases of the + anthers, which are seated halfway down the corolla, the style has been + extremely shortened in this form, its length to that of the long- styled + being, in the specimens examined, only as 5.3 to 100! The stigma, also, in + the short-styled form is very much shorter than that in the long-styled, + in the ratio of 57 to 100. The pollen grains from the short-styled + flowers, after having been soaked in water, were rather larger—in + about the ratio of 100 to 91—than those from the long-styled + flowers, and they were more triangular, with the angles more prominent. As + all the grains from the short-styled flowers were thus characterised, and + as they had been left in water for three days, I am convinced that this + difference in shape in the two sets of grains cannot be accounted for by + unequal distension with water. + </p> + <p> + Besides the several Rubiaceous genera already mentioned, Fritz Muller + informs me that two or three species of Psychotria and Rudgea eriantha, + natives of St. Catharina, in Brazil, are heterostyled, as is Manettia + bicolor. I may add that I formerly fertilised with their own pollen + several flowers on a plant of this latter species in my hothouse, but they + did not set a single fruit. From Wight and Arnott’s description, there + seems to be little doubt that Knoxia in India is heterostyled; and Asa + Gray is convinced that this is the case with Diodia and Spermacoce in the + United States. Lastly, from Mr. W.W. Bailey’s description, it appears that + the Mexican Bouvardia leiantha is heterostyled. (3/27. ‘Bulletin of the + Torrey Bot. Club’ 1876 page 106.)] + </p> + <p> + Altogether we now know of 17 heterostyled genera in the great family of + the Rubiaceae; though more information is necessary with respect to some + of them, more especially those mentioned in the last paragraph, before we + can feel absolutely safe. In the ‘Genera Plantarum,’ by Bentham and + Hooker, the Rubiaceae are divided into 25 tribes, containing 337 genera; + and it deserves notice that the genera now known to be heterostyled are + not grouped in one or two of these tribes, but are distributed in no less + than eight of them. From this fact we may infer that most of the genera + have acquired their heterostyled structure independently of one another; + that is, they have not inherited this structure from some one or even two + or three progenitors in common. It further deserves notice that in the + homostyled genera, as I am informed by Professor Asa Gray, the stamens are + either exserted or are included within the tube of the corolla, in a + nearly constant manner; so that this character, which is not even of + specific value in the heterostyled species, is often of generic value in + other members of the family. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0004" id="link2HCH0004"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER IV. HETEROSTYLED TRIMORPHIC PLANTS. + </h2> +<pre xml:space="preserve"> + Lythrum salicaria. + Description of the three forms. + Their power and complex manner of fertilising one another. + Eighteen different unions possible. + Mid-styled form eminently feminine in nature. + Lythrum Graefferi likewise trimorphic. + L. thymifolia dimorphic. + L. Hyssopifolia homostyled. + Nesaea verticillata trimorphic. + Lagerstroemia, nature doubtful. + Oxalis, trimorphic species of. + O. Valdiviana. + O. Regnelli, the illegitimate unions quite barren. + O. speciosa. + O. sensitiva. + Homostyled species of Oxalis. + Pontederia, the one monocotyledonous genus known to include heterostyled + species. +</pre> + <p> + In the previous chapters various heterostyled dimorphic plants have been + described, and now we come to heterostyled trimorphic plants, or those + which present three forms. These have been observed in three families, and + consist of species of Lythrum and of the allied genus Nesaea, of Oxalis + and Pontederia. In their manner of fertilisation these plants offer a more + remarkable case than can be found in any other plant or animal. + </p> + <p> + Lythrum salicaria. + </p> + <p> + (FIGURE 4.10. Diagram of the flowers of the three forms of Lythrum + salicaria, in their natural position, with the petals and calyx removed on + the near side: enlarged six times. Top: Long-styled. Middle: Mid-styled. + Bottom: Short-styled. The dotted lines with the arrows show the directions + in which pollen must be carried to each stigma to ensure full fertility.) + </p> + <p> + The pistil in each form differs from that in either of the other forms, + and in each there are two sets of stamens different in appearance and + function. But one set of stamens in each form corresponds with a set in + one of the other two forms. Altogether this one species includes three + females or female organs and three sets of male organs, all as distinct + from one another as if they belonged to different species; and if smaller + functional differences are considered, there are five distinct sets of + males. Two of the three hermaphrodites must coexist, and pollen must be + carried by insects reciprocally from one to the other, in order that + either of the two should be fully fertile; but unless all three forms + coexist, two sets of stamens will be wasted, and the organisation of the + species, as a whole, will be incomplete. On the other hand, when all three + hermaphrodites coexist, and pollen is carried from one to the other, the + scheme is perfect; there is no waste of pollen and no false co-adaptation. + In short, nature has ordained a most complex marriage-arrangement, namely + a triple union between three hermaphrodites,—each hermaphrodite + being in its female organ quite distinct from the other two hermaphrodites + and partially distinct in its male organs, and each furnished with two + sets of males. + </p> + <p> + The three forms may be conveniently called, from the unequal lengths of + their pistils, the LONG-STYLED, MID-STYLED, and SHORT-STYLED. The stamens + also are of unequal lengths, and these may be called the LONGEST, + MID-LENGTH, and SHORTEST. Two sets of stamens of different length are + found in each form. The existence of the three forms was first observed by + Vaucher, and subsequently more carefully by Wirtgen ; but these botanists, + not being guided by any theory or even suspicion of their functional + differences, did not perceive some of the most curious points of + difference in their structure. (4/1. Vaucher ‘Hist. Phys. des Plantes + d’Europe’ tome 2 1841 page 371. Wirtgen “Ueber Lythrum salicaria und + dessen Formen” ‘Verhand. des naturhist. Vereins fur preuss. Rheinl.’ 5 + Jahrgang 1848 S. 7.) I will first briefly describe the three forms by the + aid of Figure 4.10, which shows the flowers, six times magnified, in their + natural position, with their petals and calyx on the near side removed. + </p> + <h3> + LONG-STYLED FORM. + </h3> + <p> + This form can be at once recognised by the length of the pistil, which is + (including the ovarium) fully one-third longer than that of the + mid-styled, and more than thrice as long as that of the short-styled form. + It is so disproportionately long, that it projects in the bud through the + folded petals. It stands out considerably beyond the mid-length stamens; + its terminal portion depends a little, but the stigma itself is slightly + upturned. The globular stigma is considerably larger than that of the + other two forms, with the papillae on its surface generally longer. The + six mid-length stamens project about two-thirds the length of the pistil, + and correspond in length with the pistil of the mid-styled form. Such + correspondence in this and the two following forms is generally very + close; the difference, where there is any, being usually in a slight + excess of length in the stamens. The six shortest stamens lie concealed + within the calyx; their ends are turned up, and they are graduated in + length, so as to form a double row. The anthers of these stamens are + smaller than those of the mid-length ones. The pollen is of the same + yellow colour in both sets. H. Muller measured the pollen-grain in all + three forms, and his measurements are evidently more trustworthy than + those which I formerly made, so I will give them. (4/2. ‘Die Befruchtung + der Blumen’ 1873 page 193.) The numbers refer to divisions of the + micrometer equalling 1/300 millimetres. The grains, distended with water, + from the mid-length stamens are 7 to 7 1/2, and those from the shortest + stamens 6 to 6 1/2 in diameter, or as 100 to 86. The capsules of this form + contain on an average 93 seeds: how this average was obtained will + presently be explained. As these seeds, when cleaned, seemed larger than + those from the mid-styled or short-styled forms, 100 of them were placed + in a good balance, and by the double method of weighing were found to + equal 121 seeds of the mid-styled or 142 of the short-styled; so that five + long-styled seeds very nearly equal six mid-styled or seven short-styled + seeds. + </p> + <h3> + MID-STYLED FORM. + </h3> + <p> + The pistil occupies the position represented in Figure 4.10, with its + extremity considerably upturned, but to a variable degree; the stigma is + seated between the anthers of the longest and the shortest stamens. The + six longest stamens correspond in length with the pistil of the + long-styled form; their filaments are coloured bright pink; the anthers + are dark-coloured, but from containing bright-green pollen and from their + early dehiscence they appear emerald-green. Hence in general appearance + these stamens are remarkably dissimilar from the mid-length stamens of the + long-styled form. The six shortest stamens are enclosed within the calyx, + and resemble in all respects the shortest stamens of the long-styled form; + both these sets correspond in length with the short pistil of the + short-styled form. The green pollen-grains of the longest stamens are 9 to + 10 in diameter, whilst the yellow grains from the shortest stamens are + only 6; or as 100 to 63. But the pollen-grains from different plants + appeared to me, in this case and others, to be in some degree variable in + size. The capsules contain on an average 130 seeds; but perhaps, as we + shall see, this is rather too high an average. The seeds themselves, as + before remarked, are smaller than those of the long-styled form. + </p> + <h3> + SHORT-STYLED FORM. + </h3> + <p> + The pistil is here very short, not one-third of the length of that of the + long- styled form. It is enclosed within the calyx, which, differently + from that in the other two forms, does not enclose any anthers. The end of + the pistil is generally bent upwards at right angles. The six longest + stamens, with their pink filaments and green pollen, resemble the + corresponding stamens of the mid-styled form. But according to H. Muller, + their pollen-grains are a little larger, namely 9 1/2 to 10 1/2, instead + of 9 to 10 in diameter. The six mid-length stamens, with their uncoloured + filaments and yellow pollen, resemble in the size of their pollen-grains + and in all other respects the corresponding stamens of the long-styled + form. The difference in diameter between the grains from the two sets of + anthers in the short-styled form is as 100 to 73. The capsules contain + fewer seeds on an average than those of either of the preceding forms, + namely 83.5; and the seeds are considerably smaller. In this latter + respect, but not in number, there is a gradation parallel to that in the + length of the pistil, the long-styled having the largest seeds, the + mid-styled the next in size, and the short-styled the smallest. + </p> + <p> + We thus see that this plant exists under three female forms, which differ + in the length and curvature of the style, in the size and state of the + stigma, and in the number and size of the seed. There are altogether + thirty-six males or stamens, and these can be divided into three sets of a + dozen each, differing from one another in length, curvature, and colour of + the filaments—in the size of the anthers, and especially in the + colour and diameter of the pollen-grains. Each form bears half-a-dozen of + one kind of stamens and half-a-dozen of another kind, but not all three + kinds. The three kinds of stamens correspond in length with the three + pistils: the correspondence is always between half of the stamens in two + of the forms with the pistil of the third form. Table 4.a of the diameters + of the pollen-grains, after immersion in water, from both sets of stamens + in all three forms is copied from H. Muller; they are arranged in the + order of their size:— + </p> + <p> + TABLE 4.a. Lythrum salicaria. Diameters of pollen-grains after immersion + in water. + </p> + <p> + Column 1: Source of Pollen-grains. Column 2: Minimum diameter. Column 3: + Maximum diameter. + </p> + <p> + Longest stamens of short-styled form : 9 1/2 : 10 1/2. Longest stamens of + mid-styled form : 9 : 10. Mid-length stamens of long-styled form : 7 : 7 + 1/2. Mid-length stamens of short-styled form : 7 : 7 1/2. Shortest stamens + of long-styled form : 6 : 6 1/2. Shortest stamens of mid-styled form : 6 : + 6. + </p> + <p> + We here see that the largest pollen-grains come from the longest stamens, + and the least (smallest) from the shortest; the extreme difference in + diameter between them being as 100 to 60. + </p> + <p> + The average number of seeds in the three forms was ascertained by counting + them in eight fine selected capsules taken from plants growing wild, and + the result was, as we have seen, for the long-styled (neglecting decimals) + 93, mid-styled 130, and short-styled 83. I should not have trusted in + these ratios had I not possessed a number of plants in my garden which, + owing to their youth, did not yield the full complement of seed, but were + of the same age and grew under the same conditions, and were freely + visited by bees. I took six fine capsules from each, and found the average + to be for the long-styled 80, for the mid-styled 97, and for the + short-styled 61. Lastly, legitimate unions effected by me between the + three forms gave, as may be seen in the following tables, for the long- + styled an average of 90 seeds, for the mid-styled 117, and for the + short-styled 71. So that we have good concurrent evidence of a difference + in the average production of seed by the three forms. To show that the + unions effected by me often produced their full effect and may be trusted, + I may state that one mid- styled capsule yielded 151 good seeds, which is + the same number as in the finest wild capsule which I examined. Some + artificially fertilised short- and long- styled capsules produced a + greater number of seeds than was ever observed by me in wild plants of the + same forms, but then I did not examine many of the latter. This plant, I + may add, offers a remarkable instance, how profoundly ignorant we are of + the life-conditions of a species. Naturally it grows “in wet ditches, + watery places, and especially on the banks of streams,” and though it + produces so many minute seeds, it never spreads on the adjoining land; + yet, when planted in my garden, on clayey soil lying over chalk, and which + is so dry that a rush cannot be found, it thrives luxuriantly, grows to + above 6 feet in height, produces self-sown seedlings, and (which is a + severer test) is as fertile as in a state of nature. Nevertheless it would + be almost a miracle to find this plant growing spontaneously on such land + as that in my garden. + </p> + <p> + According to Vaucher and Wirtgen, the three forms coexist in all parts of + Europe. Some friends gathered for me in North Wales a number of twigs from + separate plants growing near one another, and classified them. My son did + the same in Hampshire, and here is the result:— + </p> + <p> + TABLE 4.22. Lythrum salicaria. Classification according to form of flower. + </p> + <p> + Column 1: Place of origin. Column 2: Long-styled. Column 3: Mid-styled. + Column 4: Short-styled. Column 5: Total. + </p> + <p> + North Wales : 95 : 97 : 72 : 264. Hampshire : 53 : 38 : 38 : 129. Total : + 148 : 135 : 110 : 393. + </p> + <p> + If twice or thrice the number had been collected, the three forms would + probably have been found nearly equal; I infer this from considering the + above figures, and from my son telling me that if he had collected in + another spot, he felt sure that the mid-styled plants would have been in + excess. I several times sowed small parcels of seed, and raised all three + forms; but I neglected to record the parent-form, excepting in one + instance, in which I raised from short-styled seed twelve plants, of which + only one turned out long-styled, four mid-styled, and seven short-styled. + </p> + <p> + Two plants of each form were protected from the access of insects during + two successive years, and in the autumn they yielded very few capsules and + presented a remarkable contrast with the adjoining uncovered plants, which + were densely covered with capsules. In 1863 a protected long-styled plant + produced only five poor capsules; two mid-styled plants produced together + the same number; and two short-styled plants only a single one. These + capsules contained very few seeds; yet the plants were fully productive + when artificially fertilised under the net. In a state of nature the + flowers are incessantly visited for their nectar by hive- and other bees, + various Diptera and Lepidoptera. (4/3. H. Muller gives a list of the + species ‘Die Befruchtung der Blumen’ page 196. It appears that one bee, + the Cilissa melanura, almost confines its visits to this plant.) The + nectar is secreted all round the base of the ovarium; but a passage is + formed along the upper and inner side of the flower by the lateral + deflection (not represented in the diagram) of the basal portions of the + filaments; so that insects invariably alight on the projecting stamens and + pistil, and insert their proboscides along the upper and inner margin of + the corolla. We can now see why the ends of the stamens with their + anthers, and the ends of the pistils with their stigmas, are a little + upturned, so that they may be brushed by the lower hairy surfaces of the + insects’ bodies. The shortest stamens which lie enclosed within the calyx + of the long- and mid-styled forms can be touched only by the proboscis and + narrow chin of a bee; hence they have their ends more upturned, and they + are graduated in length, so as to fall into a narrow file, sure to be + raked by the thin intruding proboscis. The anthers of the longer stamens + stand laterally farther apart and are more nearly on the same level, for + they have to brush against the whole breadth of the insect’s body. In very + many other flowers the pistil, or the stamens, or both, are rectangularly + bent to one side of the flower. This bending may be permanent, as with + Lythrum and many others, or may be effected, as in Dictamnus fraxinella + and others, by a temporary movement, which occurs in the case of the + stamens when the anthers dehisce, and in the case of the pistil when the + stigma is mature; but these two movements do not always take place + simultaneously in the same flower. Now I have found no exception to the + rule, that when the stamens and pistil are bent, they bend to that side of + the flower which secretes nectar, even though there be a rudimentary + nectary of large size on the opposite side, as in some species of + Corydalis. When nectar is secreted on all sides, they bend to that side + where the structure of the flower allows the easiest access to it, as in + Lythrum, various Papilionaceae, and others. The rule consequently is, that + when the pistils and stamens are curved or bent, the stigma and anthers + are thus brought into the pathway leading to the nectary. There are a few + cases which seem to be exceptions to this rule, but they are not so in + truth; for instance, in the Gloriosa lily, the stigma of the grotesque and + rectangularly bent pistil is brought, not into any pathway from the + outside towards the nectar-secreting recesses of the flower, but into the + circular route which insects follow in proceeding from one nectary to the + other. In Scrophularia aquatica the pistil is bent downwards from the + mouth of the corolla, but it thus strikes the pollen-dusted breast of the + wasps which habitually visit these ill-scented flowers. In all these cases + we see the supreme dominating power of insects on the structure of + flowers, especially of those which have irregular corollas. Flowers which + are fertilised by the wind must of course be excepted; but I do not know + of a single instance of an irregular flower which is thus fertilised. + </p> + <p> + Another point deserves notice. In each of the three forms two sets of + stamens correspond in length with the pistils in the other two forms. When + bees suck the flowers, the anthers of the longest stamens, bearing the + green pollen, are rubbed against the abdomen and the inner sides of the + hind legs, as is likewise the stigma of the long-styled form. The anthers + of the mid-length stamens and the stigma of the mid-styled form are rubbed + against the under side of the thorax and between the front pair of legs. + And, lastly, the anthers of the shortest stamens and the stigma of the + short-styled form are rubbed against the proboscis and chin: for the bees + in sucking the flowers insert only the front part of their heads into the + flower. On catching bees, I observed much green pollen on the inner sides + of the hind legs and on the abdomen, and much yellow pollen on the under + side of the thorax. There was also pollen on the chin, and, it may be + presumed, on the proboscis, but this was difficult to observe. I had, + however, independent proof that pollen is carried on the proboscis; for a + small branch of a protected short-styled plant (which produced + spontaneously only two capsules) was accidentally left during several days + pressing against the net, and bees were seen inserting their proboscides + through the meshes, and in consequence numerous capsules were formed on + this one small branch. From these several facts it follows that insects + will generally carry the pollen of each form from the stamens to the + pistil of corresponding length; and we shall presently see the importance + of this adaptation. It must not, however, be supposed that the bees do not + get more or less dusted all over with the several kinds of pollen; for + this could be seen to occur with the green pollen from the longest + stamens. Moreover a case will presently be given of a long-styled plant + producing an abundance of capsules, though growing quite by itself, and + the flowers must have been fertilised by their own kinds of pollen; but + these capsules contained a very poor average of seed. Hence insects, and + chiefly bees, act both as general carriers of pollen, and as special + carriers of the right sort. + </p> + <p> + Wirtgen remarks on the variability of this plant in the branching of the + stem, in the length of the bracteae, size of the petals, and in several + other characters. (4/4. ‘Verhand. des naturhist. Vereins fur Pr. Rheinl.’ + 5 Jahrgang 1848 pages 11, 13.) The plants which grew in my garden had + their leaves, which differed much in shape, arranged oppositely, + alternately, or in whorls of three. In this latter case the stems were + hexagonal; those of the other plants being quadrangular. But we are + concerned chiefly, with the reproductive organs: the upward bending of the + pistil is variable, and especially in the short-styled form, in which it + is sometimes straight, sometimes slightly curved, but generally bent at + right angles. The stigma of the long-styled pistil frequently has longer + papillae or is rougher than that of the mid-styled, and the latter than + that of the short-styled; but this character, though fixed and uniform in + the two forms of Primula veris, etc., is here variable, for I have seen + mid- styled stigmas rougher than those of the long-styled. (4/5. The + plants which I observed grew in my garden, and probably varied rather more + than those growing in a state of nature. H. Muller has described the + stigmas of all three forms with great care, and he appears to have found + the stigmatic papillae differing constantly in length and structure in the + three forms, being longest in the long-styled form.) The degree to which + the longest and mid-length stamens are graduated in length and have their + ends upturned is variable; sometimes all are equally long. The colour of + the green pollen in the longest stamens is variable, being sometimes pale + greenish-yellow; in one short-styled plant it was almost white. The grains + vary a little in size: I examined one short-styled plant with the grains + from the mid-length and shortest anthers of the same size. We here see + great variability in many important characters; and if any of these + variations were of service to the plant, or were correlated with useful + functional differences, the species is in that state in which natural + selection might readily do much for its modification. + </p> + <h3> + ON THE POWER OF MUTUAL FERTILISATION BETWEEN THE THREE FORMS. + </h3> + <p> + Nothing shows more clearly the extraordinary complexity of the + reproductive system of this plant, than the necessity of making eighteen + distinct unions in order to ascertain the relative fertilising power of + the three forms. Thus the long-styled form has to be fertilised with + pollen from its own two kinds of anthers, from the two in the mid-styled, + and from the two in the short-styled form. The same process has to be + repeated with the mid-styled and short-styled forms. It might have been + thought sufficient to have tried on each stigma the green pollen, for + instance, from either the mid- or short-styled longest stamens, and not + from both; but the result proves that this would have been insufficient, + and that it was necessary to try all six kinds of pollen on each stigma. + As in fertilising flowers there will always be some failures, it would + have been advisable to have repeated each of the eighteen unions a score + of times; but the labour would have been too great; as it was, I made 223 + unions, i.e. on an average I fertilised above a dozen flowers in the + eighteen different methods. Each flower was castrated; the adjoining buds + had to be removed, so that the flowers might be safely marked with thread, + wool, etc.; and after each fertilisation the stigma was examined with a + lens to see that there was sufficient pollen on it. Plants of all three + forms were protected during two years by large nets on a framework; two + plants were used during one or both years, in order to avoid any + individual peculiarity in a particular plant. As soon as the flowers had + withered, the nets were removed; and in the autumn the capsules were daily + inspected and gathered, the ripe seeds being counted under the microscope. + I have given these details that confidence may be placed in the following + tables, and as some excuse for two blunders which, I believe, were made. + These blunders are referred to, with their probable cause, in two + footnotes to the tables. The erroneous numbers, however, are entered in + the tables, that it may not be supposed that I have in any one instance + tampered with the results. + </p> + <p> + A few words explanatory of the three tables must be given. Each is devoted + to one of the three forms, and is divided into six compartments. The two + upper ones in each table show the number of good seeds resulting from the + application to the stigma of pollen from the two sets of stamens which + correspond in length with the pistil of that form, and which are borne by + the other two forms. Such unions are of a legitimate nature. The two next + lower compartments show the result of the application of pollen from the + two sets of stamens, not corresponding in length with the pistil, and + which are borne by the other two forms. These unions are illegitimate. The + two lowest compartments show the result of the application of each form’s + own two kinds of pollen from the two sets of stamens belonging to the same + form, and which do not equal the pistil in length. These unions are + likewise illegitimate. The term own-form pollen here used does not mean + pollen from the flower to be fertilised—for this was never used—but + from another flower on the same plant, or more commonly from a distinct + plant of the same form. The figure “0” means that no capsule was produced, + or if a capsule was produced that it contained no good seed. In some part + of each row of figures in each compartment, a short horizontal line may be + seen; the unions above this line were made in 1862, and below it in 1863. + It is of importance to observe this, as it shows that the same general + result was obtained during two successive years; but more especially + because 1863 was a very hot and dry season, and the plants had + occasionally to be watered. This did not prevent the full complement of + seed being produced from the more fertile unions; but it rendered the less + fertile ones even more sterile than they otherwise would have been. I have + seen striking instances of this fact in making illegitimate and legitimate + unions with Primula; and it is well known that the conditions of life must + be highly favourable to give any chance of success in producing hybrids + between species which are crossed with difficulty. + </p> + <p> + TABLE 4.23. Lythrum salicaria, long-styled form. + </p> + <p> + TABLE 4.23.1. Legitimate union. + </p> + <p> + 13 flowers fertilised by the longest stamens of the mid-styled. These + stamens equal in length the pistil of the long-styled. + </p> + <p> + Product of good seed in each capsule. + </p> +<pre xml:space="preserve"> + 36 53 + 81 0 + 0 0 + 0 0 + 0 0 + - 0 + 45 + 41 +</pre> + <p> + 38 percent of these flowers yielded capsules. Each capsule contained, on + an average, 51.2 seeds. + </p> + <p> + TABLE 4.23.2. Legitimate union. + </p> + <p> + 13 flowers fertilised by the longest stamens of the short-styled. These + stamens equal in length the pistil of the long-styled. + </p> + <p> + Product of good seed in each capsule. + </p> +<pre xml:space="preserve"> + 159 104 + 43 119 + 96 poor seed. 96 + 103 99 + 0 131 + 0 116 + - + 114 +</pre> + <p> + 84 percent of these flowers yielded capsules. Each capsule contained, on + an average, 107.3 seeds. + </p> + <p> + TABLE 4.23.3. Illegitimate union. + </p> + <p> + 14 flowers fertilised by the shortest stamens of the mid-styled. + </p> +<pre xml:space="preserve"> + 3 0 + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.23.4. Illegitimate union. + </p> + <p> + 12 flowers fertilised by the mid-length stamens of the short-styled. + </p> +<pre xml:space="preserve"> + 20 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.23.5. Illegitimate union. + </p> + <p> + 15 flowers fertilised by own-form mid-length stamens. + </p> +<pre xml:space="preserve"> + 2 - + 10 0 + 23 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.23.6. Illegitimate union. + </p> + <p> + 15 flowers fertilised by own-form shortest stamens. + </p> +<pre xml:space="preserve"> + 4 - + 8 0 + 4 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + Besides the above experiments, I fertilised a considerable number of + long-styled flowers with pollen, taken by a camel’s-hair brush, from both + the mid-length and shortest stamens of their own form: only 5 capsules + were produced, and these yielded on an average 14.5 seeds. In 1863 I tried + a much better experiment: a long-styled plant was grown by itself, miles + away from any other plant, so that the flowers could have received only + their own two kinds of pollen. The flowers were incessantly visited by + bees, and their stigmas must have received successive applications of + pollen on the most favourable days and at the most favourable hours: all + who have crossed plants know that this highly favours fertilisation. This + plant produced an abundant crop of capsules; I took by chance 20 capsules, + and these contained seeds in number as follows:— + </p> +<pre xml:space="preserve"> + 20 20 35 21 19 + 26 24 12 23 10 + 7 30 27 29 13 + 20 12 29 19 35 +</pre> + <p> + This gives an average of 21.5 seeds per capsule. As we know that the + long-styled form, when standing near plants of the other two forms and + fertilised by insects, produces on an average 93 seeds per capsule, we see + that this form, fertilised by its own two pollens, yields only between + one-fourth and one-fifth of the full number of seed. I have spoken as if + the plant had received both its own kinds of pollen, and this is, of + course, possible; but, from the enclosed position of the shortest stamens, + it is much more probable that the stigma received exclusively pollen from + the mid-length stamens; and this, as may be seen in Table 4.23.5, is the + more fertile of the two self-unions. + </p> + <p> + TABLE 4.24. Lythrum salicaria, mid-styled form. + </p> + <p> + TABLE 4.24.1. Legitimate union. + </p> + <p> + 12 flowers fertilised by the mid-length stamens of the long-styled. These + stamens equal in length the pistil of the mid-styled. + </p> + <p> + Product of good seed in each capsule. + </p> +<pre xml:space="preserve"> + 138 122 + 149 50 + 147 151 + 109 119 + 133 138 + 144 0 + - +</pre> + <p> + 92 percent of these flowers (probably 100 per cent) yielded capsules. Each + capsule contained, on an average, 127.3 seeds. + </p> + <p> + TABLE 4.24.2. Legitimate union. + </p> + <p> + 12 flowers fertilised by the mid-length stamens of the short-styled. These + stamens equal in length the pistil of the mid-styled. + </p> + <p> + Product of good seed in each capsule. + </p> +<pre xml:space="preserve"> + 112 109 + 130 143 + 143 124 + 100 145 + 33 12 + - 141 + 104 +</pre> + <p> + 100 percent of these flowers yielded capsules. Each capsule contained, on + an average, 108.0 seeds; or, excluding capsules with less than 20 seeds, + the average is 116.7 seeds. + </p> + <p> + TABLE 4.24.3. Illegitimate union. + </p> + <p> + 13 flowers fertilised by the shortest stamens of the long-styled. + </p> +<pre xml:space="preserve"> + 83 12 + 0 19 + 0 85 seeds small and poor. + - 0 + 44 0 + 44 0 + 45 0 +</pre> + <p> + 54 percent of these flowers yielded capsules. Each capsule contained, on + an average, 47.4 seeds; or, excluding capsules with less than 20 seeds, + the average is 60.2 seeds. + </p> + <p> + TABLE 4.24.4. Illegitimate union. + </p> + <p> + 15 flowers fertilised by the longest stamens of the short-styled. + </p> +<pre xml:space="preserve"> + 130 86 + 115 113 + 14 29 + 6 17 + 2 113 + 9 79 + - 128 + 132 0 +</pre> + <p> + 93 percent of these flowers yielded capsules. Each capsule contained, on + an average, 69.5 seeds; or, excluding capsules with less than 20 seeds, + the average is 102.8 seeds. + </p> + <p> + TABLE 4.24.5. Illegitimate union. + </p> + <p> + 12 flowers fertilised by own-form longest stamens. + </p> +<pre xml:space="preserve"> + 92 0 + 9 0 + 63 0 + - 0 + 136?* 0 + 0 0 + 0 +</pre> + <p> + (4/6. * I have hardly a doubt that this result of 136 seeds in Table + 4.24.5 was due to a gross error. The flowers to be fertilised by their own + longest stamens were first marked by “white thread,” and those by the + mid-length stamens of the long-styled form by “white silk;” a flower + fertilised in the later manner would have yielded about 136 seeds, and it + may be observed that one such pod is missing, namely at the bottom of + Table 4.24.1. Therefore I have hardly any doubt that I fertilised a flower + marked with “white thread” as if it had been marked with “white silk.” + With respect to the capsule which yielded 92 seeds, in the same column + with that which yielded 136, I do not know what to think. I endeavoured to + prevent pollen dropping from an upper to a lower flower, and I tried to + remember to wipe the pincers carefully after each fertilisation; but in + making eighteen different unions, sometimes on windy days, and pestered by + bees and flies buzzing about, some few errors could hardly be avoided. One + day I had to keep a third man by me all the time to prevent the bees + visiting the uncovered plants, for in a few seconds’ time they might have + done irreparable mischief. It was also extremely difficult to exclude + minute Diptera from the net. In 1862 I made the great mistake of placing a + mid-styled and long-styled under the same huge net: in 1863 I avoided this + error.) + </p> + <p> + Excluding the capsule with 136 seeds, 25 percent of the flowers yielded + capsules, and each capsule contained, on an average, 54.6 seeds; or, + excluding capsules with less than 20 seeds, the average is 77.5. + </p> + <p> + TABLE 4.24.6. Illegitimate union. + </p> + <p> + 12 flowers fertilised by own-form shortest stamens. + </p> +<pre xml:space="preserve"> + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 0 + 0 +</pre> + <p> + Not one flower yielded a capsule. + </p> + <p> + Besides the experiments in Table 4.24, I fertilised a considerable number + of mid-styled flowers with pollen, taken by a camel’s-hair brush, from + both the longest and shortest stamens of their own form: only 5 capsules + were produced, and these yielded on an average 11.0 seeds. + </p> + <p> + TABLE 4.25. Lythrum salicaria, short-styled form. + </p> + <p> + TABLE 4.25.1. Legitimate union. + </p> + <p> + 12 flowers fertilised by the shortest stamens of the long-styled. These + stamens equal in length the pistil of the short-styled. + </p> +<pre xml:space="preserve"> + 69 56 + 61 88 + 88 112 + 66 111 + 0 62 + 0 100 + - +</pre> + <p> + 83 percent of the flowers yielded capsules. Each capsule contained, on an + average, 81.3 seeds. + </p> + <p> + TABLE 4.25.2. Legitimate union. + </p> + <p> + 13 flowers fertilised by the shortest stamens of the mid-styled. These + stamens equal in length the pistil of the short-styled. + </p> +<pre xml:space="preserve"> + 93 69 + 77 69 + 48 53 + 43 9 + 0 0 + 0 0 + - 0 +</pre> + <p> + 61 percent of the flowers yielded capsules. Each capsule contained, on an + average, 64.6 seeds. + </p> + <p> + TABLE 4.25.3. Illegitimate union. + </p> + <p> + 10 flowers fertilised by the mid-length stamens of the long-styled. + </p> +<pre xml:space="preserve"> + 0 14 + 0 0 + 0 0 + 0 0 + - 0 + 23 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.25.4. Illegitimate union. 10 flowers fertilised by the longest + stamens of the mid-styled. + </p> +<pre xml:space="preserve"> + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.25.5. Illegitimate union. + </p> + <p> + 10 flowers fertilised by own-form longest stamens. + </p> +<pre xml:space="preserve"> + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 +</pre> + <p> + Too sterile for any average. + </p> + <p> + TABLE 4.25.6. Illegitimate union. + </p> + <p> + 10 flowers fertilised by own-form mid-length stamens. + </p> +<pre xml:space="preserve"> + 64?* 0 + 0 0 + 0 0 + - 0 + 21 0 + 9 +</pre> + <p> + (4/7. *I suspect that by mistake I fertilised this flower in Table 4.25.6 + with pollen from the shortest stamens of the long-styled form, and it + would then have yielded about 64 seeds. Flowers to be thus fertilised were + marked with black silk; those with pollen from the mid-length stamens of + the short-styled with black thread; and thus probably the mistake arose.) + </p> + <p> + Too sterile for any average. + </p> + <p> + Besides the experiments in the table, I fertilised a number of flowers + without particular care with their own two kinds of pollen, but they did + not produce a single capsule. + </p> + <h3> + A SUMMARY OF THE RESULTS. + </h3> + <h3> + LONG-STYLED FORM. + </h3> + <p> + Twenty-six flowers fertilised legitimately by the stamens of corresponding + length, borne by the mid-and short-styled forms, yielded 61.5 per cent of + capsules, which contained on an average 89.7 seeds. + </p> + <p> + Twenty-six long-styled flowers fertilised illegitimately by the other + stamens of the mid-and short-styled forms yielded only two very poor + capsules. + </p> + <p> + Thirty long-styled flowers fertilised illegitimately by their own-form two + sets of stamens yielded only eight very poor capsules; but long-styled + flowers fertilised by bees with pollen from their own stamens produced + numerous capsules containing on an average 21.5 seeds. + </p> + <h3> + MID-STYLED FORM. + </h3> + <p> + Twenty-four flowers legitimately fertilised by the stamens of + corresponding length, borne by the long and short-styled forms, yielded 96 + (probably 100) per cent of capsules, which contained (excluding one + capsule with 12 seeds) on an average 117.2 seeds. + </p> + <p> + Fifteen mid-styled flowers fertilised illegitimately by the longest + stamens of the short-styled form yielded 93 per cent of capsules, which + (excluding four capsules with less than 20 seeds) contained on an average + 102.8 seeds. + </p> + <p> + Thirteen mid-styled flowers fertilised illegitimately by the mid-length + stamens of the long-styled form yielded 54 per cent of capsules, which + (excluding one with 19 seeds) contained on an average 60.2 seeds. + </p> + <p> + Twelve mid-styled flowers fertilised illegitimately by their own-form + longest stamens yielded 25 per cent of capsules, which (excluding one with + 9 seeds) contained on an average 77.5 seeds. + </p> + <p> + Twelve mid-styled flowers fertilised illegitimately by their own-form + shortest stamens yielded not a single capsule. + </p> + <h3> + SHORT-STYLED FORM. + </h3> + <p> + Twenty-five flowers fertilised legitimately by the stamens of + corresponding length, borne by the long and mid-styled forms, yielded 72 + per cent of capsules, which (excluding one capsule with only 9 seeds) + contained on an average 70.8 seeds. + </p> + <p> + Twenty short-styled flowers fertilised illegitimately by the other stamens + of the long and mid-styled forms yielded only two very poor capsules. + </p> + <p> + Twenty short-styled flowers fertilised illegitimately by their own stamens + yielded only two poor (or perhaps three) capsules. + </p> + <p> + If we take all six legitimate unions together, and all twelve illegitimate + unions together, we get the following results: + </p> + <h3> + TABLE 4.26. + </h3> + <p> + Column 1: Nature of union. Column 2: Number of Flowers fertilised. Column + 3: Number of Capsules produced. Column 4: Average Number of Seeds per + Capsule. Column 5: Average Number of Seeds per Flower fertilised. + </p> + <p> + The six legitimate unions : 75 : 56 : 96.29 : 71.89. The twelve + illegitimate unions : 146 : 36 : 44.72 : 11.03. + </p> + <p> + Therefore the fertility of the legitimate unions to that of the + illegitimate, as judged by the proportion of the fertilised flowers which + yielded capsules, is as 100 to 33; and judged by the average number of + seeds per capsule, as 100 to 46. + </p> + <p> + From this summary and the several foregoing tables we see that it is only + pollen from the longest stamens which can fully fertilise the longest + pistil; only that from the mid-length stamens, the mid-length pistil; and + only that from the shortest stamens, the shortest pistil. And now we can + comprehend the meaning of the almost exact correspondence in length + between the pistil in each form and a set of six stamens in two of the + other forms; for the stigma of each form is thus rubbed against that part + of the insect’s body which becomes charged with the proper pollen. It is + also evident that the stigma of each form, fertilised in three different + ways with pollen from the longest, mid-length, and shortest stamens, is + acted on very differently, and conversely that the pollen from the twelve + longest, twelve mid-length, and twelve shortest stamens acts very + differently on each of the three stigmas; so that there are three sets of + female and of male organs. Moreover, in most cases the six stamens of each + set differ somewhat in their fertilising power from the six corresponding + ones in one of the other forms. We may further draw the remarkable + conclusion that the greater the inequality in length between the pistil + and the set of stamens, the pollen of which is employed for its + fertilisation, by so much is the sterility of the union increased. There + are no exceptions to this rule. To understand what follows the reader + should look to Tables 4.23, 4.24 and 4.25, and to the diagram Figure 4.10. + In the long-styled form the short stamens obviously differ in length from + the pistil to a greater degree than do the mid-length stamens; and the + capsules produced by the use of pollen from the shortest stamens contain + fewer seeds than those produced by the pollen from the mid-length stamens. + The same result follows with the long-styled form, from the use of the + pollen of shortest stamens of the mid-styled form and of the mid-length + stamens of the short-styled form. The same rule also holds good with the + mid-styled and short- styled forms, when illegitimately fertilised with + pollen from the stamens more or less unequal in length to their pistils. + Certainly the difference in sterility in these several cases is slight; + but, as far as we are enabled to judge, it always increases with the + increasing inequality of length between the pistil and the stamens which + are used in each case. + </p> + <p> + The correspondence in length between the pistil in each form and a set of + stamens in the other two forms, is probably the direct result of + adaptation, as it is of high service to the species by leading to full and + legitimate fertilisation. But the rule of the increased sterility of the + illegitimate unions according to the greater inequality in length between + the pistils and stamens employed for the union can be of no service. With + some heterostyled dimorphic plants the difference of fertility between the + two illegitimate unions appears at first sight to be related to the + facility of self-fertilisation; so that when from the position of the + parts the liability in one form to self- fertilisation is greater than in + the other, a union of this kind has been checked by having been rendered + the more sterile of the two. But this explanation does not apply to + Lythrum; thus the stigma of the long-styled form is more liable to be + illegitimately fertilised with pollen from its own mid- length stamens, or + with pollen from the mid-length stamens of the short-styled form, than by + its own shortest stamens or those of the mid-styled form; yet the two + former unions, which it might have been expected would have been guarded + against by increased sterility, are much less likely to be effected. The + same relation holds good even in a more striking manner with the + mid-styled form, and with the short-styled form as far as the extreme + sterility of all its illegitimate unions allows of any comparison. We are + led, therefore, to conclude that the rule of increased sterility in + accordance with increased inequality in length between the pistils and + stamens, is a purposeless result, incidental on those changes through + which the species has passed in acquiring certain characters fitted to + ensure the legitimate fertilisation of the three forms. + </p> + <p> + Another conclusion which may be drawn from Tables 4.23, 4.24, and 4.25, + even from a glance at them, is that the mid-styled form differs from both + the others in its much higher capacity for fertilisation in various ways. + Not only did the twenty-four flowers legitimately fertilised by the + stamens of corresponding lengths, all, or all but one, yield capsules rich + in seed; but of the other four illegitimate unions, that by the longest + stamens of the short-styled form was highly fertile, though less so than + the two legitimate unions, and that by the mid-length stamens of the + long-styled form was fertile to a considerable degree; the remaining two + illegitimate unions, namely, with this form’s own pollen, were sterile, + but in different degrees. So that the mid-styled form, when fertilised in + the six different possible methods, evinces five grades of fertility. By + comparing Tables 4.24.3 and 4.24.6 we may see that the action of the + pollen from the shortest stamens of the long-styled and mid-styled forms + is widely different; in the one case above half the fertilised flowers + yielded capsules containing a fair number of seeds; in the other case not + one capsule was produced. So, again, the green, large-grained pollen from + the longest stamens of the short-styled and mid-styled forms (in Tables + 4.24.4 and 4.24.5) is widely different. In both these cases the difference + in action is so plain that it cannot be mistaken, but it can be + corroborated. If we look to Table 4.25 to the legitimate action of the + shortest stamens of the long- and mid-styled forms on the short-styled + form, we again see a similar but slighter difference, the pollen of the + shortest stamens of the mid-styled form yielding a smaller average of seed + during the two years of 1862 and 1863 than that from the shortest stamens + of the long-styled form. Again, if we look to Table 4.23, to the + legitimate action on the long-styled form of the green pollen of the two + sets of longest stamens, we shall find exactly the same result, namely, + that the pollen from the longest stamens of the mid-styled form yielded + during both years fewer seeds than that from the longest stamens of the + short-styled form. Hence it is certain that the two kinds of pollen + produced by the mid-styled form are less potent than the two similar kinds + of pollen produced by the corresponding stamens of the other two forms. + </p> + <p> + In close connection with the lesser potency of the two kinds of pollen of + the mid-styled form is the fact that, according to H. Muller, the grains + of both are a little less in diameter than the corresponding grains + produced by the other two forms. Thus the grains from the longest stamens + of the mid-styled form are 9 to 10, whilst those from the corresponding + stamens of the short-styled form are 9 1/2 to 10 1/2 in diameter. So, + again, the grains from the shortest stamens of the mid-styled are 6, + whilst those from the corresponding stamens of the long- styled are 6 to 6 + 1/2 in diameter. It would thus appear as if the male organs of the + mid-styled form, though not as yet rudimentary, were tending in this + direction. On the other hand, the female organs of this form are in an + eminently efficient state, for the naturally fertilised capsules yielded a + considerably larger average number of seeds than those of the other two + forms—almost every flower which was artificially fertilised in a + legitimate manner produced a capsule—and most of the illegitimate + unions were highly productive. The mid- styled form thus appears to be + highly feminine in nature; and although, as just remarked, it is + impossible to consider its two well-developed sets of stamens which + produce an abundance of pollen as being in a rudimentary condition, yet we + can hardly avoid connecting as balanced the higher efficiency of the + female organs in this form with the lesser efficiency and lesser size of + its two kinds of pollen-grains. The whole case appears to me a very + curious one. + </p> + <p> + It may be observed in Tables 4.23 to 4.25 that some of the illegitimate + unions yielded during neither year a single seed; but, judging from the + long-styled plants, it is probable, if such unions were to be effected + repeatedly by the aid of insects under the most favourable conditions, + some few seeds would be produced in every case. Anyhow, it is certain that + in all twelve illegitimate unions the pollen-tubes penetrated the stigma + in the course of eighteen hours. At first I thought that two kinds of + pollen placed together on the same stigma would perhaps yield more seed + than one kind by itself; but we have seen that this is not so with each + form’s own two kinds of pollen; nor is it probable in any case, as I + occasionally got, by the use of a single kind of pollen, fully as many + seeds as a capsule naturally fertilised ever produces. Moreover the pollen + from a single anther is far more than sufficient to fertilise fully a + stigma; hence, in this as with so many other plants, more than twelve + times as much of each kind of pollen is produced as is necessary to ensure + the full fertilisation of each form. From the dusted condition of the + bodies of the bees which I caught on the flowers, it is probable that + pollen of various kinds is often deposited on all three stigmas; but from + the facts already given with respect to the two forms of Primula, there + can hardly be a doubt that pollen from the stamens of corresponding length + placed on a stigma would be prepotent over any other kind of pollen and + obliterate its effects,—even if the latter had been placed on the + stigma some hours previously. + </p> + <p> + Finally, it has now been shown that Lythrum salicaria presents the + extraordinary case of the same species bearing three females, different in + structure and function, and three or even five sets (if minor differences + are considered) of males; each set consisting of half-a-dozen, which + likewise differ from one another in structure and function. + </p> + <p> + [Lythrum Graefferi. + </p> + <p> + I have examined numerous dried flowers of this species, each from a + separate plant, sent me from Kew. Like L. salicaria, it is trimorphic, and + the three forms apparently occur in about equal numbers. In the + long-styled form the pistil projects about one-third of the length of the + calyx beyond its mouth, and is therefore relatively much shorter than in + L. salicaria; the globose and hirsute stigma is larger than that of the + other two forms; the six mid-length stamens, which are graduated in + length, have their anthers standing close above and close beneath the + mouth of the calyx; the six shortest stamens rise rather above the middle + of the calyx. In the mid-styled form the stigma projects just above the + mouth of the calyx, and stands almost on a level with the mid-length + stamens of the long and short-styled forms; its own longest stamens + project well above the mouth of the calyx, and stand a little above the + level of the stigma of the long-styled form. In short, without entering on + further details, there is a close general correspondence in structure + between this species and L. salicaria, but with some differences in the + proportional lengths of the parts. The fact of each of the three pistils + having two sets of stamens of corresponding lengths, borne by the two + other forms, comes out conspicuously. In the mid-styled form the + pollen-grains from the longest stamens are nearly double the diameter of + those from the shortest stamens; so that there is a greater difference in + this respect than in L. salicaria. In the long-styled form, also, the + difference in diameter between the pollen-grains of the mid-length and + shortest stamens is greater than in L. salicaria. These comparisons, + however, must be received with caution, as they were made on specimens + soaked in water after having been long kept dry. + </p> + <p> + Lythrum thymifolia. + </p> + <p> + This form, according to Vaucher, is dimorphic, like Primula, and therefore + presents only two forms. (4/8. ‘Hist. Phys. des Plantes d’Europe’ tome 2 + 1841 pages 369, 371.) I received two dried flowers from Kew, which + consisted of the two forms; in one the stigma projected far beyond the + calyx, in the other it was included within the calyx; in this latter form + the style was only one-fourth of the length of that in the other form. + There are only six stamens; these are somewhat graduated in length, and + their anthers in the short-styled form stand a little above the stigma, + but yet by no means equal in length the pistil of the long-styled form. In + the latter the stamens are rather shorter than those in the other form. + The six stamens alternate with the petals, and therefore correspond + homologically with the longest stamens of L. salicaria and L. Graefferi. + </p> + <p> + Lythrum hyssopifolia. + </p> + <p> + This species is said by Vaucher, but I believe erroneously, to be + dimorphic. I have examined dried flowers from twenty-two separate plants + from various localities, sent to me by Mr. Hewett C. Watson, Professor + Babington, and others. These were all essentially alike, so that the + species cannot be heterostyled. The pistil varies somewhat in length, but + when unusually long, the stamens are likewise generally long; in the bud + the stamens are short; and Vaucher was perhaps thus deceived. There are + from six to nine stamens, graduated in length. The three stamens, which + vary in being either present or absent, correspond with the six shorter + stamens of L. salicaria and with the six which are always absent in L. + thymifolia. The stigma is included within the calyx, and stands in the + midst of the anthers, and would generally be fertilised by them; but as + the stigma and anthers are upturned, and as, according to Vaucher, there + is a passage left in the upper side of the flower to the nectary, there + can hardly be a doubt that the flowers are visited by insects, and would + occasionally be cross-fertilised by them, as surely as the flowers of the + short-styled L. salicaria, the pistil of which and the corresponding + stamens in the other two forms closely resemble those of L. hyssopifolia. + According to Vaucher and Lecoq, this species, which is an annual, + generally grows almost solitarily (4/9. ‘Geograph. Bot. de l’Europe’ tome + 6 1857 page 157.), whereas the three preceding species are social; and + this fact alone would almost have convinced me that L. hyssopifolia was + not heterostyled, as such plants cannot habitually live isolated any + better than one sex of a dioecious species. + </p> + <p> + We thus see that within this genus some species are heterostyled and + trimorphic; one apparently heterostyled and dimorphic, and one homostyled. + </p> + <p> + Nesaea verticillata. + </p> + <p> + I raised a number of plants from seed sent me by Professor Asa Gray, and + they presented three forms. These differed from one another in the + proportional lengths of their organs of fructification and in all + respects, in very nearly the same way as the three forms of Lythrum + Graefferi. The green pollen-grains from the longest stamens, measured + along their longer axis and not distended with water, were 13/7000 of an + inch in length; those from the mid-length stamens 9 to 10/7000, and those + from the shortest stamens 8 to 9/7000 of an inch. So that the largest + pollen-grains are to the smallest in diameter as 100 to 65. This plant + inhabits swampy ground in the United States. According to Fritz Muller, a + species of this genus in St. Catharina, in Southern Brazil, is homostyled. + (4/10. ‘Botanische Zeitung’ 1868 page 112.) + </p> + <p> + Lagerstroemia Indica. + </p> + <p> + This plant, a member of the Lythraceae, may perhaps be heterostyled, or + may formerly have been so. It is remarkable from the extreme variability + of its stamens. On a plant, growing in my hothouse, the flowers included + from nineteen to twenty-nine short stamens with yellow pollen, which + correspond in position with the shortest stamens of Lythrum; and from one + to five (the latter number being the commonest) very long stamens, with + thick flesh-coloured filaments and green pollen, corresponding in position + with the longest stamens of Lythrum. In one flower, two of the long + stamens produced green, while a third produced yellow pollen, although the + filaments of all three were thick and flesh- coloured. In an anther of + another flower, one cell contained green and the other yellow pollen. The + green and yellow pollen-grains from the stamens of different length are of + the same size. The pistil is a little bowed upwards, with the stigma + seated between the anthers of the short and long stamens, so that this + plant was mid-styled. Eight flowers were fertilised with green pollen, and + six with yellow pollen, but not one set fruit. This latter fact by no + means proves that the plant is heterostyled, as it may belong to the class + of self-sterile species. Another plant growing in the Botanic Gardens at + Calcutta, as Mr. J. Scott informs me, was long-styled, and it was equally + sterile with its own pollen; whilst a long-styled plant of L. reginae, + though growing by itself, produced fruit. I examined dried flowers from + two plants of L. parviflora, both of which were long-styled, and they + differed from L. Indica in having eight long stamens with thick filaments, + and a crowd of shorter stamens. Thus the evidence whether L. Indica is + heterostyled is curiously conflicting: the unequal number of the short and + long stamens, their extreme variability, and especially the fact of their + pollen-grains not differing in size, are strongly opposed to this belief; + on the other hand, the difference in length of the pistils in two of the + plants, their sterility with their own pollen, and the difference in + length and structure of the two sets of stamens in the same flower, and in + the colour of their pollen, favour the belief. We know that when plants of + any kind revert to a former condition, they are apt to be highly variable, + and the two halves of the same organ sometimes differ much, as in the case + of the above-described anther of the Lagerstroemia; we may therefore + suspect that this species was once heterostyled, and that it still retains + traces of its former state, together with a tendency to revert more + completely to it. It deserves notice, as bearing on the nature of + Lagerstroemia, that in Lythrum hyssopifolia, which is a homostyled + species, some of the shorter stamens vary in being either present or + absent; and that these same stamens are altogether absent in L. + thymifolia. In another genus of the Lythraceae, namely Cuphea, three + species raised by me from seed certainly were homostyled; nevertheless + their stamens consisted of two sets, differing in length and in the colour + and thickness of their filaments, but not in the size or colour of their + pollen-grains; so that they thus far resembled the stamens of + Lagerstroemia. I found that Cuphea purpurea was highly fertile with its + own pollen when artificially aided, but sterile when insects were + excluded. (4/11. Mr. Spence informs me that in several species of the + genus Mollia (Tiliaceae) which he collected in South America, the stamens + of the five outer cohorts have purplish filaments and green pollen, whilst + the stamens of the five inner cohorts have yellow pollen. He therefore + suspected that these species might prove to be heterostyled and + trimorphic: but he did not notice the length of the pistils. In the allied + Luhea the outer purplish stamens are destitute of anthers. I procured some + specimens of Mollia lepidota and speciosa from Kew, but could not make out + that their pistils differed in length in different plants; and in all + those which I examined the stigma stood close beneath the uppermost + anthers. The numerous stamens are graduated in length, and the + pollen-grains from the longest and shortest ones did not present any + marked difference in diameter. Therefore these species do not appear to be + heterostyled.)] + </p> + <p> + Oxalis (Geraniaceae). + </p> + <p> + (Figure 4.11. Oxalis speciosa (with the petals removed). Left: + Long-styled. Centre: Mid-styled. Right: Short-styled. S, S, S, stigmas. + The dotted lines with arrows show which pollen must be carried to the + stigmas for legitimate fertilisation.) + </p> + <p> + In 1863 Mr. Roland Trimen wrote to me from the Cape of Good Hope that he + had there found species of Oxalis which presented three forms; and of + these he enclosed drawings and dried specimens. Of one species he + collected 43 flowers from distinct plants, and they consisted of 10 + long-styled, 12 mid-styled, and 21 short-styled. Of another species he + collected 13 flowers, consisting of 3 long-styled, 7 mid-styled, and 3 + short-styled. In 1866 Professor Hildebrand proved by an examination of the + specimens in several herbaria that 20 species are certainly heterostyled + and trimorphic, and 51 others almost certainly so. (4/12. ‘Monatsber. der + Akad. der Wiss. Berlin’ 1866 pages 352, 372. He gives drawings of the + three forms at page 42 of his ‘Geschlechter-Vertheilung’ etc. 1867.) He + also made some interesting observations on living plants belonging to one + form alone; for at that time he did not possess the three forms of any + living species. During the years 1864 to 1868 I occasionally experimented + on Oxalis speciosa, but until now have never found time to publish the + results. In 1871 Hildebrand published an admirable paper in which he shows + in the case of two species of Oxalis, that the sexual relations of the + three forms are nearly the same as in Lythrum salicaria. (4/13. + ‘Botanische Zeitung’ 1871 pages 416 and 432.) I will now give an abstract + of his observations, and afterwards of my own less complete ones. I may + premise that in all the species seen by me, the stigmas of the five + straight pistils of the long-styled form stand on a level with the anthers + of the longest stamens in the two other forms. In the mid- styled form, + the stigmas pass out between the filaments of the longest stamens (as in + the short-styled form of Linum); and they stand rather nearer to the upper + anthers than to the lower ones. In the short-styled form, the stigmas also + pass out between the filaments nearly on a level with the tips of the + sepals. The anthers in this latter form and in the mid-styled rise to the + same height as the corresponding stigmas in the other two forms. + </p> + <p> + Oxalis Valdiviana. + </p> + <p> + This species, an inhabitant of the west coast of South America, bears + yellow flowers. Hildebrand states that the stigmas of the three forms do + not differ in any marked manner, but that the pistil of the short-styled + form alone is destitute of hairs. The diameters of the pollen-grains are + as follows:— + </p> + <p> + Table 4.b. Oxalis Valdiviana. Diameters of pollen-grains in divisions of + the micrometer. + </p> + <p> + Column 1: Source of Pollen-grains. Column 2: Minimum diameter. Column 3: + Maximum diameter. + </p> + <p> + From the: Longest stamens of short-styled form : 8 to 9. Mid-length + stamens of short-styled form : 7 to 8. Longest stamens of mid-styled form + : 8. Shortest stamens of mid-styled form : 8. Mid-length stamens of + long-styled form : 7. Shortest stamens of long-styled form : 6. + </p> + <p> + Therefore the extreme difference in diameter is as 8.5 to 6, or as 100 to + 71. The results of Hildebrand’s experiments are given in Table 4.27, drawn + up in accordance with my usual plan. + </p> + <p> + Table 4.27. Oxalis Valdiviana (from Hildebrand). + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Capsules produced. Column 4: Number of Seeds per + Capsule. + </p> + <p> + Long-styled by pollen of longest stamens of short-styled. Legitimate union + : 28 : 28 : 11.9. + </p> + <p> + Long-styled by pollen of longest stamens of mid-styled. Legitimate union : + 21 : 21 : 12.0. + </p> + <p> + Long-styled by pollen of own and own-form mid-length stamens. Illegitimate + union : 40 : 2 : 5.5. + </p> + <p> + Long-styled by pollen of own and own-form shortest stamens. Illegitimate + union : 26 : 0 : 0. + </p> + <p> + Long-styled by pollen of shortest stamens of short-styled. Illegitimate + union : 16 : 1 : 1. + </p> + <p> + Long-styled by pollen of shortest stamens of mid-styled. Illegitimate + union : 9 : 0 : 0. + </p> + <p> + Mid-styled by pollen of mid-length stamens of long-styled. Legitimate + union : 38 : 38 : 11.3. + </p> + <p> + Mid-styled by pollen of mid-length stamens of short-styled. Legitimate + union : 23 : 23 : 10.4. + </p> + <p> + Mid-styled by pollen of own and own-form longest stamens. Illegitimate + union : 52 : 0 : 0. + </p> + <p> + Mid-styled by pollen of own and own-form shortest stamens. Illegitimate + union : 30 : 1 : 6. + </p> + <p> + Mid-styled by pollen of shortest stamens of long-styled. Illegitimate + union : 16 : 0 : 0. + </p> + <p> + Mid-styled by pollen of longest stamens of short-styled. Illegitimate + union : 16 : 2 : 2.5. + </p> + <p> + Short-styled by pollen of shortest stamens of long-styled. Legitimate + union: 18 : 18 : 11.0. + </p> + <p> + Short-styled by pollen of shortest stamens of mid-styled. Legitimate + union: 10 : 10 : 11.3. + </p> + <p> + Short-styled by pollen of own and own-form longest stamens. Illegitimate + union : 21 : 0 : 0. + </p> + <p> + Short-styled by pollen of own and own-form mid-length stamens. + Illegitimate union : 22 : 0 : 0. + </p> + <p> + Short-styled by pollen of longest stamens of mid-styled. Illegitimate + union: 4 : 0 : 0. + </p> + <p> + Short-styled by pollen of mid-length stamens of long-styled. Illegitimate + union: 3 : 0 : 0. + </p> + <p> + We here have the remarkable result that every one of 138 legitimately + fertilised flowers on the three forms yielded capsules, containing on an + average 11.33 seeds. Whilst of the 255 illegitimately fertilised flowers, + only 6 yielded capsules, which contained 3.83 seeds on an average. + Therefore the fertility of the six legitimate to that of the twelve + illegitimate unions, as judged by the proportion of flowers that yielded + capsules, is as 100 to 2, and as judged by the average number of seeds per + capsule as 100 to 34. It may be added that some plants which were + protected by nets did not spontaneously produce any fruit; nor did one + which was left uncovered by itself and was visited by bees. On the other + hand, scarcely a single flower on some uncovered plants of the three forms + growing near together failed to produce fruit. + </p> + <p> + Oxalis Regnelli. + </p> + <p> + This species bears white flowers and inhabits Southern Brazil. Hildebrand + says that the stigma of the long-styled form is somewhat larger than that + of the mid- styled, and this than that of the short-styled. The pistil of + the latter is clothed with a few hairs, whilst it is very hairy in the + other two forms. The diameter of the pollen-grains from both sets of the + longest stamens equals 9 divisions of the micrometer,—that from the + mid-length stamens of the long- styled form between 8 and 9, and of the + short-styled 8,—and that from the shortest stamens of both sets 7. + So that the extreme difference in diameter is as 9 to 7 or as 100 to 78. + The experiments made by Hildebrand, which are not so numerous as in the + last case, are given in Table 4.28 in the same manner as before. + </p> + <p> + TABLE 4.28. Oxalis Regnelli (from Hildebrand). + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Capsules produced. Column 4: Average Number of Seeds + per Capsule. + </p> + <p> + Long-styled by pollen of longest stamens of short-styled. Legitimate union + : 6 : 6 : 10.1. + </p> + <p> + Long-styled by pollen of longest stamens of mid-styled. Legitimate union : + 5 : 5 : 10.6. + </p> + <p> + Long-styled by pollen of own mid-length stamens. Illegitimate union : 4 : + 0 : 0. + </p> + <p> + Long-styled by pollen of own shortest stamens. Illegitimate union : 1 : 0 + : 0. + </p> + <p> + Mid-styled by pollen of mid-length stamens of short-styled. Legitimate + union : 9 : 9 : 10.4. + </p> + <p> + Mid-styled by pollen of mid-length stamens of long-styled. Legitimate + union : 10 : 10 : 10.1. + </p> + <p> + Mid-styled by pollen of own longest stamens. Illegitimate union : 9 : 0 : + 0. + </p> + <p> + Mid-styled by pollen of own shortest stamens. Illegitimate union : 2 : 0 : + 0. + </p> + <p> + Mid-styled by pollen of longest stamens of short-styled. Illegitimate + union : 1 : 0 : 0. + </p> + <p> + Short-styled by pollen of shortest stamens of mid-styled. Legitimate + union: 9 : 9 : 10.6. + </p> + <p> + Short-styled by pollen of shortest stamens of long-styled. Legitimate + union: 2 : 2 : 9.5. + </p> + <p> + Short-styled by pollen of own mid-length stamens. Illegitimate union : 12 + : 0 : 0. + </p> + <p> + Short-styled by pollen of own longest stamens. Illegitimate union : 9 : 0 + : 0. + </p> + <p> + Short-styled by pollen of mid-length stamens of long-styled. Illegitimate + union: 1 : 0 : 0. + </p> + <p> + The results are nearly the same as in the last case, but more striking; + for 41 flowers belonging to the three forms fertilised legitimately all + yielded capsules, containing on an average 10.31 seeds; whilst 39 flowers + fertilised illegitimately did not yield a single capsule or seed. + Therefore the fertility of the six legitimate to that of the several + illegitimate unions, as judged both by the proportion of flowers which + yielded capsules and by the average number of contained seeds, is as 100 + to 0. + </p> + <p> + Oxalis speciosa. + </p> + <p> + This species, which bears pink flowers, was introduced from the Cape of + Good Hope. A sketch of the reproductive organs of the three forms (Figure + 4.11) has already been given. The stigma of the long-styled form (with the + papillae on its surface included) is twice as large as that of the + short-styled, and that of the mid-styled intermediate in size. The + pollen-grains from the stamens in the three forms are in their longer + diameters as follows:— + </p> + <p> + Table 4.c. Oxalis speciosa. Diameters of pollen-grains in divisions of the + micrometer. + </p> + <p> + Column 1: Source of Pollen-grains. Column 2: Minimum diameter. Column 3: + Maximum diameter. + </p> + <p> + From the: Longest stamens of short-styled form : 15 to 16. Mid-length + stamens of short-styled form : 12 to 13. Longest stamens of mid-styled + form : 16. Shortest stamens of mid-styled form : 11 to 12. Mid-length + stamens of long-styled form : 14. Shortest stamens of long-styled form : + 12. + </p> + <p> + Therefore the extreme difference in diameter is as 16 to 11, or as 100 to + 69; but as the measurements were taken at different times, they are + probably only approximately accurate. The results of my experiments in + fertilising the three forms are given in Table 4.29. + </p> + <p> + Table 4.29. Oxalis speciosa. + </p> + <p> + Column 1: Nature of the Union. Column 2: Number of Flowers fertilised. + Column 3: Number of Capsules produced. Column 4: Average Number of Seeds + per Capsule. + </p> + <p> + Long-styled by pollen of longest stamens of short-styled. Legitimate union + : 19 : 15 : 57.4. + </p> + <p> + Long-styled by pollen of longest stamens of mid-styled. Legitimate union : + 4 : 3 : 59.0. + </p> + <p> + Long-styled by pollen of own-form mid-length stamens. Illegitimate union : + 9 : 2 : 42.5. + </p> + <p> + Long-styled by pollen of own-form shortest stamens. Illegitimate union : + 11 : 0 : 0. + </p> + <p> + Long-styled by pollen of shortest stamens of mid-styled. Illegitimate + union : 4 : 0 : 0. + </p> + <p> + Long-styled by pollen of mid-length stamens of short-styled. Illegitimate + union : 12 : 5 : 30.0. + </p> + <p> + Mid-styled by pollen of mid-length stamens of long-styled. Legitimate + union : 3 : 3 : 63.6. + </p> + <p> + Mid-styled by pollen of mid-length stamens of short-styled. Legitimate + union : 4 : 4 : 56.3. + </p> + <p> + Mid-styled by mixed pollen from both own-form longest and shortest + stamens. Illegitimate union : 9 : 2 : 19. + </p> + <p> + Mid-styled by pollen of longest stamens of short-styled. Illegitimate + union : 12 : 1 : 8. + </p> + <p> + Short-styled by pollen of shortest stamens of mid-styled. Legitimate + union: 3 : 2 : 67. + </p> + <p> + Short-styled by pollen of shortest stamens of long-styled. Legitimate + union: 3 : 3 : 54.3. + </p> + <p> + Short-styled by pollen of own-form longest stamens. Illegitimate union: 5 + : 1 : 8. + </p> + <p> + Short-styled by pollen of own-form mid-length stamens. Illegitimate union + : 3 : 0 : 0. + </p> + <p> + Short-styled by both pollens mixed together, of own-form longest and + mid-length stamens. Illegitimate union: 13 : 0 : 0. + </p> + <p> + Short-styled by pollen of longest stamens of mid-styled. Illegitimate + union : 7 : 0 : 0. + </p> + <p> + Short-styled by pollen of mid-length stamens of long-styled. Illegitimate + union: 10 : 1 : 54. + </p> + <p> + We here see that thirty-six flowers on the three forms legitimately + fertilised yielded 30 capsules, these containing on an average 58.36 + seeds. Ninety-five flowers illegitimately fertilised yielded 12 capsules, + containing on an average 28.58 seeds. Therefore the fertility of the six + legitimate to that of the twelve illegitimate unions, as judged by the + proportion of flowers which yielded capsules, is as 100 to 15, and judged + by the average number of seeds per capsule as 100 to 49. This plant, in + comparison with the two South American species previously described, + produces many more seeds, and the illegitimately fertilised flowers are + not quite so sterile. + </p> + <p> + Oxalis rosea. + </p> + <p> + Hildebrand possessed in a living state only the long-styled form of this + trimorphic Chilian species. (4/14. ‘Monatsber. der Akad. der Wiss. Berlin’ + 1866 page 372.) The pollen-grains from the two sets of anthers differ in + diameter as 9 to 7.5, or as 100 to 83. He has further shown that there is + an analogous difference between the grains from the two sets of anthers of + the same flower in five other species of Oxalis, besides those already + described. The present species differs remarkably from the long-styled + form of the three species previously experimented on, in a much larger + proportion of the flowers setting capsules when fertilised with their + own-form pollen. Hildebrand fertilised 60 flowers with pollen from the + mid-length stamens (of either the same or another flower), and they + yielded no less than 55 capsules, or 92 per cent. These capsules contained + on an average 5.62 seeds; but we have no means of judging how near an + approach this average makes to that from flowers legitimately fertilised. + He also fertilised 45 flowers with pollen from the shortest stamens, and + these yielded only 17 capsules, or 31 per cent, containing on an average + only 2.65 seeds. We thus see that about thrice as many flowers, when + fertilised with pollen from the mid-length stamens, produced capsules, and + these contained twice as many seeds, as did the flowers fertilised with + pollen from the shortest stamens. It thus appears (and we find some + evidence of the same fact with O. speciosa), that the same rule holds good + with Oxalis as with Lythrum salicaria; namely, that in any two unions, the + greater the inequality in length between the pistils and stamens, or, + which is the same thing, the greater the distance of the stigma from the + anthers, the pollen of which is used for fertilisation, the less fertile + is the union,—whether judged by the proportion of flowers which set + capsules, or by the average number of seeds per capsule. The rule cannot + be explained in this case any more than in that of Lythrum, by supposing + that wherever there is greater liability to self-fertilisation, this is + checked by the union being rendered more sterile; for exactly the reverse + occurs, the liability to self-fertilisation being greatest in the unions + between the pistils and stamens which approach each other the nearest, and + these are the more fertile. I may add that I also possessed some + long-styled plants of this species: one was covered by a net, and it set + spontaneously a few capsules, though extremely few compared with those + produced by a plant growing by itself, but exposed to the visits of bees. + </p> + <p> + With most of the species of Oxalis the short-styled form seems to be the + most sterile of the three forms, when these are illegitimately fertilised; + and I will add two other cases to those already given. I fertilised 29 + short-styled flowers of O. compressa with pollen from their own two sets + of stamens (the pollen- grains of which differ in diameter as 100 and 83), + and not one produced a capsule. I formerly cultivated during several years + the short-styled form of a species purchased under the name of O. Bowii + (but I have some doubts whether it was rightly named), and fertilised many + flowers with their own two kinds of pollen, which differ in diameter in + the usual manner, but never got a single seed. On the other hand, + Hildebrand says that the short-styled form of O. Deppei, growing by + itself, yields plenty of seed; but it is not positively known that this + species is heterostyled; and the pollen-grains from the two sets of + anthers do not differ in diameter. + </p> + <p> + Some facts communicated to me by Fritz Muller afford excellent evidence of + the utter sterility of one of the forms of certain trimorphic species of + Oxalis, when growing isolated. He has seen in St. Catharina, in Brazil, a + large field of young sugar-cane, many acres in extent, covered with the + red blossoms of one form alone, and these did not produce a single seed. + His own land is covered with the short-styled form of a white-flowered + trimorphic species, and this is equally sterile; but when the three forms + were planted near together in his garden they seeded freely. With two + other trimorphic species he finds that isolated plants are always sterile. + </p> + <p> + Fritz Muller formerly believed that a species of Oxalis, which is so + abundant in St. Catharina that it borders the roads for miles, was + dimorphic instead of trimorphic. Although the pistils and stamens vary + greatly in length, as was evident in some specimens sent to me, yet the + plants can be divided into two sets, according to the lengths of these + organs. A large proportion of the anthers are of a white colour and quite + destitute of pollen; others which are pale yellow contain many bad with + some good grains; and others again which are bright yellow have apparently + sound pollen; but he has never succeeded in finding any fruit on this + species. The stamens in some of the flowers are partially converted into + petals. Fritz Muller after reading my description, hereafter to be given, + of the illegitimate offspring of various heterostyled species, suspects + that these plants of Oxalis may be the variable and sterile offspring of a + single form of some trimorphic species, perhaps accidentally introduced + into the district, which has since been propagated asexually. It is + probable that this kind of propagation would be much aided by there being + no expenditure in the production of seed. + </p> + <p> + Oxalis (Biophytum) sensitiva. + </p> + <p> + This plant is ranked by many botanists as a distinct genus. Mr. Thwaites + sent me a number of flowers preserved in spirits from Ceylon, and they are + clearly trimorphic. The style of the long-styled form is clothed with many + scattered hairs, both simple and glandular; such hairs are much fewer on + the style of the mid-styled, and quite absent from that of the + short-styled form; so that this plant resembles in this respect O. + Valdiviana and Regnelli. Calling the length of the two lobes of the stigma + of the long-styled form 100, that of the mid- styled is 141, and that of + the short-styled 164. In all other cases, in which the stigma in this + genus differs in size in the three forms, the difference is of a reversed + nature, the stigma of the long-styled being the largest, and that of the + short-styled the smallest. The diameter of the pollen-grains from the + longest stamens being represented by 100, those from the mid-length + stamens are 91, and those from the shortest stamens 84 in diameter. This + plant is remarkable, as we shall see in the last chapter of this volume, + by producing long-styled, mid-styled, and short-styled cleistogamic + flowers. + </p> + <h3> + HOMOSTYLED SPECIES OF OXALIS. + </h3> + <p> + Although the majority of the species in the large genus Oxalis seem to be + trimorphic, some are homostyled, that is, exist under a single form; for + instance the common O. acetosella, and according to Hildebrand two other + widely distributed European species, O. stricta and corniculata. Fritz + Muller also informs me that a similarly constituted species is found in + St. Catharina, and that it is quite fertile with its own pollen when + insects are excluded. The stigmas of O. stricta and of another homostyled + species, namely O. tropaeoloides, commonly stand on a level with the upper + anthers, and both these species are likewise quite fertile when insects + are excluded. + </p> + <p> + With respect to O. acetosella, Hildebrand says that in all the many + specimens examined by him the pistil exceeded the longer stamens in + length. I procured 108 flowers from the same number of plants growing in + three distant parts of England; of these 86 had their stigmas projecting + considerably above, whilst 22 had them nearly on a level with the upper + anthers. In one lot of 17 flowers from the same wood, the stigmas in every + flower projected fully as much above the upper anthers as these stood + above the lower anthers. So that these plants might fairly be compared + with the long-styled form of a heterostyled species; and I at first + thought that O. acetosella was trimorphic. But the case is one merely of + great variability. The pollen-grains from the two sets of anthers, as + observed by Hildebrand and myself, do not differ in diameter. I fertilised + twelve flowers on several plants with pollen from a distinct plant, + choosing those with pistils of a different length; and 10 of these (i.e. + 83 per cent) produced capsules, which contained on an average 7.9 seeds. + Fourteen flowers were fertilised with their own pollen, and 11 of these + (i.e. 79 per cent) yielded capsules, containing a larger average of seed, + namely 9.2. These plants, therefore, in function show not the least sign + of being heterostyled. I may add that 18 flowers protected by a net were + left to fertilise themselves, and only 10 of these (i.e. 55 per cent) + yielded capsules, which contained on an average only 6.3 seeds. So that + the access of insects, or artificial aid in placing pollen on the stigma, + increases the fertility of the flowers; and I found that this applied + especially to those having shorter pistils. It should be remembered that + the flowers hang downwards, so that those with short pistils would be the + least likely to receive their own pollen, unless they were aided in some + manner. + </p> + <p> + Finally, as Hildebrand has remarked, there is no evidence that any of the + heterostyled species of Oxalis are tending towards a dioecious condition, + as Zuccarini and Lindley inferred from the differences in the reproductive + organs of the three forms, the meaning of which they did not understand. + </p> + <h3> + PONTEDERIA [SP.?] (PONTEDERIACEAE). + </h3> + <p> + Fritz Muller found this aquatic plant, which is allied to the Liliaceae, + growing in the greatest profusion on the banks of a river in Southern + Brazil. (4/15. “Ueber den Trimorphismus der Pontederien” ‘Jenaische + Zeitschrift’ etc. Band 6 1871 page 74.) But only two forms were found, the + flowers of which include three long and three short stamens. The pistil of + the long-styled form, in two dried flowers which were sent me, was in + length as 100 to 32, and its stigma as 100 to 80, compared with the same + organs in the short-styled form. The long-styled stigma projects + considerably above the upper anthers of the same flower, and stands on a + level with the upper ones of the short-styled form. In the latter the + stigma is seated beneath both its own sets of anthers, and is on a level + with the anthers of the shorter stamens in the long-styled form. The + anthers of the longer stamens of the short-styled form are to those of the + shorter stamens of the long-styled form as 100 to 88 in length. The + pollen-grains distended with water from the longer stamens of the + short-styled form are to those from the shorter stamens of the same form + as 100 to 87 in diameter, as deduced from ten measurements of each kind. + We thus see that the organs in these two forms differ from one another and + are arranged in an analogous manner, as in the long and short-styled forms + of the trimorphic species of Lythrum and Oxalis. Moreover, the longer + stamens of the long-styled form of Pontederia, and the shorter ones of the + short-styled form are placed in a proper position for fertilising the + stigma of a mid-styled form. But Fritz Muller, although he examined a vast + number of plants, could never find one belonging to the mid-styled form. + The older flowers of the long-styled and short-styled plants had set + plenty of apparently good fruit; and this might have been expected, as + they could legitimately fertilise one another. Although he could not find + the mid-styled form of this species, he possessed plants of another + species growing in his garden, and all these were mid-styled; and in this + case the pollen-grains from the anthers of the longer stamens were to + those from the shorter stamens of the same flower as 100 to 86 in + diameter, as deduced from ten measurements of each kind. These mid-styled + plants growing by themselves never produced a single fruit. + </p> + <p> + Considering these several facts, there can hardly be a doubt that both + these species of Pontederia are heterostyled and trimorphic. This case is + an interesting one, for no other Monocotyledonous plant is known to be + heterostyled. Moreover, the flowers are irregular, and all other + heterostyled plants have almost symmetrical flowers. The two forms differ + somewhat in the colour of their corollas, that of the short-styled being + of a darker blue, whilst that of the long-styled tends towards violet, and + no other such case is known. Lastly, the three longer stamens alternate + with the three shorter ones, whereas in Lythrum and Oxalis the long and + short stamens belong to distinct whorls. With respect to the absence of + the mid-styled form in the case of the Pontederia which grows wild in + Southern Brazil, this would probably follow if only two forms had been + originally introduced there; for, as we shall hereafter see from the + observations of Hildebrand, Fritz Muller and myself, when one form of + Oxalis is fertilised exclusively by either of the other two forms, the + offspring generally belong to the two parent-forms. + </p> + <p> + Fritz Muller has recently discovered, as he informs me, a third species of + Pontederia, with all three forms growing together in pools in the interior + of S. Brazil; so that no shadow of doubt can any longer remain about this + genus including trimorphic species. He sent me dried flowers of all three + forms. In the long-styled form the stigma stands a little above the tips + of the petals, and on a level with the anthers of the longest stamens in + the other two forms. The pistil is in length to that of the mid-styled as + 100 to 56, and to that of the short-styled as 100 to 16. Its summit is + rectangularly bent upwards, and the stigma is rather broader than that of + the mid-styled, and broader in about the ratio of 7 to 4 than that of the + short-styled. In the mid-styled form, the stigma is placed rather above + the middle of the corolla, and nearly on a level with the mid-length + stamens in the other two forms; its summit is a little bent upwards. In + the short-styled form the pistil is, as we have seen, very short, and + differs from that in the other two forms in being straight. It stands + rather beneath the level of the anthers of the shortest stamens in the + long-styled and mid-styled forms. The three anthers of each set of + stamens, more especially those of the shortest stamens, are placed one + beneath the other, and the ends of the filaments are bowed a little + upwards, so that the pollen from all the anthers would be effectively + brushed off by the proboscis of a visiting insect. The relative diameters + of the pollen-grains, after having been long soaked in water, are given in + Table 4.d, as measured by my son Francis. + </p> + <p> + TABLE 4.d. Pontederia. Diameters of pollen-grains, after having been long + soaked in water, in divisions of the micrometer. + </p> + <p> + Column 1: Source of Pollen-grains. Column 2: diameter. + </p> + <p> + Long-styled form, mid-length stamens (Average of 20 measurements): 13.2. + Long-styled form, shortest stamens (10 measurements): 9.0. + </p> + <p> + Mid-styled form, longest stamens (15 measurements) : 16.4. Mid-styled + form, shortest stamens (20 measurements): 9.1. + </p> + <p> + Short-styled form, longest stamens (20 measurements): 14.6. Short-styled + form, mid-length stamens (20 measurements): 12.3. + </p> + <p> + We have here the usual rule of the grains from the longer stamens, the + tubes of which have to penetrate the longer pistil, being larger than + those from the stamens of less length. The extreme difference in diameter + between the grains from the longest stamens of the mid-styled form, and + from the shortest stamens of the long-styled, is as 16.4 to 9.0, or as 100 + to 55; and this is the greatest difference observed by me in any + heterostyled plant. It is a singular fact that the grains from the + corresponding longest stamens in the two forms differ considerably in + diameter; as do those in a lesser degree from the corresponding mid-length + stamens in the two forms; whilst those from the corresponding shortest + stamens in the long- and mid-styled forms are almost exactly equal. Their + inequality in the two first cases depends on the grains in both sets of + anthers in the short-styled form being smaller than those from the + corresponding anthers in the other two forms; and here we have a case + parallel with that of the mid-styled form of Lythrum salicaria. In this + latter plant the pollen-grains of the mid-styled forms are of smaller size + and have less fertilising power than the corresponding ones in the other + two forms; whilst the ovarium, however fertilised, yields a greater number + of seeds; so that the mid-styled form is altogether more feminine in + nature than the other two forms. In the case of Pontederia, the ovarium + includes only a single ovule, and what the meaning of the difference in + size between the pollen-grains from the corresponding sets of anthers may + be, I will not pretend to conjecture. + </p> + <p> + The clear evidence that the species just described is heterostyled and + trimorphic is the more valuable as there is some doubt with respect to P. + cordata, an inhabitant of the United States. Mr. Leggett suspects that it + is either dimorphic or trimorphic, for the pollen-grains of the longer + stamens are “more than twice the diameter or than eight times the mass of + the grains of the shorter stamens. Though minute, these smaller grains + seem as perfect as the larger ones.” (4/16. ‘Bulletin of the Torrey + Botanical Club’ 1875 volume 6 page 62.) On the other hand, he says that in + all the mature flowers, “the style was as long at least as the longer + stamens;” “whilst in the young flowers it was intermediate in length + between the two sets of stamens;” and if this be so, the species can + hardly be heterostyled. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0005" id="link2HCH0005"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER V. ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + </h2> +<pre xml:space="preserve"> + Illegitimate offspring from all three forms of Lythrum salicaria. + Their dwarfed stature and sterility, some utterly barren, some fertile. + Oxalis, transmission of form to the legitimate and illegitimate seedlings. + Primula Sinensis, Illegitimate offspring in some degree dwarfed and infertile. + Equal-styled varieties of P. Sinensis, auricula, farinosa, and elatior. + P. vulgaris, red-flowered variety, Illegitimate seedlings sterile. + P. veris, Illegitimate plants raised during several successive generations, + their dwarfed stature and sterility. + Equal-styled varieties of P. veris. + Transmission of form by Pulmonaria and Polygonum. + Concluding remarks. + Close parallelism between illegitimate fertilisation and hybridism. +</pre> + <p> + We have hitherto treated of the fertility of the flowers of heterostyled + plants, when legitimately and illegitimately fertilised. The present + chapter will be devoted to the character of their offspring or seedlings. + Those raised from legitimately fertilised seeds will be here called + LEGITIMATE SEEDLINGS or PLANTS, and those from illegitimately fertilised + seeds, ILLEGITIMATE SEEDLINGS or PLANTS. They differ chiefly in their + degree of fertility, and in their powers of growth or vigour. I will begin + with trimorphic plants, and I must remind the reader that each of the + three forms can be fertilised in six different ways; so that all three + together can be fertilised in eighteen different ways. For instance, a + long-styled form can be fertilised legitimately by the longest stamens of + the mid-styled and short-styled forms, and illegitimately by its own- form + and mid-length and shortest stamens, also by the mid-length stamens of the + mid-styled and by the shortest stamens of the short-styled form; so that + the long-styled can be fertilised legitimately in two ways and + illegitimately in four ways. The same holds good with respect to the + mid-styled and short-styled forms. Therefore with trimorphic species six + of the eighteen unions yield legitimate offspring, and twelve yield + illegitimate offspring. + </p> + <p> + I will give the results of my experiments in detail, partly because the + observations are extremely troublesome, and will not probably soon be + repeated— thus, I was compelled to count under the microscope above + 20,000 seeds of Lythrum salicaria—but chiefly because light is thus + indirectly thrown on the important subject of hybridism. + </p> + <p> + Lythrum salicaria. + </p> + <p> + Of the twelve illegitimate unions two were completely barren, so that no + seeds were obtained, and of course no seedlings could be raised. Seedlings + were, however, raised from seven of the ten remaining illegitimate unions. + Such illegitimate seedlings when in flower were generally allowed to be + freely and legitimately fertilised, through the agency of bees, by other + illegitimate plants belonging to the two other forms growing close by. + This is the fairest plan, and was usually followed; but in several cases + (which will always be stated) illegitimate plants were fertilised with + pollen taken from legitimate plants belonging to the other two forms; and + this, as might have been expected, increased their fertility. Lythrum + salicaria is much affected in its fertility by the nature of the season; + and to avoid error from this source, as far as possible, my observations + were continued during several years. Some few experiments were tried in + 1863. The summer of 1864 was too hot and dry, and, though the plants were + copiously watered, some few apparently suffered in their fertility, whilst + others were not in the least affected. The years 1865 and, especially, + 1866, were highly favourable. Only a few observations were made during + 1867. The results are arranged in classes according to the parentage of + the plants. In each case the average number of seeds per capsule is given, + generally taken from ten capsules, which, according to my experience, is a + nearly sufficient number. The maximum number of seeds in any one capsule + is also given; and this is a useful point of comparison with the normal + standard—that is, with the number of seeds produced by legitimate + plants legitimately fertilised. I will give likewise in each case the + minimum number. When the maximum and minimum differ greatly, if no remark + is made on the subject, it may be understood that the extremes are so + closely connected by intermediate figures that the average is a fair one. + Large capsules were always selected for counting, in order to avoid + over-estimating the infertility of the several illegitimate plants. + </p> + <p> + In order to judge of the degree of inferiority in fertility of the several + illegitimate plants, the following statement of the average and of the + maximum number of seeds produced by ordinary or legitimate plants, when + legitimately fertilised, some artificially and some naturally, will serve + as a standard of comparison, and may in each case be referred to. But I + give under each experiment the percentage of seeds produced by the + illegitimate plants, in comparison with the standard legitimate number of + the same form. For instance, ten capsules from the illegitimate + long-styled plant (Number 10), which was legitimately and naturally + fertilised by other illegitimate plants, contained on an average 44.2 + seeds; whereas the capsules on legitimate long-styled plants, legitimately + and naturally fertilised by other legitimate plants, contained on an + average 93 seeds. Therefore this illegitimate plant yielded only 47 per + cent of the full and normal complement of seeds. + </p> + <p> + STANDARD NUMBER OF SEEDS PRODUCED BY LEGITIMATE PLANTS OF THE THREE FORMS, + WHEN LEGITIMATELY FERTILISED. + </p> + <p> + Long-styled form: Average number of seeds in each capsule, 93; Maximum + number observed out of twenty-three capsules, 159. + </p> + <p> + Mid-styled form: Average number of seeds, 130; Maximum number observed out + of thirty-one capsules, 151. + </p> + <p> + Short-styled form: Average number of seeds, 83.5; but we may, for the sake + of brevity, say 83; Maximum number observed out of twenty-five capsules, + 112. + </p> + <p> + CLASSES 1 AND 2. ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED PARENTS + FERTILISED WITH POLLEN FROM THE MID-LENGTH OR THE SHORTEST STAMENS OF + OTHER PLANTS OF THE SAME FORM. + </p> + <p> + From this union I raised at different times three lots of illegitimate + seedlings, amounting altogether to 56 plants. I must premise that, from + not foreseeing the result, I did not keep a memorandum whether the eight + plants of the first lot were the product of the mid-length or shortest + stamens of the same form; but I have good reason to believe that they were + the product of the latter. These eight plants were much more dwarfed, and + much more sterile than those in the other two lots. The latter were raised + from a long-styled plant growing quite isolated, and fertilised by the + agency of bees with its own pollen; and it is almost certain, from the + relative position of the organs of fructification, that the stigma under + these circumstances would receive pollen from the mid-length stamens. + </p> + <p> + All the fifty-six plants in these three lots proved long-styled; now, if + the parent-plants had been legitimately fertilised by pollen from the + longest stamens of the mid-styled and short-styled forms, only about + one-third of the seedlings would have been long-styled, the other + two-thirds being mid-styled and short-styled. In some other trimorphic and + dimorphic genera we shall find the same curious fact, namely, that the + long-styled form, fertilised illegitimately by its own-form pollen, + produces almost exclusively long-styled seedlings. (5/1. Hildebrand first + called attention to this fact in the case of Primula Sinensis (‘Botanische + Zeitung’ January 1, 1864 page 5); but his results were not nearly so + uniform as mine.) + </p> + <p> + The eight plants of the first lot were of low stature: three which I + measured attained, when fully grown, the heights of only 28, 29, and 47 + inches; whilst legitimate plants growing close by were double this height, + one being 77 inches. They all betrayed in their general appearance a weak + constitution; they flowered rather later in the season, and at a later age + than ordinary plants. Some did not flower every year; and one plant, + behaving in an unprecedented manner, did not flower until three years old. + In the two other lots none of the plants grew quite to their full and + proper height, as could at once be seen by comparing them with the + adjoining rows of legitimate plants. In several plants in all three lots, + many of the anthers were either shrivelled or contained brown and tough, + or pulpy matter, without any good pollen-grains, and they never shed their + contents; they were in the state designated by Gartner as contabescent, + which term I will for the future use. (5/2. ‘Beitrage zur Kenntniss der + Befruchtung’ 1844 page 116.) In one flower all the anthers were + contabescent excepting two which appeared to the naked eye sound; but + under the microscope about two-thirds of the pollen-grains were seen to be + small and shrivelled. In another plant, in which all the anthers appeared + sound, many of the pollen- grains were shrivelled and of unequal sizes. I + counted the seeds produced by seven plants (1 to 7) in the first lot of + eight plants, probably the product of parents fertilised by their own-form + shortest stamens, and the seeds produced by three plants in the other two + lots, almost certainly the product of parents fertilised by their own-form + mid-length stamens. + </p> + <h3> + [PLANT 1. + </h3> + <p> + This long-styled plant was allowed during 1863 to be freely and + legitimately fertilised by an adjoining illegitimate mid-styled plant, but + it did not yield a single seed-capsule. It was then removed and planted in + a remote place close to a brother long-styled plant Number 2, so that it + must have been freely though illegitimately fertilised; under these + circumstances it did not yield during 1864 and 1865 a single capsule. I + should here state that a legitimate or ordinary long-styled plant, when + growing isolated, and freely though illegitimately fertilised by insects + with its own pollen, yielded an immense number of capsules, which + contained on an average 21.5 seeds. + </p> + <h3> + PLANT 2. + </h3> + <p> + This long-styled plant, after flowering during 1863 close to an + illegitimate mid-styled plant, produced less than twenty capsules, which + contained on an average between four and five seeds. When subsequently + growing in company with Number 1, by which it will have been + illegitimately fertilised, it yielded in 1866 not a single capsule, but in + 1865 it yielded twenty-two capsules: the best of these, fifteen in number, + were examined; eight contained no seed, and the remaining seven contained + on an average only three seeds, and these seeds were so small and + shrivelled that I doubt whether they would have germinated. + </p> + <h3> + PLANTS 3 AND 4. + </h3> + <p> + These two long-styled plants, after being freely and legitimately + fertilised during 1863 by the same illegitimate mid-styled plant as in the + last case, were as miserably sterile as Number 2. + </p> + <h3> + PLANT 5. + </h3> + <p> + This long-styled plant, after flowering in 1863 close to an illegitimate + mid- styled plant, yielded only four capsules, which altogether included + only five seeds. During 1864, 1865, and 1866, it was surrounded either by + illegitimate or legitimate plants of the other two forms; but it did not + yield a single capsule. It was a superfluous experiment, but I likewise + artificially fertilised in a legitimate manner twelve flowers; but not one + of these produced a capsule; so that this plant was almost absolutely + barren. + </p> + <h3> + PLANT 6. + </h3> + <p> + This long-styled plant, after flowering during the favourable year of + 1866, surrounded by illegitimate plants of the other two forms, did not + produce a single capsule. + </p> + <h3> + PLANT 7. + </h3> + <p> + This long-styled plant was the most fertile of the eight plants of the + first lot. During 1865 it was surrounded by illegitimate plants of various + parentage, many of which were highly fertile, and must thus have been + legitimately fertilised. It produced a good many capsules, ten of which + yielded an average of 36.1 seeds, with a maximum of 47 and a minimum of + 22; so that this plant produced 39 per cent of the full number of seeds. + During 1864 it was surrounded by legitimate and illegitimate plants of the + other two forms; and nine capsules (one poor one being rejected) yielded + an average of 41.9 seeds, with a maximum of 56 and a minimum of 28; so + that, under these favourable circumstances, this plant, the most fertile + of the first lot, did not yield, when legitimately fertilised, quite 45 + per cent of the full complement of seeds.] + </p> + <p> + In the second lot of plants in the present class, descended from the + long-styled form, almost certainly fertilised with pollen from its own + mid-length stamens, the plants, as already stated, were not nearly so + dwarfed or so sterile as in the first lot. All produced plenty of + capsules. I counted the number of seeds in only three plants, namely + Numbers 8, 9, and 10. + </p> + <h3> + [PLANT 8. + </h3> + <p> + This plant was allowed to be freely fertilised in 1864 by legitimate and + illegitimate plants of the other two forms, and ten capsules yielded on an + average 41.1 seeds, with a maximum of 73 and a minimum of 11. Hence this + plant produced only 44 per cent of the full complement of seeds. + </p> + <h3> + PLANT 9. + </h3> + <p> + This long-styled plant was allowed in 1865 to be freely fertilised by + illegitimate plants of the other two forms, most of which were moderately + fertile. Fifteen capsules yielded on an average 57.1 seeds, with a maximum + of 86 and a minimum of 23. Hence the plant yielded 61 per cent of the full + complement of seeds. + </p> + <h3> + PLANT 10. + </h3> + <p> + This long-styled plant was freely fertilised at the same time and in the + same manner as the last. Ten capsules yielded an average of 44.2 seeds, + with a maximum of 69 and a minimum of 25; hence this plant yielded 47 per + cent of the full complement of seeds.] + </p> + <p> + The nineteen long-styled plants of the third lot, of the same parentage as + the last lot, were treated differently; for they flowered during 1867 by + themselves so that they must have been illegitimately fertilised by one + another. It has already been stated that a legitimate long-styled plant, + growing by itself and visited by insects, yielded an average of 21.5 seeds + per capsule, with a maximum of 35; but, to judge fairly of its fertility, + it ought to have been observed during successive seasons. We may also + infer from analogy that, if several legitimate long-styled plants were to + fertilise one another, the average number of seeds would be increased; but + how much increased I do not know; hence I have no perfectly fair standard + of comparison by which to judge of the fertility of the three following + plants of the present lot, the seeds of which I counted. + </p> + <h3> + [PLANT 11. + </h3> + <p> + This long-styled plant produced a large crop of capsules, and in this + respect was one of the most fertile of the whole lot of nineteen plants. + But the average from ten capsules was only 35.9 seeds, with a maximum of + 60 and a minimum of 8. + </p> + <h3> + PLANT 12. + </h3> + <p> + This long-styled plant produced very few capsules; and ten yielded an + average of only 15.4 seeds, with a maximum of 30 and a minimum of 4. + </p> + <h3> + PLANT 13. + </h3> + <p> + This plant offers an anomalous case; it flowered profusely, yet produced + very few capsules; but these contained numerous seeds. Ten capsules + yielded an average of 71.9 seeds, with a maximum of 95 and a minimum of + 29. Considering that this plant was illegitimate and illegitimately + fertilised by its brother long-styled seedlings, the average and the + maximum are so remarkably high that I cannot at all understand the case. + We should remember that the average for a legitimate plant legitimately + fertilised is 93 seeds.] + </p> + <p> + CLASS 3. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED + WITH POLLEN FROM OWN-FORM MID-LENGTH STAMENS. + </p> + <p> + I raised from this union nine plants, of which eight were short-styled and + one long-styled; so that there seems to be a strong tendency in this form + to reproduce, when self-fertilised, the parent-form; but the tendency is + not so strong as with the long-styled. These nine plants never attained + the full height of legitimate plants growing close to them. The anthers + were contabescent in many of the flowers on several plants. + </p> + <h3> + [PLANT 14. + </h3> + <p> + This short-styled plant was allowed during 1865 to be freely and + legitimately fertilised by illegitimate plants descended from + self-fertilised mid-, long- and short-styled plants. Fifteen capsules + yielded an average of 28.3 seeds, with a maximum of 51 and a minimum of + 11; hence this plant produced only 33 per cent of the proper number of + seeds. The seeds themselves were small and irregular in shape. Although so + sterile on the female side, none of the anthers were contabescent. + </p> + <h3> + PLANT 15. + </h3> + <p> + This short-styled plant, treated like the last during the same year, + yielded an average, from fifteen capsules, of 27 seeds, with a maximum of + 49 and a minimum of 7. But two poor capsules may be rejected, and then the + average rises to 32.6, with the same maximum of 49 and a minimum of 20; so + that this plant attained 38 per cent of the normal standard of fertility, + and was rather more fertile than the last, yet many of the anthers were + contabescent. + </p> + <h3> + PLANT 16. + </h3> + <p> + This short-styled plant, treated like the two last, yielded from ten + capsules an average of 77.8 seeds, with a maximum of 97 and a minimum of + 60; so that this plant produced 94 per cent of the full number of seeds. + </p> + <h3> + PLANT 17. + </h3> + <p> + This, the one long-styled plant of the same parentage as the last three + plants, when freely and legitimately fertilised in the same manner as the + last, yielded an average from ten capsules of 76.3 rather poor seeds, with + a maximum of 88 and a minimum of 57. Hence this plant produced 82 per cent + of the proper number of seeds. Twelve flowers enclosed in a net were + artificially and legitimately fertilised with pollen from a legitimate + short-styled plant; and nine capsules yielded an average of 82.5 seeds, + with a maximum of 98 and a minimum of 51; so that its fertility was + increased by the action of pollen from a legitimate plant, but still did + not reach the normal standard.] + </p> + <p> + CLASS 4. ILLEGITIMATE PLANTS RAISED FROM A MID-STYLED PARENT FERTILISED + WITH POLLEN FROM OWN-FORM LONGEST STAMENS. + </p> + <p> + After two trials, I succeeded in raising only four plants from this + illegitimate union. These proved to be three mid-styled and one + long-styled; but from so small a number we can hardly judge of the + tendency in mid-styled plants when self-fertilised to reproduce the same + form. These four plants never attained their full and normal height; the + long-styled plant had several of its anthers contabescent. + </p> + <h3> + [PLANT 18. + </h3> + <p> + This mid-styled plant, when freely and legitimately fertilised during 1865 + by illegitimate plants descended from self-fertilised long-, short-, and + mid-styled plants, yielded an average from ten capsules of 102.6 seeds, + with a maximum of 131 and a minimum of 63: hence this plant did not + produce quite 80 per cent of the normal number of seeds. Twelve flowers + were artificially and legitimately fertilised with pollen from a + legitimate long-styled plant, and yielded from nine capsules an average of + 116.1 seeds, which were finer than in the previous case, with a maximum of + 135 and a minimum of 75; so that, as with Plant 17, pollen from a + legitimate plant increased the fertility, but did not bring it up to the + full standard. + </p> + <h3> + PLANT 19. + </h3> + <p> + This mid-styled plant, fertilised in the same manner and at the same + period as the last, yielded an average from ten capsules of 73.4 seeds, + with a maximum of 87 and a minimum of 64: hence this plant produced only + 56 per cent of the full number of seeds. Thirteen flowers were + artificially and legitimately fertilised with pollen from a legitimate + long-styled plant, and yielded ten capsules with an average of 95.6 seeds; + so that the application of pollen from a legitimate plant added, as in the + two previous cases, to the fertility, but did not bring it up to the + proper standard. + </p> + <h3> + PLANT 20. + </h3> + <p> + This long-styled plant, of the same parentage with the two last mid-styled + plants, and freely fertilised in the same manner, yielded an average from + ten capsules of 69.6 seeds, with a maximum of 83 and a minimum of 52: + hence this plant produced 75 per cent of the full number of seeds.] + </p> + <p> + CLASS 5. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED + WITH POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + </p> + <p> + In the four previous classes, plants raised from the three forms + fertilised with pollen from either the longer or shorter stamens of the + same form, but generally not from the same plant, have been described. Six + other illegitimate unions are possible, namely, between the three forms + and the stamens in the other two forms which do not correspond in height + with their pistils. But I succeeded in raising plants from only three of + these six unions. From one of them, forming the present Class 5, twelve + plants were raised; these consisted of eight short- styled, and four + long-styled plants, with not one mid-styled. These twelve plants never + attained quite their full and proper height, but by no means deserved to + be called dwarfs. The anthers in some of the flowers were contabescent. + One plant was remarkable from all the longer stamens in every flower and + from many of the shorter ones having their anthers in this condition. The + pollen of four other plants, in which none of the anthers were + contabescent, was examined; in one a moderate number of grains were minute + and shrivelled, but in the other three they appeared perfectly sound. With + respect to the power of producing seed, five plants (Numbers 21 to 25) + were observed: one yielded scarcely more than half the normal number; a + second was slightly infertile; but the three others actually produced a + larger average number of seeds, with a higher maximum, than the standard. + In my concluding remarks I shall recur to this fact, which at first + appears inexplicable. + </p> + <h3> + [PLANT 21. + </h3> + <p> + This short-styled plant, freely and legitimately fertilised during 1865 by + illegitimate plants, descended from self-fertilised long-, mid- and + short-styled parents, yielded an average from ten capsules of 43 seeds, + with a maximum of 63 and a minimum of 26: hence this plant, which was the + one with all its longer and many of its shorter stamens contabescent, + produced only 52 per cent of the proper number of seeds. + </p> + <h3> + PLANT 22. + </h3> + <p> + This short-styled plant produced perfectly sound pollen, as viewed under + the microscope. During 1866 it was freely and legitimately fertilised by + other illegitimate plants belonging to the present and the following + class, both of which include many highly fertile plants. Under these + circumstances it yielded from eight capsules an average of 100.5 seeds, + with a maximum of 123 and a minimum of 86; so that it produced 121 per + cent of seeds in comparison with the normal standard. During 1864 it was + allowed to be freely and legitimately fertilised by legitimate and + illegitimate plants, and yielded an average, from eight capsules, of 104.2 + seeds, with a maximum of 125 and a minimum of 90; consequently it exceeded + the normal standard, producing 125 per cent of seeds. In this case, as in + some previous cases, pollen from legitimate plants added in a small degree + to the fertility of the plant; and the fertility would, perhaps, have been + still greater had not the summer of 1864 been very hot and certainly + unfavourable to some of the plants of Lythrum. + </p> + <h3> + PLANT 23. + </h3> + <p> + This short-styled plant produced perfectly sound pollen. During 1866 it + was freely and legitimately fertilised by the other illegitimate plants + specified under the last experiment, and eight capsules yielded an average + of 113.5 seeds, with a maximum of 123 and a minimum of 93. Hence this + plant exceeded the normal standard, producing no less than 136 per cent of + seeds. + </p> + <h3> + PLANT 24. + </h3> + <p> + This long-styled plant produced pollen which seemed under the microscope + sound; but some of the grains did not swell when placed in water. During + 1864 it was legitimately fertilised by legitimate and illegitimate plants + in the same manner as Plant 22, but yielded an average, from ten capsules, + of only 55 seeds, with a maximum of 88 and a minimum of 24, thus attaining + 59 per cent of the normal fertility. This low degree of fertility, I + presume, was owing to the unfavourable season; for during 1866, when + legitimately fertilised by illegitimate plants in the manner described + under Number 22, it yielded an average, from eight capsules, of 82 seeds, + with a maximum of 120 and a minimum of 67, thus producing 88 per cent of + the normal number of seeds. + </p> + <h3> + PLANT 25. + </h3> + <p> + The pollen of this long-styled plant contained a moderate number of poor + and shrivelled grains; and this is a surprising circumstance, as it + yielded an extraordinary number of seeds. During 1866 it was freely and + legitimately fertilised by illegitimate plants, as described under Number + 22, and yielded an average, from eight capsules, of 122.5 seeds, with a + maximum of 149 and a minimum of 84. Hence this plant exceeded the normal + standard, producing no less than 131 per cent of seeds.] + </p> + <p> + CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED + WITH POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + </p> + <p> + I raised from this union twenty-five plants, which proved to be seventeen + long- styled and eight mid-styled, but not one short-styled. None of these + plants were in the least dwarfed. I examined, during the highly favourable + season of 1866, the pollen of four plants: in one mid-styled plant, some + of the anthers of the longest stamens were contabescent, but the + pollen-grains in the other anthers were mostly sound, as they were in all + the anthers of the shortest stamens; in two other mid-styled and in one + long-styled plant many of the pollen-grains were small and shrivelled; and + in the latter plant as many as a fifth or sixth part appeared to be in + this state. I counted the seeds in five plants (Numbers 26 to 30), of + which two were moderately sterile and three fully fertile. + </p> + <h3> + [PLANT 26. + </h3> + <p> + This mid-styled plant was freely and legitimately fertilised, during the + rather unfavourable year 1864, by numerous surrounding legitimate and + illegitimate plants. It yielded an average, from ten capsules, of 83.5 + seeds, with a maximum of 110 and a minimum of 64, thus attaining 64 per + cent of the normal fertility. During the highly favourable year 1866, it + was freely and legitimately fertilised by illegitimate plants belonging to + the present Class and to Class 5, and yielded an average, from eight + capsules, of 86 seeds, with a maximum of 109 and a minimum of 61, and thus + attained 66 per cent of the normal fertility. This was the plant with some + of the anthers of the longest stamens contabescent as above mentioned. + </p> + <h3> + PLANT 27. + </h3> + <p> + This mid-styled plant, fertilised during 1864 in the same manner as the + last, yielded an average, from ten capsules, of 99.4 seeds, with a maximum + of 122 and a minimum of 53, thus attaining to 76 per cent of the normal + fertility. If the season had been more favourable, its fertility would + probably have been somewhat greater, but, judging from the last + experiment, only in a slight degree. + </p> + <h3> + PLANT 28. + </h3> + <p> + This mid-styled plant, when legitimately fertilised during the favourable + season of 1866, in the manner described under Number 26, yielded an + average, from eight capsules, of 89 seeds, with a maximum of 119 and a + minimum of 69, thus producing 68 per cent of the full number of seeds. In + the pollen of both sets of anthers, nearly as many grains were small and + shrivelled as sound. + </p> + <h3> + PLANT 29. + </h3> + <p> + This long-styled plant was legitimately fertilised during the unfavourable + season of 1864, in the manner described under Number 26, and yielded an + average, from ten capsules, of 84.6 seeds, with a maximum of 132 and a + minimum of 47, thus attaining to 91 per cent of the normal fertility. + During the highly favourable season of 1866, when fertilised in the manner + described under Number 26, it yielded an average, from nine capsules (one + poor capsule having been excluded), of 100 seeds, with a maximum of 121 + and a minimum of 77. This plant thus exceeded the normal standard, and + produced 107 per cent of seeds. In both sets of anthers there were a good + many bad and shrivelled pollen-grains, but not so many as in the + last-described plant. + </p> + <p> + Plant 30. + </p> + <p> + This long-styled plant was legitimately fertilised during 1866 in the + manner described under Number 26, and yielded an average, from eight + capsules, of 94 seeds, with a maximum of 106 and a minimum of 66; so that + it exceeded the normal standard, yielding 101 per cent of seeds. + </p> + <p> + Plant 31. + </p> + <p> + Some flowers on this long-styled plant were artificially and legitimately + fertilised by one of its brother illegitimate mid-styled plants; and five + capsules yielded an average of 90.6 seeds, with a maximum of 97 and a + minimum of 79. Hence, as far as can be judged from so few capsules, this + plant attained, under these favourable circumstances, 98 per cent of the + normal standard.] + </p> + <p> + CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED + WITH POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + </p> + <p> + It was shown in the last chapter that the union from which these + illegitimate plants were raised is far more fertile than any other + illegitimate union; for the mid-styled parent, when thus fertilised, + yielded an average (all very poor capsules being excluded) of 102.8 seeds, + with a maximum of 130; and the seedlings in the present class likewise + have their fertility not at all lessened. Forty plants were raised; and + these attained their full height and were covered with seed-capsules. Nor + did I observe any contabescent anthers. It deserves, also, particular + notice that these plants, differently from what occurred in any of the + previous classes, consisted of all three forms, namely, eighteen + short-styled, fourteen long-styled, and eight mid-styled plants. As these + plants were so fertile, I counted the seeds only in the two following + cases. + </p> + <h3> + [PLANT 32. + </h3> + <p> + This mid-styled plant was freely and legitimately fertilised during the + unfavourable year of 1864, by numerous surrounding legitimate and + illegitimate plants. Eight capsules yielded an average of 127.2 seeds, + with a maximum of 144 and a minimum of 96; so that this plant attained 98 + per cent of the normal standard. + </p> + <h3> + PLANT 33. + </h3> + <p> + This short-styled plant was fertilised in the same manner and at the same + time with the last; and ten capsules yielded an average of 113.9, with a + maximum of 137 and a minimum of 90. Hence this plant produced no less than + 137 per cent of seeds in comparison with the normal standard.] + </p> + <p> + CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF THE THREE FORMS OF + Lythrum salicaria. + </p> + <p> + From the three forms occurring in approximately equal numbers in a state + of nature, and from the results of sowing seed naturally produced, there + is reason to believe that each form, when legitimately fertilised, + reproduces all three forms in about equal numbers. Now, we have seen (and + the fact is a very singular one) that the fifty-six plants produced from + the long-styled form, illegitimately fertilised with pollen from the same + form (Class 1 and 2), were all long-styled. The short-styled form, when + self-fertilised (Class 3), produced eight short-styled and one long-styled + plant; and the mid-styled form, similarly treated (Class 4), produced + three mid-styled and one long-styled offspring; so that these two forms, + when illegitimately fertilised with pollen from the same form, evince a + strong, but not exclusive, tendency to reproduce the parent-form. When the + short-styled form was illegitimately fertilised by the long-styled form + (Class 5), and again when the mid-styled was illegitimately fertilised by + the long-styled (Class 6), in each case the two parent-forms alone were + reproduced. As thirty-seven plants were raised from these two unions, we + may, with much confidence, believe that it is the rule that plants thus + derived usually consist of both parent-forms, but not of the third form. + When, however, the mid-styled form was illegitimately fertilised by the + longest stamens of the short-styled (Class 7), the same rule did not hold + good; for the seedlings consisted of all three forms. The illegitimate + union from which these latter seedlings were raised is, as previously + stated, singularly fertile, and the seedlings themselves exhibited no + signs of sterility and grew to their full height. From the consideration + of these several facts, and from analogous ones to be given under Oxalis, + it seems probable that in a state of nature the pistil of each form + usually receives, through the agency of insects, pollen from the stamens + of corresponding height from both the other forms. But the case last given + shows that the application of two kinds of pollen is not indispensable for + the production of all three forms. Hildebrand has suggested that the cause + of all three forms being regularly and naturally reproduced, may be that + some of the flowers are fertilised with one kind of pollen, and others on + the same plant with the other kind of pollen. Finally, of the three forms, + the long-styled evinces somewhat the strongest tendency to reappear + amongst the offspring, whether both, or one, or neither of the parents are + long-styled. + </p> + <p> + [TABLE 5.30. Tabulated results of the fertility of the foregoing + illegitimate plants, when legitimately fertilised, generally by + illegitimate plants, as described under each experiment. Plants 11, 12 and + 13 are excluded, as they were illegitimately fertilised. + </p> + <p> + NORMAL STANDARD OF FERTILITY OF THE THREE FORMS, WHEN LEGITIMATELY AND + NATURALLY FERTILISED. + </p> + <p> + Column 1: Form. Column 2: Average number of seeds per capsule. Column 3: + Maximum number in any one capsule. Column 4: Minimum number in any one + capsule. + </p> + <p> + Long-styled : 93 : 159 : No record was kept as all very poor capsules were + rejected. Mid-styled : 130 : 151 : No record was kept as all very poor + capsules were rejected. Short-styled : 83.5 : 112 : No record was kept as + all very poor capsules were rejected. + </p> + <p> + TABLE 5.30. Continued. + </p> + <p> + CLASS 1 AND CLASS 2.—ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED + PARENTS FERTILISED WITH POLLEN FROM OWN-FORM MID-LENGTH OR SHORTEST + STAMENS. + </p> + <p> + Column 1: Number (name) of plant. Column 2: Form. Column 3: Average number + of seeds per capsule. Column 4: Maximum number of seeds in any one + capsule. Column 5: Minimum number of seeds in any one capsule. Column 6: + Average number of seeds, expressed as the percentage of the normal + standard. + </p> +<pre xml:space="preserve"> + 1 : Long-styled : 0 : 0 : 0 : 0. + 2 : Long-styled : 4.5 : ? : 0 : 5. + 3 : Long-styled : 4.5 : ? : 0 : 5. + 4 : Long-styled : 4.5 : ? : 0 : 5. + 5 : Long-styled : 0 or 1 : 2 : 0 : 0 or 1. + 6 : Long-styled : 0 : 0 : 0 : 0. + 7 : Long-styled : 36.1 : 47 : 22 : 39. + 8 : Long-styled : 41.1 : 73 : 11 : 44. + 9 : Long-styled : 57.1 : 86 : 23 : 61. +10 : Long-styled : 44.2 : 69 : 25 : 47. +</pre> + <p> + CLASS 3. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED + WITH POLLEN FROM OWN-FORM SHORTEST STAMENS. + </p> + <p> + 14 : Short-styled : 28.3 : 51 : 11 : 33. 15 : Short-styled : 32.6 : 49 : + 20 : 38. 16 : Short-styled : 77.8 : 97 : 60 : 94. 17 : Long-styled : 76.3 + : 88 : 57 : 82. + </p> + <p> + CLASS 4. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED + WITH POLLEN FROM OWN-FORM LONGEST STAMENS. + </p> + <p> + 18 : Mid-styled : 102.6 : 131 : 63 : 80. 19 : Mid-styled : 73.4 : 87 : 64 + : 56. 20 : Long-styled : 69.6 : 83 : 52 : 75. + </p> + <p> + CLASS 5. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED + WITH POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + </p> + <p> + 21 : Short-styled : 43.0 : 63 : 26 : 52. 22 : Short-styled : 100.5 : 123 : + 86 : 121. 23 : Short-styled : 113.5 : 123 : 93 : 136. 24 : Long-styled : + 82.0 : 120 : 67 : 88. 25 : Long-styled : 122.5 : 149 : 84 : 131. + </p> + <p> + CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED + WITH POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + </p> + <p> + 26 : Mid-styled : 86.0 : 109 : 61 : 66. 27 : Mid-styled : 99.4 : 122 : 53 + : 76. 28 : Mid-styled : 89.0 : 119 : 69 : 68. 29 : Long-styled : 100.0 : + 121 : 77 : 107. 30 : Long-styled : 94.0 : 106 : 66 : 101. 31 : Long-styled + : 90.6 : 97 : 79 : 98. + </p> + <p> + CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED + WITH POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + </p> + <p> + 32 : Mid-styled : 127.2 : 144 : 96 : 98. 33 : Short-styled : 113.9 : 137 : + 90 : 137. + </p> + <p> + The lessened fertility of most of these illegitimate plants is in many + respects a highly remarkable phenomenon. Thirty-three plants in the seven + classes were subjected to various trials, and the seeds carefully counted. + Some of them were artificially fertilised, but the far greater number were + freely fertilised (and this is the better and natural plan) through the + agency of insects, by other illegitimate plants. In the right hand, or + percentage column, in Table 5.30, a wide difference in fertility between + the plants in the first four and the last three classes may be perceived. + In the first four classes the plants are descended from the three forms + illegitimately fertilised with pollen taken from the same form, but only + rarely from the same plant. It is necessary to observe this latter + circumstance; for, as I have elsewhere shown, most plants, when fertilised + with their own pollen, or that from the same plant, are in some degree + sterile, and the seedlings raised from such unions are likewise in some + degree sterile, dwarfed, and feeble. (5/3. ‘The Effects of Cross and Self- + fertilisation in the Vegetable Kingdom’ 1876.) None of the nineteen + illegitimate plants in the first four classes were completely fertile; + one, however, was nearly so, yielding 96 per cent of the proper number of + seeds. From this high degree of fertility we have many descending + gradations, till we reach an absolute zero, when the plants, though + bearing many flowers, did not produce, during successive years, a single + seed or even seed-capsule. Some of the most sterile plants did not even + yield a single seed when legitimately fertilised with pollen from + legitimate plants. There is good reason to believe that the first seven + plants in Class 1 and 2 were the offspring of a long-styled plant + fertilised with pollen from its own-form shortest stamens, and these + plants were the most sterile of all. The remaining plants in Class 1 and 2 + were almost certainly the product of pollen from the mid-length stamens, + and although very sterile, they were less so than the first set. None of + the plants in the first four classes attained their full and proper + stature; the first seven, which were the most sterile of all (as already + stated), were by far the most dwarfed, several of them never reaching to + half their proper height. These same plants did not flower at so early an + age, or at so early a period in the season, as they ought to have done. + The anthers in many of their flowers, and in the flowers of some other + plants in the first six classes, were either contabescent or included + numerous small and shrivelled pollen-grains. As the suspicion at one time + occurred to me that the lessened fertility of the illegitimate plants + might be due to the pollen alone having been affected, I may remark that + this certainly was not the case; for several of them, when fertilised by + sound pollen from legitimate plants, did not yield the full complement of + seeds; hence it is certain that both the female and male reproductive + organs were affected. In each of the seven classes, the plants, though + descended from the same parents, sown at the same time and in the same + soil, differed much in their average degree of fertility. + </p> + <p> + Turning now to the fifth, sixth, and seventh classes, and looking to the + right hand column of Table 5.30, we find nearly as many plants with a + percentage of seeds above the normal standard as beneath it. As with most + plants the number of seeds produced varies much, it might be thought that + the present case was one merely of variability. But this view must be + rejected, as far as the less fertile plants in these three classes are + concerned: first, because none of the plants in Class 5 attained their + proper height, which shows that they were in some manner affected; and, + secondly, because many of the plants in Classes 5 and 6 produced anthers + which were either contabescent or included small and shrivelled + pollen-grains. And as in these cases the male organs were manifestly + deteriorated, it is by far the most probable conclusion that the female + organs were in some cases likewise affected, and that this was the cause + of the reduced number of seeds. + </p> + <p> + With respect to the six plants in these three classes which yielded a very + high percentage of seeds, the thought naturally arises that the normal + standard of fertility for the long-styled and short-styled forms (with + which alone we are here concerned) may have been fixed too low, and that + the six legitimate plants are merely fully fertile. The standard for the + long-styled form was deduced by counting the seeds in twenty-three + capsules, and for the short-styled form from twenty-five capsules. I do + not pretend that this is a sufficient number of capsules for absolute + accuracy; but my experience has led me to believe that a very fair result + may thus be gained. As, however, the maximum number observed in the + twenty-five capsules of the short-styled form was low, the standard in + this case may possibly be not quite high enough. But it should be + observed, in the case of the illegitimate plants, that in order to avoid + over-estimating their infertility, ten very fine capsules were always + selected; and the years 1865 and 1866, during which the plants in the + three latter classes were experimented on, were highly favourable for + seed-production. Now, if this plan of selecting very fine capsules during + favourable seasons had been followed for obtaining the normal standards, + instead of taking, during various seasons, the first capsules which came + to hand, the standards would undoubtedly have been considerably higher; + and thus the fact of the six foregoing plants appearing to yield an + unnaturally high percentage of seeds may, perhaps, be explained. On this + view, these plants are, in fact, merely fully fertile, and not fertile to + an abnormal degree. Nevertheless, as characters of all kinds are liable to + variation, especially with organisms unnaturally treated, and as in the + four first and more sterile classes, the plants derived from the same + parents and treated in the same manner, certainly did vary much in + sterility, it is possible that certain plants in the latter and more + fertile classes may have varied so as to have acquired an abnormal degree + of fertility. But it should be noticed that, if my standards err in being + too low, the sterility of all the many sterile plants in the several + classes will have to be estimated by so much the higher. Finally, we see + that the illegitimate plants in the four first classes are all more or + less sterile, some being absolutely barren, with one alone almost + completely fertile; in the three latter classes, some of the plants are + moderately sterile, whilst others are fully fertile, or possibly fertile + in excess. + </p> + <p> + The last point which need here be noticed is that, as far as the means of + comparison serve, some degree of relationship generally exists between the + infertility of the illegitimate union of the several parent-forms and that + of their illegitimate offspring. Thus the two illegitimate unions, from + which the plants in Classes 6 and 7 were derived, yielded a fair amount of + seed, and only a few of these plants are in any degree sterile. On the + other hand, the illegitimate unions between plants of the same form always + yield very few seeds, and their seedlings are very sterile. Long-styled + parent-plants when fertilised with pollen from their own-form shortest + stamens, appear to be rather more sterile than when fertilised with their + own-form mid-length stamens; and the seedlings from the former union were + much more sterile than those from the latter union. In opposition to this + relationship, short-styled plants illegitimately fertilised with pollen + from the mid-length stamens of the long- styled form (Class 5) are very + sterile; whereas some of the offspring raised from this union were far + from being highly sterile. It may be added that there is a tolerably close + parallelism in all the classes between the degree of sterility of the + plants and their dwarfed stature. As previously stated, an illegitimate + plant fertilised with pollen from a legitimate plant has its fertility + slightly increased. The importance of the several foregoing conclusions + will be apparent at the close of this chapter, when the illegitimate + unions between the forms of the same species and their illegitimate + offspring, are compared with the hybrid unions of distinct species and + their hybrid offspring. + </p> + <h3> + OXALIS. + </h3> + <p> + No one has compared the legitimate and illegitimate offspring of any + trimorphic species in this genus. Hildebrand sowed illegitimately + fertilised seeds of Oxalis Valdiviana, but they did not germinate (5/4. + ‘Botanische Zeitung’ 1871 page 433 footnote.); and this fact, as he + remarks, supports my view that an illegitimate union resembles a hybrid + one between two distinct species, for the seeds in this latter case are + often incapable of germination. + </p> + <p> + [The following observations relate to the nature of the forms which appear + among the legitimate seedlings of Oxalis Valdiviana. Hildebrand raised, as + described in the paper just referred to, 211 seedlings from all six + legitimate unions, and the three forms appeared among the offspring from + each union. For instance, long-styled plants were legitimately fertilised + with pollen from the longest stamens of the mid-styled form, and the + seedlings consisted of 15 long-styled, 18 mid-styled, and 6 short-styled. + We here see that a few short-styled plants were produced, though neither + parent was short-styled; and so it was with the other legitimate unions. + Out of the above 211 seedlings, 173 belonged to the same two forms as + their parents, and only 38 belonged to the third form distinct from either + parent. In the case of O. Regnelli, the result, as observed by Hildebrand, + was nearly the same, but more striking: all the offspring from four of the + legitimate unions consisted of the two parent-forms, whilst amongst the + seedlings from the other two legitimate unions the third form appeared. + Thus, of the 43 seedlings from the six legitimate unions, 35 belonged to + the same two forms as their parents, and only 8 to the third form. Fritz + Muller also raised in Brazil seedlings from long-styled plants of O. + Regnelli legitimately fertilised with pollen from the longest stamens of + the mid-styled form, and all these belonged to the two parent-forms. (5/5. + ‘Jenaische Zeitschrift’ etc. Band 6 1871 page 75.) Lastly, seedlings were + raised by me from long-styled plants of O. speciosa legitimately + fertilised by the short-styled form, and from the latter reciprocally + fertilised by the long-styled; and these consisted of 33 long-styled and + 26 short-styled plants, with not one mid-styled form. There can, + therefore, be no doubt that the legitimate offspring from any two forms of + Oxalis tend to belong to the same two forms as their parents; but that a + few seedlings belonging to the third form occasionally make their + appearance; and this latter fact, as Hildebrand remarks, may be attributed + to atavism, as some of their progenitors will almost certainly have + belonged to the third form. + </p> + <p> + When, however, any one form of Oxalis is fertilised illegitimately with + pollen from the same form, the seedlings appear to belong invariably to + this form. Thus Hildebrand states that long-styled plants of O. rosea + growing by themselves have been propagated in Germany year after year by + seed, and have always produced long-styled plants. (5/6. ‘Ueber den + Trimorphismus in der Gattung Oxalis: Monatsberichte der Akad. der Wissen. + zu Berlin’ 21 June 1866 page 373 and ‘Botanische Zeitung’ 1871 page 435.) + Again, 17 seedlings were raised from mid- styled plants of O. hedysaroides + growing by themselves, and these were all mid- styled. So that the forms + of Oxalis, when illegitimately fertilised with their own pollen, behave + like the long-styled form of Lythrum salicaria, which when thus fertilised + always produced with me long-styled offspring.] + </p> + <h3> + PRIMULA. + </h3> + <p> + Primula Sinensis. + </p> + <p> + I raised during February 1862, from some long-styled plants illegitimately + fertilised with pollen from the same form, twenty-seven seedlings. These + were all long-styled. They proved fully fertile or even fertile in excess; + for ten flowers, fertilised with pollen from other plants of the same lot, + yielded nine capsules, containing on an average 39.75 seeds, with a + maximum in one capsule of 66 seeds. Four other flowers legitimately + crossed with pollen from a legitimate plant, and four flowers on the + latter crossed with pollen from the illegitimate seedlings, yielded seven + capsules with an average of 53 seeds, with a maximum of 72. I must here + state that I have found some difficulty in estimating the normal standard + of fertility for the several unions of this species, as the results differ + much during successive years, and the seeds vary so greatly in size that + it is hard to decide which ought to be considered good. In order to avoid + over- estimating the infertility of the several illegitimate unions, I + have taken the normal standard as low as possible. + </p> + <p> + From the foregoing twenty-seven illegitimate plants, fertilised with their + own- form pollen, twenty-five seedling grandchildren were raised; and + these were all long-styled; so that from the two illegitimate generations + fifty-two plants were raised, and all without exception proved + long-styled. These grandchildren grew vigorously, and soon exceeded in + height two other lots of illegitimate seedlings of different parentage and + one lot of equal-styled seedlings presently to be described. Hence I + expected that they would have turned out highly ornamental plants; but + when they flowered, they seemed, as my gardener remarked, to have gone + back to the wild state; for the petals were pale-coloured, narrow, + sometimes not touching each other, flat, generally deeply notched in the + middle, but not flexuous on the margin, and with the yellow eye or centre + conspicuous. Altogether these flowers were strikingly different from those + of their progenitors; and this I think, can only be accounted for on the + principle of reversion. Most of the anthers on one plant were + contabescent. Seventeen flowers on the grandchildren were illegitimately + fertilised with pollen taken from other seedlings of the same lot, and + produced fourteen capsules, containing on an average 29.2 seeds; but they + ought to have contained about 35 seeds. Fifteen flowers legitimately + fertilised with pollen from an illegitimate short-styled plant (belonging + to the lot next to be described) produced fourteen capsules, containing an + average of 46 seeds; they ought to have contained at least 50 seeds. Hence + these grandchildren of illegitimate descent appear to have lost, though + only in a very slight degree, their full fertility. + </p> + <p> + We will now turn to the short-styled form: from a plant of this kind, + fertilised with its own-form pollen, I raised, during February 1862, eight + seedlings, seven of which were short-styled and one long-styled. They grew + slowly, and never attained to the full stature of ordinary plants; some of + them flowered precociously, and others late in the season. Four flowers on + these short-styled seedlings and four on the one long-styled seedling were + illegitimately fertilised with their own-form pollen and produced only + three capsules, containing on an average 23.6 seeds, with a maximum of 29; + but we cannot judge of their fertility from so few capsules; and I have + greater doubts about the normal standard for this union than about any + other; but I believe that rather above 25 seeds would be a fair estimate. + Eight flowers on these same short- styled plants, and the one long-styled + illegitimate plant were reciprocally and legitimately crossed; they + produced five capsules, which contained an average of 28.6 seeds, with a + maximum of 36. A reciprocal cross between legitimate plants of the two + forms would have yielded an average of at least 57 seeds, with a possible + maximum of 74 seeds; so that these illegitimate plants were sterile when + legitimately crossed. + </p> + <p> + I succeeded in raising from the above seven short-styled illegitimate + plants, fertilised with their own-form pollen, only six plants—grandchildren + of the first union. These, like their parents, were of low stature, and + had so poor a constitution that four died before flowering. With ordinary + plants it has been a rare event with me to have more than a single plant + die out of a large lot. The two grandchildren which lived and flowered + were short-styled; and twelve of their flowers were fertilised with their + own-form pollen and produced twelve capsules containing an average of 28.2 + seeds; so that these two plants, though belonging to so weakly a set, were + rather more fertile than their parents, and perhaps not in any degree + sterile. Four flowers on the same two grandchildren were legitimately + fertilised by a long-styled illegitimate plant, and produced four + capsules, containing only 32.2 seeds instead of about 64 seeds, which is + the normal average for legitimate short-styled plants legitimately + crossed. + </p> + <p> + By looking back, it will be seen that I raised at first from a + short-styled plant fertilised with its own-form pollen one long-styled and + seven short-styled illegitimate seedlings. These seedlings were + legitimately intercrossed, and from their seed fifteen plants were raised, + grandchildren of the first illegitimate union, and to my surprise all + proved short-styled. Twelve short-styled flowers borne by these + grandchildren were illegitimately fertilised with pollen taken from other + plants of the same lot, and produced eight capsules which contained an + average of 21.8 seeds, with a maximum of 35. These figures are rather + below the normal standard for such a union. Six flowers were also + legitimately fertilised with pollen from an illegitimate long-styled plant + and produced only three capsules, containing on an average 23.6 seeds, + with a maximum of 35. Such a union in the case of a legitimate plant ought + to have yielded an average of 64 seeds, with a possible maximum of 73 + seeds. + </p> + <p> + A SUMMARY ON THE TRANSMISSION OF FORM, CONSTITUTION, AND FERTILITY OF THE + ILLEGITIMATE OFFSPRING OF Primula Sinensis. + </p> + <p> + In regard to the long-styled plants, their illegitimate offspring, of + which fifty-two were raised in the course of two generations, were all + long-styled. (5/7. Dr. Hildebrand, who first called attention to this + subject ‘Botanische Zeitung’ 1864 page 5, raised from a similar + illegitimate union seventeen plants, of which fourteen were long-styled + and three short-styled. From a short-styled plant illegitimately + fertilised with its own pollen he raised fourteen plants, of which eleven + were short-styled and three long-styled.) These plants grew vigorously; + but the flowers in one instance were small, appearing as if they had + reverted to the wild state. In the first illegitimate generation they were + perfectly fertile, and in the second their fertility was only very + slightly impaired. With respect to the short-styled plants, twenty-four + out of twenty- five of their illegitimate offspring were short-styled. + They were dwarfed in stature, and one lot of grandchildren had so poor a + constitution that four out of six plants perished before flowering. The + two survivors, when illegitimately fertilised with their own-form pollen, + were rather less fertile than they ought to have been; but their loss of + fertility was clearly shown in a special and unexpected manner, namely, + when legitimately fertilised by other illegitimate plants: thus altogether + eighteen flowers were fertilised in this manner, and yielded twelve + capsules, which included on an average only 28.5 seeds, with a maximum of + 45. Now a legitimate short-styled plant would have yielded, when + legitimately fertilised, an average of 64 seeds, with a possible maximum + of 74. This particular kind of infertility will perhaps be best + appreciated by a simile: we may assume that with mankind six children + would be born on an average from an ordinary marriage; but that only three + would be born from an incestuous marriage. According to the analogy of + Primula Sinensis, the children of such incestuous marriages, if they + continued to marry incestuously, would have their sterility only slightly + increased; but their fertility would not be restored by a proper marriage; + for if two children, both of incestuous origin, but in no degree related + to each other, were to marry, the marriage would of course be strictly + legitimate, nevertheless they would not give birth to more than half the + full and proper number of children. + </p> + <p> + [EQUAL-STYLED VARIETY OF Primula Sinensis. + </p> + <p> + As any variation in the structure of the reproductive organs, combined + with changed function, is a rare event, the following cases are worth + giving in detail. My attention was first called to the subject by + observing, in 1862, a long-styled plant, descended from a self-fertilised + long-styled parent, which had some of its flowers in an anomalous state, + namely, with the stamens placed low down in the corolla as in the ordinary + long-styled form, but with the pistils so short that the stigmas stood on + a level with the anthers. These stigmas were nearly as globular and as + smooth as in the short-styled form, instead of being elongated and rough + as in the long-styled form. Here, then, we have combined in the same + flower, the short stamens of the long-styled form with a pistil closely + resembling that of the short-styled form. But the structure varied much + even on the same umbel: for in two flowers the pistil was intermediate in + length between that of the long and that of the short-styled form, with + the stigma elongated as in the former, and smooth as in the latter; and in + three other flowers the structure was in all respects like that of the + long-styled form. These modifications appeared to me so remarkable that I + fertilised eight of the flowers with their own pollen, and obtained five + capsules, which contained on an average 43 seeds; and this number shows + that the flowers had become abnormally fertile in comparison with those of + ordinary long- styled plants when self-fertilised. I was thus led to + examine the plants in several small collections, and the result showed + that the equal-styled variety was not rare. + </p> + <p> + TABLE 5.31. Primula Sinensis. Preponderance of long-styled over the + short-styled form. + </p> + <p> + Column 1: Name of owner or place. Column 2: Long-styled form. Column 3: + Short-styled form. Column 4: equal-styled variety. + </p> + <p> + Mr. Horwood : 0 : 0 : 17. Mr. Duck : 20 : 0 : 9. Baston : 30 : 18 : 15. + Chichester : 12 : 9 : 2. Holwood : 42 : 12 : 0. High Elms : 16 : 0 : 0. + Westerham : 1 : 5 : 0. My own plants from purchased seeds : 13 : 7 : 0. + Total : 134 : 51 : 43. + </p> + <p> + In a state of nature the long and short-styled forms would no doubt occur + in nearly equal numbers, as I infer from the analogy of the other + heterostyled species of Primula, and from having raised the two forms of + the present species in exactly the same number from flowers which had been + LEGITIMATELY crossed. The preponderance in Table 5.31 of the long-styled + form over the short-styled (in the proportion of 134 to 51) results from + gardeners generally collecting seed from self-fertilised flowers; and the + long-styled flowers produce spontaneously much more seed (as shown in the + first chapter) than the short-styled, owing to the anthers of the + long-styled form being placed low down in the corolla, so that, when the + flowers fall off, the anthers are dragged over the stigma; and we now also + know that long-styled plants, when self-fertilised, very generally + reproduce long-styled offspring. From the consideration of this table, it + occurred to me in the year 1862, that almost all the plants of the Chinese + primrose cultivated in England would sooner or later become long-styled or + equal-styled; and now, at the close of 1876, I have had five small + collections of plants examined, and almost all consisted of long-styled, + with some more or less well-characterised equal-styled plants, but with + not one short-styled. + </p> + <p> + With respect to the equal-styled plants in the table, Mr. Horwood raised + from purchased seeds four plants, which he remembered were certainly not + long-styled, but either short or equal-styled, probably the latter. These + four plants were kept separate and allowed to fertilise themselves; from + their seed the seventeen plants in the table were raised, all of which + proved equal-styled. The stamens stood low down in the corolla as in the + long-styled form; and the stigmas, which were globular and smooth, were + either completely surrounded by the anthers, or stood close above them. My + son William made drawings for me, by the aid of the camera, of the pollen + of one of the above equal-styled plants; and, in accordance with the + position of the stamens, the grains resembled in their small size those of + the long-styled form. He also examined pollen from two equal- styled + plants at Southampton; and in both of them the grains differed extremely + in size in the same anthers, a large number being small and shrivelled, + whilst many were fully as large as those of the short-styled form and + rather more globular. It is probable that the large size of these grains + was due, not to their having assumed the character of the short-styled + form, but to monstrosity; for Max Wichura has observed pollen-grains of + monstrous size in certain hybrids. The vast number of the small shrivelled + grains in the above two cases explains the fact that, though equal-styled + plants are generally fertile in a high degree, yet some of them yield few + seeds. I may add that my son compared, in 1875, the grains from two + white-flowered plants, in both of which the pistil projected above the + anthers, but neither were properly long-styled or equal- styled; and in + the one in which the stigma projected most, the grains were in diameter to + those in the other plant, in which the stigma projected less, as 100 to + 88; whereas the difference between the grains from perfectly characterised + long-styled and short-styled plants is as 100 to 57. So that these two + plants were in an intermediate condition. To return to the 17 plants in + the first line of Table 5.31: from the relative position of their stigmas + and anthers, they could hardly fail to fertilise themselves; and + accordingly four of them spontaneously yielded no less than 180 capsules; + of these Mr. Horwood selected eight fine capsules for sowing; and they + included on an average 54.8 seeds, with a maximum of 72. He gave me thirty + other capsules, taken by hazard, of which twenty-seven contained good + seeds, averaging 35.5, with a maximum of 70; but if six poor capsules, + each with less than 13 seeds, be excluded, the average rises to 42.5. + These are higher numbers than could be expected from either well- + characterised form if self-fertilised; and this high degree of fertility + accords with the view that the male organs belonged to one form, and the + female organs partially to the other form; so that a self-union in the + case of the equal- styled variety is in fact a legitimate union. + </p> + <p> + The seed saved from the above seventeen self-fertilised equal-styled + plants produced sixteen plants, which all proved equal-styled, and + resembled their parents in all the above-specified respects. The stamens, + however, in one plant were seated higher up the tube of the corolla than + in the true long-styled form; in another plant almost all the anthers were + contabescent. These sixteen plants were the grandchildren of the four + original plants, which it is believed were equal-styled; so that this + abnormal condition was faithfully transmitted, probably through three, and + certainly through two generations. The fertility of one of these + grandchildren was carefully observed: six flowers were fertilised with + pollen from the same flower, and produced six capsules, containing on an + average 68 seeds, with a maximum of 82, and a minimum of 40. Thirteen + capsules spontaneously self-fertilised yielded an average of 53.2 seeds, + with the astonishing maximum in one of 97 seeds. In no legitimate union + has so high an average as 68 seeds been observed by me, or nearly so high + a maximum as 82 and 97. These plants, therefore, not only have lost their + proper heterostyled structure and peculiar functional powers, but have + acquired an abnormal grade of fertility—unless, indeed, their high + fertility may be accounted for by the stigmas receiving pollen from the + circumjacent anthers at exactly the most favourable period. + </p> + <p> + With respect to Mr. Duck’s lot in Table 5.31, seed was saved from a single + plant, of which the form was not observed, and this produced nine + equal-styled and twenty long-styled plants. The equal-styled resembled in + all respects those previously described; and eight of their capsules + spontaneously self-fertilised contained on an average 44.4 seeds, with a + maximum of 61 and a minimum of 23. In regard to the twenty long-styled + plants, the pistil in some of the flowers did not project quite so high as + in ordinary long-styled flowers; and the stigmas, though properly + elongated, were smooth; so that we have here a slight approach in + structure to the pistil of the short-styled form. Some of these + long-styled plants also approached the equal-styled in function; for one + of them produced no less than fifteen spontaneously self-fertilised + capsules, and of these eight contained, on an average, 31.7 seeds, with a + maximum of 61. This average would be rather low for a long-styled plant + artificially fertilised with its own pollen, but is high for one + spontaneously self-fertilised. For instance, thirty- four capsules + produced by the illegitimate grandchildren of a long-styled plant, + spontaneously self-fertilised, contained on an average only 9.1 seeds, + with a maximum of 46. Some seeds indiscriminately saved from the foregoing + twenty-nine equal-styled and long-styled plants produced sixteen + seedlings, grandchildren of the original plant belonging to Mr. Duck; and + these consisted of fourteen equal- styled and two long-styled plants; and + I mention this fact as an additional instance of the transmission of the + equal-styled variety. + </p> + <p> + The third lot in Table 5.31, namely the Baston plants, are the last which + need be mentioned. The long and short-styled plants, and the fifteen + equal-styled plants, were descended from two distinct stocks. The latter + were derived from a single plant, which the gardener is positive was not + long-styled; hence, probably, it was equal-styled. In all these fifteen + plants the anthers, occupying the same position as in the long-styled + form, closely surrounded the stigma, which in one instance alone was + slightly elongated. Notwithstanding this position of the stigma, the + flowers, as the gardener assured me, did not yield many seeds; and this + difference from the foregoing cases may perhaps have been caused by the + pollen being bad, as in some of the Southampton equal-styled plants.] + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2H_CONC" id="link2H_CONC"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CONCLUSIONS WITH RESPECT TO THE EQUAL-STYLED VARIETY OF P. Sinensis. + </h2> + <p> + That this is a variation, and not a third or distinct form, as in the + trimorphic genera Lythrum and Oxalis, is clear; for we have seen its first + appearance in one out of a lot of illegitimate long-styled plants; and in + the case of Mr. Duck’s seedlings, long-styled plants, only slightly + deviating from the normal state, as well as equal-styled plants were + produced from the same self- fertilised parent. The position of the + stamens in their proper place low down in the tube of the corolla, + together with the small size of the pollen-grains, show, firstly, that the + equal-styled variety is a modification of the long- styled form, and, + secondly, that the pistil is the part which has varied most, as indeed was + obvious in many of the plants. This variation is of frequent occurrence, + and is strongly inherited when it has once appeared. It would, however, + have possessed little interest if it had consisted of a mere change of + structure; but this is accompanied by modified fertility. Its occurrence + apparently stands in close relation with the illegitimate birth of the + parent plant; but to this whole subject I shall hereafter recur. + </p> + <p> + [Primula auricula. + </p> + <p> + Although I made no experiments on the illegitimate offspring of this + species, I refer to it for two reasons:—First, because I have + observed two equal-styled plants in which the pistil resembled in all + respects that of the long-styled form, whilst the stamens had become + elongated as in the short-styled form, so that the stigma was almost + surrounded by the anthers. The pollen-grains, however, of the elongated + stamens resembled in their small size those of the shorter stamens proper + to the long-styled form. Hence these plants have become equal-styled by + the increased length of the stamens, instead of, as with P. Sinensis, by + the diminished length of the pistil. Mr. J. Scott observed five other + plants in the same state, and he shows that one of them, when self- + fertilised, yielded more seed than an ordinary long- or short-styled form + would have done when similarly fertilised, but that it was far inferior in + fertility to either form when legitimately crossed. (5/8. ‘Journal of the + Proceedings of the Linnean Society’ 8 1864 page 91.) Hence it appears that + the male and female organs of this equal-styled variety have been modified + in some special manner, not only in structure but in functional powers. + This, moreover, is shown by the singular fact that both the long-styled + and short-styled plants, fertilised with pollen from the equal-styled + variety, yield a lower average of seed than when these two forms are + fertilised with their own pollen. + </p> + <p> + The second point which deserves notice is that florists always throw away + the long-styled plants, and save seed exclusively from the short-styled + form. Nevertheless, as Mr. Scott was informed by a man who raises this + species extensively in Scotland, about one-fourth of the seedlings appear + long-styled; so that the short-styled form of the Auricula, when + fertilised by its own pollen, does not reproduce the same form in so large + a proportion as in the case of P. Sinensis. We may further infer that the + short-styled form is not rendered quite sterile by a long course of + fertilisation with pollen of the same form: but as there would always be + some liability to an occasional cross with the other form, we cannot tell + how long self-fertilisation has been continued. + </p> + <p> + Primula farinosa. + </p> + <p> + Mr. Scott says that it is not at all uncommon to find equal-styled plants + of this heterostyled species. (5/9. ‘Journal of the Proceedings of the + Linnean Society’ 8 1864 page 115.) Judging from the size of the + pollen-grains, these plants owe their structure, as in the case of P. + auricula, to the abnormal elongation of the stamens of the long-styled + form. In accordance with this view, they yield less seed when crossed with + the long-styled form than with the short- styled. But they differ in an + anomalous manner from the equal-styled plants of P. auricula in being + extremely sterile with their own pollen. + </p> + <p> + Primula elatior. + </p> + <p> + It was shown in the first chapter, on the authority of Herr Breitenbach, + that equal-styled flowers are occasionally found on this species whilst + growing in a state of nature; and this is the only instance of such an + occurrence known to me, with the exception of some wild plants of the + Oxlip—a hybrid between P. veris and vulgaris—which were + equal-styled. Herr Breitenbach’s case is remarkable in another way; for + equal-styled flowers were found in two instances on plants which bore both + long-styled and short-styled flowers. In every other instance these two + forms and the equal-styled variety have been produced by distinct plants.] + </p> + <p> + Primula vulgaris, BRIT. FL. + </p> + <p> + VAR. acaulis OF LINN. AND P. acaulis OF JACQ. + </p> + <h3> + VAR. RUBRA. + </h3> + <p> + Mr. Scott states that this variety, which grew in the Botanic Garden in + Edinburgh, was quite sterile when fertilised with pollen from the common + primrose, as well as from a white variety of the same species, but that + some of the plants, when artificially fertilised with their own pollen, + yielded a moderate supply of seed. (5/10. ‘Journal of the Proceedings of + the Linnean Society’ 8 1864 page 98.) He was so kind as to send me some of + these self- fertilised seeds, from which I raised the plants immediately + to be described. I may premise that the results of my experiments on the + seedlings, made on a large scale, do not accord with those by Mr. Scott on + the parent-plant. + </p> + <p> + First, in regard to the transmission of form and colour. The parent-plant + was long-styled, and of a rich purple colour. From the self-fertilised + seed 23 plants were raised; of these 18 were purple of different shades, + with two of them a little streaked and freckled with yellow, thus showing + a tendency to reversion; and 5 were yellow, but generally with a brighter + orange centre than in the wild flower. All the plants were profuse + flowerers. All were long-styled; but the pistil varied a good deal in + length even on the same plant, being rather shorter, or considerably + longer, than in the normal long-styled form; and the stigmas likewise + varied in shape. It is, therefore, probable that an equal- styled variety + of the primrose might be found on careful search; and I have received two + accounts of plants apparently in this condition. The stamens always + occupied their proper position low down in the corolla; and the + pollen-grains were of the small size proper to the long-styled form, but + were mingled with many minute and shrivelled grains. The yellow-flowered + and the purple-flowered plants of this first generation were fertilised + under a net with their own pollen, and the seed separately sown. From the + former, 22 plants were raised, and all were yellow and long-styled. From + the latter or the purple-flowered plants, 24 long-styled plants were + raised, of which 17 were purple and 7 yellow. In this last case we have an + instance of reversion in colour, without the possibility of any cross, to + the grandparents or more distant progenitors of the plants in question. + Altogether 23 plants in the first generation and 46 in the second + generation were raised; and the whole of these 69 illegitimate plants were + long-styled! + </p> + <p> + Eight purple-flowered and two yellow-flowered plants of the first + illegitimate generation were fertilised in various ways with their own + pollen and with that of the common primrose; and the seeds were separately + counted, but as I could detect no difference in fertility between the + purple and yellow varieties, the results are run together in Table 5.32. + </p> + <p> + TABLE 5.32. Primula vulgaris. + </p> + <p> + Column 1: Nature of plant experimented on, and kind of union. Column 2: + Number of flowers fertilised. Column 3: Number of capsules produced. + Column 4: Average Number of seeds per capsule. Column 5: Maximum Number of + seeds in any one capsule. Column 6: Minimum Number of seeds in any one + capsule. + </p> + <p> + Purple- and yellow-flowered illegitimate long-styled plants, + ILLEGITIMATELY fertilised with pollen from the same plant : 72 : 11 : 11.5 + : 26 : 5. + </p> + <p> + Purple- and yellow-flowered illegitimate long-styled plants, + ILLEGITIMATELY fertilised with pollen from the common long-styled primrose + : 72 : 39 : 31.4 : 62 : 3. + </p> + <p> + Or, if the ten poorest capsules, including less than 15 seeds, be + rejected, we get: 72 : 29 : 40.6 : 62 : 18. + </p> + <p> + Purple- and yellow-flowered illegitimate long-styled plants, LEGITIMATELY + fertilised with pollen from the common short-styled primrose : 26 : 18 : + 36.4 : 60 : 9. + </p> + <p> + Or, if the two poorest capsules, including less than 15 seeds, be + rejected, we get: 26 : 16 : 41.2 : 60 : 15. + </p> + <p> + The long-styled form of the common primrose ILLEGITIMATELY fertilised with + pollen from the long-styled illegitimate purple- and yellow-flowered + plants: 20 : 14 : 15.4 : 46 : 1. + </p> + <p> + Or, if the three poorest capsules be rejected, we get: 20 : 11 : 18.9 : 46 + : 8. + </p> + <p> + The short-styled form of the common primrose LEGITIMATELY fertilised with + pollen from the long-styled illegitimate purple- and yellow-flowered + plants: 10 : 6 : 30.5 : 61 : 6. + </p> + <p> + If we compare the figures in this table with those given in the first + chapter, showing the normal fertility of the common primrose, we shall see + that the illegitimate purple- and yellow-flowered varieties are very + sterile. For instance, 72 flowers were fertilised with their own pollen + and produced only 11 good capsules; but by the standard they ought to have + produced 48 capsules; and each of these ought to have contained on an + average 52.2 seeds, instead of only 11.5 seeds. When these plants were + illegitimately and legitimately fertilised with pollen from the common + primrose, the average numbers were increased, but were far from attaining + the normal standards. So it was when both forms of the common primrose + were fertilised with pollen from these illegitimate plants; and this shows + that their male as well as their female organs were in a deteriorated + condition. The sterility of these plants was shown in another way, namely, + by their not producing any capsules when the access of all insects (except + such minute ones as Thrips) was prevented; for under these circumstances + the common long-styled primrose produces a considerable number of + capsules. There can, therefore, be no doubt that the fertility of these + plants was greatly impaired. The loss is not correlated with the colour of + the flower; and it was to ascertain this point that I made so many + experiments. As the parent-plant growing in Edinburgh was found by Mr. + Scott to be in a high degree sterile, it may have transmitted a similar + tendency to its offspring, independently of their illegitimate birth. I + am, however, inclined to attribute some weight to the illegitimacy of + their descent, both from the analogy of other cases, and more especially + from the fact that when the plants were LEGITIMATELY fertilised with + pollen of the common primrose they yielded an average, as may be seen in + the table, of only 5 more seeds than when ILLEGITIMATELY fertilised with + the same pollen. Now we know that it is eminently characteristic of the + illegitimate offspring of Primula Sinensis that they yield but few more + seeds when legitimately fertilised than when fertilised with their + own-form pollen. + </p> + <p> + Primula veris, Brit. Fl. + </p> + <p> + Var. officinalis of Linn., P. officinalis OF Jacq. + </p> + <p> + Seeds from the short-styled form of the cowslip fertilised with pollen + from the same form germinate so badly that I raised from three successive + sowings only fourteen plants, which consisted of nine short-styled and + five long-styled plants. Hence the short-styled form of the cowslip, when + self-fertilised, does not transmit the same form nearly so truly as does + that of P. Sinensis. From the long-styled form, always fertilised with its + own-form pollen, I raised in the first generation three long-styled + plants,—from their seed 53 long-styled grandchildren,—from + their seed 4 long-styled great-grandchildren,—from their seed 20 + long-styled great-great-grandchildren,—and lastly, from their seed 8 + long-styled and 2 short-styled great-great-great-grandchildren. In this + last generation short-styled plants appeared for the first time in the + course of the six generations,—the parent long-styled plant which + was fertilised with pollen from another plant of the same form being + counted as the first generation. Their appearance may be attributed to + atavism. From two other long-styled plants, fertilised with their own-form + pollen, 72 plants were raised, which consisted of 68 long-styled and 4 + short-styled. So that altogether 162 plants were raised from + illegitimately fertilised long-styled cowslips, and these consisted of 156 + long-styled and 6 short-styled plants. + </p> + <p> + We will now turn to the fertility and powers of growth possessed by the + illegitimate plants. From a short-styled plant, fertilised with its + own-form pollen, one short-styled and two long-styled plants, and from a + long-styled plant similarly fertilised three long-styled plants were at + first raised. The fertility of these six illegitimate plants was carefully + observed; but I must premise that I cannot give any satisfactory standard + of comparison as far as the number of the seeds is concerned; for though I + counted the seeds of many legitimate plants fertilised legitimately and + illegitimately, the number varied so greatly during successive seasons + that no one standard will serve well for illegitimate unions made during + different seasons. Moreover the seeds in the same capsule frequently + differ so much in size that it is scarcely possible to decide which ought + to be counted as good seed. There remains as the best standard of + comparison the proportional number of fertilised flowers which produce + capsules containing any seed. + </p> + <p> + First, for the one illegitimate short-styled plant. In the course of three + seasons 27 flowers were illegitimately fertilised with pollen from the + same plant, and they yielded only a single capsule, which, however, + contained a rather large number of seeds for a union of this nature, + namely, 23. As a standard of comparison I may state that during the same + three seasons 44 flowers borne by legitimate short-styled plants were + self-fertilised, and yielded 26 capsules; so that the fact of the 27 + flowers on the illegitimate plant having produced only one capsule proves + how sterile it was. To show that the conditions of life were favourable, I + will add that numerous plants of this and other species of Primula all + produced an abundance of capsules whilst growing close by in the same soil + with the present and following plants. The sterility of the above + illegitimate short-styled plant depended on both the male and female + organs being in a deteriorated condition. This was manifestly the case + with the pollen; for many of the anthers were shrivelled or contabescent. + Nevertheless some of the anthers contained pollen, with which I succeeded + in fertilising some flowers on the illegitimate long-styled plants + immediately to be described. Four flowers on this same short-styled plant + were likewise LEGITIMATELY fertilised with pollen from one of the + following long-styled plants; but only one capsule was produced, + containing 26 seeds; and this is a very low number for a legitimate union. + </p> + <p> + With respect to the five illegitimate long-styled plants of the first + generation, derived from the above self-fertilised short-styled and + long-styled parents, their fertility was observed during the same three + years. These five plants, when self-fertilised, differed considerably from + one another in their degree of fertility, as was the case with the + illegitimate long-styled plants of Lythrum salicaria; and their fertility + varied much according to the season. I may premise, as a standard of + comparison, that during the same years 56 flowers on legitimate + long-styled plants of the same age and grown in the same soil, were + fertilised with their own pollen, and yielded 27 capsules; that is, 48 per + cent. On one of the five illegitimate long-styled plants 36 flowers were + self- fertilised in the course of the three years, but they did not + produce a single capsule. Many of the anthers on this plant were + contabescent; but some seemed to contain sound pollen. Nor were the female + organs quite impotent; for I obtained from a LEGITIMATE cross one capsule + with good seed. On a second illegitimate long-styled plant 44 flowers were + fertilised during the same years with their own pollen, but they produced + only a single capsule. The third and fourth plants were in a very slight + degree more productive. The fifth and last plant was decidedly more + fertile; for 42 self-fertilised flowers yielded 11 capsules. Altogether, + in the course of the three years, no less than 160 flowers on these five + illegitimate long-styled plants were fertilised with their own pollen, but + they yielded only 22 capsules. According to the standard above given, they + ought to have yielded 80 capsules. These 22 capsules contained on an + average 15.1 seeds. I believe, subject to the doubts before specified, + that with legitimate plants the average number from a union of this nature + would have been above 20 seeds. Twenty-four flowers on these same five + illegitimate long-styled plants were legitimately fertilised with pollen + from the above-described illegitimate short-styled plant, and produced + only 9 capsules, which is an extremely small number for a legitimate + union. These 9 capsules, however, contained an average of 38 apparently + good seeds, which is as large a number as legitimate plants sometimes + yield. But this high average was almost certainly false; and I mention the + case for the sake of showing the difficulty of arriving at a fair result; + for this average mainly depended on two capsules containing the + extraordinary numbers of 75 and 56 seeds; these seeds, however, though I + felt bound to count them, were so poor that, judging from trials made in + other cases, I do not suppose that one would have germinated; and + therefore they ought not to have been included. Lastly, 20 flowers were + legitimately fertilised with pollen from a legitimate plant, and this + increased their fertility; for they produced 10 capsules. Yet this is but + a very small proportion for a legitimate union. + </p> + <p> + There can, therefore, be no doubt that these five long-styled plants and + the one short-styled plant of the first illegitimate generation were + extremely sterile. Their sterility was shown, as in the case of hybrids, + in another way, namely, by their flowering profusely, and especially by + the long endurance of the flowers. For instance, I fertilised many flowers + on these plants, and fifteen days afterwards (namely on March 22nd) I + fertilised numerous long-styled and short- styled flowers on common + cowslips growing close by. These latter flowers, on April 8th, were + withered, whilst most of the illegitimate flowers remained quite fresh for + several days subsequently; so that some of these illegitimate plants, + after being fertilised, remained in full bloom for above a month. + </p> + <p> + We will now turn to the fertility of the 53 illegitimate long-styled + grandchildren, descended from the long-styled plant which was first + fertilised with its own pollen. The pollen in two of these plants included + a multitude of small and shrivelled grains. Nevertheless they were not + very sterile; for 25 flowers, fertilised with their own pollen, produced + 15 capsules, containing an average of 16.3 seeds. As already stated, the + probable average with legitimate plants for a union of this nature is + rather above 20 seeds. These plants were remarkably healthy and vigorous, + as long as they were kept under highly favourable conditions in pots in + the greenhouse; and such treatment greatly increases the fertility of the + cowslip. When these same plants were planted during the next year (which, + however, was an unfavourable one), out of doors in good soil, 20 + self-fertilised flowers produced only 5 capsules, containing extremely few + and wretched seeds. + </p> + <p> + Four long-styled great-grandchildren were raised from the self-fertilised + grandchildren, and were kept under the same highly favourable conditions + in the greenhouse; 10 of their flowers were fertilised with own-form + pollen and yielded the large proportion of 6 capsules, containing on an + average 18.7 seeds. From these seeds 20 long-styled + great-great-grandchildren were raised, which were likewise kept in the + greenhouse. Thirty of their flowers were fertilised with their own pollen + and yielded 17 capsules, containing on an average no less than 32, mostly + fine seeds. It appears, therefore, that the fertility of these plants of + the fourth illegitimate generation, as long as they were kept under highly + favourable conditions, had not decreased, but had rather increased. The + result, however, was widely different when they were planted out of doors + in good soil, where other cowslips grew vigorously and were completely + fertile; for these illegitimate plants now became much dwarfed in stature + and extremely sterile, notwithstanding that they were exposed to the + visits of insects, and must have been legitimately fertilised by the + surrounding legitimate plants. A whole row of these plants of the fourth + illegitimate generation, thus freely exposed and legitimately fertilised, + produced only 3 capsules, containing on an average only 17 seeds. During + the ensuing winter almost all these plants died, and the few survivors + were miserably unhealthy, whilst the surrounding legitimate plants were + not in the least injured. + </p> + <p> + The seeds from the great-great-grandchildren were sown, and 8 long-styled + and 2 short-styled plants of the fifth illegitimate generation raised. + These whilst still in the greenhouse produced smaller leaves and shorter + flower-stalks than some legitimate plants with which they grew in + competition; but it should be observed that the latter were the product of + a cross with a fresh stock,—a circumstance which by itself would + have added much to their vigour. (5/11. For full details of this + experiment, see my ‘Effects of Cross and Self- fertilisation’ 1876 page + 220.) When these illegitimate plants were transferred to fairly good soil + out of doors, they became during the two following years much more dwarfed + in stature and produced very few flower-stems; and although they must have + been legitimately fertilised by insects, they yielded capsules, compared + with those produced by the surrounding legitimate plants, in the ratio + only of 5 to 100! It is therefore certain that illegitimate fertilisation, + continued during successive generations, affects the powers of growth and + fertility of P. veris to an extraordinary degree; more especially when the + plants are exposed to ordinary conditions of life, instead of being + protected in a greenhouse. + </p> + <p> + [EQUAL-STYLED RED VARIETY OF Primula veris. + </p> + <p> + Mr. Scott has described a plant of this kind growing in the Botanic Garden + of Edinburgh. (5/12. ‘Proceedings of the Linnean Society’ volume 8 1864 + page 105.) He states that it was highly self-fertile, although insects + were excluded; and he explains this fact by showing, first, that the + anthers and stigma are in close apposition, and that the stamens in + length, position and size of their pollen-grains resemble those of the + short-styled form, whilst the pistil resembles that of the long-styled + form both in length and in the structure of the stigma. Hence the + self-union of this variety is, in fact, a legitimate union, and + consequently is highly fertile. Mr. Scott further states that this variety + yielded very few seeds when fertilised by either the long- or short- + styled common cowslip, and, again, that both forms of the latter, when + fertilised by the equal-styled variety, likewise produced very few seeds. + But his experiments with the cowslip were few, and my results do not + confirm his in any uniform manner. + </p> + <p> + I raised twenty plants from self-fertilised seed sent me by Mr. Scott; and + they all produced red flowers, varying slightly in tint. Of these, two + were strictly long-styled both in structure and in function; for their + reproductive powers were tested by crosses with both forms of the common + cowslip. Six plants were equal-styled; but on the same plant the pistil + varied a good deal in length during different seasons. This was likewise + the case, according to Mr. Scott, with the parent-plant. Lastly, twelve + plants were in appearance short-styled; but they varied much more in the + length of their pistils than ordinary short- styled cowslips, and they + differed widely from the latter in their powers of reproduction. Their + pistils had become short-styled in structure, whilst remaining long-styled + in function. Short-styled cowslips, when insects are excluded, are + extremely barren: for instance, on one occasion six fine plants produced + only about 50 seeds (that is, less than the product of two good capsules), + and on another occasion not a single capsule. Now, when the above twelve + apparently short-styled seedlings were similarly treated, nearly all + produced a great abundance of capsules, containing numerous seeds, which + germinated remarkably well. Moreover three of these plants, which during + the first year were furnished with quite short pistils, on the following + year produced pistils of extraordinary length. The greater number, + therefore, of these short-styled plants could not be distinguished in + function from the equal- styled variety. The anthers in the six + equal-styled and in the apparently twelve short-styled plants were seated + high up in the corolla, as in the true short- styled cowslip; and the + pollen-grains resembled those of the same form in their large size, but + were mingled with a few shrivelled grains. In function this pollen was + identical with that of the short-styled cowslip; for ten long-styled + flowers of the common cowslip, legitimately fertilised with pollen from a + true equal-styled variety, produced six capsules, containing on an average + 34.4 seeds; whilst seven capsules on a short-styled cowslip illegitimately + fertilised with pollen from the equal-styled variety, yielded an average + of only 14.5 seeds. + </p> + <p> + As the equal-styled plants differ from one another in their powers of + reproduction, and as this is an important subject, I will give a few + details with respect to five of them. First, an equal-styled plant, + protected from insects (as was done in all the following cases, with one + stated exception), spontaneously produced numerous capsules, five of which + gave an average of 44.8 seeds, with a maximum in one capsule of 57. But + six capsules, the product of fertilisation with pollen from a short-styled + cowslip (and this is a legitimate union), gave an average of 28.5 seeds, + with a maximum of 49; and this is a much lower average than might have + been expected. Secondly, nine capsules from another equal-styled plant, + which had not been protected from insects, but probably was + self-fertilised, gave an average of 45.2 seeds, with a maximum of 58. + Thirdly, another plant which had a very short pistil in 1865, produced + spontaneously many capsules, six of which contained an average of 33.9 + seeds, with a maximum of 38. In 1866 this same plant had a pistil of + wonderful length; for it projected quite above the anthers, and the stigma + resembled that of the long-styled form. In this condition it produced + spontaneously a vast number of fine capsules, six of which contained + almost exactly the same average number as before, namely 34.3, with a + maximum of 38. Four flowers on this plant, legitimately fertilised with + pollen from a short-styled cowslip, yielded capsules with an average of + 30.2 seeds. Fourthly another short-styled plant spontaneously produced in + 1865 an abundance of capsules, ten of which contained an average of 35.6 + seeds, with a maximum of 54. In 1866 this same plant had become in all + respects long-styled, and ten capsules gave almost exactly the same + average as before, namely 35.1 seeds, with a maximum of 47. Eight flowers + on this plant, legitimately fertilised with pollen from a short-styled + cowslip, produced six capsules, with the high average of 53 seeds, and the + high maximum of 67. Eight flowers were also fertilised with pollen from a + long-styled cowslip (this being an illegitimate union), and produced seven + capsules, containing an average of 24.4 seeds, with a maximum of 32. The + fifth and last plant remained in the same condition during both years: it + had a pistil rather longer than that of the true short-styled form, with + the stigma smooth, as it ought to be in this form, but abnormal in shape, + like a much-elongated inverted cone. It produced spontaneously many + capsules, five of which, in 1865, gave an average of only 15.6 seeds; and + in 1866 ten capsules still gave an average only a little higher, namely of + 22.1, with a maximum of 30. Sixteen flowers were fertilised with pollen + from a long-styled cowslip, and produced 12 capsules, with an average of + 24.9 seeds, and a maximum of 42. Eight flowers were fertilised with pollen + from a short-styled cowslip, but yielded only two capsules, containing 18 + and 23 seeds. Hence this plant, in function and partially in structure, + was in an almost exactly intermediate state between the long-styled and + short-styled form, but inclining towards the short-styled; and this + accounts for the low average of seeds which it produced when spontaneously + self-fertilised. + </p> + <p> + The foregoing five plants thus differ much from one another in the nature + of their fertility. In two individuals a great difference in the length of + the pistil during two succeeding years made no difference in the number of + seeds produced. As all five plants possessed the male organs of the + short-styled form in a perfect state, and the female organs of the + long-styled form in a more or less complete state, they spontaneously + produced a surprising number of capsules, which generally contained a + large average of remarkably fine seeds. With ordinary cowslips + LEGITIMATELY FERTILISED, I once obtained from plants cultivated in the + greenhouse the high average, from seven capsules, of 58.7 seeds, with a + maximum in one capsule of 87 seeds; but from plants grown out of doors I + never obtained a higher average than 41 seeds. Now two of the equal- + styled plants, grown out of doors and spontaneously SELF-FERTILISED, gave + averages of 44 and 45 seeds; but this high fertility may perhaps be in + part attributed to the stigma receiving pollen from the surrounding + anthers at exactly the right period. Two of these plants, fertilised with + pollen from a short-styled cowslip (and this in fact is a legitimate + union), gave a lower average than when self-fertilised. On the other hand, + another plant, when similarly fertilised by a cowslip, yielded the + unusually high average of 53 seeds, with a maximum of 67. Lastly, as we + have just seen, one of these plants was in an almost exactly intermediate + condition in its female organs between the long- and short-styled forms, + and consequently, when self-fertilised, yielded a low average of seed. If + we add together all the experiments which I made on the equal-styled + plants, 41 spontaneously self-fertilised capsules (insects having been + excluded) gave an average of 34 seeds, which is exactly the same number as + the parent-plant yielded in Edinburgh. Thirty-four flowers, fertilised + with pollen from the short-styled cowslip (and this is an analogous + union), produced 17 capsules, containing an average of 33.8 seeds. It is a + rather singular circumstance, for which I cannot account, that 20 flowers, + artificially fertilised on one occasion with pollen from the same plants + yielded only ten capsules, containing the low average of 26.7 seeds. + </p> + <p> + As bearing on inheritance, it may be added that 72 seedlings were raised + from one of the red-flowered, strictly equal-styled, self-fertilised + plants descended from the similarly characterised Edinburgh plant. These + 72 plants were therefore grandchildren of the Edinburgh plant, and they + all bore, as in the first generation, red flowers, with the exception of + one plant, which reverted in colour to the common cowslip. In regard to + structure, nine plants were truly long-styled and had their stamens seated + low down in the corolla in the proper position; the remaining 63 plants + were equal-styled, though the stigma in about a dozen of them stood a + little below the anthers. We thus see that the anomalous combination in + the same flower, of the male and female sexual organs which properly exist + in the two distinct forms, was inherited with much force. Thirty- six + seedlings were also raised from long and short-styled common cowslips, + crossed with pollen from the equal-styled variety. Of these plants one + alone was equal-styled, 20 were short-styled, but with the pistil in three + of them rather too long, and the remaining 15 were long-styled. In this + case we have an illustration of the difference between simple inheritance + and prepotency of transmission; for the equal-styled variety, when + self-fertilised, transmits its character, as we have just seen, with much + force, but when crossed with the common cowslip cannot withstand the + greater power of transmission of the latter. + </p> + <h3> + PULMONARIA. + </h3> + <p> + I have little to say on this genus. I obtained seeds of P. officinalis + from a garden where the long-styled form alone grew, and raised 11 + seedlings, which were all long-styled. These plants were named for me by + Dr. Hooker. They differed, as has been shown, from the plants belonging to + this species which in Germany were experimented on by Hildebrand (5/13. + ‘Botanische Zeitung’ 1865 page 13.); for he found that the long-styled + form was absolutely sterile with its own pollen, whilst my long-styled + seedlings and the parent-plants yielded a fair supply of seed when + self-fertilised. Plants of the long-styled form of Pulmonaria angustifolia + were, like Hildebrand’s plants, absolutely sterile with their own pollen, + so that I could never procure a single seed. On the other hand, the + short-styled plants of this species, differently from those of P. + officinalis, were fertile with their own pollen in a quite remarkable + degree for a heterostyled plant. From seeds carefully self-fertilised I + raised 18 plants, of which 13 proved short-styled and 5 long-styled. + </p> + <p> + Polygonum fagopyrum. + </p> + <p> + From flowers on long-styled plants fertilised illegitimately with pollen + from the same plant, 49 seedlings were raised, and these consisted of 45 + long-styled and 4 short-styled. From flowers on short-styled plants + illegitimately fertilised with pollen from the same plant 33 seedlings + were raised, and these consisted of 20 short-styled and 13 long-styled. So + that the usual rule of illegitimately fertilised long-styled plants + tending much more strongly than short-styled plants to reproduce their own + form here holds good. The illegitimate plants derived from both forms + flowered later than the legitimate, and were to the latter in height as 69 + to 100. But as these illegitimate plants were descended from parents + fertilised with their own pollen, whilst the legitimate plants were + descended from parents crossed with pollen from a distinct individual, it + is impossible to know how much of their difference in height and period of + flowering, is due to the illegitimate birth of the one set, and how much + to the other set being the product of a cross between distinct plants.] + </p> + <p> + CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF HETEROSTYLED + TRIMORPHIC AND DIMORPHIC PLANTS. + </p> + <p> + It is remarkable how closely and in how many points illegitimate unions + between the two or three forms of the same heterostyled species, together + with their illegitimate offspring, resemble hybrid unions between distinct + species together with their hybrid offspring. In both cases we meet with + every degree of sterility, from very slightly lessened fertility to + absolute barrenness, when not even a single seed-capsule is produced. In + both cases the facility of effecting the first union is much influenced by + the conditions to which the plants are exposed. (5/14. This has been + remarked by many experimentalists in effecting crosses between distinct + species; and in regard to illegitimate unions I have given in the first + chapter a striking illustration in the case of Primula veris.) Both with + hybrids and illegitimate plants the innate degree of sterility is highly + variable in plants raised from the same mother-plant. In both cases the + male organs are more plainly affected than the female; and we often find + contabescent anthers enclosing shrivelled and utterly powerless + pollen-grains. The more sterile hybrids, as Max Wichura has well shown, + are sometimes much dwarfed in stature, and have so weak a constitution + that they are liable to premature death (5/15. ‘Die Bastardbefruchtung im + Pflanzenreich’ 1865.); and we have seen exactly parallel cases with the + illegitimate seedlings of Lythrum and Primula. Many hybrids are the most + persistent and profuse flowerers, as are some illegitimate plants. When a + hybrid is crossed by either pure parent-form, it is notoriously much more + fertile than when crossed inter se or by another hybrid; so when an + illegitimate plant is fertilised by a legitimate plant, it is more fertile + than when fertilised inter se or by another illegitimate plant. When two + species are crossed and they produce numerous seeds, we expect as a + general rule that their hybrid offspring will be moderately fertile; but + if the parent species produce extremely few seeds, we expect that the + hybrids will be very sterile. But there are marked exceptions, as shown by + Gartner, to these rules. So it is with illegitimate unions and + illegitimate offspring. Thus the mid- styled form of Lythrum salicaria, + when illegitimately fertilised with pollen from the longest stamens of the + short-styled form, produced an unusual number of seeds; and their + illegitimate offspring were not at all, or hardly at all, sterile. On the + other hand, the illegitimate offspring from the long-styled form, + fertilised with pollen from the shortest stamens of the same form, yielded + few seeds, and the illegitimate offspring thus produced were very sterile; + but they were more sterile than might have been expected relatively to the + difficulty of effecting the union of the parent sexual elements. No point + is more remarkable in regard to the crossing of species than their unequal + reciprocity. Thus species A will fertilise B with the greatest ease; but B + will not fertilise A after hundreds of trials. We have exactly the same + case with illegitimate unions; for the mid-styled Lythrum salicaria was + easily fertilised by pollen from the longest stamens of the short-styled + form, and yielded many seeds; but the latter form did not yield a single + seed when fertilised by the longest stamens of the mid-styled form. + </p> + <p> + Another important point is prepotency. Gartner has shown that when a + species is fertilised with pollen from another species, if it be + afterwards fertilised with its own pollen, or with that of the same + species, this is so prepotent over the foreign pollen that the effect of + the latter, though placed on the stigma some time previously, is entirely + destroyed. Exactly the same thing occurs with the two forms of a + heterostyled species. Thus several long-styled flowers of Primula veris + were fertilised illegitimately with pollen from another plant of the same + form, and twenty-four hours afterwards legitimately with pollen from a + short- styled dark-red polyanthus which is a variety of P. veris; and the + result was that every one of the thirty seedlings thus raised bore flowers + more or less red, showing plainly how prepotent the legitimate pollen from + a short-styled plant was over the illegitimate pollen from a long-styled + plant. + </p> + <p> + In all the several foregoing points the parallelism is wonderfully close + between the effects of illegitimate and hybrid fertilisation. It is hardly + an exaggeration to assert that seedlings from an illegitimately fertilised + heterostyled plant are hybrids formed within the limits of one and the + same species. This conclusion is important, for we thus learn that the + difficulty in sexually uniting two organic forms and the sterility of + their offspring, afford no sure criterion of so-called specific + distinctness. If any one were to cross two varieties of the same form of + Lythrum or Primula for the sake of ascertaining whether they were + specifically distinct, and he found that they could be united only with + some difficulty, that their offspring were extremely sterile, and that the + parents and their offspring resembled in a whole series of relations + crossed species and their hybrid offspring, he might maintain that his + varieties had been proved to be good and true species; but he would be + completely deceived. In the second place, as the forms of the same + trimorphic or dimorphic heterostyled species are obviously identical in + general structure, with the exception of the reproductive organs, and as + they are identical in general constitution (for they live under precisely + the same conditions), the sterility of their illegitimate unions and that + of their illegitimate offspring, must depend exclusively on the nature of + the sexual elements and on their incompatibility for uniting in a + particular manner. And as we have just seen that distinct species when + crossed resemble in a whole series of relations the forms of the same + species when illegitimately united, we are led to conclude that the + sterility of the former must likewise depend exclusively on the + incompatible nature of their sexual elements, and not on any general + difference in constitution or structure. We are, indeed, led to this same + conclusion by the impossibility of detecting any differences sufficient to + account for certain species crossing with the greatest ease, whilst other + closely allied species cannot be crossed, or can be crossed only with + extreme difficulty. We are led to this conclusion still more forcibly by + considering the great difference which often exists in the facility of + crossing reciprocally the same two species; for it is manifest in this + case that the result must depend on the nature of the sexual elements, the + male element of the one species acting freely on the female element of the + other, but not so in a reversed direction. And now we see that this same + conclusion is independently and strongly fortified by the consideration of + the illegitimate unions of trimorphic and dimorphic heterostyled plants. + In so complex and obscure a subject as hybridism it is no slight gain to + arrive at a definite conclusion, namely, that we must look exclusively to + functional differences in the sexual elements, as the cause of the + sterility of species when first crossed and of their hybrid offspring. It + was this consideration which led me to make the many observations recorded + in this chapter, and which in my opinion make them worthy of publication. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0006" id="link2HCH0006"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER VI. CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + </h2> +<pre xml:space="preserve"> + The essential character of heterostyled plants. + Summary of the differences in fertility between legitimately and illegitimately + fertilised plants. + Diameter of the pollen-grains, size of anthers and structure of stigma in the + different forms. + Affinities of the genera which include heterostyled species. + Nature of the advantages derived from heterostylism. + The means by which plants became heterostyled. + Transmission of form. + Equal-styled varieties of heterostyled plants. + Final remarks. +</pre> + <p> + In the foregoing chapters all the heterostyled plants known to me have + been more or less fully described. Several other cases have been + indicated, especially by Professor Asa Gray and Kuhn, in which the + individuals of the same species differ in the length of their stamens and + pistils (6/1. Asa Gray ‘American Journal of Science’ 1865 page 101 and + elsewhere as already referred to. Kuhn ‘Botanische Zeitung’ 1867 page + 67.); but as I have been often deceived by this character taken alone, it + seems to me the more prudent course not to rank any species as + heterostyled, unless we have evidence of more important differences + between the forms, as in the diameter of the pollen-grains, or in the + structure of the stigma. The individuals of many ordinary hermaphrodite + plants habitually fertilise one another, owing to their male and female + organs being mature at different periods, or to the structure of the + parts, or to self-sterility, etc.; and so it is with many hermaphrodite + animals, for instance, land-snails or earth-worms; but in all these cases + any one individual can fully fertilise or be fertilised by any other + individual of the same species. This is not so with heterostyled plants: a + long-styled, mid-styled or short-styled plant cannot fully fertilise or be + fertilised by any other individual, but only by one belonging to another + form. Thus the essential character of plants belonging to the heterostyled + class is that the individuals are divided into two or three bodies, like + the males and females of dioecious plants or of the higher animals, which + exist in approximately equal numbers and are adapted for reciprocal + fertilisation. The existence, therefore, of two or three bodies of + individuals, differing from one another in the above more important + characteristics, offers by itself good evidence that the species is + heterostyled. But absolutely conclusive evidence can be derived only from + experiments, and by finding that pollen must be applied from the one form + to the other in order to ensure complete fertility. + </p> + <p> + In order to show how much more fertile each form is when legitimately + fertilised with pollen from the other form (or in the case of trimorphic + species, with the proper pollen from one of the two other forms) than when + illegitimately fertilised with its own-form pollen, I will append Table + 6.33 giving a summary of the results in all the cases hitherto + ascertained. The fertility of the unions may be judged by two standards, + namely, by the proportion of flowers which, when fertilised in the two + methods, yield capsules, and by the average number of seeds per capsule. + When there is a dash in the left hand column opposite to the name of the + species, the proportion of the flowers which yielded capsules was not + recorded. + </p> + <p> + TABLE 6.33. Fertility of the legitimate unions taken together, compared + with that of the illegitimate unions together. The fertility of the + legitimate unions, as judged by both standards, is taken as 100. + </p> + <p> + Column 1: Name of species. Column 2: Illegitimate unions : proportional + number of flowers which produced capsules. Column 3: Illegitimate unions : + average number of seeds per capsule. + </p> + <p> + Primula veris : 69 : 65. + </p> + <p> + Primula elatior : 27 : 75. + </p> + <p> + Primula vulgaris : 60 : 54. + </p> + <p> + Primula Sinensis : 84 : 63. + </p> + <p> + Primula Sinensis (second trial) : 0 : 53. + </p> + <p> + Primula Sinensis (Hildebrand) : 100 : 42. + </p> + <p> + Primula auricula (Scott) : 80 : 15. + </p> + <p> + Primula Sikkimensis (Scott) : 95 : 31. + </p> + <p> + Primula cortusoides (Scott) : 74 : 66. + </p> + <p> + Primula involucrata (Scott) : 72 : 48. + </p> + <p> + Primula farinosa (Scott) : 71 : 44. + </p> + <p> + Average of the nine species of Primula : 88.4 : 69. + </p> + <p> + Hottonia palustris (H. Muller) : - : 61. + </p> + <p> + Linum grandiflorum (the difference probably is much greater) : - : 69. + </p> + <p> + Linum perenne : - : 20. + </p> + <p> + Linum perenne (Hildebrand) : 0 : 0. + </p> + <p> + Pulmonaria officinalis (German stock, Hildebrand) : 0 : 0. + </p> + <p> + Pulmonaria angustifolia : 35 : 32. + </p> + <p> + Mitchella repens : 20 : 47. + </p> + <p> + Borreria, Brazilian sp. : - : 0. + </p> + <p> + Polygonum fagopyrum : - : 46. + </p> + <p> + Lythrum salicaria : 33 : 46. + </p> + <p> + Oxalis Valdiviana (Hildebrand) : 2 : 34. + </p> + <p> + Oxalis Regnelli : 0 : 0. + </p> + <p> + Oxalis speciosa : 15 : 49. + </p> + <p> + The two or three forms of the same heterostyled species do not differ from + one another in general habit or foliage, as sometimes, though rarely, + happens with the two sexes of dioecious plants. Nor does the calyx differ, + but the corolla sometimes differs slightly in shape, owing to the + different position of the anthers. In Borreria the hairs within the tube + of the corolla are differently situated in the long-styled and + short-styled forms. In Pulmonaria there is a slight difference in the size + of the corolla, and in Pontederia in its colour. In the reproductive + organs the differences are much greater and more important. In the one + form the stamens may be all of the same length, and in the other graduated + in length, or alternately longer and shorter. The filaments may differ in + colour and thickness, and are sometimes nearly thrice as long in the one + form as in the other. They adhere also for very different proportional + lengths to the corolla. The anthers sometimes differ much in size in the + two forms. Owing to the rotation of the filaments, the anthers, when + mature, dehisce towards the circumference of the flower in one form of + Faramea, and towards the centre in the other form. The pollen-grains + sometimes differ conspicuously in colour, and often to an extraordinary + degree in diameter. They differ also somewhat in shape, and apparently in + their contents, as they are unequally opaque. In the short-styled form of + Faramea the pollen-grains are covered with sharp points, so as to cohere + readily together or to an insect; whilst the smaller grains of the + long-styled form are quite smooth. + </p> + <p> + With respect to the pistil, the style may be almost thrice as long in the + one form as in the other. In Oxalis it sometimes differs in hairiness in + the three forms. In Linum the pistils either diverge and pass out between + the filaments, or stand nearly upright and parallel to them. The stigmas + in the two forms often differ much in size and shape, and more especially + in the length and thickness of their papillae; so that the surface may be + rough or quite smooth. Owing to the rotation of the styles, the papillose + surface of the stigma is turned outwards in one form of Linum perenne, and + inwards in the other form. In flowers of the same age of Primula veris the + ovules are larger in the long-styled than in the short-styled form. The + seeds produced by the two or three forms often differ in number, and + sometimes in size and weight; thus, five seeds from the long-styled form + of Lythrum salicaria equal in weight six from the mid-styled and seven + from the short-styled form. Lastly, short-styled plants of Pulmonaria + officinalis bear a larger number of flowers, and these set a larger + proportional number of fruit, which however yield a lower average number + of seed, than the long-styled plants. With heterostyled plants we thus see + in how many and in what important characters the forms of the same + undoubted species often differ from one another—characters which + with ordinary plants would be amply sufficient to distinguish species of + the same genus. + </p> + <p> + As the pollen-grains of ordinary species belonging to the same genus + generally resemble one another closely in all respects, it is worth while + to show, in Table 6.34, the difference in diameter between the grains from + the two or three forms of the same heterostyled species in the forty-three + cases in which this was ascertained. But it should be observed that some + of the following measurements are only approximately accurate, as only a + few grains were measured. In several cases, also, the grains had been + dried and were then soaked in water. Whenever they were of an elongated + shape their longer diameters were measured. The grains from the + short-styled plants are invariably larger than those from the long-styled, + whenever there is any difference between them. The diameter of the former + is represented in the table by the number 100. + </p> + <p> + TABLE 6.34. Relative diameter of the pollen-grains from the forms of the + same heterostyled species; those from the short-styled form being + represented by 100. + </p> + <h3> + DIMORPHIC SPECIES. + </h3> + <p> + Column 1: Name of species. Column 2: From the long-styled form : relative + diameter. + </p> + <p> + Primula veris : 67. + </p> + <p> + Primula vulgaris : 71. + </p> + <p> + Primula Sinensis (Hildebrand) : 57. + </p> + <p> + Primula auricula : 71. + </p> + <p> + Hottonia palustris (H. Muller) : 61. + </p> + <p> + Hottonia palustris (self) : 64. + </p> + <p> + Linum grandiflorum : 100. + </p> + <p> + Linum perenne (diameter variable) : 100 (?). + </p> + <p> + Linum flavum : 100. + </p> + <p> + Pulmonaria officinalis : 78. + </p> + <p> + Pulmonaria angustifolia : 91. + </p> + <p> + Polygonum fagopyrum : 82. + </p> + <p> + Leucosmia Burnettiana : 99. + </p> + <p> + Aegiphila elata : 62. + </p> + <p> + Menyanthes trifoliata : 84. + </p> + <p> + Limnanthemum Indicum : 100. + </p> + <p> + Villarsia (sp.?) : 75. + </p> + <p> + Forsythia suspensa : 94. + </p> + <p> + Cordia (sp.?) : 100. + </p> + <p> + Gilia pulchella : 100. + </p> + <p> + Gilia micrantha : 81. + </p> + <p> + Sethia acuminata : 83. + </p> + <p> + Erythroxylum (sp.?) : 93. + </p> + <p> + Cratoxylon formosum : 86. + </p> + <p> + Mitchella repens, pollen-grains of the long-styled a little smaller. + </p> + <p> + Borreria (sp.?) : 92. + </p> + <p> + Faramea (sp.?) : 67. + </p> + <p> + Suteria (sp.?) (Fritz Muller) : 75. + </p> + <p> + Houstonia coerulea : 72. + </p> + <p> + Oldenlandia (sp.?) : 78. + </p> + <p> + Hedyotis (sp.?) : 88. + </p> + <p> + Coccocypselum (sp.?) (Fritz Muller) : 100. + </p> + <p> + Lipostoma (sp.?) : 80. + </p> + <p> + Cinchona micrantha : 91. + </p> + <h3> + TRIMORPHIC SPECIES. + </h3> + <p> + Column 1: Name of species. Column 2: Ratio expressing the extreme + differences in diameter of the pollen- grains from the two sets of anthers + in the three forms. + </p> + <p> + Lythrum salicaria : 60. + </p> + <p> + Nesaea verticillata : 65. + </p> + <p> + Oxalis Valdiviana (Hildebrand) : 71. + </p> + <p> + Oxalis Regnelli : 78. + </p> + <p> + Oxalis speciosa : 69. + </p> + <p> + Oxalis sensitiva : 84. + </p> + <p> + Pontederia (sp.?) : 55. + </p> + <p> + Column 1: Name of species. Column 2: Ratio between the diameters of the + pollen-grains of the two sets of anthers in the same form. + </p> + <p> + Oxalis rosea, long-styled form (Hildebrand) : 83. + </p> + <p> + Oxalis compressa, short-styled form : 83. + </p> + <p> + Pontederia (sp.?) short-styled form : 87. + </p> + <p> + Pontederia other sp. mid-styled form : 86. + </p> + <p> + We here see that, with seven or eight exceptions out of the forty-three + cases, the pollen-grains from one form are larger than those from the + other form of the same species. The extreme difference is as 100 to 55; + and we should bear in mind that in the case of spheres differing to this + degree in diameter, their contents differ in the ratio of six to one. With + all the species in which the grains differ in diameter, there is no + exception to the rule that those from the anthers of the short-styled + form, the tubes of which have to penetrate the longer pistil of the + long-styled form, are larger than the grains from the other form. This + curious relation led Delpino (as it formerly did me) to believe that the + larger size of the grains in the short-styled flowers is connected with + the greater supply of matter needed for the development of their longer + tubes. (6/2. ‘Sull’ Opera, la Distribuzione dei Sessi nelle Piante’ etc + 1867 page 17.) But the case of Linum, in which the grains of the two forms + are of equal size, whilst the pistil of the one is about twice as long as + that of the other, made me from the first feel very doubtful with respect + to this view. My doubts have since been strengthened by the cases of + Limnanthemum and Coccocypselum, in which the grains are of equal size in + the two forms; whilst in the former genus the pistil is nearly thrice and + in the latter twice as long as in the other form. In those species in + which the grains are of unequal size in the two forms, there is no close + relationship between the degree of their inequality and that of their + pistils. Thus in Pulmonaria officinalis and in Erythroxylum the pistil in + the long-styled form is about twice the length of that in the other form, + whilst in the former species the pollen-grains are as 100 to 78, and in + the latter as 100 to 93 in diameter. In the two forms of Suteria the + pistil differs but little in length, whilst the pollen-grains are as 100 + to 75 in diameter. These cases seem to prove that the difference in size + between the grains in the two forms is not determined by the length of the + pistil, down which the tubes have to grow. That with plants in general + there is no close relationship between the size of the pollen-grains and + the length of the pistil is manifest: for instance, I found that the + distended grains of Datura arborea were .00243 of an inch in diameter, and + the pistil no less than 9.25 inches in length; now the pistil in the small + flowers of Polygonum fagopyrum is very short, yet the larger pollen-grains + from the short-styled plants had exactly the same diameter as those from + the Datura, with its enormously elongated pistil. + </p> + <p> + Notwithstanding these several considerations, it is difficult quite to + give up the belief that the pollen-grains from the longer stamens of + heterostyled plants have become larger in order to allow of the + development of longer tubes; and the foregoing opposing facts may possibly + be reconciled in the following manner. The tubes are at first developed + from matter contained within the grains, for they are sometimes exserted + to a considerable length, before the grains have touched the stigma; but + botanists believe that they afterwards draw nourishment from the + conducting tissue of the pistil. It is hardly possible to doubt that this + must occur in such cases as that of the Datura, in which the tubes have to + grow down the whole length of the pistil, and therefore to a length + equalling 3,806 times the diameter of the grains (namely, .00243 of an + inch) from which they are protruded. I may here remark that I have seen + the pollen-grains of a willow, immersed in a very weak solution of honey, + protrude their tubes, in the course of twelve hours, to a length thirteen + times as great as the diameter of the grains. Now if we suppose that the + tubes in some heterostyled species are developed wholly or almost wholly + from matter contained within the grains, while in other species from + matter yielded by the pistil, we can see that in the former case it would + be necessary that the grains of the two forms should differ in size + relatively to the length of the pistil which the tubes have to penetrate, + but that in the latter case it would not be necessary that the grains + should thus differ. Whether this explanation can be considered + satisfactory must remain at present doubtful. + </p> + <p> + There is another remarkable difference between the forms of several + heterostyled species, namely in the anthers of the short-styled flowers, + which contain the larger pollen-grains, being longer than those of the + long-styled flowers. This is the case with Hottonia palustris in the ratio + of 100 to 83. With Limnanthemum Indicum the ratio is as 100 to 70. With + the allied Menyanthes the anthers of the short-styled form are a little + and with Villarsia conspicuously larger than those of the long-styled. + With Pulmonaria angustifolia they vary much in size, but from an average + of seven measurements of each kind the ratio is as 100 to 91. In six + genera of the Rubiaceae there is a similar difference, either slightly or + well marked. Lastly, in the trimorphic Pontederia the ratio is 100 to 88; + the anthers from the longest stamens in the short-styled form being + compared with those from the shortest stamens in the long-styled form. On + the other hand, there is a similar and well-marked difference in the + length of the stamens in the two forms of Forsythia suspensa and of Linum + flavum; but in these two cases the anthers of the short-styled flowers are + shorter than those of the long-styled. The relative size of the anthers + was not particularly attended to in the two forms of the other + heterostyled plants, but I believe that they are generally equal, as is + certainly the case with those of the common primrose and cowslip. + </p> + <p> + The pistil differs in length in the two forms of every heterostyled plant, + and although a similar difference is very general with the stamens, yet in + the two forms of Linum grandiflorum and of Cordia they are equal. There + can hardly be a doubt that the relative length of these organs is an + adaptation for the safe transportal by insects of the pollen from the one + form to the other. The exceptional cases in which these organs do not + stand exactly on a level in the two forms may probably be explained by the + manner in which the flowers are visited. With most of the species, if + there is any difference in the size of the stigma of the two forms, that + of the long-styled, whatever its shape may be, is larger than that of the + short-styled. But here again there are some exceptions to the rule, for in + the short-styled form of Leucosmia Burnettiana the stigmas are longer and + much narrower than those of the long-styled; the ratio between the lengths + of the stigmas in the two forms being 100 to 60. In the three Rubiaceous + genera, Faramea, Houstonia and Oldenlandia, the stigmas of the short- + styled form are likewise somewhat longer and narrower; and in the three + forms of Oxalis sensitiva the difference is strongly marked, for if the + length of the two stigmas of the long-styled pistil be taken as 100, it + will be represented in the mid- and short-styled forms by the numbers 141 + and 164. As in all these cases the stigmas of the short-styled pistil are + seated low down within a more or less tubular corolla, it is probable that + they are better fitted by being long and narrow for brushing the pollen + off the inserted proboscis of an insect. + </p> + <p> + With many heterostyled plants the stigma differs in roughness in the two + forms, and when this is the case there is no known exception to the rule + that the papillae on the stigma of the long-styled form are longer and + often thicker than those on that of the short-styled. For instance, the + papillae on the long-styled stigma of Hottonia palustris are more than + twice the length of those in the other form. This holds good even in the + case of Houstonia coerulea, in which the stigmas are much shorter and + stouter in the long-styled than in the short-styled form, for the papillae + on the former compared with those on the latter are as 100 to 58 in + length. The length of the pistil in the long-styled form of Linum + grandiflorum varies much, and the stigmatic papillae vary in a + corresponding manner. From this fact I inferred at first that in all cases + the difference in length between the stigmatic papillae in the two forms + was one merely of correlated growth; but this can hardly be the true or + general explanation, as the shorter stigmas of the long-styled form of + Houstonia have the longer papillae. It is a more probable view that the + papillae, which render the stigma of the long-styled form of various + species rough, serve to entangle effectually the large-sized pollen-grains + brought by insects from the short-styled form, thus ensuring its + legitimate fertilisation. This view is supported by the fact that the + pollen-grains from the two forms of eight species in Table 6.34 hardly + differ in diameter, and the papillae on their stigmas do not differ in + length. + </p> + <p> + The species which are at present positively or almost positively known to + be heterostyled belong, as shown in Table 6.35, to 38 genera, widely + distributed throughout the world. These genera are included in fourteen + Families, most of which are very distinct from one another, for they + belong to nine of the several great Series, into which phanerogamic plants + have been divided by Bentham and Hooker. + </p> + <p> + TABLE 6.35. List of genera including heterostyled species. + </p> + <h3> + DICOTYLEDONS. + </h3> + <p> + HYPERICINEAE: Cratoxylon. + </p> + <p> + ERYTHROXYLEAE: Erythroxylum. Sethia. + </p> + <p> + GERANIACEAE: Linum. Oxalis. + </p> + <p> + LYTHRACEAE: Lythrum. Neseae. + </p> + <p> + RUBIACEAE: Cinchona. Bouvardia. Manettia. Hedyotis. Oldenlandia. + Houstonia. Coccocypselum. Lipostoma. Knoxia. Faramea. Psychotria. Rudgea. + Suteria. Mitchella. Diodia. Borreria. Spermacoce. + </p> + <p> + PRIMULACEAE: Primula. Hottonia. Androsace. + </p> + <p> + OLEACEAE: Forsythia. + </p> + <p> + GENTIANACEAE: Menyanthes. Limnanthemum. Villarsia. + </p> + <p> + POLEMONIACEAE: Gilia. + </p> + <p> + CORDIEAE: Cordia. + </p> + <p> + BORAGINEAE: Pulmonaria. + </p> + <p> + VERBENACEAE: Aegiphila. + </p> + <p> + POLYGONEAE: Polygonum. + </p> + <p> + THYMELEAE: Thymelea. + </p> + <h3> + MONOCOTYLEDONS. + </h3> + <p> + PONTEDERIACEAE: Pontederia. + </p> + <p> + In some of these families the heterostyled condition must have been + acquired at a very remote period. Thus the three closely allied genera, + Menyanthes, Limnanthemum, and Villarsia, inhabit respectively Europe, + India, and South America. Heterostyled species of Hedyotis are found in + the temperate regions of North and the tropical regions of South America. + Trimorphic species of Oxalis live on both sides of the Cordillera in South + America and at the Cape of Good Hope. In these and some other cases it is + not probable that each species acquired its heterostyled structure + independently of its close allies. If they did not do so, the three + closely connected genera of the Menyantheae and the several trimorphic + species of Oxalis must have inherited their structure from a common + progenitor. But an immense lapse of time will have been necessary in all + such cases for the modified descendants of a common progenitor to have + spread from a single centre to such widely remote and separated areas. The + family of the Rubiaceae contains not far short of as many heterostyled + genera as all the other thirteen families together; and hereafter no doubt + other Rubiaceous genera will be found to be heterostyled, although a large + majority are homostyled. Several closely allied genera in this family + probably owe their heterostyled structure to descent in common; but as the + genera thus characterised are distributed in no less than eight of the + tribes into which this family has been divided by Bentham and Hooker, it + is almost certain that several of them must have become heterostyled + independently of one another. What there is in the constitution or + structure of the members of this family which favours their becoming + heterostyled, I cannot conjecture. Some families of considerable size, + such as the Boragineae and Verbenaceae, include, as far as is at present + known, only a single heterostyled genus. Polygonum also is the sole + heterostyled genus in its family; and though it is a very large genus, no + other species except P. fagopyrum is thus characterised. We may suspect + that it has become heterostyled within a comparatively recent period, as + it seems to be less strongly so in function than the species in any other + genus, for both forms are capable of yielding a considerable number of + spontaneously self-fertilised seeds. Polygonum in possessing only a single + heterostyled species is an extreme case; but every other genus of + considerable size which includes some such species likewise contains + homostyled species. Lythrum includes trimorphic, dimorphic, and homostyled + species. + </p> + <p> + Trees, bushes, and herbaceous plants, both large and small, bearing single + flowers or flowers in dense spikes or heads, have been rendered + heterostyled. So have plants which inhabit alpine and lowland sites, dry + land, marshes and water. (6/3. Out of the 38 genera known to include + heterostyled species, about eight, or 21 per cent, are more or less + aquatic in their habits. I was at first struck with this fact, for I was + not then aware how large a proportion of ordinary plants inhabit such + stations. Heterostyled plants may be said in one sense to have their sexes + separated, as the forms must mutually fertilise one another. Therefore it + seemed worth while to ascertain what proportion of the genera in the + Linnean classes, Monoecia, Dioecia and Polygamia, contained species which + live “in water, marshes, bogs or watery places.” In Sir W.J. Hooker’s + ‘British Flora’ 4th edition 1838, these three Linnean classes include 40 + genera, 17 of which (i.e. 43 per cent) contain species inhabiting the + just-specified stations. So that 43 per cent of those British plants which + have their sexes separated are more or less aquatic in their habits, + whereas only 21 per cent of heterostyled plants have such habits. I may + add that the hermaphrodite classes, from Monandria to Gynandria inclusive, + contain 447 genera, of which 113 are aquatic in the above sense, or only + 25 per cent. It thus appears, as far as can be judged from such imperfect + data, that there is some connection between the separation of the sexes in + plants and the watery nature of the sites which they inhabit; but that + this does not hold good with heterostyled species.) + </p> + <p> + When I first began to experimentise on heterostyled plants it was under + the impression that they were tending to become dioecious; but I was soon + forced to relinquish this notion, as the long-styled plants of Primula + which, from possessing a longer pistil, larger stigma, shorter stamens + with smaller pollen- grains, seemed to be the more feminine of the two + forms, yielded fewer seeds than the short-styled plants which appeared to + be in the above respects the more masculine of the two. Moreover, + trimorphic plants evidently come under the same category with dimorphic, + and the former cannot be looked at as tending to become dioecious. With + Lythrum salicaria, however, we have the curious and unique case of the + mid-styled form being more feminine or less masculine in nature than the + other two forms. This is shown by the large number of seeds which it + yields in whatever manner it may be fertilised, and by its pollen (the + grains of which are of smaller size than those from the corresponding + stamens in the other two forms) when applied to the stigma of any form + producing fewer seeds than the normal number. If we suppose the process of + deterioration of the male organs in the mid-styled form to continue, the + final result would be the production of a female plant; and Lythrum + salicaria would then consist of two heterostyled hermaphrodites and a + female. No such case is known to exist, but it is a possible one, as + hermaphrodite and female forms of the same species are by no means rare. + Although there is no reason to believe that heterostyled plants are + regularly becoming dioecious, yet they offer singular facilities, as will + hereafter be shown, for such conversion; and this appears occasionally to + have been effected. + </p> + <p> + We may feel sure that plants have been rendered heterostyled to ensure + cross- fertilisation, for we now know that a cross between the distinct + individuals of the same species is highly important for the vigour and + fertility of the offspring. The same end is gained by dichogamy or the + maturation of the reproductive elements of the same flower at different + periods,—by dioeciousness—self-sterility—the prepotency + of pollen from another individual over a plant’s own pollen,—and + lastly, by the structure of the flower in relation to the visits of + insects. The wonderful diversity of the means for gaining the same end in + this case, and in many others, depends on the nature of all the previous + changes through which the species has passed, and on the more or less + complete inheritance of the successive adaptations of each part to the + surrounding conditions. Plants which are already well adapted by the + structure of their flowers for cross-fertilisation by the aid of insects + often possess an irregular corolla, which has been modelled in relation to + their visits; and it would have been of little or no use to such plants to + have become heterostyled. We can thus understand why it is that not a + single species is heterostyled in such great families as the Leguminosae, + Labiatae, Scrophulariaceae, Orchideae, etc., all of which have irregular + flowers. Every known heterostyled plant, however, depends on insects for + its fertilisation, and not on the wind; so that it is a rather surprising + fact that only one genus, Pontederia, has a plainly irregular corolla. + </p> + <p> + Why some species are adapted for cross-fertilisation, whilst others within + the same genus are not so, or if they once were, have since lost such + adaptation and in consequence are now usually self-fertilised, I have + endeavoured elsewhere to explain to a certain limited extent. (6/4. ‘The + Effects of Cross and Self- fertilisation’ 1876 page 441.) If it be further + asked why some species have been adapted for this end by being made + heterostyled, rather than by any of the above specified means, the answer + probably lies in the manner in which heterostylism originated,—a + subject immediately to be discussed. Heterostyled species, however, have + an advantage over dichogamous species, as all the flowers on the same + heterostyled plant belong to the same form, so that when fertilised + legitimately by insects two distinct individuals are sure to intercross. + On the other hand, with dichogamous plants, early or late flowers on the + same individual may intercross; and a cross of this kind does hardly any + or no good. Whenever it is profitable to a species to produce a large + number of seeds and this obviously is a very common case, heterostyled + will have an advantage over dioecious plants, as all the individuals of + the former, whilst only half of the latter, that is the females, yield + seeds. On the other hand, heterostyled plants seem to have no advantage, + as far as cross-fertilisation is concerned, over those which are sterile + with their own pollen. They lie indeed under a slight disadvantage, for if + two self-sterile plants grow near together and far removed from all other + plants of the same species, they will mutually and perfectly fertilise one + another, whilst this will not be the case with heterostyled dimorphic + plants, unless they chance to belong to opposite forms. + </p> + <p> + It may be added that species which are trimorphic have one slight + advantage over the dimorphic; for if only two individuals of a dimorphic + species happen to grow near together in an isolated spot, the chances are + even that both will belong to the same form, and in this case they will + not produce the full number of vigorous and fertile seedlings; all these, + moreover, will tend strongly to belong to the same form as their parents. + On the other hand, if two plants of the same trimorphic species happen to + grow in an isolated spot, the chances are two to one in favour of their + not belonging to the same form; and in this case they will legitimately + fertilise one another, and yield the full complement of vigorous + offspring. + </p> + <h3> + THE MEANS BY WHICH PLANTS MAY HAVE BEEN RENDERED HETEROSTYLED. + </h3> + <p> + This is a very obscure subject, on which I can throw little light, but + which is worthy of discussion. It has been shown that heterostyled plants + occur in fourteen natural families, dispersed throughout the whole + vegetable kingdom, and that even within the family of the Rubiaceae they + are dispersed in eight of the tribes. We may therefore conclude that this + structure has been acquired by various plants independently of inheritance + from a common progenitor, and that it can be acquired without any great + difficulty—that is, without any very unusual combination of + circumstances. + </p> + <p> + It is probable that the first step towards a species becoming heterostyled + is great variability in the length of the pistil and stamens, or of the + pistil alone. Such variations are not very rare: with Amsinckia + spectabilis and Nolana prostrata these organs differ so much in length in + different individuals that, until experimenting on them, I thought both + species heterostyled. The stigma of Gesneria pendulina sometimes protrudes + far beyond, and is sometimes seated beneath the anthers; so it is with + Oxalis acetosella and various other plants. I have also noticed an + extraordinary amount of difference in the length of the pistil in + cultivated varieties of Primula veris and vulgaris. + </p> + <p> + As most plants are at least occasionally cross-fertilised by the aid of + insects, we may assume that this was the case with our supposed varying + plant; but that it would have been beneficial to it to have been more + regularly cross- fertilised. We should bear in mind how important an + advantage it has been proved to be to many plants, though in different + degrees and ways, to be cross- fertilised. It might well happen that our + supposed species did not vary in function in the right manner, so as to + become either dichogamous or completely self-sterile, or in structure so + as to ensure cross-fertilisation. If it had thus varied, it would never + have been rendered heterostyled, as this state would then have been + superfluous. But the parent-species of our several existing heterostyled + plants may have been, and probably were (judging from their present + constitution) in some degree self-sterile; and this would have made + regular cross-fertilisation still more desirable. + </p> + <p> + Now let us take a highly varying species with most or all of the anthers + exserted in some individuals, and in others seated low down in the + corolla; with the stigma also varying in position in like manner. Insects + which visited such flowers would have different parts of their bodies + dusted with pollen, and it would be a mere chance whether this were left + on the stigma of the next flower which was visited. If all the anthers + could have been placed on the same level in all the plants, then abundant + pollen would have adhered to the same part of the body of the insects + which frequented the flowers, and would afterwards have been deposited + without loss on the stigma, if it likewise stood on the same unvarying + level in all the flowers. But as the stamens and pistils are supposed to + have already varied much in length and to be still varying, it might well + happen that they could be reduced much more easily through natural + selection into two sets of different lengths in different individuals, + than all to the same length and level in all the individuals. We know from + innumerable instances, in which the two sexes and the young of the same + species differ, that there is no difficulty in two or more sets of + individuals being formed which inherit different characters. In our + particular case the law of compensation or balancement (which is admitted + by many botanists) would tend to cause the pistil to be reduced in those + individuals in which the stamens were greatly developed, and to be + increased in length in those which had their stamens but little developed. + </p> + <p> + Now if in our varying species the longer stamens were to be nearly + equalised in length in a considerable body of individuals, with the pistil + more or less reduced; and in another body, the shorter stamens to be + similarly equalised, with the pistil more or less increased in length, + cross-fertilisation would be secured with little loss of pollen; and this + change would be so highly beneficial to the species, that there is no + difficulty in believing that it could be effected through natural + selection. Our plant would then make a close approach in structure to a + heterostyled dimorphic species; or to a trimorphic species, if the stamens + were reduced to two lengths in the same flower in correspondence with that + of the pistils in the other two forms. But we have not as yet even touched + on the chief difficulty in understanding how heterostyled species could + have originated. A completely self-sterile plant or a dichogamous one can + fertilise and be fertilised by any other individual of the same species; + whereas the essential character of a heterostyled plant is that an + individual of one form cannot fully fertilise or be fertilised by an + individual of the same form, but only by one belonging to another form. + </p> + <p> + H. Muller has suggested that ordinary or homostyled plants may have been + rendered heterostyled merely through the effects of habit. (6/5. ‘Die + Befruchtung der Blumen’ page 352.) Whenever pollen from one set of anthers + is habitually applied to a pistil of particular length in a varying + species, he believes that at last the possibility of fertilisation in any + other manner will be nearly or completely lost. He was led to this view by + observing that Diptera frequently carried pollen from the long-styled + flowers of Hottonia to the stigma of the same form, and that this + illegitimate union was not nearly so sterile as the corresponding union in + other heterostyled species. But this conclusion is directly opposed by + some other cases, for instance by that of Linum grandiflorum; for here the + long-styled form is utterly barren with its own-form pollen, although from + the position of the anthers this pollen is invariably applied to the + stigma. It is obvious that with heterostyled dimorphic plants the two + female and the two male organs differ in power; for if the same kind of + pollen be placed on the stigmas of the two forms, and again if the two + kinds of pollen be placed on the stigmas of the same form, the results are + in each case widely different. Nor can we see how this differentiation of + the two female and two male organs could have been effected merely through + each kind of pollen being habitually placed on one of the two stigmas. + </p> + <p> + Another view seems at first sight probable, namely, that an incapacity to + be fertilised in certain ways has been specially acquired by heterostyled + plants. We may suppose that our varying species was somewhat sterile (as + is often the case) with pollen from its own stamens, whether these were + long or short; and that such sterility was transferred to all the + individuals with pistils and stamens of the same length, so that these + became incapable of intercrossing freely; but that such sterility was + eliminated in the case of the individuals which differed in the length of + their pistils and stamens. It is, however, incredible that so peculiar a + form of mutual infertility should have been specially acquired unless it + were highly beneficial to the species; and although it may be beneficial + to an individual plant to be sterile with its own pollen, + cross-fertilisation being thus ensured, how can it be any advantage to a + plant to be sterile with half its brethren, that is, with all the + individuals belonging to the same form? Moreover, if the sterility of the + unions between plants of the same form had been a special acquirement, we + might have expected that the long-styled form fertilised by the + long-styled would have been sterile in the same degree as the short-styled + fertilised by the short-styled; but this is hardly ever the case. On the + contrary, there is sometimes the widest difference in this respect, as + between the two illegitimate unions of Pulmonaria angustifolia and of + Hottonia palustris. + </p> + <p> + It is a more probable view that the male and female organs in two sets of + individuals have been by some means specially adapted for reciprocal + action; and that the sterility between the individuals of the same set or + form is an incidental and purposeless result. The meaning of the term + “incidental” may be illustrated by the greater or less difficulty in + grafting or budding together two plants belonging to distinct species; for + as this capacity is quite immaterial to the welfare of either, it cannot + have been specially acquired, and must be the incidental result of + differences in their vegetative systems. But how the sexual elements of + heterostyled plants came to differ from what they were whilst the species + was homostyled, and how they became co-adapted in two sets of individuals, + are very obscure points. We know that in the two forms of our existing + heterostyled plants the pistil always differs, and the stamens generally + differ in length; so does the stigma in structure, the anthers in size, + and the pollen-grains in diameter. It appears, therefore, at first sight + probable that organs which differ in such important respects could act on + one another only in some manner for which they had been specially adapted. + The probability of this view is supported by the curious rule that the + greater the difference in length between the pistils and stamens of the + trimorphic species of Lythrum and Oxalis, the products of which are united + for reproduction, by so much the greater is the infertility of the union. + The same rule applies to the two illegitimate unions of some dimorphic + species, namely, Primula vulgaris and Pulmonaria angustifolia; but it + entirely fails in other cases, as with Hottonia palustris and Linum + grandiflorum. We shall, however, best perceive the difficulty of + understanding the nature and origin of the co-adaptation between the + reproductive organs of the two forms of heterostyled plants, by + considering the case of Linum grandiflorum: the two forms of this plant + differ exclusively, as far as we can see, in the length of their pistils; + in the long-styled form, the stamens equal the pistil in length, but their + pollen has no more effect on it than so much inorganic dust; whilst this + pollen fully fertilises the short pistil of the other form. Now, it is + scarcely credible that a mere difference in the length of the pistil can + make a wide difference in its capacity for being fertilised. We can + believe this the less because with some plants, for instance, Amsinckia + spectabilis, the pistil varies greatly in length without affecting the + fertility of the individuals which are intercrossed. So again I observed + that the same plants of Primula veris and vulgaris differed to an + extraordinary degree in the length of their pistils during successive + seasons; nevertheless they yielded during these seasons exactly the same + average number of seeds when left to fertilise themselves spontaneously + under a net. + </p> + <p> + We must therefore look to the appearance of inner or hidden constitutional + differences between the individuals of a varying species, of such a nature + that the male element of one set is enabled to act efficiently only on the + female element of another set. We need not doubt about the possibility of + variations in the constitution of the reproductive system of a plant, for + we know that some species vary so as to be completely self-sterile or + completely self-fertile, either in an apparently spontaneous manner or + from slightly changed conditions of life. Gartner also has shown that the + individual plants of the same species vary in their sexual powers in such + a manner that one will unite with a distinct species much more readily + than another. (6/6. Gartner ‘Bastarderzeugung im Pflanzenreich’ 1849 page + 165.) But what the nature of the inner constitutional differences may be + between the sets or forms of the same varying species, or between distinct + species, is quite unknown. It seems therefore probable that the species + which have become heterostyled at first varied so that two or three sets + of individuals were formed differing in the length of their pistils and + stamens and in other co-adapted characters, and that almost simultaneously + their reproductive powers became modified in such a manner that the sexual + elements in one set were adapted to act on the sexual elements of another + set; and consequently that these elements in the same set or form + incidentally became ill-adapted for mutual interaction, as in the case of + distinct species. I have elsewhere shown that the sterility of species + when first crossed and of their hybrid offspring must also be looked at as + merely an incidental result, following from the special co-adaptation of + the sexual elements of the same species. (6/7. ‘Origin of Species’ 6th + edition page 247; ‘Variation of Animals and Plants under Domestication’ + 2nd edition volume 2 page 169; ‘The Effects of Cross and + Self-fertilisation’ page 463. It may be well here to remark that, judging + from the remarkable power with which abruptly changed conditions of life + act on the reproductive system of most organisms, it is probable that the + close adaptation of the male to the female elements in the two forms of + the same heterostyled species, or in all the individuals of the same + ordinary species, could be acquired only under long-continued nearly + uniform conditions of life.) We can thus understand the striking + parallelism, which has been shown to exist between the effects of + illegitimately uniting heterostyled plants and of crossing distinct + species. The great difference in the degree of sterility between the + various heterostyled species when illegitimately fertilised, and between + the two forms of the same species when similarly fertilised, harmonises + well with the view that the result is an incidental one which follows from + changes gradually effected in their reproductive systems, in order that + the sexual elements of the distinct forms should act perfectly on one + another. + </p> + <h3> + TRANSMISSION OF THE TWO FORMS BY HETEROSTYLED PLANTS. + </h3> + <p> + The transmission of the two forms by heterostyled plants, with respect to + which many facts were given in the last chapter, may perhaps be found + hereafter to throw some light on their manner of development. Hildebrand + observed that seedlings from the long-styled form of Primula Sinensis when + fertilised with pollen from the same form were mostly long-styled, and + many analogous cases have since been observed by me. All the known cases + are given in Tables 6.36 and 6.37. + </p> + <p> + TABLE 6.36. Nature of the offspring from illegitimately fertilised + dimorphic plants. + </p> + <p> + Column 1: Species and form. Column 2: Number of long-styled offspring. + Column 3: Number of short-styled offspring. + </p> + <p> + Primula veris. Long-styled form, fertilised by own-form pollen during five + successive generations : 156 : 6. + </p> + <p> + Primula veris. Short-styled form, fertilised by own-form pollen : 5 : 9. + </p> + <p> + Primula vulgaris. Long-styled form, fertilised by own-form pollen during + two successive generations : 69 : 0. + </p> + <p> + Primula auricula. Short-styled form, fertilised by own-form pollen, is + said to produce during successive generations offspring in about the + following proportions : 25 : 75. + </p> + <p> + Primula Sinensis. Long-styled form, fertilised by own-form pollen during + two successive generations : 52 : 0. + </p> + <p> + Primula Sinensis. Long-styled form, fertilised by own-form pollen + (Hildebrand) : 14 : 3. + </p> + <p> + Primula Sinensis. Short-styled form, fertilised by own-form pollen: 1 : + 24. + </p> + <p> + Pulmonaria officinalis. Long-styled form, fertilised by own-form pollen : + 11 : 0. + </p> + <p> + Polygonum fagopyrum. Long-styled form, fertilised by own-form pollen : 45 + : 4. + </p> + <p> + Polygonum fagopyrum. Short-styled form, fertilised by own-form pollen : 13 + : 20. + </p> + <p> + TABLE 6.37. Nature of the offspring from illegitimately fertilised + trimorphic plants. + </p> + <p> + Column 1: Species and form. Column 2: Number of long-styled offspring. + Column 3: Number of mid-styled offspring. Column 4: Number of short-styled + offspring. + </p> + <p> + Lythrum salicaria. Long-styled form, fertilised by own-form pollen : 56 : + 0 : 0. + </p> + <p> + Lythrum salicaria. Short-styled form, fertilised by own-form pollen : 1 : + 0 : 8. + </p> + <p> + Lythrum salicaria. Short-styled form, fertilised by pollen from mid-length + stamens of long-styled form : 4 : 0 : 8. + </p> + <p> + Lythrum salicaria. Mid-styled form, fertilised by own-form pollen : 1 : 3 + : 0. + </p> + <p> + Lythrum salicaria. Mid-styled form, fertilised by pollen from shortest + stamens of long-styled form : 17 : 8 : 0. + </p> + <p> + Lythrum salicaria. Mid-styled form, fertilised by pollen from longest + stamens of short-styled form : 14 : 8 : 18. + </p> + <p> + Oxalis rosea. Long-styled form, fertilised during several generations by + own- form pollen, produced offspring in the ratio of : 100 : 0 : 0. + </p> + <p> + Oxalis hedysaroides. Mid-styled form, fertilised by own-form pollen : 0 : + 17 : 0. + </p> + <p> + We see in these two tables that the offspring from a form illegitimately + fertilised with pollen from another plant of the same form belong, with a + few exceptions, to the same form as their parents. For instance, out of + 162 seedlings from long-styled plants of Primula veris fertilised during + five generations in this manner, 156 were long-styled and only 6 + short-styled. Of 69 seedlings from P. vulgaris similarly raised all were + long-styled. So it was with 56 seedlings from the long-styled form of the + trimorphic Lythrum salicaria, and with numerous seedlings from the + long-styled form of Oxalis rosea. The offspring from the short-styled + forms of dimorphic plants, and from both the mid-styled and short-styled + forms of trimorphic plants, fertilised with their own-form pollen, + likewise tend to belong to the same form as their parents, but not in so + marked a manner as in the case of the long-styled form. There are three + cases in Table 6.37, in which a form of Lythrum was fertilised + illegitimately with pollen from another form; and in two of these cases + all the offspring belonged to the same two forms as their parents, whilst + in the third case they belonged to all three forms. + </p> + <p> + The cases hitherto given relate to illegitimate unions, but Hildebrand, + Fritz Muller, and myself found that a very large proportion, or all of the + offspring, from a legitimate union between any two forms of the trimorphic + species of Oxalis belonged to the same two forms. A similar rule therefore + holds good with unions which are fully fertile, as with those of an + illegitimate nature which are more or less sterile. When some of the + seedlings from a heterostyled plant belong to a different form from that + of its parents, Hildebrand accounts for the fact by reversion. For + instance, the long-styled parent-plant of Primula veris, from which the + 162 illegitimate seedlings in Table 6.36 were derived in the course of + five generations, was itself no doubt derived from the union of a + long-styled and a short-styled parent; and the 6 short-styled seedlings + may be attributed to reversion to their short-styled progenitor. But it is + a surprising fact in this case, and in other similar ones, that the number + of the offspring which thus reverted was not larger. The fact is rendered + still more strange in the particular instance of P. veris, for there was + no reversion until four or five generations of long-styled plants had been + raised. It may be seen in both tables that the long-styled form transmits + its form much more faithfully than does the short-styled, when both are + fertilised with their own-form pollen; and why this should be so it is + difficult to conjecture, unless it be that the aboriginal parent-form of + most heterostyled species possessed a pistil which exceeded its own + stamens considerably in length. (6/8. It may be suspected that this was + the case with Primula, judging from the length of the pistil in several + allied genera (see Mr. J. Scott ‘Journal of the Linnean Society Botany’ + volume 8 1864 page 85). Herr Breitenbach found many specimens of Primula + elatior growing in a state of nature with some flowers on the same plant + long-styled, others short-styled and others equal-styled; and the + long-styled form greatly preponderated in number; there being 61 of this + form to 9 of the short-styled and 15 of the equal-styled.) I will only add + that in a state of nature any single plant of a trimorphic species no + doubt produces all three forms; and this may be accounted for either by + its several flowers being separately fertilised by both the other forms, + as Hildebrand supposes; or by pollen from both the other forms being + deposited by insects on the stigma of the same flower. + </p> + <h3> + EQUAL-STYLED VARIETIES. + </h3> + <p> + The tendency of the dimorphic species of Primula to produce equal-styled + varieties deserves notice. Cases of this kind have been observed, as shown + in the last chapter, in no less than six species, namely, P. veris, + vulgaris, Sinensis, auricula, farinosa, and elatior. In the case of P. + veris, the stamens resemble in length, position and size of their + pollen-grains the stamens of the short-styled form; whilst the pistil + closely resembles that of the long-styled, but as it varies much in + length, one proper to the short-styled form appears to have been elongated + and to have assumed at the same time the functions of a long-styled + pistil. Consequently the flowers are capable of spontaneous self- + fertilisation of a legitimate nature and yield a full complement of seed, + or even more than the number produced by ordinary flowers legitimately + fertilised. With P. Sinensis, on the other hand, the stamens resemble in + all respects the shorter ones proper to the long-styled form, whilst the + pistil makes a near approach to that of the short-styled, but as it varies + in length, it would appear as if a long-styled pistil had been reduced in + length and modified in function. The flowers in this case as in the last + are capable of spontaneous legitimate fertilisation, and are rather more + productive than ordinary flowers legitimately fertilised. With P. auricula + and farinosa the stamens resemble those of the short-styled form in + length, but those of the long-styled in the size of their pollen-grains; + the pistil also resembles that of the long-styled, so that although the + stamens and pistil are of nearly equal length, and consequently pollen is + spontaneously deposited on the stigma, yet the flowers are not + legitimately fertilised and yield only a very moderate supply of seed. We + thus see, firstly, that equal-styled varieties have originated in various + ways, and, secondly, that the combination of the two forms in the same + flower differs in completeness. With P. elatior some of the flowers on the + same plant have become equal-styled, instead of all of them as in the + other species. + </p> + <p> + Mr. Scott has suggested that the equal-styled varieties arise through + reversion to the former homostyled condition of the genus. This view is + supported by the remarkable fidelity with which the equal-styled variation + is transmitted after it has once appeared. I have shown in Chapter 13 of + my ‘Variation of Animals and Plants under Domestication,’ that any cause + which disturbs the constitution tends to induce reversion, and it is + chiefly the cultivated species of Primula which become equal-styled. + Illegitimate fertilisation, which is an abnormal process, is likewise an + exciting cause; and with illegitimately descended long- styled plants of + P. Sinensis, I have observed the first appearance and subsequent stages of + this variation. With some other plants of P. Sinensis of similar parentage + the flowers appeared to have reverted to their original wild condition. + Again, some hybrids between P. veris and vulgaris were strictly + equal-styled, and others made a near approach to this structure. All these + facts support the view that this variation results, at least in part, from + reversion to the original state of the genus, before the species had + become heterostyled. On the other hand, some considerations indicate, as + previously remarked, that the aboriginal parent-form of Primula had a + pistil which exceeded the stamens in length. The fertility of the + equal-styled varieties has been somewhat modified, being sometimes greater + and sometimes less than that of a legitimate union. Another view, however, + may be taken with respect to the origin of the equal- styled varieties, + and their appearance may be compared with that of hermaphrodites amongst + animals which properly have their sexes separated; for the two sexes are + combined in a monstrous hermaphrodite in a somewhat similar manner as the + two sexual forms are combined in the same flower of an equal- styled + variety of a heterostyled species. + </p> + <h3> + FINAL REMARKS. + </h3> + <p> + The existence of plants which have been rendered heterostyled is a highly + remarkable phenomenon, as the two or three forms of the same undoubted + species differ not only in important points of structure, but in the + nature of their reproductive powers. As far as structure is concerned, the + two sexes of many animals and of some plants differ to an extreme degree; + and in both kingdoms the same species may consist of males, females, and + hermaphrodites. Certain hermaphrodite cirripedes are aided in their + reproduction by a whole cluster of what I have called complemental males, + which differ wonderfully from the ordinary hermaphrodite form. With ants + we have males and females, and two or three castes of sterile females or + workers. With Termites there are, as Fritz Muller has shown, both winged + and wingless males and females, besides the workers. But in none of these + cases is there any reason to believe that the several males or several + females of the same species differ in their sexual powers, except in the + atrophied condition of the reproductive organs in the workers of social + insects. Many hermaphrodite animals must unite for reproduction, but the + necessity of such union apparently depends solely on their structure. On + the other hand, with heterostyled dimorphic species there are two females + and two sets of males, and with trimorphic species three females and three + sets of males, which differ essentially in their sexual powers. We shall, + perhaps, best perceive the complex and extraordinary nature of the + marriage arrangements of a trimorphic plant by the following illustration. + Let us suppose that the individuals of the same species of ant always + lived in triple communities; and that in one of these, a large-sized + female (differing also in other characters) lived with six middle-sized + and six small-sized males; in the second community a middle-sized female + lived with six large- and six small-sized males; and in the third, a + small-sized female lived with six large- and six middle-sized males. Each + of these three females, though enabled to unite with any male, would be + nearly sterile with her own two sets of males, and likewise with two other + sets of males of the same size with her own which lived in the other two + communities; but she would be fully fertile when paired with a male of her + own size. Hence the thirty-six males, distributed by half-dozens in the + three communities, would be divided into three sets of a dozen each; and + these sets, as well as the three females, would differ from one another in + their reproductive powers in exactly the same manner as do the distinct + species of the same genus. But it is a still more remarkable fact that + young ants raised from any one of the three female ants, illegitimately + fertilised by a male of a different size would resemble in a whole series + of relations the hybrid offspring from a cross between two distinct + species of ants. They would be dwarfed in stature, and more or less, or + even utterly barren. Naturalists are so much accustomed to behold great + diversities of structure associated with the two sexes, that they feel no + surprise at almost any amount of difference; but differences in sexual + nature have been thought to be the very touchstone of specific + distinction. We now see that such sexual differences—the greater or + less power of fertilising and being fertilised—may characterise the + co-existing individuals of the same species, in the same manner as they + characterise and have kept separate those groups of individuals, produced + during the lapse of ages, which we rank and denominate as distinct + species. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0007" id="link2HCH0007"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER VII. POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + </h2> +<pre xml:space="preserve"> + The conversion in various ways of hermaphrodite into dioecious plants. + Heterostyled plants rendered dioecious. + Rubiaceae. + Verbenaceae. + Polygamous and sub-dioecious plants. + Euonymus. + Fragaria. + The two sub-forms of both sexes of Rhamnus and Epigaea. + Ilex. + Gyno-dioecious plants. + Thymus, difference in fertility of the hermaphrodite and female individuals. + Satureia. + Manner in which the two forms probably originated. + Scabiosa and other gyno-dioecious plants. + Difference in the size of the corolla in the forms of polygamous, dioecious, and + gyno-dioecious plants. +</pre> + <p> + There are several groups of plants in which all the species are dioecious, + and these exhibit no rudiments in the one sex of the organs proper to the + other. About the origin of such plants nothing is known. It is possible + that they may be descended from ancient lowly organised forms, which had + from the first their sexes separated; so that they have never existed as + hermaphrodites. There are, however, many other groups of species and + single ones, which from being allied on all sides to hermaphrodites, and + from exhibiting in the female flowers plain rudiments of male organs, and + conversely in the male flowers rudiments of female organs, we may feel + sure are descended from plants which formerly had the two sexes combined + in the same flower. It is a curious and obscure problem how and why such + hermaphrodites have been rendered bisexual. + </p> + <p> + If in some individuals of a species the stamens alone were to abort, + females and hermaphrodites would be left existing, of which many instances + occur; and if the female organs of the hermaphrodite were afterwards to + abort, the result would be a dioecious plant. Conversely, if we imagine + the female organs alone to abort in some individuals, males and + hermaphrodites would be left; and the hermaphrodites might afterwards be + converted into females. + </p> + <p> + In other cases, as in that of the common Ash-tree mentioned in the + Introduction, the stamens are rudimentary in some individuals, the pistils + in others, others again remaining as hermaphrodites. Here the modification + of the two sets of organs appears to have occurred simultaneously, as far + as we can judge from their equal state of abortion. If the hermaphrodites + were supplanted by the individuals having separated sexes, and if these + latter were equalised in number, a strictly dioecious species would be + formed. + </p> + <p> + There is much difficulty in understanding why hermaphrodite plants should + ever have been rendered dioecious. There would be no such conversion, + unless pollen was already carried regularly by insects or by the wind from + one individual to the other; for otherwise every step towards + dioeciousness would lead towards sterility. As we must assume that + cross-fertilisation was assured before an hermaphrodite could be changed + into a dioecious plant, we may conclude that the conversion has not been + effected for the sake of gaining the great benefits which follow from + cross-fertilisation. We can, however, see that if a species were subjected + to unfavourable conditions from severe competition with other plants, or + from any other cause, the production of the male and female elements and + the maturation of the ovules by the same individual, might prove too great + a strain on its powers, and the separation of the sexes would then be + highly beneficial. This, however, would be effected only under the + contingency of a reduced number of seeds, produced by the females alone, + being sufficient to keep up the stock. + </p> + <p> + There is another way of looking at the subject which partially removes a + difficulty that appears at first sight insuperable, namely, that during + the conversion of an hermaphrodite into a dioecious plant, the male organs + must abort in some individuals and the female organs in others. Yet as all + are exposed to the same conditions, it might have been expected that those + which varied would tend to vary in the same manner. As a general rule only + a few individuals of a species vary simultaneously in the same manner; and + there is no improbability in the assumption that some few individuals + might produce larger seeds than the average, better stocked with + nourishment. If the production of such seeds were highly beneficial to a + species, and on this head there can be little doubt, the variety with the + large seeds would tend to increase. (7/1. See the facts given in ‘The + Effects of Cross and Self-fertilisation’ page 353.) But in accordance with + the law of compensation we might expect that the individuals which + produced such seeds would, if living under severe conditions, tend to + produce less and less pollen, so that their anthers would be reduced in + size and might ultimately become rudimentary. This view occurred to me + owing to a statement by Sir J.E. Smith that there are female and + hermaphrodite plants of Serratula tinctoria, and that the seeds of the + former are larger than those of the hermaphrodite form. (7/2. + ‘Transactions of the Linnean Society’ volume 8 page 600.) It may also be + worth while to recall the case of the mid-styled form of Lythrum + salicaria, which produces a larger number of seeds than the other forms, + and has somewhat smaller pollen-grains which have less fertilising power + than those of the corresponding stamens in the other two forms; but + whether the larger number of seeds is the indirect cause of the diminished + power of the pollen, or vice versa, I know not. As soon as the anthers in + a certain number of individuals became reduced in size in the manner just + suggested or from any other cause, the other individuals would have to + produce a larger supply of pollen; and such increased development would + tend to reduce the female organs through the law of compensation, so as + ultimately to leave them in a rudimentary condition; and the species would + then become dioecious. + </p> + <p> + Instead of the first change occurring in the female organs we may suppose + that the male ones first varied, so that some individuals produced a + larger supply of pollen. This would be beneficial under certain + circumstances, such as a change in the nature of the insects which visited + the flowers, or in their becoming more anemophilous, for such plants + require an enormous quantity of pollen. The increased action of the male + organs would tend to affect through compensation the female organs of the + same flower; and the final result would be that the species would consist + of males and hermaphrodites. But it is of no use considering this case and + other analogous ones, for, as stated in the Introduction, the coexistence + of male and hermaphrodite plants is excessively rare. + </p> + <p> + It is no valid objection to the foregoing views that changes of such a + nature would be effected with extreme slowness, for we shall presently see + good reason to believe that various hermaphrodite plants have become or + are becoming dioecious by many and excessively small steps. In the case of + polygamous species, which exist as males, females and hermaphrodites, the + latter would have to be supplanted before the species could become + strictly dioecious; but the extinction of the hermaphrodite form would + probably not be difficult, as a complete separation of the sexes appears + often to be in some way beneficial. The males and females would also have + to be equalised in number, or produced in some fitting proportion for the + effectual fertilisation of the females. + </p> + <p> + There are, no doubt, many unknown laws which govern the suppression of the + male or female organs in hermaphrodite plants, quite independently of any + tendency in them to become monoecious, dioecious, or polygamous. We see + this in those hermaphrodites which from the rudiments still present + manifestly once possessed more stamens or pistils than they now do,—even + twice as many, as a whole verticil has often been suppressed. Robert Brown + remarks that “the order of reduction or abortion of the stamina in any + natural family may with some confidence be predicted,” by observing in + other members of the family, in which their number is complete, the order + of the dehiscence of the anthers (7/3. ‘Transactions of the Linnean + Society’ volume 12 page 98 or ‘Miscellaneous Works’ volume 2 pages + 278-81.); for the lesser permanence of an organ is generally connected + with its lesser perfection, and he judges of perfection by priority of + development. He also states that whenever there is a separation of the + sexes in an hermaphrodite plant, which bears flowers on a simple spike, it + is the females which expand first; and this he likewise attributes to the + female sex being the more perfect of the two, but why the female should be + thus valued he does not explain. + </p> + <p> + Plants under cultivation or changed conditions of life frequently become + sterile; and the male organs are much oftener affected than the female, + though the latter alone are sometimes affected. The sterility of the + stamens is generally accompanied by a reduction in their size; and we may + feel sure, from a wide-spread analogy, that both the male and female + organs would become rudimentary in the course of many generations if they + failed altogether to perform their proper functions. According to Gartner, + if the anthers on a plant are contabescent (and when this occurs it is + always at a very early period of growth) the female organs are sometimes + precociously developed. (7/4. ‘Beitrage zur Kenntniss’ etc. page 117 et + seq. The whole subject of the sterility of plants from various causes has + been discussed in my ‘Variation of Animals and Plants under Domestication’ + chapter 18 2nd edition volume 2 pages 146-56.) I mention this case as it + appears to be one of compensation. So again is the well- known fact, that + plants which increase largely by stolons or other such means are often + utterly barren, with a large proportion of their pollen-grains in a + worthless condition. + </p> + <p> + Hildebrand has shown that with hermaphrodite plants which are strongly + proterandrous, the stamens in the flowers which open first sometimes + abort; and this seems to follow from their being useless, as no pistils + are then ready to be fertilised. Conversely the pistils in the flowers + which open last sometimes abort; as when they are ready for fertilisation + all the pollen has been shed. He further shows by means of a series of + gradations amongst the Compositae, that a tendency from the causes just + specified to produce either male or female florets, sometimes spreads to + all the florets on the same head, and sometimes even to the whole plant + (7/5. ‘Ueber die Geschlechtsverhaltnisse bei den Compositen’ 1869 page + 89.); and in this latter case the species becomes dioecious. In those rare + instances mentioned in the Introduction, in which some of the individuals + of both monoecious and hermaphrodite plants are proterandrous, others + being proterogynous, their conversion into a dioecious condition would + probably be much facilitated, as they already consist of two bodies of + individuals, differing to a certain extent in their reproductive + functions. + </p> + <p> + Dimorphic heterostyled plants offer still more strongly marked facilities + for becoming dioecious; for they likewise consist of two bodies of + individuals in approximately equal numbers, and what probably is more + important, both the male and female organs differ in the two forms, not + only in structure but in function, in nearly the same manner as do the + reproductive organs of two distinct species belonging to the same genus. + Now if two species are subjected to changed conditions, though of the same + nature, it is notorious that they are often affected very differently; + therefore the male organs, for instance, in one form of a heterostyled + plant might be affected by those unknown causes which induce abortion, + differently from the homologous but functionally different organs in the + other form; and so conversely with the female organs. Thus the great + difficulty before alluded to is much lessened in understanding how any + cause whatever could lead to the simultaneous reduction and ultimate + suppression of the male organs in half the individuals of a species, and + of the female organs in the other half, whilst all were subjected to + exactly the same conditions of life. + </p> + <p> + That such reduction or suppression has occurred in some heterostyled + plants is almost certain. The Rubiaceae contain more heterostyled genera + than any other family, and from their wide distribution we may infer that + many of them became heterostyled at a remote period, so that there will + have been ample time for some of the species to have been since rendered + dioecious. Asa Gray informs me that Coprosma is dioecious, and that it is + closely allied through Nertera to Mitchella, which as we know is a + heterostyled dimorphic species. In the male flowers of Coprosma the + stamens are exserted, and in the female flowers the stigmas; so that, + judging from the affinities of the above three genera, it seems probable + that an ancient short-styled form bearing long stamens with large anthers + and large pollen-grains (as in the case of several Rubiaceous genera) has + been converted into the male Coprosma; and that an ancient long-styled + form with short stamens, small anthers and small pollen-grains has been + converted into the female form. But according to Mr. Meehan, Mitchella + itself is dioecious in some districts; for he says that one form has small + sessile anthers without a trace of pollen, the pistil being perfect; while + in another form the stamens are perfect and the pistil rudimentary. (7/6. + ‘Proceedings of the Academy of Sciences of Philadelphia’ July 28, 1868 + page 183.) He adds that plants may be observed in the autumn bearing an + abundant crop of berries, and others without a single one. Should these + statements be confirmed, Mitchella will be proved to be heterostyled in + one district and dioecious in another. + </p> + <p> + Asperula is likewise a Rubiaceous genus, and from the published + description of the two forms of A. scoparia, an inhabitant of Tasmania, I + did not doubt that it was heterostyled; but on examining some flowers sent + me by Dr. Hooker they proved to be dioecious. The male flowers have large + anthers and a very small ovarium, surmounted by a mere vestige of a stigma + without any style; whilst the female flowers possess a large ovarium, the + anthers being rudimentary and apparently quite destitute of pollen. + Considering how many Rubiaceous genera are heterostyled, it is a + reasonable suspicion that this Asperula is descended from a heterostyled + progenitor; but we should be cautious on this head, for there is no + improbability in a homostyled Rubiaceous plant becoming dioecious. + Moreover, in an allied plant, Galium cruciatum, the female organs have + been suppressed in most of the lower flowers, whilst the upper ones remain + hermaphrodite; and here we have a modification of the sexual organs + without any connection with heterostylism. + </p> + <p> + Mr. Thwaites informs me that in Ceylon various Rubiaceous plants are + heterostyled; but in the case of Discospermum one of the two forms is + always barren, the ovary containing about two aborted ovules in each + loculus; whilst in the other form each loculus contains several perfect + ovules; so that the species appears to be strictly dioecious. + </p> + <p> + Most of the species of the South American genus Aegiphila, a member of the + Verbenaceae, apparently are heterostyled; and both Fritz Muller and myself + thought that this was the case with Ae. obdurata, so closely did its + flowers resemble those of the heterostyled species. But on examining the + flowers, the anthers of the long-styled form were found to be entirely + destitute of pollen and less than half the size of those in the other + form, the pistil being perfectly developed. On the other hand, in the + short-styled form the stigmas are reduced to half their proper length, + having also an abnormal appearance; whilst the stamens are perfect. This + plant therefore is dioecious; and we may, I think, conclude that a + short-styled progenitor, bearing long stamens exserted beyond the corolla, + has been converted into the male; and a long-styled progenitor with fully + developed stigmas into the female. + </p> + <p> + From the number of bad pollen-grains in the small anthers of the short + stamens of the long-styled form of Pulmonaria angustifolia, we may suspect + that this form is tending to become female; but it does not appear that + the other or short-styled form is becoming more masculine. Certain + appearances countenance the belief that the reproductive system of Phlox + subulata is likewise undergoing a change of some kind. + </p> + <p> + I have now given the few cases known to me in which heterostyled plants + appear with some considerable degree of probability to have been rendered + dioecious. Nor ought we to expect to find many such cases, for the number + of heterostyled species is by no means large, at least in Europe, where + they could hardly have escaped notice. Therefore the number of dioecious + species which owe their origin to the transformation of heterostyled + plants is probably not so large as might have been anticipated from the + facilities which they offer for such conversion. + </p> + <p> + In searching for cases like the foregoing ones, I have been led to examine + some dioecious or sub-dioecious plants, which are worth describing, + chiefly as they show by what fine gradations hermaphrodites may pass into + polygamous or dioecious species. + </p> + <h3> + POLYGAMOUS, DIOECIOUS, AND SUB-DIOECIOUS PLANTS. + </h3> + <p> + Euonymus Europaeus (CELASTRINEAE). + </p> + <p> + (Figure 7.12. Euonymus Europaeus Left: Hermaphrodite or male. Right: + Female.) + </p> + <p> + The spindle-tree is described in all the botanical works which I have + consulted as an hermaphrodite. Asa Gray speaks of the flowers of the + American species as perfect, whilst those in the allied genus Celastrus + are said to be “polygamo- dioecious.” If a number of bushes of our + spindle-tree be examined, about half will be found to have stamens equal + in length to the pistil, with well-developed anthers; the pistil being + likewise to all appearance well developed. The other half have a perfect + pistil, with the stamens short, bearing rudimentary anthers destitute of + pollen; so that these bushes are females. All the flowers on the same + plant present the same structure. The female corolla is smaller than that + on the polleniferous bushes. The two forms are shown in Figure 7.12. + </p> + <p> + I did not at first doubt that this species existed under an hermaphrodite + and female form; but we shall presently see that some of the bushes which + appear to be hermaphrodites never produce fruit, and these are in fact + males. The species, therefore, is polygamous in the sense in which I use + the term, and trioecious. The flowers are frequented by many Diptera and + some small Hymenoptera for the sake of the nectar secreted by the disc, + but I did not see a single bee at work; nevertheless the other insects + sufficed to fertilise effectually female bushes growing at a distance of + even 30 yards from any polleniferous bush. + </p> + <p> + The small anthers borne by the short stamens of the female flowers are + well formed and dehisce properly, but I could never find in them a single + grain of pollen. It is somewhat difficult to compare the length of the + pistils in the two forms, as they vary somewhat in this respect and + continue to grow after the anthers are mature. The pistils, therefore, in + old flowers on a polleniferous plant are often of considerably greater + length than in young flowers on a female plant. On this account the + pistils from five flowers from so many hermaphrodite or male bushes were + compared with those from five female bushes, before the anthers had + dehisced and whilst the rudimentary ones were of a pink colour and not at + all shrivelled. These two sets of pistils did not differ in length, or if + there was any difference those of the polleniferous flowers were rather + the longest. In one hermaphrodite plant, which produced during three years + very few and poor fruit, the pistil much exceeded in length the stamens + bearing perfect and as yet closed anthers; and I never saw such a case on + any female plant. It is a surprising fact that the pistil in the male and + in the semi-sterile hermaphrodite flowers has not been reduced in length, + seeing that it performs very poorly or not at all its proper function. The + stigmas in the two forms are exactly alike; and in some of the + polleniferous plants which never produced any fruit I found that the + surface of the stigma was viscid, so that pollen-grains adhered to it and + had exserted their tubes. The ovules are of equal size in the two forms. + Therefore the most acute botanist, judging only by structure, would never + have suspected that some of the bushes were in function exclusively males. + </p> + <p> + Thirteen bushes growing near one another in a hedge consisted of eight + females quite destitute of pollen and of five hermaphrodites with + well-developed anthers. In the autumn the eight females were well covered + with fruit, excepting one, which bore only a moderate number. Of the five + hermaphrodites, one bore a dozen or two fruits, and the remaining four + bushes several dozen; but their number was as nothing compared with those + on the female bushes, for a single branch, between two and three feet in + length, from one of the latter, yielded more than any one of the + hermaphrodite bushes. The difference in the amount of fruit produced by + the two sets of bushes is all the more striking, as from the sketches + above given it is obvious that the stigmas of the polleniferous flowers + can hardly fail to receive their own pollen; whilst the fertilisation of + the female flowers depends on pollen being brought to them by flies and + the smaller Hymenoptera, which are far from being such efficient carriers + as bees. + </p> + <p> + I now determined to observe more carefully during successive seasons some + bushes growing in another place about a mile distant. As the female bushes + were so highly productive, I marked only two of them with the letters A + and B, and five polleniferous bushes with the letters C to G. I may + premise that the year 1865 was highly favourable for the fruiting of all + the bushes, especially for the polleniferous ones, some of which were + quite barren except under such favourable conditions. The season of 1864 + was unfavourable. In 1863 the female A produced “some fruit;” in 1864 only + 9; and in 1865, 97 fruit. The female B in 1863 was “covered with fruit;” + in 1864 it bore 28; and in 1865 “innumerable very fine fruits.” I may add, + that three other female trees growing close by were observed, but only + during 1863, and they then bore abundantly. With respect to the + polleniferous bushes, the one marked C did not bear a single fruit during + the years 1863 and 1864, but during 1865 it produced no less than 92 + fruit, which, however, were very poor. I selected one of the finest + branches with 15 fruit, and these contained 20 seeds, or on an average + 1.33 per fruit. I then took by hazard 15 fruit from an adjoining female + bush, and these contained 43 seeds; that is, more than twice as many, or + on an average 2.86 per fruit. Many of the fruits from the female bushes + included four seeds, and only one had a single seed; whereas not one fruit + from the polleniferous bushes contained four seeds. Moreover when the two + lots of seeds were compared, it was manifest that those from the female + bushes were the larger. The second polleniferous bush, D, bore in 1863 + about two dozen fruit,—in 1864 only 3 very poor fruit, each + containing a single seed,—and in 1865, 20 equally poor fruit. + Lastly, the three polleniferous bushes, E, F, and G, did not produce a + single fruit during the three years 1863, 1864, and 1865. + </p> + <p> + We thus see that the female bushes differ somewhat in their degree of + fertility, and the polleniferous ones in the most marked manner. We have a + perfect gradation from the female bush, B, which in 1865 was covered with + “innumerable fruits,”—through the female A, which produced during + the same year 97,—through the polleniferous bush C, which produced + this year 92 fruits, these, however, containing a very low average number + of seeds of small size,—through the bush D, which produced only 20 + poor fruit,—to the three bushes, E, F, and G, which did not this + year, or during the two previous years, produce a single fruit. If these + latter bushes and the more fertile female ones were to supplant the + others, the spindle-tree would be as strictly dioecious in function as any + plant in the world. This case appears to me very interesting, as showing + how gradually an hermaphrodite plant may be converted into a dioecious + one. (7/7. According to Fritz Muller ‘Botanische Zeitung’ 1870 page 151, a + Chamissoa (Amaranthaceae) in Southern Brazil is in nearly the same state + as our Euonymus. The ovules are equally developed in the two forms. In the + female the pistil is perfect, whilst the anthers are entirely destitute of + pollen. In the polleniferous form, the pistil is short and the stigmas + never separate from one another, so that, although their surfaces are + covered with fairly well-developed papillae, they cannot be fertilised, + these latter plants do not commonly yield any fruit, and are therefore in + function males. Nevertheless, on one occasion Fritz Muller found flowers + of this kind in which the stigmas had separated, and they produced some + fruit.) + </p> + <p> + Seeing how general it is for organs which are almost or quite functionless + to be reduced in size, it is remarkable that the pistils of the + polleniferous plants should equal or even exceed in length those of the + highly fertile female plants. This fact formerly led me to suppose that + the spindle-tree had once been heterostyled; the hermaphrodite and male + plants having been originally long- styled, with the pistils since reduced + in length, but with the stamens retaining their former dimensions; whilst + the female plant had been originally short- styled, with the pistil in its + present state, but with the stamens since greatly reduced and rendered + rudimentary. A conversion of this kind is at least possible, although it + is the reverse of that which appears actually to have occurred with some + Rubiaceous genera and Aegiphila; for with these plants the short-styled + form has become the male, and the long-styled the female. It is, however, + a more simple view that sufficient time has not elapsed for the reduction + of the pistil in the male and hermaphrodite flowers of our Euonymus; + though this view does not account for the pistils in the polleniferous + flowers being sometimes longer than those in the female flowers. + </p> + <p> + Fragaria vesca, Virginiana, chiloensis, etc. (ROSACEAE). + </p> + <p> + A tendency to the separation of the sexes in the cultivated strawberry + seems to be much more strongly marked in the United States than in Europe; + and this appears to be the result of the direct action of climate on the + reproductive organs. In the best account which I have seen, it is stated + that many of the varieties in the United States consist of three forms, + namely, females, which produce a heavy crop of fruit,—of + hermaphrodites, which “seldom produce other than a very scanty crop of + inferior and imperfect berries,”—and of males, which produce none. + (7/8. Mr. Leonard Wray ‘Gardener’s Chronicle’ 1861 page 716.) The most + skilful cultivators plant “seven rows of female plants, then one row of + hermaphrodites, and so on throughout the field.” The males bear large, the + hermaphrodites mid-sized, and the females small flowers. The latter plants + produce few runners, whilst the two other forms produce many; + consequently, as has been observed both in England and in the United + States, the polleniferous forms increase rapidly and tend to supplant the + females. We may therefore infer that much more vital force is expended in + the production of ovules and fruit than in the production of pollen. + Another species, the Hautbois strawberry (F. elatior), is more strictly + dioecious; but Lindley made by selection an hermaphrodite stock. (7/9. For + references and further information on this subject, see ‘Variation under + Domestication’ chapter 10 2nd edition volume 1 page 375.) + </p> + <p> + Rhamnus catharticus (RHAMNEAE). + </p> + <p> + (FIGURE 7.13. Rhamnus catharticus (from Caspary.) Left: Long-styled male. + Right: Short-styled male.) + </p> + <p> + (FIGURE 7.14. Rhamnus catharticus. Left: Long-styled female. Right: + Short-styled female.) + </p> + <p> + This plant is well known to be dioecious. My son William found the two + sexes growing in about equal numbers in the Isle of Wight, and sent me + specimens, together with observations on them. Each sex consists of two + sub-forms. The two forms of the male differ in their pistils: in some + plants it is quite small, without any distinct stigma; in others the + pistil is much more developed, with the papillae on the stigmatic surfaces + moderately large. The ovules in both kinds of males are in an aborted + condition. On my mentioning this case to Professor Caspary, he examined + several male plants in the botanic gardens at Konigsberg, where there were + no females, and sent me the drawings in Figure 7.13. + </p> + <p> + In the English plants the petals are not so greatly reduced as represented + in this drawing. My son observed that those males which had their pistils + moderately well-developed bore slightly larger flowers, and, what is very + remarkable, their pollen-grains exceeded by a little in diameter those of + the males with greatly reduced pistils. This fact is opposed to the belief + that the present species was once heterostyled; for in this case it might + have been expected that the shorter-styled plants would have had larger + pollen-grains. + </p> + <p> + In the female plants the stamens are in an extremely rudimentary + condition, much more so than the pistils in the males. The pistil varies + considerably in length in the female plants, so that they may be divided + into two sub-forms according to the length of this organ. Both the petals + and sepals are decidedly smaller in the females than in the males; and the + sepals do not turn downwards, as do those of the male flowers when mature. + All the flowers on the same male or same female bush, though subject to + some variability, belong to the same sub-form; and as my son never + experienced any difficulty in deciding under which class a plant ought to + be included, he believes that the two sub-forms of the same sex do not + graduate into one another. I can form no satisfactory theory how the four + forms of this plant originated. + </p> + <p> + Rhamnus lanceolatus. + </p> + <p> + This plant exists in the United States, as I am informed by Professor Asa + Gray, under two hermaphrodite forms. In the one, which may be called the + short-styled, the flowers are sub-solitary, and include a pistil about + two-thirds or only half as long as that in the other form; it has also + shorter stigmas. The stamens are of equal length in the two forms; but the + anthers of the short-styled contain rather less pollen, as far as I could + judge from a few dried flowers. My son compared the pollen-grains from the + two forms, and those from the long-styled flowers were to those from the + short-styled, on an average from ten measurements, as 10 to 9 in diameter; + so that the two hermaphrodite forms of this species resemble in this + respect the two male forms of R. catharticus. The long-styled form is not + so common as the short-styled. The latter is said by Asa Gray to be the + more fruitful of the two, as might have been expected from its appearing + to produce less pollen, and from the grains being of smaller size; it is + therefore the more highly feminine of the two. The long-styled form + produces a greater number of flowers, which are clustered together instead + of being sub- solitary; they yield some fruit, but as just stated are less + fruitful than the other form, so that this form appears to be the more + masculine of the two. On the supposition that we have here an + hermaphrodite plant becoming dioecious, there are two points deserving + notice; firstly, the greater length of the pistil in the incipient male + form; and we have met with a nearly similar case in the male and + hermaphrodite forms of Euonymus compared with the females. Secondly, the + larger size of the pollen-grains in the more masculine flowers, which + perhaps may be attributed to their having retained their normal size; + whilst those in the incipient female flowers have been reduced. The + long-styled form of R. lanceolatus seems to correspond with the males of + R. catharticus which have a longer pistil and larger pollen-grains. Light + will perhaps be thrown on the nature of the forms in this genus, as soon + as the power of both kinds of pollen on both stigmas is ascertained. + Several other species of Rhamnus are said to be dioecious or + sub-dioecious. (7/10. Lecoq ‘Geogr. Bot.’ tome 5 1856 pages 420- 26.) On + the other hand, R. frangula is an ordinary hermaphrodite, for my son found + a large number of bushes all bearing an equal profusion of fruit. + </p> + <p> + Epigaea repens (ERICACEAE). + </p> + <p> + This plant appears to be in nearly the same state as Rhamnus catharticus. + It is described by Asa Gray as existing under four forms. (7/11. ‘American + Journal of Science’ July 1876. Also ‘The American Naturalist’ 1876 page + 490.) (1.) With long style, perfect stigma, and short abortive stamens. + (2.) Shorter style, but with stigma equally perfect, short abortive + stamens. These two female forms amounted to 20 per cent of the specimens + received from one locality in Maine; but all the fruiting specimens + belonged to the first form. (3.) Style long, as in Number 1, but with + stigma imperfect, stamens perfect. (4.) Style shorter than in the last, + stigma imperfect, stamens perfect. These two latter forms are evidently + males. Therefore, as Asa Gray remarks, “the flowers may be classified into + two kinds, each with two modifications; the two main kinds characterised + by the nature and perfection of the stigma, along with more or less + abortion of the stamens; their modifications, by the length of the style.” + Mr. Meehan has described the extreme variability of the corolla and calyx + in this plant, and shows that it is dioecious. (7/12. “Variations in + Epigaea repens” ‘Proc. Acad. Nat. Soc. of Philadelphia’ May 1868 page + 153.) It is much to be wished that the pollen-grains in the two male forms + should be compared, and their fertilising power tried on the two female + forms. + </p> + <p> + Ilex aquifolium (AQUIFOLIACEAE). + </p> + <p> + In the several works which I have consulted, one author alone says that + the holly is dioecious. (7/13. Vaucher ‘Hist. Phys. des Plantes d’Europe’ + 1841 tome 2 page 11.) During several years I have examined many plants, + but have never found one that was really hermaphrodite. I mention this + genus because the stamens in the female flowers, although quite destitute + of pollen, are but slightly and sometimes not at all shorter than the + perfect stamens in the male flowers. In the latter the ovary is small and + the pistil is almost aborted. The filaments of the perfect stamens adhere + for a greater length to the petals than in the female flowers. The corolla + of the latter is rather smaller than that of the male. The male trees + produce a greater number of flowers than the females. Asa Gray informs me + that I. opaca, which represents in the United States our common holly, + appears (judging from dried flowers) to be in a similar state; and so it + is, according to Vaucher, with several other but not with all the species + of the genus. + </p> + <h3> + GYNO-DIOECIOUS PLANTS. + </h3> + <p> + The plants hitherto described either show a tendency to become dioecious, + or apparently have become so within a recent period. But the species now + to be considered consist of hermaphrodites and females without males, and + rarely show any tendency to be dioecious, as far as can be judged from + their present condition and from the absence of species having separated + sexes within the same groups. Species belonging to the present class, + which I have called gyno- dioecious, are found in various widely distinct + families; but are much more common in the Labiatae (as has long been + noticed by botanists) than in any other group. Such cases have been + noticed by myself in Thymus serpyllum and vulgaris, Satureia hortensis, + Origanum vulgare, and Mentha hirsuta; and by others in Nepeta glechoma, + Mentha vulgaris and aquatica, and Prunella vulgaris. In these two latter + species the female form, according to H. Muller, is infrequent. To these + must be added Dracocephalum Moldavicum, Melissa officinalis and + clinopodium, and Hyssopus officinalis. (7/14. H. Muller ‘Die Befruchtung + der Blumen’ 1873 and ‘Nature’ 1873 page 161. Vaucher ‘Plantes d’Europe’ + tome 3 page 611. For Dracocephalum Schimper as quoted by Braun ‘Annals and + Magazine of Natural History’ 2nd series volume 18 1856 page 380. Lecoq + ‘Geographie Bot. de l’Europe’ tome 8 pages 33, 38, 44, etc. Both Vaucher + and Lecoq were mistaken in thinking that several of the plants named in + the text are dioecious. They appear to have assumed that the hermaphrodite + form was a male; perhaps they were deceived by the pistil not becoming + fully developed and of proper length until some time after the anthers + have dehisced.) In the two last-named plants the female form likewise + appears to be rare, for I raised many seedlings of both, and all were + hermaphrodites. It has already been remarked in the Introduction that + andro-dioecious species, as they may be called, or those which consist of + hermaphrodites and males, are extremely rare, or hardly exist. + </p> + <p> + Thymus serpyllum. + </p> + <p> + The hermaphrodite plants present nothing particular in the state of their + reproductive organs; and so it is in all the following cases. The females + of the present species produce rather fewer flowers and have somewhat + smaller corollas than the hermaphrodites; so that near Torquay, where this + plant abounds, I could, after a little practice, distinguish the two forms + whilst walking quickly past them. According to Vaucher, the smaller size + of the corolla is common to the females of most or all of the + above-mentioned Labiatae. The pistil of the female, though somewhat + variable in length, is generally shorter, with the margins of the stigma + broader and formed of more lax tissue, than that of the hermaphrodite. The + stamens in the female vary excessively in length; they are generally + enclosed within the tube of the corolla, and their anthers do not contain + any sound pollen; but after long search I found a single plant with the + stamens moderately exserted, and their anthers contained a very few + full-sized grains, together with a multitude of minute empty ones. In some + females the stamens are extremely short, and their minute anthers, though + divided into the two normal cells or loculi, contained not a trace of + pollen: in others again the anthers did not exceed in diameter the + filaments which supported them, and were not divided into two loculi. + Judging from what I have myself seen and from the descriptions of others, + all the plants in Britain, Germany, and near Mentone, are in the state + just described; and I have never found a single flower with an aborted + pistil. It is, therefore, remarkable that, according to Delpino, this + plant near Florence is generally trimorphic, consisting of males with + aborted pistils, females with aborted stamens, and hermaphrodites. (7/15. + ‘Sull’ Opera, la Distribuzione dei Sessi nelle Piante, etc’ 1867 page 7. + With respect to Germany H. Muller ‘Die Befruchtung etc.’ page 327.) + </p> + <p> + I found it very difficult to judge of the proportional number of the two + forms at Torquay. They often grow mingled together, but with large patches + consisting of one form alone. At first I thought that the two were nearly + equal in number; but on examining every plant which grew close to the edge + of a little overhanging dry cliff, about 200 yards in length, I found only + 12 females; all the rest, some hundreds in number, being hermaphrodites. + Again, on an extensive gently sloping bank, which was so thickly covered + with this plant that, viewed from the distance of half a mile it appeared + of a pink colour, I could not discover a single female. Therefore the + hermaphrodites must greatly exceed in number the females, at least in the + localities examined by me. A very dry station apparently favours the + presence of the female form. With some of the other above-named Labiatae + the nature of the soil or climate likewise seems to determine the presence + of one or both forms; thus with Nepeta glechoma, Mr. Hart found in 1873 + that all the plants which he examined near Kilkenny in Ireland were + females; whilst all near Bath were hermaphrodites, and near Hertford both + forms were present, but with a preponderance of hermaphrodites. (7/16. + ‘Nature’ June 1873 page 162.) It would, however, be a mistake to suppose + that the nature of the conditions determines the form independently of + inheritance; for I sowed in the same small bed seeds of T. serpyllum, + gathered at Torquay from the female alone, and these produced an abundance + of both forms. There is every reason to believe, from large patches + consisting of the same form, that the same individual plant, however much + it may spread, always retains the same form. In two distant gardens I + found masses of the lemon-thyme (T. citriodorus, a var. of T. serpyllum, + which I was informed had grown there during many years, and every flower + was female. + </p> + <p> + With respect to the fertility of the two forms, I marked at Torquay a + large hermaphrodite and a large female plant of nearly equal sizes, and + when the seeds were ripe I gathered all the heads. The two heaps were of + very nearly equal bulk; but the heads from the female plant numbered 160, + and their seeds weighed 8.7 grains; whilst those from the hermaphrodite + plant numbered 200, and their seeds weighed only 4.9 grains; so that the + seeds from the female plant were to those from the hermaphrodite as 100 to + 56 in weight. If the relative weight of the seeds from an equal number of + flower-heads from the two forms be compared, the ratio is as 100 for the + female to 45 for the hermaphrodite form. + </p> + <p> + Thymus vulgaris. + </p> + <p> + (FIGURE 7.15. Thymus vulgaris (magnified). Left: Hermaphrodite. Right: Two + females.) + </p> + <p> + The common garden thyme resembles in almost every respect T. serpyllum. + The same slight differences between the stigmas of the two forms could be + perceived. In the females the stamens are not generally quite so much + reduced as in the same form of T. serpyllum. In some specimens sent me + from Mentone by Mr. Moggridge, together with the sketches in Figure 7.15, + the anthers of the female, though small, were well formed, but they + contained very little pollen, and not a single sound grain could be + detected. Eighteen seedlings were raised from purchased seed, sown in the + same small bed; and these consisted of seven hermaphrodites and eleven + females. They were left freely exposed to the visits of bees, and no doubt + every female flower was fertilised; for on placing under the microscope a + large number of stigmas from female plants, not one could be found to + which pollen-grains of thyme did not adhere. The seeds were carefully + collected from the eleven female plants, and they weighed 98.7 grains; and + those from the seven hermaphrodites 36.5 grains. This gives for an equal + number of plants the ratio of 100 to 58; and we here see, as in the last + case, how much more fertile the females are than the hermaphrodites. These + two lots of seeds were sown separately in two adjoining beds, and the + seedlings from both the hermaphrodite and female parent-plants consisted + of both forms. + </p> + <p> + Satureia hortensis. + </p> + <p> + Eleven seedlings were raised in separate pots in a hotbed and afterwards + kept in the greenhouse. They consisted of ten females and of a single + hermaphrodite. Whether or not the conditions to which they had been + subjected caused the great excess of females I do not know. In the females + the pistil is rather longer than that of the hermaphrodite, and the + stamens are mere rudiments, with minute colourless anthers destitute of + pollen. The windows of the greenhouse were left open, and the flowers were + incessantly visited by humble and hive bees. Although the ten females did + not produce a single grain of pollen, yet they were all thoroughly well + fertilised by the one hermaphrodite plant, and this is an interesting + fact. It should be added that no other plant of this species grew in my + garden. The seeds were collected from the finest female plant, and they + weighed 78 grains; whilst those from the hermaphrodite, which was a rather + larger plant than the female, weighed only 33.2 grains; that is, in the + ratio of 100 to 43. The female form, therefore, is very much more fertile + than the hermaphrodite, as in the two last cases; but the hermaphrodite + was necessarily self-fertilised, and this probably diminished its + fertility. + </p> + <p> + We may now consider the probable means by which so many of the Labiatae + have been separated into two forms, and the advantages thus gained. H. + Muller supposes that originally some individuals varied so as to produce + more conspicuous flowers; and that insects habitually visited these first, + and then dusted with their pollen visited and fertilised the less + conspicuous flowers. (7/17. ‘Die Befruchtung der Blumen’ pages 319, 326.) + The production of pollen by the latter plants would thus be rendered + superfluous, and it would be advantageous to the species that their + stamens should abort, so as to save useless expenditure. They would thus + be converted into females. But another view may be suggested: as the + production of a large supply of seeds evidently is of high importance to + many plants, and as we have seen in the three foregoing cases that the + females produce many more seeds than the hermaphrodites, increased + fertility seems to me the more probable cause of the formation and + separation of the two forms. From the data above given it follows that ten + plants of Thymus serpyllum, if half consisted of hermaphrodites and half + of females, would yield seeds compared with ten hermaphrodite plants in + the ratio of 100 to 72. Under similar circumstances the ratio with + Satureia hortensis (subject to the doubt from the self-fertilisation of + the hermaphrodite) would be as 100 to 60. Whether the two forms originated + in certain individuals varying and producing more seed than usual, and + consequently producing less pollen; or in the stamens of certain + individuals tending from some unknown cause to abort, and consequently + producing more seed, it is impossible to decide; but in either case, if + the tendency to the increased production of seed were steadily favoured, + the result would be the complete abortion of the male organs. I shall + presently discuss the cause of the smaller size of the female corolla. + </p> + <p> + [Scabiosa arvensis (DIPSACEAE). + </p> + <p> + It has been shown by H. Muller that this species exists in Germany under + an hermaphrodite and female form. (7/18. ‘Die Befruchtung der Blumen’ page + 368. The two forms occur not only in Germany, but in England and France. + Lecoq ‘Geographie Bot.’ 1857 tome 6 pages 473, 477, says that male plants + as well as hermaphrodites and females coexist; it is, however, possible + that he may have been deceived by the flowers being so strongly + proterandrous. From what Lecoq says, S. succisa likewise appears to occur + under two forms in France.) In my neighbourhood (Kent) the female plants + do not nearly equal in number the hermaphrodites. The stamens of the + females vary much in their degree of abortion; in some plants they are + quite short and produce no pollen; in others they reach to the mouth of + the corolla, but their anthers are not half the proper size, never + dehisce, and contain but few pollen-grains, these being colourless and of + small diameter. The hermaphrodite flowers are strongly proterandrous, and + H. Muller shows that, whilst all the stigmas on the same flower-head are + mature at nearly the same time, the stamens dehisce one after the other; + so that there is a great excess of pollen, which serves to fertilise the + female plants. As the production of pollen by one set of plants is thus + rendered superfluous, their male organs have become more or less + completely aborted. Should it be hereafter proved that the female plants + yield, as is probable, more seeds than the hermaphrodites, I should be + inclined to extend the same view to this plant as to the Labiatae. I have + also observed the existence of two forms in our endemic S. succisa, and in + the exotic S. atro-purpurea. In the latter plant, differently to what + occurs in S. arvensis, the female flowers, especially the larger + circumferential ones, are smaller than those of the hermaphrodite form. + According to Lecoq, the female flower-heads of S. succisa are likewise + smaller than those of what he calls the male plants, but which are + probably hermaphrodites. + </p> + <p> + Echium vulgare (BORAGINEAE). + </p> + <p> + The ordinary hermaphrodite form appears to be proterandrous, and nothing + more need be said about it. The female differs in having a much smaller + corolla and shorter pistil, but a well-developed stigma. The stamens are + short; the anthers do not contain any sound pollen-grains, but in their + place yellow incoherent cells which do not swell in water. Some plants + were in an intermediate condition; that is, had one or two or three + stamens of proper length with perfect anthers, the other stamens being + rudimentary. In one such plant half of one anther contained green perfect + pollen-grains, and the other half yellowish- green imperfect grains. Both + forms produced seed, but I neglected to observe whether in equal numbers. + As I thought that the state of the anthers might be due to some fungoid + growth, I examined them both in the bud and mature state, but could find + no trace of mycelium. In 1862 many female plants were found; and in 1864, + 32 plants were collected in two localities, exactly half of which were + hermaphrodites, fourteen were females, and two in an intermediate + condition. In 1866, 15 plants were collected in another locality, and + these consisted of four hermaphrodites and eleven females. I may add that + this season was a wet one, which shows that the abortion of the stamens + can hardly be due to the dryness of the sites where the plants grew, as I + at one time thought probable. Seeds from an hermaphrodite were sown in my + garden, and of the 23 seedlings raised, one belonged to the intermediate + form, all the others being hermaphrodites, though two or three of them had + unusually short stamens. I have consulted several botanical works, but + have found no record of this plant varying in the manner here described. + </p> + <p> + Plantago lanceolata (PLANTAGINEAE). + </p> + <p> + Delpino states that this plant presents in Italy three forms, which + graduate from an anemophilous into an entomophilous condition. According + to H. Muller, there are only two forms in Germany, neither of which show + any special adaptation for insect fertilisation, and both appear to be + hermaphrodites. (7/19. ‘Die Befruchtung’ etc. page 342.) But I have found + in two localities in England female and hermaphrodite forms existing + together; and the same fact has been noticed by others. (7/20. Mr. C.W. + Crocker ‘The Gardener’s Chronicle’ 1864 page 294. Mr. W. Marshall writes + to me to the same effect from Ely.) The females are less frequent than the + hermaphrodites; their stamens are short, and their anthers, which are of a + brighter green whilst young than those of the other form, dehisce + properly, yet contain either no pollen, or a small amount of imperfect + grains of variable size. All the flower-heads on a plant belong to the + same form. It is well known that this species is strongly proterogynous, + and I found that the protruding stigmas of both the hermaphrodite and + female flowers were penetrated by pollen-tubes, whilst their own anthers + were immature and had not escaped out of the bud. Plantago media does not + present two forms; but it appears from Asa Gray’s description, that such + is the case with four of the North American species. (7/21. ‘Manual of the + Botany of the Northern United States’ 2nd edition 1856 page 269. See also + ‘American Journal of Science’ November 1862 page 419 and ‘Proceedings of + the American Academy of Science’ October 14, 1862 page 53.) The corolla + does not properly expand in the short- stamened form of these plants. + </p> + <p> + Cnicus, Serratula, Eriophorum. + </p> + <p> + In the Compositae, Cnicus palustris and acaulis are said by Sir J.E. Smith + to exist as hermaphrodites and females, the former being the more + frequent. With Serratula tinctoria a regular gradation may be followed + from the hermaphrodite to the female form; in one of the latter plants the + stamens were so tall that the anthers embraced the style as in the + hermaphrodites, but they contained only a few grains of pollen, and these + in an aborted condition; in another female, on the other hand, the anthers + were much more reduced in size than is usual. Lastly, Dr. Dickie has shown + that with Eriophorum angustifolium (Cyperaceae) hermaphrodite and female + forms exist in Scotland and the Arctic regions, both of which yield seed. + (7/22. Sir J.E. Smith ‘Transactions of the Linnean Society’ volume 13 page + 599. Dr. Dickie ‘Journal of the Linnean Society Botany’ volume 9 1865 page + 161.)] + </p> + <p> + It is a curious fact that in all the foregoing polygamous, dioecious, and + gyno- dioecious plants in which any difference has been observed in the + size of the corolla in the two or three forms, it is rather larger in the + females, which have their stamens more or less or quite rudimentary, than + in the hermaphrodites or males. This holds good with Euonymus, Rhamnus + catharticus, Ilex, Fragaria, all or at least most of the before-named + Labiatae, Scabiosa atro-purpurea, and Echium vulgare. So it is, according + to Von Mohl, with Cardamine amara, Geranium sylvaticum, Myosotis, and + Salvia. On the other hand, as Von Mohl remarks, when a plant produces + hermaphrodite flowers and others which are males owing to the more or less + complete abortion of the female organs, the corollas of the males are not + at all increased in size, or only exceptionally and in a slight degree, as + in Acer. (7/23. ‘Botanische Zeitung’ 1863 page 326.) It seems therefore + probable that the decreased size of the female corollas in the foregoing + cases is due to a tendency to abortion spreading from the stamens to the + petals. We see how intimately these organs are related in double flowers, + in which the stamens are readily converted into petals. Indeed some + botanists believe that petals do not consist of leaves directly + metamorphosed, but of metamorphosed stamens. That the lessened size of the + corolla in the above case is in some manner an indirect result of the + modification of the reproductive organs is supported by the fact that in + Rhamnus catharticus not only the petals but the green and inconspicuous + sepals of the female have been reduced in size; and in the strawberry the + flowers are largest in the males, mid-sized in the hermaphrodites, and + smallest in the females. These latter cases,—the variability in the + size of the corolla in some of the above species, for instance in the + common thyme,—together with the fact that it never differs greatly + in size in the two forms—make me doubt much whether natural + selection has come into play;—that is whether, in accordance with H. + Muller’s belief, the advantage derived from the polleniferous flowers + being visited first by insects has been sufficient to lead to a gradual + reduction of the corolla of the female. We should bear in mind that as the + hermaphrodite is the normal form, its corolla has probably retained its + original size. (7/24. It does not appear to me that Kerner’s view ‘Die + Schutzmittel des Pollens’ 1873 page 56, can be accepted in the present + cases, namely that the larger corolla in the hermaphrodites and males + serves to protect their pollen from rain. In the genus Thymus, for + instance, the aborted anthers of the female are much better protected than + the perfect ones of the hermaphrodite.) An objection to the above view + should not be passed over; namely, that the abortion of the stamens in the + females ought to have added through the law of compensation to the size of + the corolla; and this perhaps would have occurred, had not the expenditure + saved by the abortion of the stamens been directed to the female + reproductive organs, so as to give to this form increased fertility. + </p> + <p> + <br /><br /> + </p> + <hr /> + <p> + <a name="link2HCH0008" id="link2HCH0008"> </a> + </p> + <div style="height: 4em;"> + <br /><br /><br /><br /> + </div> + <h2> + CHAPTER VIII. CLEISTOGAMIC FLOWERS. + </h2> +<pre xml:space="preserve"> + General character of cleistogamic flowers. + List of the genera producing such flowers, and their distribution in the + vegetable series. + Viola, description of the cleistogamic flowers in the several species; their + fertility compared with that of the perfect flowers. + Oxalis acetosella. + O. sensitiva, three forms of cleistogamic flowers. + Vandellia. + Ononis. + Impatiens. + Drosera. + Miscellaneous observations on various other cleistogamic plants. + Anemophilous species producing cleistogamic flowers. + Leersia, perfect flowers rarely developed. + Summary and concluding remarks on the origin of cleistogamic flowers. + The chief conclusions which may be drawn from the observations in this volume. +</pre> + <p> + It was known even before the time of Linnaeus that certain plants produced + two kinds of flowers, ordinary open, and minute closed ones; and this fact + formerly gave rise to warm controversies about the sexuality of plants. + These closed flowers have been appropriately named cleistogamic by Dr. + Kuhn. (8/1. ‘Botanische Zeitung’ 1867 page 65.) They are remarkable from + their small size and from never opening, so that they resemble buds; their + petals are rudimentary or quite aborted; their stamens are often reduced + in number, with the anthers of very small size, containing few + pollen-grains, which have remarkably thin transparent coats, and generally + emit their tubes whilst still enclosed within the anther-cells; and, + lastly, the pistil is much reduced in size, with the stigma in some cases + hardly at all developed. These flowers do not secrete nectar or emit any + odour; from their small size, as well as from the corolla being + rudimentary, they are singularly inconspicuous. Consequently insects do + not visit them; nor if they did, could they find an entrance. Such flowers + are therefore invariably self-fertilised; yet they produce an abundance of + seed. In several cases the young capsules bury themselves beneath the + ground, and the seeds are there matured. These flowers are developed + before, or after, or simultaneously with the perfect ones. Their + development seems to be largely governed by the conditions to which the + plants are exposed, for during certain seasons or in certain localities + only cleistogamic or only perfect flowers are produced. + </p> + <p> + Dr. Kuhn, in the article above referred to, gives a list of 44 genera + including species which bear flowers of this kind. To this list I have + added some genera, and the authorities are appended in a footnote. I have + omitted three names, from reasons likewise given in the footnote. But it + is by no means easy to decide in all cases whether certain flowers ought + to be ranked as cleistogamic. For instance, Mr. Bentham informs me that in + the South of France some of the flowers on the vine do not fully open and + yet set fruit; and I hear from two experienced gardeners that this is the + case with the vine in our hothouses; but as the flowers do not appear to + be completely closed it would be imprudent to consider them as + cleistogamic. The flowers of some aquatic and marsh plants, for instance + of Ranunculus aquatalis, Alisma natans, Subularia, Illecebrum, Menyanthes, + and Euryale, remain closely shut as long as they are submerged, and in + this condition fertilise themselves. (8/2. Delpino ‘Sull’ Opera, la + Distribuzione dei Sessi nelle Piante’ etc. 1867 page 30. Subularia, + however, sometimes has its flowers fully expanded beneath the water, see + Sir J.E. Smith ‘English Flora’ volume 3 1825 page 157. For the behaviour + of Menyanthes in Russia see Gillibert in ‘Act. Acad. St. Petersb.’ 1777 + part 2 page 45.—On Euryale ‘Gardener’s Chronicle’ 1877 page 280.) + They behave in this manner, apparently as a protection to their pollen, + and produce open flowers when exposed to the air; so that these cases seem + rather different from those of true cleistogamic flowers, and have not + been included in the list. Again, the flowers of some plants which are + produced very early or very late in the season do not properly expand; and + these might perhaps be considered as incipiently cleistogamic; but as they + do not present any of the remarkable peculiarities proper to the class, + and as I have not found any full record of such cases, they are not + entered in the list. When, however, it is believed on fairly good evidence + that the flowers on a plant in its native country do not open at any hour + of the day or night, and yet set seeds capable of germination, these may + fairly be considered as cleistogamic, notwithstanding that they present no + peculiarities of structure. I will now give as complete a list of the + genera containing cleistogamic species as I have been able to collect. + </p> + <p> + TABLE 8.38. List of genera including cleistogamic species (chiefly after + Kuhn). (8/3. I have omitted Trifolium and Arachis from the list, because + Von Mohl says ‘Botanische Zeitung’ 1863 page 312, that the flower-stems + merely draw the flowers beneath the ground, and that these do not appear + to be properly cleistogamic. Correa de Mello ‘Journal of the Linnean + Society Botany’ volume 11 1870 page 254, observed plants of Arachis in + Brazil, and could never find such flowers. Plantago has been omitted + because as far as I can discover it produces hermaphrodite and female + flower-heads, but not cleistogamic flowers. Krascheninikowia (vel + Stellaria) has been omitted because it seems very doubtful from + Maximowicz’ description whether the lower flowers which have no petals or + very small ones, and barren stamens or none, are cleistogamic; the upper + hermaphrodite flowers are said never to produce fruit, and therefore + probably act as males. Moreover in Stellaria graminea, as Babington + remarks ‘British Botany’ 1851 page 51, “shorter and longer petals + accompany an imperfection of the stamens or germen.” + </p> + <p> + I have added to the list the following cases: Several Acanthaceae, for + which see J. Scott in ‘Journal of Botany’ London new series volume 1 1872 + page 161. With respect to salvia see Dr. Ascherson in ‘Botanische Zeitung’ + 1871 page 555. For Oxybaphus and Nyctaginia see Asa Gray in ‘American + Naturalist’ November 1873 page 692. From Dr. Torrey’s account of Hottonia + inflata ‘Bulletin of the Torrey Botanical Club’ volume 2 June 1871, it is + manifest that this plant produces true cleistogamic flowers. For Pavonia + see Bouche in ‘Sitzungsberichte d. Gesellsch. Natur. Freunde’ October 20, + 1874 page 90. I have added Thelymitra, as from the account given by Mr. + Fitzgerald in his magnificent work on ‘Australian Orchids’ it appears that + the flowers of this plant in its native home never open, but they do not + appear to be reduced in size. Nor is this the case with the flowers of + certain species of Epidendron, Cattleya, etc. see second edition of my + ‘Fertilisation of Orchids’ page 147, which without expanding produce + capsules. It is therefore doubtful whether these Orchideae ought to have + been included in the list. From what Duval-Jouve says about Cryptostachys + in ‘Bulletin of the Soc. Bot. de France’ tome 10 1863 page 195, this plant + appears to produce cleistogamic flowers. the other additions to the list + are noticed in my text.) + </p> + <h3> + DICOTYLEDONS. + </h3> + <p> + BORAGINEAE: Eritrichium. + </p> + <p> + CONVOLVULACEAE: Cuscuta. + </p> + <p> + SCROPHULARINEAE: Scrophularia. Linaria. Vandellia. + </p> + <p> + ACANTHACEAE: Cryphiacanthus. Eranthemum. Daedalacanthus. Dipteracanthus. + Aechmanthera. Ruellia. + </p> + <p> + LABIATAE: Lamium. Salvia. + </p> + <p> + NYCTAGINEAE: Oxybaphus. Nyctaginia. + </p> + <p> + ASCLEPIADAE: Stapelia. + </p> + <p> + CAMPANULACEAE: Specularia. Campanula. + </p> + <p> + PRIMULACEAE: Hottonia. + </p> + <p> + COMPOSITAE: Anandria. + </p> + <p> + CRUCIFERAE: Heterocarpaea. + </p> + <p> + VIOLACEAE: Viola. + </p> + <p> + CISTINEAE: Helianthemum. Lechea. + </p> + <p> + MALVEACEAE: Pavonia. + </p> + <p> + MALPIGHIACEAE: Gaudichaudia. Aspicarpa. Camarea. Janusia. + </p> + <p> + POLYGALEAE: Polygala. + </p> + <p> + BALSAMINEAE: Impatiens. + </p> + <p> + GERANIACAEA: Oxalis. + </p> + <p> + LEGUMINOSAE: Ononis. Parochaetus. Chapmannia. Stylosanthus. Lespedeza. + Vicia. Lathyrus. Martinsia vel Neurocarpum. Amphicarpaea. Glycine. + Galactia. Voandzeia. + </p> + <p> + DROSERACEAE: Drosera. + </p> + <h3> + MONOCOTYLEDONS. + </h3> + <p> + JUNCEAE: Juncus. + </p> + <p> + GRAMINEAE: Leersia. Hordeum. Cryptostachys. + </p> + <p> + COMMELINEAE: Commelina. + </p> + <p> + PONTEDERACEAE: Monochoria. + </p> + <p> + ORCHIDEAE: Schomburgkia. Cattleya. Epidendron. Thelymitra. + </p> + <p> + The first point that strikes us in considering this list of 55 genera, is + that they are very widely distributed in the vegetable series. They are + more common in the family of the Leguminosae than in any other, and next + in order in that of the Acanthaceae and Malpighiaceae. A large number, but + not all the species, of certain genera, as of Oxalis and Viola, bear + cleistogamic as well as ordinary flowers. A second point which deserves + notice is that a considerable proportion of the genera produce more or + less irregular flowers; this is the case with about 32 out of the 55 + genera, but to this subject I shall recur. + </p> + <p> + I formerly made many observations on cleistogamic flowers, but only a few + of them are worth giving, since the appearance of an admirable paper by + Hugo Von Mohl, whose examination was in some respects much more complete + than mine. (8/4. ‘Botanische Zeitung’ 1863 page 309-28.) His paper + includes also an interesting history of our knowledge on the subject. + </p> + <p> + Viola canina. + </p> + <p> + The calyx of the cleistogamic flowers differs in no respect from that of + the perfect ones. The petals are reduced to five minute scales; the lower + one, which represents the lower lip, is considerably larger than the + others, but with no trace of the spur-like nectary; its margins are + smooth, whilst those of the other four scale-like petals are papillose. D. + Muller of Upsala says that in the specimens which he observed the petals + were completely aborted. (8/5. Ibid. 1857 page 730. This paper contains + the first full and satisfactory account of any cleistogamic flower.) The + stamens are very small, and only the two lower ones are provided with + anthers, which do not cohere together as in the perfect flowers. The + anthers are minute, with the two cells or loculi remarkably distinct; they + contain very little pollen in comparison with those of the perfect + flowers. The connective expands into a membranous hood-like shield which + projects above the anther-cells. These two lower stamens have no vestige + of the curious appendages which secrete nectar in the perfect flowers. The + three other stamens are destitute of anthers and have broader filaments, + with their terminal membranous expansions flatter or not so hood-like as + those of the two antheriferous stamens. The pollen-grains have remarkably + thin transparent coats; when exposed to the air they shrivel up quickly; + when placed in water they swell, and are then 8-10/7000 of an inch in + diameter, and therefore of smaller size than the ordinary pollen-grains + similarly treated, which have a diameter of 13-14/7000 of an inch. In the + cleistogamic flowers, the pollen-grains, as far as I could see, never + naturally fall out of the anther-cells, but emit their tubes through a + pore at the upper end. I was able to trace the tubes from the grains some + way down the stigma. The pistil is very short, with the style hooked, so + that its extremity, which is a little enlarged or funnel-shaped and + represents the stigma, is directed downwards, being covered by the two + membranous expansions of the antheriferous stamens. It is remarkable that + there is an open passage from the enlarged funnel-shaped extremity to + within the ovarium; this was evident, as slight pressure caused a bubble + of air, which had been drawn in by some accident, to travel freely from + one end to the other: a similar passage was observed by Michalet in V. + alba. The pistil therefore differs considerably from that of the perfect + flower; for in the latter it is much longer, and straight with the + exception of the rectangularly bent stigma; nor is it perforated by an + open passage. + </p> + <p> + The ordinary or perfect flowers have been said by some authors never to + produce capsules; but this is an error, though only a small proportion of + them do so. This appears to depend in some cases on their anthers not + containing even a trace of pollen, but more generally on bees not visiting + the flowers. I twice covered with a net a group of flowers, and marked + with threads twelve of them which had not as yet expanded. This precaution + is necessary, for though as a general rule the perfect flowers appear + considerably before the cleistogamic ones, yet occasionally some of the + latter are produced early in the season, and their capsules might readily + be mistaken for those produced by the perfect flowers. Not one of the + twelve marked perfect flowers yielded a capsule, whilst others under the + net which had been artificially fertilised produced five capsules; and + these contained exactly the same average number of seeds as some capsules + from flowers outside the net which had been fertilised by bees. I have + repeatedly seen Bombus hortorum, lapidarius, and a third species, as well + as hive-bees, sucking the flowers of this violet: I marked six which were + thus visited, and four of them produced fine capsules; the two others were + gnawed off by some animal. I watched Bombus hortorum for some time, and + whenever it came to a flower which did not stand in a convenient position + to be sucked, it bit a hole through the spur-like nectary. Such ill-placed + flowers would not yield any seed or leave descendants; and the plants + bearing them would thus tend to be eliminated through natural selection. + </p> + <p> + The seeds produced by the cleistogamic and perfect flowers do not differ + in appearance or number. On two occasions I fertilised several perfect + flowers with pollen from other individuals, and afterwards marked some + cleistogamic flowers on the same plants; and the result was that 14 + capsules produced by the perfect flowers contained on an average 9.85 + seeds; and 17 capsules from the cleistogamic ones contained 9.64 seeds,—an + amount of difference of no significance. It is remarkable how much more + quickly the capsules from the cleistogamic flowers are developed than + those from the perfect ones; for instance, several perfect flowers were + cross-fertilised on April 14th, 1863, and a month afterwards (May 15th) + eight young cleistogamic flowers were marked with threads; and when the + two sets of capsules thus produced were compared on June 3rd, there was + scarcely any difference between them in size. + </p> + <p> + Viola odorata (WHITE-FLOWERED, SINGLE, CULTIVATED VARIETY). + </p> + <p> + The petals are represented by mere scales as in the last species; but + differently from in the last, all five stamens are provided with + diminutive anthers. Small bundles of pollen-tubes were traced from the + five anthers into the somewhat distant stigma. The capsules produced by + these flowers bury themselves in the soil, if it be loose enough, and + there mature themselves. (8/6. Vaucher says ‘Hist. Phys. des Plantes + d’Europe’ tome 3 1844 page 309, that V. hirta and collina likewise bury + their capsules. See also Lecoq ‘Geograph. Bot.’ tome 5 1856 page 180.) + Lecoq says that it is only these latter capsules which possess elastic + valves; but I think this must be a misprint, as such valves would + obviously be of no use to the buried capsules, but would serve to scatter + the seeds of the sub-aerial ones, as in the other species of Viola. It is + remarkable that this plant, according to Delpino, does not produce + cleistogamic flowers in one part of Liguria, whilst the perfect flowers + are there abundantly fertile (8/7. ‘Sull’ Opera, la Distribuzione dei + Sessi nelle Piante’ etc. 1867 page 30.); on the other hand, cleistogamic + flowers are produced by it near Turin. Another fact is worth giving as an + instance of correlated development: I found on a purple variety, after it + had produced its perfect double flowers, and whilst the white single + variety was bearing its cleistogamic flowers, many bud-like bodies which + from their position on the plant were certainly of a cleistogamic nature. + They consisted, as could be seen on bisecting them, of a dense mass of + minute scales closely folded over one another, exactly like a cabbage-head + in miniature. I could not detect any stamens, and in the place of the + ovarium there was a little central column. The doubleness of the perfect + flowers had thus spread to the cleistogamic ones, which therefore were + rendered quite sterile. + </p> + <p> + Viola hirta. + </p> + <p> + The five stamens of the cleistogamic flowers are provided, as in the last + case, with small anthers, from all of which pollen-tubes proceed to the + stigma. The petals are not quite so much reduced as in V. canina, and the + short pistil instead of being hooked is merely bent into a rectangle. Of + several perfect flowers which I saw visited by hive-and humble-bees, six + were marked, but they produced only two capsules, some of the others + having been accidentally injured. M. Monnier was therefore mistaken in + this case as in that of V. odorata, in supposing that the perfect flowers + always withered away and aborted. He states that the peduncles of the + cleistogamic flowers curve downwards and bury the ovaries beneath the + soil. (8/8. These statements are taken from Professor Oliver’s excellent + article in the ‘Natural History Review’ July 1862 page 238. With respect + to the supposed sterility of the perfect flowers in this genus see also + Timbal-Lagrave ‘Botanische Zeitung’ 1854 page 772.) I may here add that + Fritz Muller, as I hear from his brother, has found in the highlands of + Southern Brazil a white-flowered species of violet which bears + subterranean cleistogamic flowers. + </p> + <p> + Viola nana. + </p> + <p> + Mr. Scott sent me seeds of this Indian species from the Sikkim Terai, from + which I raised many plants, and from these other seedlings during several + successive generations. They produced an abundance of cleistogamic flowers + during the whole of each summer, but never a perfect one. When Mr. Scott + wrote to me his plants in Calcutta were behaving similarly, though his + collector saw the species in flower in its native site. This case is + valuable as showing that we ought not to infer, as has sometimes been + done, that a species does not bear perfect flowers when growing naturally, + because it produces only cleistogamic flowers under culture. The calyx of + these flowers is sometimes formed of only three sepals; two being actually + suppressed and not merely coherent with the others; this occurred with + five out of thirty flowers which were examined for this purpose. The + petals are represented by extremely minute scales. Of the stamens, two + bear anthers which are in the same state as in the previous species, but, + as far as I could judge, each of the two cells contained only from 20 to + 25 delicate transparent pollen-grains. These emitted their tubes in the + usual manner. The three other stamens bore very minute rudimentary + anthers, one of which was generally larger than the other two, but none of + them contained any pollen. In one instance, however, a single cell of the + larger rudimentary anther included a little pollen. The style consists of + a short flattened tube, somewhat expanded at its upper end, and this forms + an open channel leading into the ovarium, as described under V. canina. It + is slightly bent towards the two fertile anthers. + </p> + <p> + Viola Roxburghiana. + </p> + <p> + This species bore in my hothouse during two years a multitude of + cleistogamic flowers, which resembled in all respects those of the last + species; but no perfect ones were produced. Mr. Scott informs me that in + India it bears perfect flowers only during the cold season, and that these + are quite fertile. During the hot, and more especially during the rainy + season, it bears an abundance of cleistogamic flowers. + </p> + <p> + Many other species, besides the five now described, produce cleistogamic + flowers; this is the case, according to D. Muller, Michalet, Von Mohl, and + Hermann Muller, with V. elatior, lancifolia, sylvatica, palustris, + mirabilis, bicolor, ionodium, and biflora. But V. tricolor does not + produce them. + </p> + <p> + Michalet asserts that V. palustris produces near Paris only perfect + flowers, which are quite fertile; but that when the plant grows on + mountains cleistogamic flowers are produced; and so it is with V. biflora. + The same author states that he has seen in the case of V. alba flowers + intermediate in structure between the perfect and cleistogamic ones. + According to M. Boisduval, an Italian species, V. Ruppii, never bears in + France “des fleurs bien apparentes, ce qui ne l’empeche pas de + fructifier.” + </p> + <p> + It is interesting to observe the gradation in the abortion of the parts in + the cleistogamic flowers of the several foregoing species. It appears from + the statements by D. Muller and Von Mohl that in V. mirabilis the calyx + does not remain quite closed; all five stamens are provided with anthers, + and some pollen-grains probably fall out of the cells on the stigma, + instead of protruding their tubes whilst still enclosed, as in the other + species. In V. hirta all five stamens are likewise antheriferous; the + petals are not so much reduced and the pistil not so much modified as in + the following species. In V. nana and elatior only two of the stamens + properly bear anthers, but sometimes one or even two of the others are + thus provided. Lastly, in V. canina never more than two of the stamens, as + far as I have seen, bear anthers; the petals are much more reduced than in + V. hirta, and according to D. Muller are sometimes quite absent. + </p> + <p> + Oxalis acetosella. + </p> + <p> + The existence of cleistogamic flowers on this plant was discovered by + Michalet. (8/9. ‘Bulletin Soc. Bot. de France’ tome 7 1860 page 465.) They + have been fully described by Von Mohl, and I can add hardly anything to + his description. In my specimens the anthers of the five longer stamens + were nearly on a level with the stigmas; whilst the smaller and less + plainly bilobed anthers of the five shorter stamens stood considerably + below the stigmas, so that their tubes had to travel some way upwards. + According to Michalet these latter anthers are sometimes quite aborted. In + one case the tubes, which ended in excessively fine points, were seen by + me stretching upwards from the lower anthers towards the stigmas, which + they had not as yet reached. My plants grew in pots, and long after the + perfect flowers had withered they produced not only cleistogamic but a few + minute open flowers, which were in an intermediate condition between the + two kinds. In one of these the pollen-tubes from the lower anthers had + reached the stigmas, though the flower was open. The footstalks of the + cleistogamic flowers are much shorter than those of the perfect flowers, + and are so much bowed downwards that they tend, according to Von Mohl, to + bury themselves in the moss and dead leaves on the ground. Michalet also + says that they are often hypogean. In order to ascertain the number of + seeds produced by these flowers, I marked eight of them; two failed, one + cast its seed abroad, and the remaining five contained on an average 10.0 + seeds per capsule. This is rather above the average 9.2, which eleven + capsules from perfect flowers fertilised with their own pollen yielded, + and considerably above the average 7.9, from the capsules of perfect + flowers fertilised with pollen from another plant; but this latter result + must, I think, have been accidental. + </p> + <p> + Hildebrand, whilst searching various Herbaria, observed that many other + species of Oxalis besides O. acetosella produce cleistogamic flowers + (8/10. ‘Monatsbericht der Akad. der Wiss. zu Berlin’ 1866 page 369.); and + I hear from him that this is the case with the heterostyled trimorphic O. + incarnata from the Cape of Good Hope. + </p> + <p> + Oxalis (Biophytum) sensitiva. + </p> + <p> + This plant is ranked by many botanists as a distinct genus, but as a + sub-genus by Bentham and Hooker. Many of the early flowers on a mid-styled + plant in my hothouse did not open properly, and were in an intermediate + condition between cleistogamic and perfect. Their petals varied from a + rudiment to about half their proper size; nevertheless they produced + capsules. I attributed their state to unfavourable conditions, for later + in the season fully expanded flowers of the proper size appeared. But Mr. + Thwaites afterwards sent me from Ceylon a number of long-styled, + mid-styled, and short-styled flower-stalks preserved in spirits; and on + the same stalks with the perfect flowers, some of which were fully + expanded and others still in bud, there were small bud-like bodies + containing mature pollen, but with their calyces closed. These + cleistogamic flowers do not differ much in structure from the perfect ones + of the corresponding form, with the exception that their petals are + reduced to extremely minute, barely visible scales, which adhere firmly to + the rounded bases of the shorter stamens. Their stigmas are much less + papillose, and smaller in about the ratio of 13 to 20 divisions of the + micrometer, as measured transversely from apex to apex, than the stigmas + of the perfect flowers. The styles are furrowed longitudinally, and are + clothed with simple as well as glandular hairs, but only in the + cleistogamic flowers produced by the long- styled and mid-styled forms. + The anthers of the longer stamens are a little smaller than the + corresponding ones of the perfect flowers, in about the ratio of 11 to 14. + They dehisce properly, but do not appear to contain much pollen. Many + pollen-grains were attached by short tubes to the stigmas; but many + others, still adhering to the anthers, had emitted their tubes to a + considerable length, without having come in contact with the stigmas. + Living plants ought to be examined, as the stigmas, at least of the + long-styled form, project beyond the calyx, and if visited by insects + (which, however, is very improbable) might be fertilised with pollen from + a perfect flower. The most singular fact about the present species is that + long-styled cleistogamic flowers are produced by the long-styled plants, + and mid-styled as well as short-styled cleistogamic flowers by the other + two forms; so that there are three kinds of cleistogamic and three kinds + of perfect flowers produced by this one species! Most of the heterostyled + species of Oxalis are more or less sterile, many absolutely so, if + illegitimately fertilised with their own-form pollen. It is therefore + probable that the pollen of the cleistogamic flowers has been modified in + power, so as to act on their own stigmas, for they yield an abundance of + seeds. We may perhaps account for the cleistogamic flowers consisting of + the three forms, through the principle of correlated growth, by which the + cleistogamic flowers of the double violet have been rendered double. + </p> + <p> + Vandellia nummularifolia. + </p> + <p> + Dr. Kuhn has collected all the notices with respect to cleistogamic + flowers in this genus, and has described from dried specimens those + produced by an Abyssinian species. (8/11. ‘Botanische Zeitung’ 1867 page + 65.) Mr. Scott sent me from Calcutta seeds of the above common Indian + weed, from which many plants were successively raised during several + years. The cleistogamic flowers are very small, being when fully mature + under 1/20 of an inch (1.27 millimetres) in length. The calyx does not + open, and within it the delicate transparent corolla remains closely + folded over the ovarium. There are only two anthers instead of the normal + number of four, and their filaments adhere to the corolla. The cells of + the anthers diverge much at their lower ends and are only 5/700 of an inch + (.181 millimetres) in their longer diameter. They contain but few + pollen-grains, and these emit their tubes whilst still within the anther. + The pistil is very short, and is surmounted by a bilobed stigma. As the + ovary grows the two anthers together with the shrivelled corolla, all + attached by the dried pollen-tubes to the stigma, are torn off and carried + upwards in the shape of a little cap. The perfect flowers generally appear + before the cleistogamic, but sometimes simultaneously with them. During + one season a large number of plants produced no perfect flowers. It has + been asserted that the latter never yield capsules; but this is a mistake, + as they do so even when insects are excluded. Fifteen capsules from + cleistogamic flowers on plants growing under favourable conditions + contained on an average 64.2 seeds, with a maximum of 87; whilst 20 + capsules from plants growing much crowded yielded an average of only 48. + Sixteen capsules from perfect flowers artificially crossed with pollen + from another plant contained on an average 93 seeds, with a maximum of + 137. Thirteen capsules from self-fertilised perfect flowers gave an + average of 62 seeds, with a maximum of 135. Therefore the capsules from + the cleistogamic flowers contained fewer seeds than those from perfect + flowers when cross-fertilised, and slightly more than those from perfect + flowers self-fertilised. + </p> + <p> + Dr. Kuhn believes that the Abyssinian V. sessiflora does not differ + specifically from the foregoing species. But its cleistogamic flowers + apparently include four anthers instead of two as above described. The + plants, moreover, of V. sessiflora produce subterranean runners which + yield capsules; and I never saw a trace of such runners in V. + nummularifolia, although many plants were cultivated. + </p> + <p> + Linaria spuria. + </p> + <p> + Michalet says that short, thin, twisted branches are developed from the + buds in the axils of the lower leaves, and that these bury themselves in + the ground. (8/12. ‘Bulletin Soc. Bot. de France’ tome 7 1860 page 468.) + They there produce flowers not offering any peculiarity in structure, + excepting that their corollas, though properly coloured, are deformed. + These flowers may be ranked as cleistogamic, as they are developed, and + not merely drawn, beneath the ground. + </p> + <p> + Ononis columnae. + </p> + <p> + Plants were raised from seeds sent me from Northern Italy. The sepals of + the cleistogamic flowers are elongated and closely pressed together; the + petals are much reduced in size, colourless, and folded over the interior + organs. The filaments of the ten stamens are united into a tube, and this + is not the case, according to Von Mohl, with the cleistogamic flowers of + other Leguminosae. Five of the stamens are destitute of anthers, and + alternate with the five thus provided. The two cells of the anthers are + minute, rounded and separated from one another by connective tissue; they + contain but few pollen-grains, and these have extremely delicate coats. + The pistil is hook-shaped, with a plainly enlarged stigma, which is curled + down, towards the anthers; it therefore differs much from that of the + perfect flower. During the year 1867 no perfect flowers were produced, but + in the following year there were both perfect and cleistogamic ones. + </p> + <p> + Ononis minutissima. + </p> + <p> + My plants produced both perfect and cleistogamic flowers; but I did not + examine the latter. Some of the former were crossed with pollen from a + distinct plant, and six capsules thus obtained yielded on an average 3.66 + seeds, with a maximum of 5 in one. Twelve perfect flowers were marked and + allowed to fertilise themselves spontaneously under a net, and they + yielded eight capsules, containing on an average 2.38 seeds, with a + maximum of 3 in one. Fifty-three capsules produced by the cleistogamic + flowers contained on an average 4.1 seeds, so that these were the most + productive of all; and the seeds themselves looked finer even than those + from the crossed perfect flowers. According to Mr. Bentham O. parviflora + likewise bears cleistogamic flowers; and he informs me that these flowers + are produced by all three species early in the spring; whilst the perfect + ones appear afterwards, and therefore in a reversed order compared with + those of Viola and Oxalis. Some of the species, for instance Ononis + columnae, bear a fresh crop of cleistogamic flowers in the autumn. + </p> + <p> + Lathyrus nissolia. + </p> + <p> + This plant apparently offers a case of the first stage in the production + of cleistogamic flowers, for on plants growing in a state of nature, many + of the flowers never expand and yet produce fine pods. Some of the buds + are so large that they seem on the point of expansion; others are much + smaller, but none so small as the true cleistogamic flowers of the + foregoing species. As I marked these buds with thread and examined them + daily, there could be no mistake about their producing fruit without + having expanded. + </p> + <p> + Several other Leguminous genera produce cleistogamic flowers, as may be + seen in Table 8.38; but much does not appear to be known about them. Von + Mohl says that their petals are commonly rudimentary, that only a few of + their anthers are developed, their filaments are not united into a tube + and their pistils are hook-shaped. In three of the genera, namely Vicia, + Amphicarpaea, and Voandzeia, the cleistogamic flowers are produced on + subterranean stems. The perfect flowers of Voandzeia, which is a + cultivated plant, are said never to produce fruit (8/13. Correa de Mello + ‘Journal of the Linnean Society Botany’ volume 11 1870 page 254, + particularly attended to the flowering and fruiting of this African plant, + which is sometimes cultivated in Brazil.); but we should remember how + often fertility is affected by cultivation. + </p> + <p> + Impatiens fulva. + </p> + <p> + Mr. A.W. Bennett has published an excellent description, with figures, of + this plant. (8/14. ‘Journal of the Linnean Society Botany’ volume 13 1872 + page 147.) He shows that the cleistogamic and perfect flowers differ in + structure at a very early period of growth, so that the existence of the + former cannot be due merely to the arrested development of the latter,—a + conclusion which indeed follows from most of the previous descriptions. + Mr. Bennett found on the banks of the Wey that the plants which bore + cleistogamic flowers alone were to those bearing perfect flowers as 20 to + 1; but we should remember that this is a naturalised species. The perfect + flowers are usually barren in England; but Professor Asa Gray writes to me + that after midsummer in the United States some or many of them produce + capsules. + </p> + <p> + Impatiens noli-me-tangere. + </p> + <p> + I can add nothing of importance to Von Mohl’s description, excepting that + one of the rudimentary petals shows a vestige of a nectary, as Mr. Bennett + likewise found to be the case with I. fulva. As in this latter species all + five stamens produce some pollen, though small in amount; a single anther + contains, according to Von Mohl, not more than 50 grains, and these emit + their tubes while still enclosed within it. The pollen-grains of the + perfect flowers are tied together by threads, but not, so far as I could + see, those of the cleistogamic flowers; and a provision of this kind would + here have been useless, as the grains can never be transported by insects. + The flowers of I. balsamina are visited by humble-bees (8/15. H. Muller + ‘Die Befruchtung’ etc. page 170.), and I am almost sure that this is the + case with the perfect flowers of I. noli-me-tangere. From the perfect + flowers of this latter species covered with a net eleven spontaneously + self-fertilised capsules were produced, and these yielded on an average + 3.45 seeds. Some perfect flowers with their anthers still containing an + abundance of pollen were fertilised with pollen from a distinct plant; and + the three capsules thus produced contained, to my surprise, only 2, 2, and + 1 seed. As I. balsamina is proterandrous, so probably is the present + species; and if so, cross-fertilisation was effected by me at too early a + period, and this may account for the capsules yielding so few seeds. + </p> + <p> + Drosera rotundifolia. + </p> + <p> + The first flower-stems which were thrown up by some plants in my + greenhouse bore only cleistogamic flowers. The petals of small size + remained permanently closed over the reproductive organs, but their white + tips could just be seen between the almost completely closed sepals. The + pollen, which was scanty in amount, but not so scanty as in Viola or + Oxalis, remained enclosed within the anthers, whence the tubes proceeded + and penetrated the stigma. As the ovarium swelled the little withered + corolla was carried upwards in the form of a cap. These cleistogamic + flowers produced an abundance of seed. Later in the season perfect flowers + appeared. With plants in a state of nature the flowers open only in the + early morning, as I have been informed by Mr. Wallis, who particularly + attended to the time of their flowering. In the case of D. Anglica, the + still folded petals on some plants in my greenhouse opened just + sufficiently to leave a minute aperture; the anthers dehisced properly, + but the pollen-grains adhered in a mass to them, and thence emitted their + tubes, which penetrated the stigmas. These flowers, therefore, were in an + intermediate condition, and could not be called either perfect or + cleistogamic. + </p> + <p> + A few miscellaneous observations may be added with respect to some other + species, as throwing light on our subject. Mr. Scott states that + Eranthemum ambiguum bears three kinds of flowers,—large, + conspicuous, open ones, which are quite sterile,—others of + intermediate size, which are open and moderately fertile—and lastly + small closed or cleistogamic ones, which are perfectly fertile. (8/16. + ‘Journal of Botany’ London new series volume 1 1872 pages 161- 4.) Ruellia + tuberosa, likewise one of the Acanthaceae, produces both open and + cleistogamic flowers; the latter yield from 18 to 24, whilst the former + only from 8 to 10 seeds; these two kinds of flowers are produced + simultaneously, whereas in several other members of the family the + cleistogamic ones appear only during the hot season. According to Torrey + and Gray, the North American species of Helianthemum, when growing in poor + soil, produce only cleistogamic flowers. The cleistogamic flowers of + Specularia perfoliata are highly remarkable, as they are closed by a + tympanum formed by the rudimentary corolla, and without any trace of an + opening. The stamens vary from 3 to 5 in number, as do the sepals. (8/17. + Von Mohl ‘Botanische Zeitung’ 1863 pages 314 and 323. Dr. Bromfield + ‘Phytologist’ volume 3 page 530, also remarks that the calyx of the + cleistogamic flowers is usually only 3-cleft, while that of the perfect + flower is mostly 5- cleft.) The collecting hairs on the pistil, which play + so important a part in the fertilisation of the perfect flowers, are here + quite absent. Drs. Hooker and Thomson state that some of the Indian + species of Campanula produce two kinds of flowers; the smaller ones being + borne on longer peduncles with differently formed sepals, and producing a + more globose ovary. (8/18. ‘Journal of the Linnean Society’ volume 2 1857 + page 7. See also Professor Oliver in ‘Natural History Review’ 1862 page + 240.) The flowers are closed by a tympanum like that in Specularia. Some + of the plants produce both kinds of flowers, others only one kind; both + yield an abundance of seeds. Professor Oliver adds that he has seen + flowers on Campanula colorata in an intermediate condition between + cleistogamic and perfect ones. + </p> + <p> + The solitary almost sessile cleistogamic flowers produced by Monochoria + vaginalis are differently protected from those in any of the previous + cases, namely, within “a short sack formed of the membranous spathe, + without any opening or fissure.” There is only a single fertile stamen; + the style is almost obsolete, with the three stigmatic surfaces directed + to one side. Both the perfect and cleistogamic flowers produce seeds. + (8/19. Dr. Kirk ‘Journal of the Linnean Society’ volume 8 1864 page 147.) + </p> + <p> + The cleistogamic flowers on some of the Malpighiaceae seem to be more + profoundly modified than those in any of the foregoing genera. According + to A. de Jussieu they are differently situated from the perfect flowers; + they contain only a single stamen, instead of 5 or 6; and it is a strange + fact that this particular stamen is not developed in the perfect flowers + of the same species. (8/20. ‘Archives du Museum’ tome 3 1843 pages 35-38, + 82-86, 589, 598.) The style is absent or rudimentary; and there are only + two ovaries instead of three. Thus these degraded flowers, as Jussieu + remarks, “laugh at our classifications, for the greater number of the + characters proper to the species, to the genus, to the family, to the + class disappear.” I may add that their calyces are not glandular, and as, + according to Kerner, the fluid secreted by such glands generally serves to + protect the flowers from crawling insects, which steal the nectar without + aiding in their cross-fertilisation (8/21. ‘Die Schutzmittel der Bluthen + gegen unberufene Gaste’ 1876 page 25.), the deficiency of the glands in + the cleistogamic flowers of these plants may perhaps be accounted for by + their not requiring any such protection. + </p> + <p> + As the Asclepiadous genus Stapelia is said to produce cleistogamic + flowers, the following case may be worth giving. I have never heard of the + perfect flowers of Hoya carnosa setting seeds in this country, but some + capsules were produced in Mr. Farrer’s hothouse; and the gardener detected + that they were the product of minute bud-like bodies, three or four of + which could sometimes be found on the same umbel with the perfect flowers. + They were quite closed and hardly thicker than their peduncles. The sepals + presented nothing particular, but internally and alternating with them, + there were five small flattened heart-shaped papillae, like rudiments of + petals; but the homological nature of which appeared doubtful to Mr. + Bentham and Dr. Hooker. No trace of anthers or of stamens could be + detected; and I knew from having examined many cleistogamic flowers what + to look for. There were two ovaries, full of ovules, quite open at their + upper ends, with their edges festooned, but with no trace of a proper + stigma. In all these flowers one of the two ovaries withered and blackened + long before the other. The one perfect capsule, 3 1/2 inches in length, + which was sent me, had likewise been developed from a single carpel. This + capsule contained an abundance of plumose seeds, many of which appeared + quite sound, but they did not germinate when sown at Kew. Therefore the + little bud-like flower which produced this capsule probably was as + destitute of pollen as were those which I examined. + </p> + <p> + Juncus bufonius and Hordeum. + </p> + <p> + All the species hitherto mentioned which produce cleistogamic flowers are + entomophilous; but four genera, Juncus, Hordeum, Cryptostachys, and + Leersia are anemophilous. Juncus bufonius is remarkable by bearing in + parts of Russia only cleistogamic flowers, which contain three instead of + the six anthers found in the perfect flowers. (8/22. See Dr. Ascherson’s + interesting paper in ‘Botanische Zeitung’ 1871 page 551.) In the genus + Hordeum it has been shown by Delpino that the majority of the flowers are + cleistogamic, some of the others expanding and apparently allowing of + cross-fertilisation. (8/23. ‘Bollettini del Comizio agrario Parmense.’ + Marzo e Aprile 1871. An abstract of this valuable paper is given in + ‘Botanische Zeitung’ 1871 page 537. See also Hildebrand on Hordeum in + ‘Monatsbericht d. K. Akad Berlin’ October 1872 page 760.) I hear from + Fritz Muller that there is a grass in Southern Brazil, in which the sheath + of the uppermost leaf, half a metre in length, envelopes the whole + panicle; and this sheath never opens until the self-fertilised seeds are + ripe. On the roadside some plants had been cut down, whilst the + cleistogamic panicles were developing, and these plants afterwards + produced free or unenclosed panicles of small size, bearing perfect + flowers. + </p> + <p> + Leersia oryzoides. + </p> + <p> + It has long been known that this plant produces cleistogamic flowers, but + these were first described with care by M. Duval-Jouve. (8/24. ‘Bulletin + Bot. Soc. de France’ tome 10 1863 page 194.) I procured plants from a + stream near Reigate, and cultivated them for several years in my + greenhouse. The cleistogamic flowers are very small, and usually mature + their seeds within the sheaths of the leaves. These flowers are said by + Duval-Jouve to be filled by slightly viscid fluid; but this was not the + case with several that I opened; but there was a thin film of fluid + between the coats of the glumes, and when these were pressed the fluid + moved about, giving a similarly deceptive appearance of the whole inside + of the flower being thus filled. The stigma is very small and the + filaments extremely short; the anthers are less than 1/50 of an inch in + length or about one-third of the length of those in the perfect flowers. + One of the three anthers dehisces before the two others. Can this have any + relation with the fact that in some other species of Leersia only two + stamens are fully developed? (8/25. Asa Gray ‘Manual of Botany of the + United States’ 1856 page 540.) The anthers shed their pollen on the + stigma; at least in one instance this was clearly the case, and by tearing + open the anthers under water the grains were easily detached. Towards the + apex of the anther the grains are arranged in a single row and lower down + in two or three rows, so that they could be counted; and there were about + 35 in each cell, or 70 in the whole anther; and this is an astonishingly + small number for an anemophilous plant. The grains have very delicate + coats, are spherical and about 5/7000 of an inch (.0181 millimetres), + whilst those of the perfect flowers are about 7/7000 of an inch (.0254 + millimetres) in diameter. + </p> + <p> + M. Duval-Jouve states that the panicles very rarely protrude from their + sheaths, but that when this does happen the flowers expand and exhibit + well-developed ovaries and stigmas, together with full-sized anthers + containing apparently sound pollen; nevertheless such flowers are + invariably quite sterile. Schreiber had previously observed that if a + panicle is only half protruded, this half is sterile, whilst the still + included half is fertile. Some plants which grew in a large tub of water + in my greenhouse behaved on one occasion in a very different manner. They + protruded two very large much-branched panicles; but the florets never + opened, though these included fully developed stigmas, and stamens + supported on long filaments with large anthers that dehisced properly. If + these florets had opened for a short time unperceived by me and had then + closed again, the empty anthers would have been left dangling outside. + Nevertheless they yielded on August 17th an abundance of fine ripe seeds. + Here then we have a near approach to the single case as yet known of this + grass producing in a state of nature (in Germany) perfect flowers which + yielded a copious supply of fruit. (8/26. Dr. Ascherson ‘Botanische + Zeitung’ 1864 page 350.) Seeds from the cleistogamic flowers were sent by + me to Mr. Scott in Calcutta, who there cultivated the plants in various + ways, but they never produced perfect flowers. + </p> + <p> + In Europe Leersia oryzoides is the sole representative of its genus, and + Duval- Jouve, after examining several exotic species, found that it + apparently is the sole one which bears cleistogamic flowers. It ranges + from Persia to North America, and specimens from Pennsylvania resembled + the European ones in their concealed manner of fructification. There can + therefore be little doubt that this plant generally propagates itself + throughout an immense area by cleistogamic seeds, and that it can hardly + ever be invigorated by cross- fertilisation. It resembles in this respect + those plants which are now widely spread, though they increase solely by + asexual generation. (8/27. I have collected several such cases in my + ‘Variation under Domestication’ chapter 18 2nd edition volume 2 page 153.) + </p> + <h3> + CONCLUDING REMARKS ON CLEISTOGAMIC FLOWERS. + </h3> + <p> + That these flowers owe their structure primarily to the arrested + development of perfect ones, we may infer from such cases as that of the + lower rudimentary petal in Viola being larger than the others, like the + lower lip of the perfect flower,—from a vestige of a spur in the + cleistogamic flowers of Impatiens,— from the ten stamens of Ononis + being united into a tube,—and other such structures. The same + inference may be drawn from the occurrence, in some instances, on the same + plant of a series of gradations between the cleistogamic and perfect + flowers. But that the former owe their origin wholly to arrested + development is by no means the case; for various parts have been specially + modified, so as to aid in the self-fertilisation of the flowers, and as a + protection to the pollen; for instance, the hook-shaped pistil in Viola + and in some other genera, by which the stigma is brought close to the + fertile anthers,- -the rudimentary corolla of Specularia modified into a + perfectly closed tympanum, and the sheath of Monochoria modified into a + closed sack,—the excessively thin coats of the pollen-grains,—the + anthers not being all equally aborted, and other such cases. Moreover Mr. + Bennett has shown that the buds of the cleistogamic and perfect flowers of + Impatiens differ at a very early period of growth. + </p> + <p> + The degree to which many of the most important organs in these degraded + flowers have been reduced or even wholly obliterated, is one of their most + remarkable peculiarities, reminding us of many parasitic animals. In some + cases only a single anther is left, and this contains but few + pollen-grains of diminished size; in other cases the stigma has + disappeared, leaving a simple open passage into the ovarium. It is also + interesting to note the complete loss of trifling points in the structure + or functions of certain parts, which though of service to the perfect + flowers, are of none to the cleistogamic; for instance the collecting + hairs on the pistil of Specularia, the glands on the calyx of the + Malpighiaceae, the nectar-secreting appendages to the lower stamens of + Viola, the secretion of nectar by other parts, the emission of a sweet + odour, and apparently the elasticity of the valves in the buried capsules + of Viola odorata. We here see, as throughout nature, that as soon as any + part or character becomes superfluous it tends sooner or later to + disappear. + </p> + <p> + Another peculiarity in these flowers is that the pollen-grains generally + emit their tubes whilst still enclosed within the anthers; but this is not + so remarkable a fact as was formerly thought, when the case of Asclepias + was alone known. (8/28. The case of Asclepias was described by R. Brown. + Baillon asserts ‘Adansonia’ tome 2 1862 page 58, that with many plants the + tubes are emitted from pollen-grains which have not come into contact with + the stigma; and that they may be seen advancing horizontally through the + air towards the stigma. I have observed the emission of the tubes from the + pollen-masses whilst still within the anthers, in three widely distinct + Orchidean genera namely Aceras, Malaxis, and Neottia: see ‘The Various + Contrivances by which Orchids are Fertilised’ 2nd edition page 258.) It + is, however, a wonderful sight to behold the tubes directing themselves in + a straight line to the stigma, when this is at some little distance from + the anthers. As soon as they reach the stigma or the open passage leading + into the ovarium, no doubt they penetrate it, guided by the same means, + whatever these may be, as in the case of ordinary flowers. I thought that + they might be guided by the avoidance of light: some pollen-grains of a + willow were therefore immersed in an extremely weak solution of honey, and + the vessel was placed so that the light entered only in one direction, + laterally or from below or from above, but the long tubes were in each + case protruded in every possible direction. + </p> + <p> + As cleistogamic flowers are completely closed they are necessarily self- + fertilised, not to mention the absence of any attraction to insects; and + they thus differ widely from the great majority of ordinary flowers. + Delpino believes that cleistogamic flowers have been developed in order to + ensure the production of seeds under climatic or other conditions which + tend to prevent the fertilisation of the perfect flowers. (8/29. ‘Sull’ + Opera la Distribuzione dei Sessi nelle Piante’ 1867 page 30.) I do not + doubt that this holds good to a certain limited extent, but the production + of a large supply of seeds with little consumption of nutrient matter or + expenditure of vital force is probably a far more efficient motive power. + The whole flower is much reduced in size; but what is much more important, + an extremely small quantity of pollen has to be formed, as none is lost + through the action of insects or the weather; and pollen contains much + nitrogen and phosphorus. Von Mohl estimated that a single cleistogamic + anther-cell of Oxalis acetosella contained from one to two dozen + pollen-grains; we will say 20, and if so the whole flower can have + produced at most 400 grains; with Impatiens the whole number may be + estimated in the same manner at 250; with Leersia at 210; and with Viola + nana at only 100. These figures are wonderfully low compared with the + 243,600 pollen-grains produced by a flower of Leontodon, the 4,863 by an + Hibiscus, or the 3,654,000 by a Paeony. (8/30. The authorities for these + statements are given in my ‘Effects of Cross and Self-Fertilisation’ page + 376.) We thus see that cleistogamic flowers produce seeds with a + wonderfully small expenditure of pollen; and they produce as a general + rule quite as many seeds as the perfect flowers. + </p> + <p> + That the production of a large number of seeds is necessary or beneficial + to many plants needs no evidence. So of course is their preservation + before they are ready for germination; and it is one of the many + remarkable peculiarities of the plants which bear cleistogamic flowers, + that an incomparably larger proportion of them than of ordinary plants + bury their young ovaries in the ground;—an action which it may be + presumed serves to protect them from being devoured by birds or other + enemies. But this advantage is accompanied by the loss of the power of + wide dissemination. No less than eight of the genera in the list at the + beginning of this chapter include species which act in this manner, + namely, several kinds of Viola, Oxalis, Vandellia, Linaria, Commelina, and + at least three genera of Leguminosae. The seeds also of Leersia, though + not buried, are concealed in the most perfect manner within the sheaths of + the leaves. Cleistogamic flowers possess great facilities for burying + their young ovaries or capsules, owing to their small size, pointed shape, + closed condition and the absence of a corolla; and we can thus understand + how it is that so many of them have acquired this curious habit. + </p> + <p> + It has already been shown that in about 32 out of the 55 genera in the + list just referred to, the perfect flowers are irregular; and this implies + that they have been specially adapted for fertilisation by insects. + Moreover three of the genera with regular flowers are adapted by other + means for the same end. Flowers thus constructed are liable during certain + seasons to be imperfectly fertilised, namely, when the proper insects are + scarce; and it is difficult to avoid the belief that the production of + cleistogamic flowers, which ensures under all circumstances a full supply + of seed, has been in part determined by the perfect flowers being liable + to fail in their fertilisation. But if this determining cause be a real + one, it must be of subordinate importance, as four of the genera in the + list are fertilised by the wind; and there seems no reason why their + perfect flowers should fail to be fertilised more frequently than those in + any other anemophilous genus. In contrast with what we here see with + respect to the large proportion of the perfect flowers being irregular, + one genus alone out of the 38 heterostyled genera described in the + previous chapters bears such flowers; yet all these genera are absolutely + dependent on insects for their legitimate fertilisation. I know not how to + account for this difference in the proportion of the plants bearing + regular and irregular flowers in the two classes, unless it be that the + heterostyled flowers are already so well adapted for cross-fertilisation, + through the position of their stamens and pistils and the difference in + power of their two or three kinds of pollen, that any additional + adaptation, namely, through the flowers being made irregular, has been + rendered superfluous. + </p> + <p> + Although cleistogamic flowers never fail to yield a large number of seeds, + yet the plants bearing them usually produce perfect flowers, either + simultaneously or more commonly at a different period; and these are + adapted for or admit of cross-fertilisation. From the cases given of the + two Indian species of Viola, which produced in this country during several + years only cleistogamic flowers, and of the numerous plants of Vandellia + and of some plants of Ononis which behaved during one whole season in the + same manner, it appears rash to infer from such cases as that of Salvia + cleistogama not having produced perfect flowers during five years in + Germany (8/31. Dr. Ascherson ‘Botanische Zeitung’ 1871 page 555.), and of + an Aspicarpa not having done so during several years in Paris, that these + plants would not bear perfect flowers in their native homes. Von Mohl and + several other botanists have repeatedly insisted that as a general rule + the perfect flowers produced by cleistogamic plants are sterile; but it + has been shown under the head of the several species that this is not the + case. The perfect flowers Viola are indeed sterile unless they are visited + by bees; but when thus visited they yield the full number of seeds. As far + as I have been able to discover there is only one absolute exception to + the rule that the perfect flowers are fertile, namely, that of Voandzeia; + and in this case we should remember that cultivation often affects + injuriously the reproductive organs. Although the perfect flowers of + Leersia sometimes yield seeds, yet this occurs so rarely, as far as + hitherto observed, that it practically forms a second exception to the + rule. + </p> + <p> + As cleistogamic flowers are invariably fertilised, and as they are + produced in large numbers, they yield altogether a much larger supply of + seeds than do the perfect flowers on the same plant. But the latter + flowers will occasionally be cross-fertilised, and their offspring will + thus be invigorated, as we may infer from a wide-spread analogy. But of + such invigoration I have only a small amount of direct evidence: two + crossed seedlings of Ononis minutissima were put into competition with two + seedlings raised from cleistogamic flowers; they were at first all of + equal height; the crossed were then slightly beaten; but on the following + year they showed the usual superiority of their class, and were to the + self-fertilised plants of cleistogamic origin as 100 to 88 in mean height. + With Vandellia twenty crossed plants exceeded in height twenty plants + raised from cleistogamic seeds only by a little, namely, in the ratio of + 100 to 94. + </p> + <p> + It is a natural inquiry how so many plants belonging to various very + distinct families first came to have the development of their flowers + arrested, so as ultimately to become cleistogamic. That a passage from the + one state to the other is far from difficult is shown by the many recorded + cases of gradations between the two states on the same plant, in Viola, + Oxalis, Biophytum, Campanula, etc. In the several species of Viola the + various parts of the flowers have also been modified in very different + degrees. Those plants which in their own country produce flowers of full + or nearly full size, but never expand (as with Thelymitra), and yet set + fruit, might easily be rendered cleistogamic. Lathyrus nissolia seems to + be in an incipient transitional state, as does Drosera Anglica, the + flowers of which are not perfectly closed. There is good evidence that + flowers sometimes fail to expand and are somewhat reduced in size, owing + to exposure to unfavourable conditions, but still retain their fertility + unimpaired. Linnaeus observed in 1753 that the flowers on several plants + brought from Spain and grown at Upsala did not show any corolla and yet + produced seeds. Asa Gray has seen flowers on exotic plants in the Northern + United States which never expanded and yet fruited. With certain English + plants, which bear flowers during nearly the whole year, Mr. Bennett found + that those produced during the winter season were fertilised in the bud; + whilst with other species having fixed times for flowering, but “which had + been tempted by a mild January to put forth a few wretched flowers,” no + pollen was discharged from the anthers, and no seed was formed. The + flowers of Lysimachia vulgaris if fully exposed to the sun expand + properly, while those growing in shady ditches have smaller corollas which + open only slightly; and these two forms graduate into one another in + intermediate stations. Herr Bouche’s observations are of especial + interest, for he shows that both temperature and the amount of light + affect the size of the corolla; and he gives measurements proving that + with some plants the corolla is diminished by the increasing cold and + darkness of the changing season, whilst with others it is diminished by + the increasing heat and light. (8/32. For the statement by Linnaeus see + Mohl in ‘Botanische Zeitung’ 1863 page 327. Asa Gray ‘American Journal of + Science’ 2nd series volume 39 1865 page 105. Bennett in ‘Nature’ November + 1869 page 11. The Reverend G. Henslow also says ‘Gardener’s Chronicle’ + 1877 page 271, also ‘Nature’ October 19, 1876 page 543, “that when the + autumn draws on, and habitually in winter for such of our wild flowers as + blossom at that season” the flowers are self-fertilised. On Lysimachia H. + Muller ‘Nature’ September 1873 page 433. Bouche ‘Sitzungsbericht der + Gesell. Naturforsch. Freunde’ October 1874 page 90.) + </p> + <p> + The belief that the first step towards flowers being rendered cleistogamic + was due to the conditions to which they were exposed, is supported by the + fact of various plants belonging to this class either not producing their + cleistogamic flowers under certain conditions, or, on the other hand, + producing them to the complete exclusion of the perfect ones. Thus some + species of Viola do not bear cleistogamic flowers when growing on the + lowlands or in certain districts. Other plants when cultivated have failed + to produce perfect flowers during several successive years; and this is + the case with Juncus bufonius in its native land of Russia. Cleistogamic + flowers are produced by some species late and by others early in the + season; and this agrees with the view that the first step towards their + development was due to climate; though the periods at which the two sorts + of flowers now appear must since have become much more distinctly defined. + We do not know whether too low are too high a temperature or the amount of + light acts in a direct manner on the size of the corolla, or indirectly + through the male organs being first affected. However this may be, if a + plant were prevented either early or late in the season from fully + expanding its corolla, with some reduction in its size, but with no loss + of the power of self-fertilisation, then natural selection might well + complete the work and render it strictly cleistogamic. The various organs + would also, it is probable, be modified by the peculiar conditions to + which they are subjected within a completely closed flower; also by the + principle of correlated growth, and by the tendency in all reduced organs + finally to disappear. The result would be the production of cleistogamic + flowers such as we now see them; and these are admirably fitted to yield a + copious supply of seed at a wonderfully small cost to the plant. + </p> + <p> + I will now sum up very briefly the chief conclusions which seem to follow + from the observations given in this volume. Cleistogamic flowers afford, + as just stated, an abundant supply of seeds with little expenditure; and + we can hardly doubt that they have had their structure modified and + degraded for this special purpose; perfect flowers being still almost + always produced so as to allow of occasional cross-fertilisation. + Hermaphrodite plants have often been rendered monoecious, dioecious or + polygamous; but as the separation of the sexes would have been injurious, + had not pollen been already transported habitually by insects or by the + wind from flower to flower, we may assume that the process of separation + did not commence and was not completed for the sake of the advantages to + be gained from cross-fertilisation. The sole motive for the separation of + the sexes which occurs to me, is that the production of a great number of + seeds might become superfluous to a plant under changed conditions of + life; and it might then be highly beneficial to it that the same flower or + the same individual should not have its vital powers taxed, under the + struggle for life to which all organisms are subjected, by producing both + pollen and seeds. With respect to the plants belonging to the + gyno-dioecious sub-class, or those which co-exist as hermaphrodites and + females, it has been proved that they yield a much larger supply of seed + than they would have done if they had all remained hermaphrodites; and we + may feel sure from the large number of seeds produced by many plants that + such production is often necessary or advantageous. It is therefore + probable that the two forms in this sub-class have been separated or + developed for this special end. + </p> + <p> + Various hermaphrodite plants have become heterostyled, and now exist under + two or three forms; and we may confidently believe that this has been + effected in order that cross-fertilisation should be assured. For the full + and legitimate fertilisation of these plants pollen from the one form must + be applied to the stigma of another. If the sexual elements belonging to + the same form are united the union is an illegitimate one and more or less + sterile. With dimorphic species two illegitimate unions, and with + trimorphic species twelve are possible. There is reason to believe that + the sterility of these unions has not been specially acquired, but follows + as an incidental result from the sexual elements of the two or three forms + having been adapted to act on one another in a particular manner, so that + any other kind of union is inefficient, like that between distinct + species. Another and still more remarkable incidental result is that the + seedlings from an illegitimate union are often dwarfed and more or less or + completely barren, like hybrids from the union of two widely distinct + species. + </p> + <h3> + INDEX. + </h3> + <p> + Acanthaceae. + </p> + <p> + Acer campestre. + </p> + <p> + Adoxa. + </p> + <p> + Aegiphila elata. —mollis. —obdurata. + </p> + <p> + Alefeld, Dr., on Linum. + </p> + <p> + Alisma natans. + </p> + <p> + Amphicarpaea. + </p> + <p> + Amsinckia spectabilis. Variability in length of stamens and pistil. + </p> + <p> + Anchusa arvensis. + </p> + <p> + Androsace vitalliana. + </p> + <p> + Anthers, size of, in different forms. contabescent. + </p> + <p> + Arachis. + </p> + <p> + Arnebia hispidissima. + </p> + <p> + Ascherson, Dr., on Salvia cleistogama. Juncus bufonius. Leersia oryzoides. + </p> + <p> + Asclepias. + </p> + <p> + Ash, the common. + </p> + <p> + Asperula scoparia. + </p> + <p> + Axell on Primula stricta. + </p> + <p> + Babington, Professor, on Primula elatior. Stellaria graminea. + </p> + <p> + Baillon, emission of the tubes from pollen-grains. + </p> + <p> + Belhomme, M., on ray-florets. + </p> + <p> + Bennett, A.W., on Impatiens fulva. flowers fertilised whilst in the bud + state. + </p> + <p> + Bentham, Mr., on the differentiation of the sexes. on the cleistogamic + flowers of Ononis. + </p> + <p> + Boragineae. + </p> + <p> + Boreau on cowslip and primrose. + </p> + <p> + Borreria. + </p> + <p> + Bouche on Pavonia. effect of temperature and light on corolla. + </p> + <p> + Bouvardia leiantha. + </p> + <p> + Braun on Dracocephalum. + </p> + <p> + Breitenbach, W., on Primula elatior. + </p> + <p> + Bromfield, Dr., on primrose and cowslip. Primula elatior. Specularia + perfoliata. + </p> + <p> + Brown, Robert, on sexual changes. + </p> + <p> + Buckwheat, the common. + </p> + <p> + Caltha palustris. + </p> + <p> + Campanula colorata. + </p> + <p> + Cardamine amara. + </p> + <p> + Caspary, Professor, on Rhamnus catharticus. + </p> + <p> + Cattleya. + </p> + <p> + Chamissoa. + </p> + <p> + Cinchona micrantha. + </p> + <p> + Cleistogamic flowers. list of genera. on their origin. + </p> + <p> + Cnicus acaulis. — palustris. + </p> + <p> + Coccocypselum. pollen-grains of. + </p> + <p> + Coprosma. + </p> + <p> + Cordia. pistil of. + </p> + <p> + Corolla, difference in size in the sexes of the same species. + </p> + <p> + Corydalis. + </p> + <p> + Corylus avellana. + </p> + <p> + Cowslip, the common. short- and long-styled. + </p> + <p> + Cratoxylon formosum. + </p> + <p> + Crocker, C.W., on Plantago lanceolata. + </p> + <p> + Cryptostachys. + </p> + <p> + Cuphea purpurea. + </p> + <p> + Darwin, Charles, on reproductive organs under cultivation. intercrossed + plants. prepotency of pollen. insects fertilising flowers. Cephalanthera + grandiflora. Epidendron and Cattleya. number of pollen-grains. + </p> + <p> + Darwin, W., on Pulmonaria angustifolia. + </p> + <p> + Datura arborea. + </p> + <p> + Delpino, plants fertilised by the wind. on the walnut. Polygonaceae. + pollen-grains. Thymus serpyllum. closed or cleistogamic flowers. Viola + odorata. + </p> + <p> + Dianthus barbatus. + </p> + <p> + Dickie, Dr., on Eriophorum angustifolium. + </p> + <p> + Dictamnus fraxinella. + </p> + <p> + Diodia. + </p> + <p> + Dioecious and sub-dioecious plants. + </p> + <p> + Discospermum. + </p> + <p> + Doubleday, H., on Primula elatior. + </p> + <p> + Dracocephalum Moldavicum. + </p> + <p> + Drosera Anglica. — rotundifolia. + </p> + <p> + Duval-Jouve, M., on Cryptostachys. Leersia oryzoides. + </p> + <p> + Dyer, Thiselton, on Salvia Horminum. Cratoxylon formosum. + </p> + <p> + Echium vulgare. + </p> + <p> + Epidendron. + </p> + <p> + Epigaea repens. + </p> + <p> + Eranthemum ambiguum. + </p> + <p> + Eriophorum angustifolium. + </p> + <p> + Erythroxylum. pollen-grains of. + </p> + <p> + Euonymus Europaeus. + </p> + <p> + Euphrasia officinalis. + </p> + <p> + Euryale. + </p> + <p> + Faramea. pollen-grains of. + </p> + <p> + Fitzgerald, Mr., on Thelymitra. + </p> + <p> + Forsythia suspensa. stamens. — viridissima. + </p> + <p> + Fragaria Chiloensis. — elatior. — vesca. — Virginiana. + </p> + <p> + Fraxinus excelsior. + </p> + <p> + Galium cruciatum. + </p> + <p> + Gartner on the sterility of unions between distinct species. Primula + vulgaris and veris. hybrid Verbascums. prepotency of pollen. variation in + the sexual powers of plants. contabescent anthers. + </p> + <p> + Gentianeae. + </p> + <p> + Geraniaceae. + </p> + <p> + Geranium sylvaticum. + </p> + <p> + Gesneria pendulina. + </p> + <p> + Gilia aggregata. — coronopifolia. — micrantha. — + nudicaulis. — pulchella. + </p> + <p> + Gillibert on Menyanthes. + </p> + <p> + Gloriosa Lily, the. + </p> + <p> + Godron on hybrid Primulas. + </p> + <p> + Gray, Professor Asa, proposes the term heterogone or heterogonous. on + Linum. Leucosmia Burnettiana and acuminata. Forsythia suspensa. Gilia + pulchella. G. coronopifolia. Phlox subulata. Mitchella repens. + heterostyled plants. Coprosma. Euonymus. Rhamnus lanceolatus. Epigaea + repens. Ilex opaca. Plantago media. Oxybaphus and Nyctaginia. Impatiens + fulva. Leersia. cleistogamic flowers. + </p> + <p> + Gyno-dioecious plants. + </p> + <p> + Hart, Mr., on Nepeta glechoma. + </p> + <p> + Hautbois Strawberry, the. + </p> + <p> + Hedyotis. + </p> + <p> + Henslow, Reverend Professor, on hybrid Primulae. + </p> + <p> + Henslow, Reverend G., on flowers self-fertilised during the winter. + </p> + <p> + Herbert, Dr., on hybrid Primulae. + </p> + <p> + Heterostyled plants, illegitimate offspring of. essential character of. + summary of the differences of fertility between legitimately and + illegitimately fertilised plants. diameter of pollen-grains. size of + anthers, structure of stigma. list of genera. advantages derived from + Heterostylism. means by which plants became heterostyled. transmission of + form. equal-styled varieties. final remarks. — dimorphic plants. + — trimorphic plants. + </p> + <p> + Hibiscus, pollen-grains. + </p> + <p> + Hildebrand, Professor, introduces the word “heterostyled.” on the + ray-florets of the Compositae. Primula Sinensis. Linum grandiflorum. L. + perenne. Pulmonaria officinalis. P. azurea. Polygonum fagopyrum. Oxalis. + hermaphrodite plants becoming uni-sexual. Hordeum. + </p> + <p> + Homostyled species of Primula. + </p> + <p> + Hooker Dr., on Campanula. + </p> + <p> + Hordeum. + </p> + <p> + Hottonia inflata. — palustris. relative fertility. anthers of. + papillae on stigma. + </p> + <p> + Houstonia coerulea. + </p> + <p> + Hoya carnosa. + </p> + <p> + Hybrid Primulas. + </p> + <p> + Hydrangea. + </p> + <p> + Hypericineae. Hyssopus officinalis. + </p> + <p> + Ilex aquifolium — opaca. + </p> + <p> + Illegitimate offspring of heterostyled plants. Lythrum salicaria, dwarfed + stature and sterility. Oxalis, transmission of form to seedlings. Primula + Sinensis, in some degree dwarfed. equal-styled varieties. Primula + vulgaris. transmission of form and colour. seedlings. P. veris. dwarfed + stature and sterility. equal-styled varieties. parallelism between + illegitimate fertilisation and hybridism. + </p> + <p> + Illecebrum. + </p> + <p> + Impatiens, pollen-grains of. — balsamina. — fulva. — + noli-me-tangere. + </p> + <p> + Juglans regia. + </p> + <p> + Juncus bufonius. + </p> + <p> + Jussieu, A. de, on Malpighiaceae. + </p> + <p> + Kerner, Professor, on ray-florets. Auricula. hybrid forms of Primula. on + use of hairs within the corolla. size of corolla in male flowers. use of + glands as a protection to flowers. + </p> + <p> + Kirk, Dr., on Monochoria vaginalis. + </p> + <p> + Knoxia. + </p> + <p> + Koch on Primula longiflora. + </p> + <p> + Krascheninikowia. + </p> + <p> + Kuhn, Dr., on cleistogamic flowers. list of plants producing differently + formed seeds. heterostyled plants. Vandellia nummularifolia. V. + sessiflora. + </p> + <p> + Lagerstroemia Indica. — parviflora. — reginae. + </p> + <p> + Lathyrus nissolia. + </p> + <p> + Lecoq, H., on the common maple. cowslips and primroses. Primula elatior. + Linum Austriacum. Lythrum hyssopifolia. Rhamnus. gyno-dioecious plants. + Scabiosa succisa. Viola odorata. + </p> + <p> + Leersia oryzoides. pollen-grains of. + </p> + <p> + Leggett, Mr., Pontederia cordata. + </p> + <p> + Legitimate unions, summary on the fertility of the two, compared with that + of the two illegitimate in Primula. fertility of, compared with + illegitimate. + </p> + <p> + Leighton, Reverend W.A., on the cowslip and primrose. Verbascum virgatum. + </p> + <p> + Leontodon, pollen-grains. + </p> + <p> + Leptosiphon. + </p> + <p> + Leucosmia acuminata. — Burnettiana. stigma. + </p> + <p> + Lily, the Gloriosa. + </p> + <p> + Limnanthemum Indicum. pollen-grains. anthers. + </p> + <p> + Linaria spuria. + </p> + <p> + Lindley on Fragaria elatior. + </p> + <p> + Linnaeus on Primula veris, vulgaris, and elatior. + </p> +<pre xml:space="preserve"> +Linum angustifolium. +— Austriacum. +— catharticum +— corymbiferum. +— flavum. + stamens. +— grandiflorum. + various experiments. + pistils and stamens. + sterile with its own-form pollen. +— Lewisii. +— perenne. + torsion of the styles. + long-styled form. + stigma. +— salsoloides. +— trigynum. +— usitatissimum. +</pre> + <p> + Lipostoma. + </p> + <p> + Lysimachia vulgaris. + </p> +<pre xml:space="preserve"> +Lythrum Graefferi. +— hyssopifolia. +— salicaria. + power of mutual fertilisation between the three forms. + summary of results. + illegitimate offspring from the three forms. + concluding remarks on. + mid-styled form. + seeds. +— thymifolia. +</pre> + <p> + Malpighiaceae. + </p> + <p> + Manettia bicolor. + </p> + <p> + Maple, the common. + </p> + <p> + Marshall, W., on Primula elatior. Plantago lanceolata. + </p> + <p> + Masters, Dr. Maxwell, on cleistogamic flowers. + </p> + <p> + Maximowicz on Krascheninikowia. + </p> + <p> + Meehan, Mr., on Mitchella. Epigaea repens. + </p> + <p> + Melissa clinopodium — officinalis. + </p> + <p> + Mello, Correa de, on Arachis. Voandzeia. + </p> + <p> + Mentha aquatica. — hirsuta. — vulgaris. + </p> + <p> + Menyanthes. — trifoliata. + </p> + <p> + Michalet on Oxalis acetosella. Linaria spuria. + </p> + <p> + Mitchella. — repens. + </p> + <p> + Mohl, H. Von, on the common cowslip. size of corolla in the sexes of the + same species. Trifolium and Arachis. cleistogamic flowers. Oxalis + acetosella. Impatiens noli-me-tangere. Specularia perfoliata. + </p> + <p> + Mollia lepidota. — speciosa. + </p> + <p> + Monnier, M., on Viola. + </p> + <p> + Monochoria vaginalis. + </p> + <p> + Mulberry, the. + </p> + <p> + Muller, D., on Viola canina. + </p> + <p> + Muller, Fritz, on pollen of the Villarsia. Faramea. Posoqueria fragrans. + Nesaea. Oxalis. Pontederia. Oxalis Regnelli. Chamissoa. + </p> + <p> + Muller, H., on the frequency of visits by insects to the Umbelliferae and + Compositae. on dichogamy. on Anthophora and Bombylius sucking the cowslip. + Primula elatior. — villosa. Hottonia palustris. table of relative + fertility of. Linum catharticum. Polygonum fagopyrum. Lythrum salicaria. + on the origin of heterostylism. on the Labiatae. Thymus serpyllum. + Scabiosa arvensis. Plantago lanceolata. size of corolla in the two sexes + of the same species. Impatiens balsamina. Lysimachia. + </p> + <p> + Myosotis. + </p> + <p> + Nepeta glechoma. + </p> + <p> + Nertera. + </p> + <p> + Nesaea verticillata. + </p> + <p> + Nolana prostrata, variability in length of stamens and pistil. + </p> + <p> + Nyctaginia. + </p> + <p> + Oldenlandia. + </p> + <p> + Oleaceae. + </p> + <p> + Oliver, Professor, on ovules of Primula veris. Viola. Campanula colorata. + </p> + <p> + Ononis columnae. — minutissima. — parviflora. + </p> + <p> + Origanum vulgare. + </p> +<pre xml:space="preserve"> +Oxalis acetosella. +pisil of. +cleistogamic flowers. +pollen-grains. +— Bowii. +— compressa. +— corniculata. +— Deppei. +— hedysaroides. +— homostyled species. +— incarnata. +— Regnelli. +— rosea. +— (Biophytum) sensitiva. + stigma. +— speciosa. +— stricta. +— tropaeoloides. +— Valdiviana. +</pre> +<pre xml:space="preserve"> +Oxlip, the Bardfield. +—, the common. + differences in structure and function between the two parent-species. + effects of crossing. + a hybrid between the cowslip and primrose. +</pre> + <p> + Oxybaphus. + </p> + <p> + Paeony, pollen-grains of. + </p> + <p> + Parallelism between illegitimate and hybrid fertilisation. + </p> + <p> + Pavonia. + </p> + <p> + Phlox Hentzii. — nivalis. — subulata. + </p> + <p> + Planchon on Linum salsoloides. L. Lewisii. on Hugonia. + </p> + <p> + Plantago lanceolata. — media. + </p> + <p> + Polemoniaceae. + </p> + <p> + Pollen-grains, relative diameter of. + </p> + <p> + Polyanthus. + </p> + <p> + Polygonaceae. + </p> + <p> + Polygonum bistorta. — fagopyrum. pollen-grains. + </p> + <p> + Pontederia. pollen-grains. size of anthers. — cordata. + </p> + <p> + Posoqueria fragrans. + </p> + <p> + Primrose, the common. + </p> +<pre xml:space="preserve"> +Primula, the, heterostyled species of. +summary on. +homostyled species. +— auricula. +— equal-styled varieties. +— cortusoides. +— elata. +— elatior, Jacq. + relative fertility of the two forms. + not a hybrid. + equal-styled var. of. +— farinosa. + equal-styled var. +— hirsuta. +— involucrata. +— longiflora. +— mollis. +— Scotica. +— Sibirica. +— Sikkimensis. +— Sinensis. + relative fertility. + long-styled. + short-styled. + transmission of form, constitution and fertility. + equal-styled variety. +— stricta. +— veris. + difference in structure between the two forms. + degrees of fertility when legitimately or illegitimately united. + fertility possessed by illegitimate plants. + equal-styled red variety. + long-styled. + length of pistil. +— verticillata. +— villosa. +— vulgaris (var. acaulis Linn.). + pollen-grains. + relative fertility of the two forms. + length of pistil +</pre> + <p> + Primula vulgaris, var. rubra. + </p> + <p> + Prunella vulgaris. + </p> + <p> + Psychotria. + </p> +<pre xml:space="preserve"> +Pulmonaria angustifolia. +anthers. +— azurea. +— officinalis. + number of flowers. + pistil. +</pre> + <p> + Ranunculus aquatilis. + </p> + <p> + Ray-florets, their use. + </p> + <p> + Rhamnus catharticus. size of corolla. — frangula. — + lanceolatus. + </p> + <p> + Rhinanthus crista-galli. + </p> + <p> + Rubiaceae. size of anthers. stigmas. number of heterostyled genera. + </p> + <p> + Rudgea eriantha. + </p> + <p> + Rue, the common. + </p> + <p> + Ruellia tuberosa. + </p> + <p> + Salvia. — cleistogama. — Horminum. + </p> + <p> + Satureia hortensis. + </p> + <p> + Scabiosa arvensis. — atro-purpurea. — succisa. + </p> + <p> + Scott, J., on Primula auricula. on Primula vulgaris. on Primula var. + rubra. on Primula Sikkimensis. on Primula farinosa. homostyled Primulae. + hybrids. length of pistil. Hottonia palustris. Androsace vitalliana. + Polyanthus. Mitchella repens. Acanthaceae. Eranthemum ambiguum bearing + three kinds of flowers. + </p> + <p> + Scrophularia aquatica. + </p> + <p> + Serratula tinctoria. + </p> + <p> + Sethia acuminata. — obtusifolia. + </p> + <p> + Smith, Sir J.E., on the carrot. hybrid Verbascums. Serratula tinctoria. + Cnicus. Subularia. + </p> + <p> + Soldanella alpina. + </p> + <p> + Specularia perfoliata. + </p> + <p> + Spence, Mr., on Mollia. + </p> + <p> + Spermacoce. + </p> + <p> + Sprengel on Hottonia palustris. + </p> + <p> + Stellaria graminea. + </p> + <p> + Strawberry, the Hautbois. + </p> + <p> + Subularia. + </p> + <p> + Suteria. + </p> + <p> + Thelymitra. + </p> + <p> + Thomson, Dr., on Campanula. + </p> + <p> + Thrum-eyed, origin of term. + </p> + <p> + Thwaites, Mr., on ovules of Limnanthemum Indicum. Sethia acuminata. + Discospermum. + </p> + <p> + Thymelia. + </p> + <p> + Thymus citriodorus. — serpyllum — vulgaris. + </p> + <p> + Timbal-Lagrave, M., on hybrids in genus Cistus. + </p> + <p> + Torrey, Dr., on Hottonia inflata. + </p> + <p> + Transmission of the two forms of heterostyled plants. + </p> + <p> + Treviranus on Androsace vitalliana. Linum. + </p> + <p> + Vandellia nummularifolia. — sessifloria. + </p> + <p> + Vaucher on the carrot. Soldanella alpina. Lythrum salicaria. — + thymifolia. Ilex aquifolium. on Labiatae. Viola hirta and collina. + </p> + <p> + Verbascum, wild hybrids of. — lychnitis. — phoeniceum. — + thapsus. — virgatum. + </p> + <p> + Viburnum. + </p> + <p> + Vicia. + </p> + <p> + Villarsia. anthers. + </p> +<pre xml:space="preserve"> +Viola alba. +— bicolor. +— biflora. +— canina. +— collina. +— elatior. +— hirta. +— ionodium. +— lancifolia. +— mirabilis. +— nana. + pollen-grains of. +— odorata. +— palustris. +— Roxburghiana. +— Ruppii. +— sylvatica. +— tricolor. +</pre> + <p> + Voandzeia. + </p> + <p> + Walnut, the. + </p> + <p> + Watson, H.C., on cowslips, primroses, and Oxlips. Primula elatior. + </p> + <p> + Weddell, Dr., on hybrids between Aceras and Orchis. + </p> + <p> + Wetterhan, Mr., on Corylus. + </p> + <p> + Wichura, Max, on hybrid willows. sterile hybrids. + </p> + <p> + Wirtgen on Lythrum salicaria. + </p> + <p> + Wooler, W., on Polyanthus. + </p> + <p> + Wray, Leonard, on Fragaria. + </p> + +<div style='display:block; margin-top:4em'>*** END OF THE PROJECT GUTENBERG EBOOK THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES ***</div> +<div style='text-align:left'> + +<div style='display:block; margin:1em 0'> +Updated editions will replace the previous one—the old editions will +be renamed. +</div> + +<div style='display:block; margin:1em 0'> +Creating the works from print editions not protected by U.S. copyright +law means that no one owns a United States copyright in these works, +so the Foundation (and you!) can copy and distribute it in the United +States without permission and without paying copyright +royalties. 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FOR PUBLIC DOMAIN ETEXTS*Ver.07/27/01*END* + + + + + +This Etext prepared by Sue Asscher asschers@dingoblue.net.au + + + + + +THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES + +by CHARLES DARWIN, M.A., F.R.S. + + + + +TO + +PROFESSOR ASA GRAY + +THIS VOLUME IS DEDICATED BY THE AUTHOR +AS A SMALL TRIBUTE OF RESPECT AND AFFECTION. + + + + +CONTENTS. + + +INTRODUCTION. + + +CHAPTER I. +HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEAE. + +Primula veris or the cowslip.--Differences in structure between the two forms.-- +Their degrees of fertility when legitimately and illegitimately united.--P. +elatior, vulgaris, Sinensis, auricula, etc.--Summary on the fertility of the +heterostyled species of Primula.--Homostyled species of Primula.--Hottonia +palustris.--Androsace vitalliana. + + +CHAPTER II. +HYBRID PRIMULAS. + +The oxlip a hybrid naturally produced between Primula veris and vulgaris.--The +differences in structure and function between the two parent-species.--Effects +of crossing long-styled and short-styled oxlips with one another and with the +two forms of both parent-species.--Character of the offspring from oxlips +artificially self-fertilised and cross-fertilised in a state of nature.--Primula +elatior shown to be a distinct species.--Hybrids between other heterostyled +species of Primula.--Supplementary note on spontaneously produced hybrids in the +genus Verbascum. + + +CHAPTER III. +HETEROSTYLED DIMORPHIC PLANTS--continued. + +Linum grandiflorum, long-styled form utterly sterile with own-form pollen.-- +Linum perenne, torsion of the pistils in the long-styled form alone.--Homostyled +species of Linum.--Pulmonaria officinalis, singular difference in self-fertility +between the English and German long-styled plants.--Pulmonaria angustifolia +shown to be a distinct species, long-styled form completely self-sterile.-- +Polygonum fagopyrum.--Various other heterostyled genera.--Rubiaceae.--Mitchella +repens, fertility of the flowers in pairs.--Houstonia.--Faramea, remarkable +difference in the pollen-grains of the two forms; torsion of the stamens in the +short-styled form alone; development not as yet perfect.--The heterostyled +structure in the several Rubiaceous genera not due to descent in common. + + +CHAPTER IV. +HETEROSTYLED TRIMORPHIC PLANTS. + +Lythrum salicaria.--Description of the three forms.--Their power and complex +manner of fertilising one another.--Eighteen different unions possible.--Mid- +styled form eminently feminine in nature.--Lythrum Graefferi likewise +trimorphic.--L. hymifolia dimorphic.--L. hyssopifolia homostyled.--Nesaea +verticillata trimorphic.--Lagerstroemia, nature doubtful.--Oxalis, trimorphic +species of.--O. Valdiviana.--O. Regnelli, the illegitimate unions quite barren.- +-O. speciosa.--O. sensitiva.--Homostyled species of Oxalis.--Pontederia, the one +monocotyledonous genus known to include heterostyled species. + + +CHAPTER V. +ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + +Illegitimate offspring from all three forms of Lythrum salicaria.--Their dwarfed +stature and sterility, some utterly barren, some fertile.--Oxalis, transmission +of form to the legitimate and illegitimate seedlings.--Primula Sinensis, +illegitimate offspring in some degree dwarfed and infertile.--Equal-styled +varieties of P. Sinensis, auricula, farinosa, and elatior.--P. vulgaris, red- +flowered variety, illegitimate seedlings sterile.--P. veris, illegitimate plants +raised during several successive generations, their dwarfed stature and +sterility.--Equal-styled varieties of P. veris.--Transmission of form by +Pulmonaria and Polygonum.--Concluding remarks.--Close parallelism between +illegitimate fertilisation and hybridism. + + +CHAPTER VI. +CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + +The essential character of heterostyled plants.--Summary of the differences in +fertility between legitimately and illegitimately fertilised plants.--Diameter +of the pollen-grains, size of anthers and structure of stigma in the different +forms.--Affinities of the genera which include heterostyled species.--Nature of +the advantages derived from heterostylism.--The means by which plants became +heterostyled.--Transmission of form.--Equal-styled varieties of heterostyled +plants.--Final remarks. + + +CHAPTER VII. +POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + +The conversion in various ways of hermaphrodite into dioecious plants.-- +Heterostyled plants rendered dioecious.--Rubiaceae.--Verbenaceae.--Polygamous +and sub-dioecious plants.--Euonymus.--Fragaria.--The two sub-forms of both sexes +of Rhamnus and Epigaea.--Ilex.--Gyno-dioecious plants.--Thymus, difference in +fertility of the hermaphrodite and female individuals.--Satureia.--Manner in +which the two forms probably originated.--Scabiosa and other gyno-dioecious +plants.--Difference in the size of the corolla in the forms of polygamous, +dioecious, and gyno-dioecious plants. + + +CHAPTER VIII. +CLEISTOGAMIC FLOWERS. + +General character of cleistogamic flowers.--List of the genera producing such +flowers, and their distribution in the vegetable series.--Viola, description of +the cleistogamic flowers in the several species; their fertility compared with +that of the perfect flowers.--Oxalis acetosella.--O. sensitiva, three forms of +cleistogamic flowers.--Vandellia.--Ononis.--Impatiens.--Drosera.--Miscellaneous +observations on various other cleistogamic plants.--Anemophilous species +producing cleistogamic flowers.--Leersia, perfect flowers rarely developed.-- +Summary and concluding remarks on the origin of cleistogamic flowers.--The chief +conclusions which may be drawn from the observations in this volume. + + +INDEX. + + +... + + +THE DIFFERENT FORMS OF FLOWERS ON PLANTS OF THE SAME SPECIES. + + +INTRODUCTION. + +The subject of the present volume, namely the differently formed flowers +normally produced by certain kinds of plants, either on the same stock or on +distinct stocks, ought to have been treated by a professed botanist, to which +distinction I can lay no claim. As far as the sexual relations of flowers are +concerned, Linnaeus long ago divided them into hermaphrodite, monoecious, +dioecious, and polygamous species. This fundamental distinction, with the aid of +several subdivisions in each of the four classes, will serve my purpose; but the +classification is artificial, and the groups often pass into one another. + +The hermaphrodite class contains two interesting sub-groups, namely, +heterostyled and cleistogamic plants; but there are several other less important +subdivisions, presently to be given, in which flowers differing in various ways +from one another are produced by the same species. + +Some plants were described by me several years ago, in a series of papers read +before the Linnean Society, the individuals of which exist under two or three +forms, differing in the length of their pistils and stamens and in other +respects. (Introduction/1. "On the Two Forms or Dimorphic Condition in the +Species of Primula, and on their remarkable Sexual Relations" 'Journal of the +Proceedings of the Linnean Society' volume 6 1862 page 77. "On the Existence of +Two Forms, and on their Reciprocal Sexual Relation, in several Species of the +Genus Linum" Ibid volume 7 1863 page 69. "On the Sexual Relations of the Three +Forms of Lythrum salicaria" Ibid volume 8 1864 page 169. "On the Character and +Hybrid-like Nature of the Offspring from the Illegitimate Unions of Dimorphic +and Trimorphic Plants" Ibid volume 10 1868 page 393. "On the Specific +Differences between Primula veris, Brit. Fl. (var. officinalis, Linn.), P. +vulgaris, Brit. Fl. (var. acaulis, Linn.), and P. elatior, Jacq.; and on the +Hybrid Nature of the Common oxlip. With Supplementary Remarks on Naturally +Produced Hybrids in the Genus Verbascum" Ibid volume 10 1868 page 437.) They +were called by me dimorphic and trimorphic, but have since been better named by +Hildebrand, heterostyled. (Introduction/2. The term "heterostyled" does not +express all the differences between the forms; but this is a failure common in +many cases. As the term has been adopted by writers in various countries, I am +unwilling to change it for that of heterogone or heterogonous, though this has +been proposed by so high an authority as Professor Asa Gray: see the 'American +Naturalist' January 1877 page 42.) As I have many still unpublished observations +with respect to these plants, it has seemed to me advisable to republish my +former papers in a connected and corrected form, together with the new matter. +It will be shown that these heterostyled plants are adapted for reciprocal +fertilisation; so that the two or three forms, though all are hermaphrodites, +are related to one another almost like the males and females of ordinary +unisexual animals. I will also give a full abstract of such observations as have +been published since the appearance of my papers; but only those cases will be +noticed, with respect to which the evidence seems fairly satisfactory. Some +plants have been supposed to be heterostyled merely from their pistils and +stamens varying greatly in length, and I have been myself more than once thus +deceived. With some species the pistil continues growing for a long time, so +that if old and young flowers are compared they might be thought to be +heterostyled. Again, a species tending to become dioecious, with the stamens +reduced in some individuals and with the pistils in others, often presents a +deceptive appearance. Unless it be proved that one form is fully fertile only +when it is fertilised with pollen from another form, we have not complete +evidence that the species is heterostyled. But when the pistils and stamens +differ in length in two or three sets of individuals, and this is accompanied by +a difference in the size of the pollen-grains or in the state of the stigma, we +may infer with much safety that the species is heterostyled. I have, however, +occasionally trusted to a difference between the two forms in the length of the +pistil alone, or in the length of the stigma together with its more or less +papillose condition; and in one instance differences of this kind have been +proved by trials made on the fertility of the two forms, to be sufficient +evidence. + +The second sub-group above referred to consists of hermaphrodite plants, which +bear two kinds of flowers--the one perfect and fully expanded--the other minute, +completely closed, with the petals rudimentary, often with some of the anthers +aborted, and the remaining ones together with the stigmas much reduced in size; +yet these flowers are perfectly fertile. They have been called by Dr. Kuhn +cleistogamic, and they will be described in the last chapter of this volume. +(Introduction/3. 'Botanische Zeitung' 1867 page 65. Several plants are known +occasionally to produce flowers destitute of a corolla; but they belong to a +different class of cases from cleistogamic flowers. This deficiency seems to +result from the conditions to which the plants have been subjected, and partakes +of the nature of a monstrosity. All the flowers on the same plant are commonly +affected in the same manner. Such cases, though they have sometimes been ranked +as cleistogamic, do not come within our present scope: see Dr. Maxwell Masters +'Vegetable Teratology' 1869 page 403.) They are manifestly adapted for self- +fertilisation, which is effected at the cost of a wonderfully small expenditure +of pollen; whilst the perfect flowers produced by the same plant are capable of +cross-fertilisation. Certain aquatic species, when they flower beneath the +water, keep their corollas closed, apparently to protect their pollen; they +might therefore be called cleistogamic, but for reasons assigned in the proper +place are not included in the present sub-group. Several cleistogamic species, +as we shall hereafter see, bury their ovaries or young capsules in the ground; +but some few other plants behave in the same manner; and, as they do not bury +all their flowers, they might have formed a small separate subdivision. + +Another interesting subdivision consists of certain plants, discovered by H. +Muller, some individuals of which bear conspicuous flowers adapted for cross- +fertilisation by the aid of insects, and others much smaller and less +conspicuous flowers, which have often been slightly modified so as to ensure +self-fertilisation. Lysimachia vulgaris, Euphrasia officinalis, Rhinanthus +crista-galli, and Viola tricolor come under this head. (Introduction/4. H. +Muller 'Nature' September 25, 1873 volume 8 page 433 and November 20, 1873 +volume 9 page 44. Also 'Die Befruchtung der Blumen' etc. 1873 page 294.) The +smaller and less conspicuous flowers are not closed, but as far as the purpose +which they serve is concerned, namely, the assured propagation of the species, +they approach in nature cleistogamic flowers; but they differ from them by the +two kinds being produced on distinct plants. + +With many plants, the flowers towards the outside of the inflorescence are much +larger and more conspicuous than the central ones. As I shall not have occasion +to refer to plants of this kind in the following chapters, I will here give a +few details respecting them. It is familiar to every one that the ray-florets of +the Compositae often differ remarkably from the others; and so it is with the +outer flowers of many Umbelliferae, some Cruciferae and a few other families. +Several species of Hydrangea and Viburnum offer striking instances of the same +fact. The Rubiaceous genus Mussaenda presents a very curious appearance from +some of the flowers having the tip of one of the sepals developed into a large +petal-like expansion, coloured either white or purple. The outer flowers in +several Acanthaceous genera are large and conspicuous but sterile; the next in +order are smaller, open, moderately fertile and capable of cross-fertilisation; +whilst the central ones are cleistogamic, being still smaller, closed and highly +fertile; so that here the inflorescence consists of three kinds of flowers. +(Introduction/5. J. Scott 'Journal of Botany' London new series volume 1 1872 +pages 161-164.) From what we know in other cases of the use of the corolla, +coloured bracteae, etc., and from what H. Muller has observed on the frequency +of the visits of insects to the flower-heads of the Umbelliferae and Compositae +being largely determined by their conspicuousness, there can be no doubt that +the increased size of the corolla of the outer flowers, the inner ones being in +all the above cases small, serves to attract insects. (Introduction/6. 'Die +Befruchtung der Blumen' pages 108, 412.) The result is that cross-fertilisation +is thus favoured. Most flowers wither soon after being fertilised, but +Hildebrand states that the ray-florets of the Compositae last for a long time, +until all those on the disc are impregnated; and this clearly shows the use of +the former. (Introduction/7. See his interesting memoir 'Ueber die +Geschlechtsverhaltniss bei den Compositen' 1869 page 92.) The ray-florets, +however, are of service in another and very different manner, namely, by folding +inwards at night and during cold rainy weather, so as to protect the florets of +the disc. (Introduction/8. Kerner clearly shows that this is the case: 'Die +Schutzmittel des Pollens' 1873 page 28.) Moreover they often contain matter +which is excessively poisonous to insects, as may be seen in the use of flea- +powder, and in the case of Pyrethrum, M. Belhomme has shown that the ray-florets +are more poisonous than the disc-florets in the ratio of about three to two. We +may therefore believe that the ray-florets are useful in protecting the flowers +from being gnawed by insects. (Introduction/9. 'Gardener's Chronicle' 1861 page +1067. Lindley 'Vegetable Kingdom' on Chrysanthemum 1853 page 706. Kerner in his +interesting essay 'Die Schutzmittel der Bluthen gegen unberufene Gaste' 1875 +page 19, insists that the petals of most plants contain matter which is +offensive to insects, so that they are seldom gnawed, and thus the organs of +fructification are protected. My grandfather in 1790 'Loves of the Plants' canto +3 note to lines 184, 188, remarks that "The flowers or petals of plants are +perhaps in general more acrid than their leaves; hence they are much seldomer +eaten by insects.") + +It is a well-known yet remarkable fact that the circumferential flowers of many +of the foregoing plants have both their male and female reproductive organs +aborted, as with the Hydrangea, Viburnum and certain Compositae; or the male +organs alone are aborted, as in many Compositae. Between the sexless, female and +hermaphrodite states of these latter flowers, the finest gradations may be +traced, as Hildebrand has shown. (Introduction/10. 'Ueber die +Geschlechtsverhaltnisse bei den Compositen' 1869 pages 78-91.) He also shows +that there is a close relation between the size of the corolla in the ray- +florets and the degree of abortion in their reproductive organs. As we have good +reason to believe that these florets are highly serviceable to the plants which +possess them, more especially by rendering the flower-heads conspicuous to +insects, it is a natural inference that their corollas have been increased in +size for this special purpose; and that their development has subsequently led, +through the principle of compensation or balancement, to the more or less +complete reduction of the reproductive organs. But an opposite view may be +maintained, namely, that the reproductive organs first began to fail, as often +happens under cultivation, and, as a consequence, the corolla became, through +compensation, more highly developed. (Introduction/11. I have discussed this +subject in my 'Variation of Animals and Plants under Domestication' chapter 18 +2nd edition volume 2 pages 152, 156.) This view, however, is not probable, for +when hermaphrodite plants become dioecious or gyno-dioecious--that is, are +converted into hermaphrodites and females--the corolla of the female seems to be +almost invariably reduced in size in consequence of the abortion of the male +organs. The difference in the result in these two classes of cases, may perhaps +be accounted for by the matter saved through the abortion of the male organs in +the females of gyno-dioecious and dioecious plants being directed (as we shall +see in a future chapter) to the formation of an increased supply of seeds; +whilst in the case of the exterior florets and flowers of the plants which we +are here considering, such matter is expended in the development of a +conspicuous corolla. Whether in the present class of cases the corolla was first +affected, as seems to me the more probable view, or the reproductive organs +first failed, their states of development are now firmly correlated. We see this +well-illustrated in Hydrangea and Viburnum; for when these plants are +cultivated, the corollas of both the interior and exterior flowers become +largely developed, and their reproductive organs are aborted. + +There is a closely analogous subdivision of plants, including the genus Muscari +(or Feather Hyacinth) and the allied Bellevalia, which bear both perfect flowers +and closed bud-like bodies that never expand. The latter resemble in this +respect cleistogamic flowers, but differ widely from them in being sterile and +conspicuous. Not only the aborted flower-buds and their peduncles (which are +elongated apparently through the principle of compensation) are brightly +coloured, but so is the upper part of the spike--all, no doubt, for the sake of +guiding insects to the inconspicuous perfect flowers. From such cases as these +we may pass on to certain Labiatae, for instance, Salvia Horminum in which (as I +hear from Mr. Thiselton Dyer) the upper bracts are enlarged and brightly +coloured, no doubt for the same purpose as before, with the flowers suppressed. + +In the Carrot and some allied Umbelliferae, the central flower has its petals +somewhat enlarged, and these are of a dark purplish-red tint; but it cannot be +supposed that this one small flower makes the large white umbel at all more +conspicuous to insects. The central flowers are said to be neuter or sterile, +but I obtained by artificial fertilisation a seed (fruit) apparently perfect +from one such flower. (Introduction/12. 'The English Flora' by Sir J.E. Smith +1824 volume 2 page 39.) Occasionally two or three of the flowers next to the +central one are similarly characterised; and according to Vaucher "cette +singuliere degeneration s'etend quelquefois a l'ombelle entiere." +(Introduction/13. 'Hist. Phys. des Plantes d'Europe' 1841 tome 2 page 614. On +the Echinophora page 627.) That the modified central flower is of no functional +importance to the plant is almost certain. It may perhaps be a remnant of a +former and ancient condition of the species, when one flower alone, the central +one, was female and yielded seeds, as in the Umbelliferous genus Echinophora. +There is nothing surprising in the central flower tending to retain its former +condition longer than the others; for when irregular flowers become regular or +peloric, they are apt to be central; and such peloric flowers apparently owe +their origin either to arrested development--that is, to the preservation of an +early stage of development--or to reversion. Central and perfectly developed +flowers in not a few plants in their normal condition (for instance, the common +Rue and Adoxa) differ slightly in structure, as in the number of the parts, from +the other flowers on the same plant. All such cases seem connected with the fact +of the bud which stands at the end of the shoot being better nourished than the +others, as it receives the most sap. (Introduction/14. This whole subject, +including pelorism, has been discussed, and references given in my 'Variation of +Animals and Plants under Domestication' chapter 26 2nd edition volume 2 page +338.) + +The cases hitherto mentioned relate to hermaphrodite species which bear +differently constructed flowers; but there are some plants that produce +differently formed seeds, of which Dr. Kuhn has given a list. (Introduction/15. +'Botanische Zeitung' 1867 page 67.) With the Umbelliferae and Compositae, the +flowers that produce these seeds likewise differ, and the differences in the +structure of the seeds are of a very important nature. The causes which have led +to differences in the seeds on the same plant are not known; and it is very +doubtful whether they subserve any special end. + +We now come to our second Class, that of monoecious species, or those which have +their sexes separated but borne on the same plant. The flowers necessarily +differ, but when those of one sex include rudiments of the other sex, the +difference between the two kinds is usually not great. When the difference is +great, as we see in catkin-bearing plants, this depends largely on many of the +species in this, as well as in the next or dioecious class, being fertilised by +the aid of the wind; for the male flowers have in this case to produce a +surprising amount of incoherent pollen. (Introduction/16. Delpino 'Studi sopra +uno Lignaggio Anemofilo' Firenze 1871.) Some few monoecious plants consist of +two bodies of individuals, with their flowers differing in function, though not +in structure; for certain individuals mature their pollen before the female +flowers on the same plant are ready for fertilisation, and are called +proterandrous; whilst conversely other individuals, called proterogynous, have +their stigmas mature before their pollen is ready. The purpose of this curious +functional difference obviously is to favour the cross-fertilisation of distinct +plants. A case of this kind was first observed by Delpino in the Walnut (Juglans +regia), and has since been observed with the common Nut (Corylus avellana). I +may add that according to H. Muller the individuals of some few hermaphrodite +plants differ in a like manner; some being proterandrous and others +proterogynous. (Introduction/17. Delpino 'Ult. Osservazioni sulla Dicogamia' +part 2 fasc 2 page 337. Mr. Wetterhan and H. Muller on Corylus 'Nature' volume +11 page 507 and 1875 page 26. On proterandrous and proterogynous hermaphrodite +individuals of the same species, see H. Muller 'Die Befruchtung' etc. pages 285, +339.) On cultivated trees of the Walnut and Mulberry, the male flowers have been +observed to abort on certain individuals, which have thus been converted into +females; but whether there are any species in a state of nature which co-exist +as monoecious and female individuals, I do not know. (Introduction/18. +'Gardener's Chronicle' 1847 pages 541, 558.) + +The third Class consists of dioecious species, and the remarks made under the +last class with respect to the amount of difference between the male and female +flowers are here applicable. It is at present an inexplicable fact that with +some dioecious plants, of which the Restiaceae of Australia and the Cape of Good +Hope offer the most striking instance, the differentiation of the sexes has +affected the whole plant to such an extent (as I hear from Mr. Thiselton Dyer) +that Mr. Bentham and Professor Oliver have often found it impossible to match +the male and female specimens of the same species. In my seventh chapter some +observations will be given on the gradual conversion of heterostyled and of +ordinary hermaphrodite plants into dioecious or sub-dioecious species. + +The fourth and last Class consists of the plants which were called polygamous by +Linnaeus; but it appears to me that it would be convenient to confine this term +to the species which coexist as hermaphrodites, males and females; and to give +new names to several other combinations of the sexes--a plan which I shall here +follow. Polygamous plants, in this confined sense of the term, may be divided +into two sub-groups, according as the three sexual forms are found on the same +individual or on distinct individuals. Of this latter or trioicous sub-group, +the common Ash (Fraxinus excelsior) offers a good instance: thus, I examined +during the spring and autumn fifteen trees growing in the same field; and of +these, eight produced male flowers alone, and in the autumn not a single seed; +four produced only female flowers, which set an abundance of seeds; three were +hermaphrodites, which had a different aspect from the other trees whilst in +flower, and two of them produced nearly as many seeds as the female trees, +whilst the third produced none, so that it was in function a male. The +separation of the sexes, however, is not complete in the Ash; for the female +flowers include stamens, which drop off at an early period, and their anthers, +which never open or dehisce, generally contain pulpy matter instead of pollen. +On some female trees, however, I found a few anthers containing pollen grains +apparently sound. On the male trees most of the flowers include pistils, but +these likewise drop off at an early period; and the ovules, which ultimately +abort, are very small compared with those in female flowers of the same age. + +Of the other or monoicous sub-group of polygamous plants, or those which bear +hermaphrodite, male and female flowers on the same individual, the common Maple +(Acer campestre) offers a good instance; but Lecoq states that some trees are +truly dioecious, and this shows how easily one state passes into another. +(Introduction/19. 'Geographie Botanique' tome 5 page 367.) + +A considerable number of plants generally ranked as polygamous exist under only +two forms, namely, as hermaphrodites and females; and these may be called gyno- +dioecious, of which the common Thyme offers a good example. In my seventh +chapter I shall give some observations on plants of this nature. Other species, +for instance several kinds of Atriplex, bear on the same plant hermaphrodite and +female flowers; and these might be called gyno-monoecious, if a name were +desirable for them. + +Again there are plants which produce hermaphrodite and male flowers on the same +individual, for instance, some species of Galium, Veratrum, etc.; and these +might be called andro-monoecious. If there exist plants, the individuals of +which consist of hermaphrodites and males, these might be distinguished as +andro-dioecious. But, after making inquiries from several botanists, I can hear +of no such cases. Lecoq, however, states, but without entering into full +details, that some plants of Caltha palustris produce only male flowers, and +that these live mingled with the hermaphrodites. (Introduction/20. 'Geographie +Botanique' tome 4 page 488.) The rarity of such cases as this last one is +remarkable, as the presence of hermaphrodite and male flowers on the same +individual is not an unusual occurrence; it would appear as if nature did not +think it worth while to devote a distinct individual to the production of +pollen, excepting when this was indispensably necessary, as in the case of +dioecious species. + +I have now finished my brief sketch of the several cases, as far as known to me, +in which flowers differing in structure or in function are produced by the same +species of plant. Full details will be given in the following chapters with +respect to many of these plants. I will begin with the heterostyled, then pass +on to certain dioecious, sub-dioecious, and polygamous species, and end with the +cleistogamic. For the convenience of the reader, and to save space, the less +important cases and details have been printed in smaller type []. + +I cannot close this Introduction without expressing my warm thanks to Dr. Hooker +for supplying me with specimens and for other aid; and to Mr. Thiselton Dyer and +Professor Oliver for giving me much information and other assistance. Professor +Asa Gray, also, has uniformly aided me in many ways. To Fritz Muller of St. +Catharina, in Brazil, I am indebted for many dried flowers of heterostyled +plants, often accompanied with valuable notes. + + +CHAPTER I. + +HETEROSTYLED DIMORPHIC PLANTS: PRIMULACEAE. + +Primula veris or the cowslip. +Differences in structure between the two forms. +Their degrees of fertility when legitimately and illegitimately united. +P. elatior, vulgaris, Sinensis, auricula, etc. +Summary on the fertility of the heterostyled species of Primula. +Homostyled species of Primula. +Hottonia palustris. +Androsace vitalliana. + +(FIGURE 1.1. Primula veris. +Left: Long-styled form. +Right: Short-styled form.) + +It has long been known to botanists that the common cowslip (Primula veris, +Brit. Flora, var. officinalis, Lin.) exists under two forms, about equally +numerous, which obviously differ from each other in the length of their pistils +and stamens. (1/1. This fact, according to Von Mohl 'Botanische Zeitung' 1863 +page 326, was first observed by Persoon in the year 1794.) This difference has +hitherto been looked at as a case of mere variability, but this view, as we +shall presently see, is far from the true one. Florists who cultivate the +Polyanthus and Auricula have long been aware of the two kinds of flowers, and +they call the plants which display the globular stigma at the mouth of the +corolla, "pin-headed" or "pin-eyed," and those which display the anthers, +"thrum-eyed." (1/2. In Johnson's Dictionary, "thrum" is said to be the ends of +weavers' threads; and I suppose that some weaver who cultivated the Polyanthus +invented this name, from being struck with some degree of resemblance between +the cluster of anthers in the mouth of the corolla and the ends of his threads.) +I will designate the two forms as the long-styled and short-styled. + +The pistil in the long-styled form is almost exactly twice as long as that of +the short-styled. The stigma stands in the mouth of the corolla or projects just +above it, and is thus externally visible. It stands high above the anthers, +which are situated halfway down the tube and cannot be easily seen. In the +short-styled form the anthers are attached near the mouth of the tube, and +therefore stand above the stigma, which is seated in about the middle of the +tubular corolla. The corolla itself is of a different shape in the two forms; +the throat or expanded portion above the attachment of the anthers being much +longer in the long-styled than in the short-styled form. Village children notice +this difference, as they can best make necklaces by threading and slipping the +corollas of the long-styled flowers into one another. But there are much more +important differences. The stigma in the long-styled form is globular; in the +short-styled it is depressed on the summit, so that the longitudinal axis of the +former is sometimes nearly double that of the latter. Although somewhat variable +in shape, one difference is persistent, namely, in roughness: in some specimens +carefully compared, the papillae which render the stigma rough were in the long- +styled form from twice to thrice as long as in the short-styled. The anthers do +not differ in size in the two forms, which I mention because this is the case +with some heterostyled plants. The most remarkable difference is in the pollen- +grains. I measured with the micrometer many specimens, both dry and wet, taken +from plants growing in different situations, and always found a palpable +difference. The grains distended with water from the short-styled flowers were +about .038 millimetres (10 to 11/7000 of an inch) in diameter, whilst those from +the long-styled were about .0254 millimetres (7/7000 of an inch), which is in +the ratio of 100 to 67. The pollen-grains therefore from the longer stamens of +the short-styled form are plainly larger than those from the shorter stamens of +the long-styled. When examined dry, the smaller grains are seen under a low +power to be more transparent than the larger grains, and apparently in a greater +degree than can be accounted for by their less diameter. There is also a +difference in shape, the grains from the short-styled plants being nearly +spherical, those from the long-styled being oblong with the angles rounded; this +difference disappears when the grains are distended with water. The long-styled +plants generally tend to flower a little before the short-styled: for instance, +I had twelve plants of each form growing in separate pots and treated in every +respect alike; and at the time when only a single short-styled plant was in +flower, seven of the long-styled had expanded their flowers. + +We shall, also, presently see that the short-styled plants produce more seed +than the long-styled. It is remarkable, according to Professor Oliver, that the +ovules in the unexpanded and unimpregnated flowers of the latter are +considerably larger than those of the short-styled flowers (1/3. 'Natural +History Review' July 1862 page 237.); and this I suppose is connected with the +long-styled flowers producing fewer seeds, so that the ovules have more space +and nourishment for rapid development. + +To sum up the differences:--The long-styled plants have a much longer pistil, +with a globular and much rougher stigma, standing high above the anthers. The +stamens are short; the grains of pollen smaller and oblong in shape. The upper +half of the tube of the corolla is more expanded. The number of seeds produced +is smaller and the ovules larger. The plants tend to flower first. + +The short-styled plants have a short pistil, half the length of the tube of the +corolla, with a smooth depressed stigma standing beneath the anthers. The +stamens are long; the grains of pollen are spherical and larger. The tube of the +corolla is of uniform diameter except close to the upper end. The number of +seeds produced is larger. + +I have examined a large number of flowers; and though the shape of the stigma +and the length of the pistil both vary, especially in the short-styled form, I +have never met with any transitional states between the two forms in plants +growing in a state of nature. There is never the slightest doubt under which +form a plant ought to be classed. The two kinds of flowers are never found on +the same individual plant. I marked many cowslips and primroses, and on the +following year all retained the same character, as did some in my garden which +flowered out of their proper season in the autumn. Mr. W. Wooler, of Darlington, +however, informs us that he has seen early blossoms on the Polyanthus, which +were not long-styled, but became so later in the season. (1/4. I have proved by +numerous experiments, hereafter to be given, that the Polyanthus is a variety of +Primula veris.) Possibly in this case the pistils may not have been fully +developed during the early spring. An excellent proof of the permanence of the +two forms may be seen in nursery-gardens, where choice varieties of the +Polyanthus are propagated by division; and I found whole beds of several +varieties, each consisting exclusively of the one or the other form. The two +forms exist in the wild state in about equal numbers: I collected 522 umbels +from plants growing in several stations, taking a single umbel from each plant; +and 241 were long-styled, and 281 short-styled. No difference in tint or size +could be perceived in the two great masses of flowers. + +We shall presently see that most of the species of Primula exist under two +analogous forms; and it may be asked what is the meaning of the above-described +important differences in their structure? The question seems well worthy of +careful investigation, and I will give my observations on the cowslip in detail. +The first idea which naturally occurred to me was, that this species was tending +towards a dioecious condition; that the long-styled plants, with their longer +pistils, rougher stigmas, and smaller pollen-grains, were more feminine in +nature, and would produce more seed;--that the short-styled plants, with their +shorter pistils, longer stamens and larger pollen-grains, were more masculine in +nature. Accordingly, in 1860, I marked a few cowslips of both forms growing in +my garden, and others growing in an open field, and others in a shady wood, and +gathered and weighed the seed. In all the lots the short-styled plants yielded, +contrary to my expectation, most seed. Taking the lots together, the following +is the result:-- + +TABLE 1.1. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels Produced. +Column 4: Number of Capsules Produced. +Column 5: Weight of Seed In Grains. + +Short-styled cowslips : 9 : 33 : 199 : 83. +Long-styled cowslips : 13 : 51 : 261 : 91. + +If we compare the weight from an equal number of plants, and from an equal +number of umbels, and from an equal number of capsules of the two forms, we get +the following results:-- + +TABLE 1.2. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Weight of Seed in grains. +... +Column 4: Number of Umbels. +Column 5: Weight of Seed. +... +Column 6: Number of Capsules. +Column 7: Weight of Seed in grains. + +Short-styled cowslips : 10 : 92 :: 100 : 251 :: 100 : 41. +Long-styled cowslips : 10 : 70 :: 100 : 178 :: 100 : 34. + +So that, by all these standards of comparison, the short-styled form is the more +fertile; if we take the number of umbels (which is the fairest standard, for +large and small plants are thus equalised), the short-styled plants produce more +seed than the long-styled, in the proportion of nearly four to three. + +In 1861 the trial was made in a fuller and fairer manner. A number of wild +plants had been transplanted during the previous autumn into a large bed in my +garden, and all were treated alike; the result was:-- + +TABLE 1.3. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels. +Column 4: Weight of Seed in grains. + +Short-styled cowslips : 47 : 173 : 745. +Long-styled cowslips : 58 : 208 : 692. + +These figures give us the following proportions:-- + +TABLE 1.4. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Weight of Seed in grains. +... +Column 4: Number of Umbels. +Column 5: Weight of Seed in grains. + +Short-styled cowslips : 100 : 1585 :: 100 : 430. +Long-styled cowslips : 100 : 1093 :: 100 : 332. + +The season was much more favourable this year than the last; the plants also now +grew in good soil, instead of in a shady wood or struggling with other plants in +the open field; consequently the actual produce of seed was considerably larger. +Nevertheless we have the same relative result; for the short-styled plants +produced more seed than the long-styled in nearly the proportion of three to +two; but if we take the fairest standard of comparison, namely, the product of +seeds from an equal number of umbels, the excess is, as in the former case, +nearly as four to three. + +Looking to these trials made during two successive years on a large number of +plants, we may safely conclude that the short-styled form is more productive +than the long-styled form, and the same result holds good with some other +species of Primula. Consequently my anticipation that the plants with longer +pistils, rougher stigmas, shorter stamens and smaller pollen-grains, would prove +to be more feminine in nature, is exactly the reverse of the truth. + +In 1860 a few umbels on some plants of both the long-styled and short-styled +form, which had been covered by a net, did not produce any seed, though other +umbels on the same plants, artificially fertilised, produced an abundance of +seed; and this fact shows that the mere covering in itself was not injurious. +Accordingly, in 1861, several plants were similarly covered just before they +expanded their flowers; these turned out as follows:-- + +TABLE 1.5. + +Column 1: Plant. +Column 2: Number of Plants. +Column 3: Number of Umbels produced. +Column 4: Product of Seed. + +Short-styled : 6 : 24 : 1.3 grain weight of seed, or about 50 in number. +Long-styled : 18 : 74 : Not one seed. + +Judging from the exposed plants which grew all round in the same bed, and had +been treated in the same manner, excepting that they had been exposed to the +visits of insects, the above six short-styled plants ought to have produced 92 +grains' weight of seed instead of only 1.3; and the eighteen long-styled plants, +which produced not one seed, ought to have produced above 200 grains' weight. +The production of a few seeds by the short-styled plants was probably due to the +action of Thrips or of some other minute insect. It is scarcely necessary to +give any additional evidence, but I may add that ten pots of Polyanthuses and +cowslips of both forms, protected from insects in my greenhouse, did not set one +pod, though artificially fertilised flowers in other pots produced an abundance. +We thus see that the visits of insects are absolutely necessary for the +fertilisation of Primula veris. If the corolla of the long-styled form had +dropped off, instead of remaining attached in a withered state to the ovarium, +the anthers attached to the lower part of the tube with some pollen still +adhering to them would have been dragged over the stigma, and the flowers would +have been partially self-fertilised, as is the case with Primula Sinensis +through this means. It is a rather curious fact that so trifling a difference as +the falling-off of the withered corolla, should make a very great difference in +the number of seeds produced by a plant if its flowers are not visited by +insects. + +The flowers of the cowslip and of the other species of the genus secrete plenty +of nectar; and I have often seen humble bees, especially B. hortorum and +muscorum, sucking the former in a proper manner, though they sometimes bite +holes through the corolla. (1/5. H. Muller has also seen Anthophora pilipes and +a Bombylius sucking the flowers. 'Nature' December 10, 1874 page 111.) No doubt +moths likewise visit the flowers, as one of my sons caught Cucullia verbasci in +the act. The pollen readily adheres to any thin object which is inserted into a +flower. The anthers in the one form stand nearly, but not exactly, on a level +with the stigma of the other; for the distance between the anthers and stigma in +the short-styled form is greater than that in the long-styled, in the ratio of +100 to 90. This difference is the result of the anthers in the long-styled form +standing rather higher in the tube than does the stigma in the short-styled, and +this favours their pollen being deposited on it. It follows from the position of +the organs that if the proboscis of a dead humble-bee, or a thick bristle or +rough needle, be pushed down the corolla, first of one form and then of the +other, as an insect would do in visiting the two forms growing mingled together, +pollen from the long-stamened form adheres round the base of the object, and is +left with certainty on the stigma of the long-styled form; whilst pollen from +the short stamens of the long-styled form adheres a little way above the +extremity of the object, and some is generally left on the stigma of the other +form. In accordance with this observation I found that the two kinds of pollen, +which could easily be recognised under the microscope, adhered in this manner to +the proboscides of the two species of humble-bees and of the moth, which were +caught visiting the flowers; but some small grains were mingled with the larger +grains round the base of the proboscis, and conversely some large grains with +the small grains near the extremity of the proboscis. Thus pollen will be +regularly carried from the one form to the other, and they will reciprocally +fertilise one another. Nevertheless an insect in withdrawing its proboscis from +the corolla of the long-styled form cannot fail occasionally to leave pollen +from the same flower on the stigma; and in this case there might be self- +fertilisation. But this will be much more likely to occur with the short-styled +form; for when I inserted a bristle or other such object into the corolla of +this form, and had, therefore, to pass it down between the anthers seated round +the mouth of the corolla, some pollen was almost invariably carried down and +left on the stigma. Minute insects, such as Thrips, which sometimes haunt the +flowers, would likewise be apt to cause the self-fertilisation of both forms. + +The several foregoing facts led me to try the effects of the two kinds of pollen +on the stigmas of the two forms. Four essentially different unions are possible; +namely, the fertilisation of the stigma of the long-styled form by its own-form +pollen, and by that of the short-styled; and the stigma of the short-styled form +by its own-form pollen, and by that of the long-styled. The fertilisation of +either form with pollen from the other form may be conveniently called a +LEGITIMATE UNION, from reasons hereafter to be made clear; and that of either +form with its own-form pollen an ILLEGITIMATE UNION. I formerly applied the term +"heteromorphic" to the legitimate unions, and "homomorphic" to the illegitimate +unions; but after discovering the existence of trimorphic plants, in which many +more unions are possible, these two terms ceased to be applicable. The +illegitimate unions of both forms might have been tried in three ways; for a +flower of either form may be fertilised with pollen from the same flower, or +with that from a another flower on the same plant, or with that from a distinct +plant of the same form. But to make my experiments perfectly fair, and to avoid +any evil result from self-fertilisation or too close interbreeding, I have +invariably employed pollen from a distinct plant of the same form for the +illegitimate unions of all the species; and therefore it may be observed that I +have used the term "own-form pollen" in speaking of such unions. The several +plants in all my experiments were treated in exactly the same manner, and were +carefully protected by fine nets from the access of insects, excepting Thrips, +which it is impossible to exclude. I performed all the manipulations myself, and +weighed the seeds in a chemical balance; but during many subsequent trials I +followed the more accurate plan of counting the seeds. Some of the capsules +contained no seeds, or only two or three, and these are excluded in the column +headed "good capsules" in several of the following tables:-- + +TABLE 1.6. Primula veris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Number of good Capsules. +Column 5: Weight of Seed in grains. +Column 6: Calculated Weight of Seed from 100 good Capsules. + +Long-styled by pollen of short-styled. Legitimate union : +22 : 15 : 14 : 8.8 : 62. + +Long-styled by own-form pollen. Illegitimate union : +20 : 8 : 5 : 2.1 : 42. + +Short-styled by pollen of long-styled. Legitimate union : +13 : 12 : 11 : 4.9 : 44. + +Short-styled by own-form pollen. Illegitimate union : +15 : 8 : 6 : 1.8 : 30. + +SUMMARY: + +The two legitimate unions : +35 : 27 : 25 : 13.7 : 54. + +The two illegitimate unions : +35 : 16 : 11 : 3.9 : 35. + +The results may be given in another form (Table 1.7) by comparing, first, the +number of capsules, whether good or bad, or of the good alone, produced by 100 +flowers of both forms when legitimately and illegitimately fertilised; secondly, +by comparing the weight of seed in 100 of these capsules, whether good or bad; +or, thirdly, in 100 of the good capsules. + +TABLE 1.7. Primula veris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules. +Column 4: Number of good Capsules. +Column 5: Weight of Seed in grains. +... +Column 6: Number of Capsules. +Column 7: Weight of Seed in grains. +... +Column 8: Number of good Capsules. +Column 9: Weight of Seed in grains. + +The two legitimate unions : +100 : 77 : 71 : 39 :: 100 : 50 :: 100 : 54. + +The two illegitimate unions : +100 : 45 : 31 : 11 :: 100 : 24 :: 100 : 35. + +We here see that the long-styled flowers fertilised with pollen from the short- +styled yield more capsules, especially good ones (i.e. containing more than one +or two seeds), and that these capsules contain a greater proportional weight of +seeds than do the flowers of the long-styled when fertilised with pollen from a +distinct plant of the same form. So it is with the short-styled flowers, if +treated in an analogous manner. Therefore I have called the former method of +fertilisation a legitimate union, and the latter, as it fails to yield the full +complement of capsules and seeds, an illegitimate union. These two kinds of +union are graphically represented in Figure 1.2. + +(FIGURE 1.2. Primula veris. +Graphic representation of two kinds of union between: +Left: Long-styled form. +Right: Short-styled form.) + +If we consider the results of the two legitimate unions taken together and the +two illegitimate ones, as shown in Table 1.7, we see that the former compared +with the latter yielded capsules, whether containing many seeds or only a few, +in the proportion of 77 to 45, or as 100 to 58. But the inferiority of the +illegitimate unions is here perhaps too great, for on a subsequent occasion 100 +long-styled and short-styled flowers were illegitimately fertilised, and they +together yielded 53 capsules: therefore the rate of 77 to 53, or as 100 to 69, +is a fairer one than that of 100 to 58. Returning to Table 1.7, if we consider +only the good capsules, those from the two legitimate unions were to those from +the two illegitimate in number as 71 to 31, or as 100 to 44. Again, if we take +an equal number of capsules, whether good or bad, from the legitimately and +illegitimately fertilised flowers, we find that the former contained seeds by +weight compared with the latter as 50 to 24, or as 100 to 48; but if all the +poor capsules are rejected, of which many were produced by the illegitimately +fertilised flowers, the proportion is 54 to 35, or as 100 to 65. In this and all +other cases, the relative fertility of the two kinds of union can, I think, be +judged of more truly by the average number of seeds per capsule than by the +proportion of flowers which yield capsules. The two methods might have been +combined by giving the average number of seeds produced by all the flowers which +were fertilised, whether they yielded capsules or not; but I have thought that +it would be more instructive always to show separately the proportion of flowers +which produced capsules, and the average number of apparently good seeds which +the capsules contained. + +Flowers legitimately fertilised set seeds under conditions which cause the +almost complete failure of illegitimately fertilised flowers. Thus in the spring +of 1862 forty flowers were fertilised at the same time in both ways. The plants +were accidentally exposed in the greenhouse to too hot a sun, and a large number +of umbels perished. Some, however, remained in moderately good health, and on +these there were twelve flowers which had been fertilised legitimately, and +eleven which had been fertilised illegitimately. The twelve legitimate unions +yielded seven fine capsules, containing on an average each 57.3 good seeds; +whilst the eleven illegitimate unions yielded only two capsules, of which one +contained 39 seeds, but so poor, that I do not suppose one would have +germinated, and the other contained 17 fairly good seeds. + +From the facts now given the superiority of a legitimate over an illegitimate +union admits of not the least doubt; and we have here a case to which no +parallel exists in the vegetable or, indeed, in the animal kingdom. The +individual plants of the present species, and as we shall see of several other +species of Primula, are divided into two sets or bodies, which cannot be called +distinct sexes, for both are hermaphrodites; yet they are to a certain extent +sexually distinct, for they require reciprocal union for perfect fertility. As +quadrupeds are divided into two nearly equal bodies of different sexes, so here +we have two bodies, approximately equal in number, differing in their sexual +powers and related to each other like males and females. There are many +hermaphrodite animals which cannot fertilise themselves, but most unite with +another hermaphrodite. So it is with numerous plants; for the pollen is often +mature and shed, or is mechanically protruded, before the flower's own stigma is +ready; and such flowers absolutely require the presence of another hermaphrodite +for sexual union. But with the cowslip and various other species of Primula +there is this wide difference, that one individual, though it can fertilise +itself imperfectly, must unite with another individual for full fertility; it +cannot, however, unite with any other individual in the same manner as an +hermaphrodite plant can unite with any other one of the same species; or as one +snail or earth-worm can unite with any other hermaphrodite individual. On the +contrary, an individual belonging to one form of the cowslip in order to be +perfectly fertile must unite with one of the other form, just as a male +quadruped must and can unite only with the female. + +I have spoken of the legitimate unions as being fully fertile; and I am fully +justified in doing so, for flowers artificially fertilised in this manner +yielded rather more seeds than plants naturally fertilised in a state of nature. +The excess may be attributed to the plants having been grown separately in good +soil. With respect to the illegitimate unions, we shall best appreciate their +degree of lessened fertility by the following facts. Gartner estimated the +sterility of the unions between distinct species, in a manner which allows of a +strict comparison with the results of the legitimate and illegitimate unions of +Primula. (1/6. 'Versuche uber die Bastarderzeugung' 1849 page 216.) With P. +veris, for every 100 seeds yielded by the two legitimate unions, only 64 were +yielded by an equal number of good capsules from the two illegitimate unions. +With P. Sinensis, as we shall hereafter see, the proportion was nearly the same- +-namely, as 100 to 62. Now Gartner has shown that, on the calculation of +Verbascum lychnitis yielding with its own pollen 100 seeds, it yielded when +fertilised by the pollen of Verbascum Phoeniceum 90 seeds; by the pollen of +Verbascum nigrum, 63 seeds; by that of Verbascum blattaria, 62 seeds. So again, +Dianthus barbatus fertilised by the pollen of D. superbus yielded 81 seeds, and +by the pollen of D. japonicus 66 seeds, relatively to the 100 seeds produced by +its own pollen. We thus see--and the fact is highly remarkable--that with +Primula the illegitimate unions relatively to the legitimate are more sterile +than crosses between distinct species of other genera relatively to their pure +unions. Mr. Scott has given a still more striking illustration of the same fact: +he crossed Primula auricula with pollen of four other species (P. palinuri, +viscosa, hirsuta, and verticillata), and these hybrid unions yielded a larger +average number of seeds than did P. auricula when fertilised illegitimately with +its own-form pollen. (1/7. 'Journal of the Linnean Society Botany' volume 8 1864 +page 93.) + +The benefit which heterostyled dimorphic plants derive from the existence of the +two forms is sufficiently obvious, namely, the intercrossing of distinct plants +being thus ensured. (1/8. I have shown in my work on the 'Effects of Cross and +Self-fertilisation' how greatly the offspring from intercrossed plants profit in +height, vigour, and fertility.) Nothing can be better adapted for this end than +the relative positions of the anthers and stigmas in the two forms, as shown in +Figure 1.2; but to this whole subject I shall recur. No doubt pollen will +occasionally be placed by insects or fall on the stigma of the same flower; and +if cross-fertilisation fails, such self-fertilisation will be advantageous to +the plant, as it will thus be saved from complete barrenness. But the advantage +is not so great as might at first be thought, for the seedlings from +illegitimate unions do not generally consist of both forms, but all belong to +the parent form; they are, moreover, in some degree weakly in constitution, as +will be shown in a future chapter. If, however, a flower's own pollen should +first be placed by insects or fall on the stigma, it by no means follows that +cross-fertilisation will be thus prevented. It is well known that if pollen from +a distinct species be placed on the stigma of a plant, and some hours afterwards +its own pollen be placed on it, the latter will be prepotent and will quite +obliterate any effect from the foreign pollen; and there can hardly be a doubt +that with heterostyled dimorphic plants, pollen from the other form will +obliterate the effects of pollen from the same form, even when this has been +placed on the stigma a considerable time before. To test this belief, I placed +on several stigmas of a long-styled cowslip plenty of pollen from the same +plant, and after twenty-four hours added some from a short-styled dark-red +Polyanthus, which is a variety of the cowslip. From the flowers thus treated 30 +seedlings were raised, and all these, without exception, bore reddish flowers; +so that the effect of pollen from the same form, though placed on the stigmas +twenty-four hours previously, was quite destroyed by that of pollen from a plant +belonging to the other form. + +Finally, I may remark that of the four kinds of unions, that of the short-styled +illegitimately fertilised with its own-form pollen seems to be the most sterile +of all, as judged by the average number of seeds, which the capsules contained. +A smaller proportion, also, of these seeds than of the others germinated, and +they germinated more slowly. The sterility of this union is the more remarkable, +as it has already been shown that the short-styled plants yield a larger number +of seeds than the long-styled, when both forms are fertilised, either naturally +or artificially, in a legitimate manner. + +In a future chapter, when I treat of the offspring from heterostyled dimorphic +and trimorphic plants illegitimately fertilised with their own-form pollen, I +shall have occasion to show that with the present species and several others, +equal-styled varieties sometimes appear. + +Primula elatior, Jacq. +Bardfield oxlip of English authors. + +This plant, as well as the last or cowslip (P. veris, vel officinalis), and the +primrose (P. vulgaris, vel acaulis) have been considered by some botanists as +varieties of the same species. But they are all three undoubtedly distinct, as +will be shown in the next chapter. The present species resembles to a certain +extent in general appearance the common oxlip, which is a hybrid between the +cowslip and primrose. Primula elatior is found in England only in two or three +of the eastern counties; and I was supplied with living plants by Mr. Doubleday, +who, as I believe, first called attention to its existence in England. It is +common in some parts of the Continent; and H. Muller has seen several kinds of +humble-bees and other bees, and Bombylius, visiting the flowers in North +Germany. (1/9. 'Die Befruchtung der Blumen' page 347.) + +The results of my trials on the relative fertility of the two forms, when +legitimately and illegitimately fertilised, are given in Table 1.8. + +TABLE 1.8. Primula elatior. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Maximum Number of Seeds in any one Capsule. +Column 5: Minimum Number of Seeds in any one Capsule. +Column 6: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +10 : 6 : 62 : 34 : 46.5. + +Long-styled by own-form pollen. Illegitimate union : +20 : 4 : 49* : 2 : 27.7. +(*These seeds were so poor and small that they could hardly have germinated.) + +Short-styled by pollen of long-styled. Legitimate union: +10 : 8 : 61 : 37 : 47.7. + +Short-styled by own-form pollen. Illegitimate union : +17 : 3 : 19 : 9 : 12.1. + +SUMMARY: + +The two legitimate unions together : +20 : 14 : 62 : 37 : 47.1. + +The two illegitimate unions together : +37 : 7 : 49* : 2 : 35.5. +(*These seeds were so poor and small that they could hardly have germinated.) + +If we compare the fertility of the two legitimate unions taken together with +that of the two illegitimate unions together, as judged by the proportional +number of flowers which when fertilised in the two methods yielded capsules, the +ratio is as 100 to 27; so that by this standard the present species is much more +sterile than P. veris, when both species are illegitimately fertilised. If we +judge of the relative fertility of the two kinds of unions by the average number +of seeds per capsule, the ratio is as 100 to 75. But this latter number is +probably much too high, as many of the seeds produced by the illegitimately +fertilised long-styled flowers were so small that they probably would not have +germinated, and ought not to have been counted. Several long-styled and short- +styled plants were protected from the access of insects, and must have been +spontaneously self-fertilised. They yielded altogether only six capsules, +containing any seeds; and their average number was only 7.8 per capsule. Some, +moreover, of these seeds were so small that they could hardly have germinated. + +Herr W. Breitenbach informs me that he examined, in two sites near the Lippe (a +tributary of the Rhine), 894 flowers produced by 198 plants of this species; and +he found 467 of these flowers to be long-styled, 411 short-styled, and 16 equal- +styled. I have heard of no other instance with heterostyled plants of equal- +styled flowers appearing in a state of nature, though far from rare with plants +which have been long cultivated. It is still more remarkable that in eighteen +cases the same plant produced both long-styled and short-styled, or long-styled +and equal-styled flowers; and in two out of the eighteen cases, long-styled, +short-styled, and equal-styled flowers. The long-styled flowers greatly +preponderated on these eighteen plants,--61 consisting of this form, 15 of +equal-styled, and 9 of the short-styled form. + +Primula vulgaris (var. acaulis, Linn.) +The primrose of English Writers. + +(FIGURE 1.3. Outlines of pollen-grains of Primula vulgaris, distended with +water, much magnified and drawn under the camera lucida. The upper and smaller +grains from the long-styled form; the lower and larger grains from the short- +styled.) + +Mr. J. Scott examined 100 plants growing near Edinburgh, and found 44 to be +long-styled, and 56 short-styled; and I took by chance 79 plants in Kent, of +which 39 were long-styled and 40 short-styled; so that the two lots together +consisted of 83 long-styled and 96 short-styled plants. In the long-styled form +the pistil is to that of the short-styled in length, from an average of five +measurements, as 100 to 51. The stigma in the long-styled form is conspicuously +more globose and much more papillose than in the short-styled, in which latter +it is depressed on the summit; it is equally broad in the two forms. In both it +stands nearly, but not exactly, on a level with the anthers of the opposite +form; for it was found, from an average of 15 measurements, that the distance +between the middle of the stigma and the middle of the anthers in the short- +styled form is to that in the long-styled as 100 to 93. The anthers do not +differ in size in the two forms. The pollen-grains from the short-styled flowers +before they were soaked in water were decidedly broader, in proportion to their +length, than those from the long-styled; after being soaked they were relatively +to those from the long-styled as 100 to 71 in diameter, and more transparent. A +large number of flowers from the two forms were compared, and 12 of the finest +flowers from each lot were measured, but there was no sensible difference +between them in size. Nine long-styled and eight short-styled plants growing +together in a state of nature were marked, and their capsules collected after +they had been naturally fertilised; and the seeds from the short-styled weighed +exactly twice as much as those from an equal number of long-styled plants. So +that the primrose resembles the cowslip in the short-styled plants, being the +more productive of the two forms. The results of my trials on the fertility of +the two forms, when legitimately and illegitimately fertilised, are given in +Table 1.9. + +TABLE 1.9. Primula vulgaris. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Maximum Number of Seeds in any one Capsule. +Column 5: Minimum Number of Seeds in any one Capsule. +Column 6: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +12 : 11 : 77 : 47 : 66.9. + +Long-styled by own-form pollen. Illegitimate union : +21 : 14 : 66 : 30 : 52.2. + +Short-styled by pollen of long-styled. Legitimate union: + 8 : 7 : 75 : 48 : 65.0. + +Short-styled by own-form pollen. Illegitimate union : +18 : 7 : 43 : 5 : 18.8 (This average is perhaps rather too low). + +SUMMARY: + +The two legitimate unions together : +20 : 18 : 77 : 47 : 66.0. + +The two illegitimate unions together : +39 : 21 : 66 : 5 : 35.5 (This average is perhaps rather too low). + +We may infer from this table that the fertility of the two legitimate unions +taken together is to that of the two illegitimate unions together, as judged by +the proportional number of flowers which when fertilised in the two methods +yielded capsules, as 100 to 60. If we judge by the average number of seeds per +capsule produced by the two kinds of unions, the ratio is as 100 to 54; but this +latter figure is perhaps rather too low. It is surprising how rarely insects can +be seen during the day visiting the flowers, but I have occasionally observed +small kinds of bees at work; I suppose, therefore, that they are commonly +fertilised by nocturnal Lepidoptera. The long-styled plants when protected from +insects yield a considerable number of capsules, and they thus differ remarkably +from the same form of the cowslip, which is quite sterile under the same +circumstances. Twenty-three spontaneously self-fertilised capsules from this +form contained, on an average, 19.2 seeds. The short-styled plants produced +fewer spontaneously self-fertilised capsules, and fourteen of them contained +only 6.2 seeds per capsule. The self-fertilisation of both forms was probably +aided by Thrips, which abounded within the flowers; but these minute insects +could not have placed nearly sufficient pollen on the stigmas, as the +spontaneously self-fertilised capsules contained much fewer seeds, on an +average, than those (as may be seen in Table 1.9.) which were artificially +fertilised with their own-form pollen. But this difference may perhaps be +attributed in part to the flowers in the table having been fertilised with +pollen from a distinct plant belonging to the same form; whilst those which were +spontaneously self-fertilised no doubt generally received their own pollen. In a +future part of this volume some observations will be given on the fertility of a +red-coloured variety of the primrose. + +Primula Sinensis. + +In the long-styled form the pistil is about twice as long as that of the short- +styled, and the stamens differ in a corresponding, but reversed, manner. The +stigma is considerably more elongated and rougher than that of the short-styled, +which is smooth and almost spherical, being somewhat depressed on the summit; +but the stigma varies much in all its characters, the result, probably, of +cultivation. The pollen-grains of the short-styled form, according to +Hildebrand, are 7 divisions of the micrometer in length and 5 in breadth; +whereas those of the long-styled are only 4 in length and 3 in breadth. (1/10. +After the appearance of my paper this author published some excellent +observations on the present species 'Botanische Zeitung' January 1, 1864, and he +shows that I erred greatly about the size of the pollen-grains in the two forms. +I suppose that by mistake I measured twice over pollen-grains from the same +form.) The grains, therefore, of the short-styled are to those of the long- +styled in length as 100 to 57. Hildebrand also remarked, as I had done in the +case of P. veris, that the smaller grains from the long-styled are much more +transparent than the larger ones from the short-styled form. We shall hereafter +see that this cultivated plant varies much in its dimorphic condition and is +often equal-styled. Some individuals may be said to be sub-heterostyled; thus in +two white-flowered plants the pistil projected above the stamens, but in one of +them it was longer and had a more elongated and rougher stigma, than in the +other; and the pollen-grains from the latter were to those from the plant with a +more elongated pistil only as 100 to 88 in diameter, instead of as 100 to 57. +The corolla of the long-styled and short-styled form differs in shape, in the +same manner as in P. veris. The long-styled plants tend to flower before the +short-styled. When both forms were legitimately fertilised, the capsules from +the short-styled plants contained, on an average, more seeds than those from the +long-styled, in the ratio of 12.2 to 9.3 by weight, that is, as 100 to 78. In +Table 1.10 we have the results of two sets of experiments tried at different +periods. + +TABLE 1.10. Primula Sinensis. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Average Weight of Seeds per Capsule. +... +Column 5: Average Number of Seeds per Capsule as ascertained on a subsequent +occasion. + +Long-styled by pollen of short-styled. Legitimate union : +24 : 16 : 0.58 :: 50. + +Long-styled by own-form pollen. Illegitimate union : +20 : 13 : 0.45 :: 35. + +Short-styled by pollen of long-styled. Legitimate union: + 8 : 8 : 0.76 :: 64. + +Short-styled by own-form pollen. Illegitimate union : + 7 : 4 : 0.23 :: 25. + +SUMMARY: + +The two legitimate unions together : +32 : 24 : 0.64 :: 57. + +The two illegitimate unions together : +27 : 17 : 0.40 :: 30. + +The fertility, therefore, of the two legitimate unions together to that of the +two illegitimate unions, as judged by the proportional number of flowers which +yielded capsules, is as 100 to 84. Judging by the average weight of seeds per +capsule produced by the two kinds of unions, the ratio is as 100 to 63. On +another occasion a large number of flowers of both forms were fertilised in the +same manner, but no account of their number was kept. The seeds, however, were +carefully counted, and the averages are shown in the right hand column. The +ratio for the number of seeds produced by the two legitimate compared with the +two illegitimate unions is here 100 to 53, which is probably more accurate than +the foregoing one of 100 to 63. + +TABLE 1.11. Primula Sinensis (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of good Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union : +14 : 14 : 41. + +Long-styled by own-form pollen, from a distinct plant. Illegitimate union : +26 : 26 : 18. + +Long-styled by pollen from same flower. Illegitimate union : +27 : 21 : 17. + +Short-styled by pollen of long-styled. Legitimate union: +14 : 14 : 44. + +Short-styled by own-form pollen, from a distinct plant. Illegitimate union : +16 : 16 : 20. + +Short-styled by pollen from the same flower. Illegitimate union : +21 : 11 : 8. + +SUMMARY: + +The two legitimate unions together : +28 : 28 : 43. + +The two illegitimate unions together (own-form pollen): +42 : 42 : 18. + +The two illegitimate unions together (pollen from the same flower ): +48 : 32 : 13. + +Hildebrand in the paper above referred to gives the results of his experiments +on the present species; and these are shown in a condensed form in Table 1.11. +Besides using for the illegitimate unions pollen from a distinct plant of the +same form, as was always done by me, he tried, in addition, the effects of the +plant's own pollen. He counted the seeds. + +It is remarkable that here all the flowers which were fertilised legitimately, +as well as those fertilised illegitimately with pollen from a distinct plant +belonging to the same form, yielded capsules; and from this fact it might be +inferred that the two forms were reciprocally much more fertile in his case than +in mine. But his illegitimately fertilised capsules from both forms contained +fewer seeds relatively to the legitimately fertilised capsules than in my +experiments; for the ratio in his case is as 42 to 100, instead of, as in mine, +as 53 to 100. Fertility is a very variable element with most plants, being +determined by the conditions to which they are subjected, of which fact I have +observed striking instances with the present species; and this may account for +the difference between my results and those of Hildebrand. His plants were kept +in a room, and perhaps were grown in too small pots or under some other +unfavourable conditions, for his capsules in almost every case contained a +smaller number of seeds than mine, as may be seen by comparing the right hand +columns in Tables 1.10 and 1.11. + +The most interesting point in Hildebrand's experiments is the difference in the +effects of illegitimate fertilisation with a flower's own pollen, and with that +from a distinct plant of the same form. In the latter case all the flowers +produced capsules, whilst only 67 out of 100 of those fertilised with their own +pollen produced capsules. The self-fertilised capsules also contained seeds, as +compared with capsules from flowers fertilised with pollen from a distinct plant +of the same form, in the ratio of 72 to 100. + +In order to ascertain how far the present species was spontaneously self- +fertile, five long-styled plants were protected by me from insects; and they +bore up to a given period 147 flowers which set 62 capsules; but many of these +soon fell off, showing that they had not been properly fertilised. At the same +time five short-styled plants were similarly treated, and they bore 116 flowers +which ultimately produced only seven capsules. On another occasion 13 protected +long-styled plants yielded by weight 25.9 grains of spontaneously self- +fertilised seeds. At the same time seven protected short-styled plants yielded +only half-a-grain weight of seeds. Therefore the long-styled plants yielded +nearly 24 times as many spontaneously self-fertilised seeds as did the same +number of short-styled plants. The chief cause of this great difference appears +to be, that when the corolla of a long-styled plant falls off, the anthers, from +being situated near the bottom of the tube are necessarily dragged over the +stigma and leave pollen on it, as I saw when I hastened the fall of nearly +withered flowers; whereas in the short-styled flowers, the stamens are seated at +the mouth of the corolla, and in falling off do not brush over the lowly-seated +stigmas. Hildebrand likewise protected some long-styled and short-styled plants, +but neither ever yielded a single capsule. He thinks that the difference in our +results may be accounted for by his plants having been kept in a room and never +having been shaken; but this explanation seems to me doubtful; his plants were +in a less fertile condition than mine, as shown by the difference in the number +of seeds produced, and it is highly probable that their lessened fertility would +have interfered with especial force with their capacity for producing self- +fertilised seeds. + +[Primula auricula. (1/11. According to Kerner our garden auriculas are descended +from P. pubescens, Jacq., which is a hybrid between the true P. auricula and +hirsuta. This hybrid has now been propagated for about 300 years, and produces, +when legitimately fertilised, a large number of seeds; the long-styled forms +yielding an average number of 73, and the short-styled 98 seeds per capsule: see +his "Geschichte der Aurikel" 'Zeitschr. des Deutschen und Oest. Alpen-Vereins' +Band 6 page 52. Also 'Die Primulaceen-Bastarten' 'Oest. Botanische Zeitschrift' +1835 Numbers 3, 4 and 5.) + +This species is heterostyled, like the preceding ones; but amongst the varieties +distributed by florists the long-styled form is rare, as it is not valued. There +is a much greater relative inequality in the length of the pistil and stamens in +the two forms of the auricula than in the cowslip; the pistil in the long-styled +being nearly four times as long as that in the short-styled, in which it is +barely longer than the ovarium. The stigma is nearly of the same shape in both +forms, but is rougher in the long-styled, though the difference is not so great +as between the two forms of the cowslip. In the long-styled plants the stamens +are very short, rising but little above the ovarium. The pollen-grains of these +short stamens, when distended with water, were barely 5/6000 of an inch in +diameter, whereas those from the long stamens of the short-styled plants were +barely 7/6000, showing a relative difference of about 71 to 100. The smaller +grains of the long-styled plant are also much more transparent, and before +distention with water more triangular in outline than those of the other form. +Mr. Scott compared ten plants of both forms growing under similar conditions, +and found that, although the long-styled plant produced more umbels and more +capsules than the short-styled, yet they yielded fewer seeds, in the ratio of 66 +to 100. (1/12. 'Journal of the Linnean Society Botany' volume 8 1864 page 86.) +Three short-styled plants were protected by me from the access of insects, and +they did not produce a single seed. Mr. Scott protected six plants of both +forms, and found them excessively sterile. The pistil of the long-styled form +stands so high above the anthers, that it is scarcely possible that pollen +should reach the stigma without some aid; and one of Mr. Scott's long-styled +plants which yielded a few seeds (only 18 in number) was infested by aphides, +and he does not doubt that these had imperfectly fertilised it. + +I tried a few experiments by reciprocally fertilising the two forms in the same +manner as before, but my plants were unhealthy, so I will give, in a condensed +form, the results of Mr. Scott's experiments. For fuller particulars with +respect to this and the five following species, the paper lately referred to may +be consulted. In each case the fertility of the two legitimate unions, taken +together, is compared with that of the two illegitimate unions together, by the +same two standards as before, namely, by the proportional number of flowers +which produced good capsules, and by the average number of seeds per capsule. +The fertility of the legitimate unions is always taken at 100. + +By the first standard, the fertility of the two legitimate unions of the +auricula is to that of the two illegitimate unions as 100 to 80; and by the +second standard as 100 to 15. + +Primula Sikkimensis. + +According to Mr. Scott, the pistil of the long-styled form is fully four times +as long as that of the short-styled, but their stigmas are nearly alike in shape +and roughness. The stamens do not differ so much in relative length as the +pistils. The pollen-grains differ in a marked manner in the two forms; "those of +the long-styled plants are sharply triquetrous, smaller, and more transparent +than those of the short-styled, which are of a bluntly triangular form." The +fertility of the two legitimate unions to that of the two illegitimate unions is +by the first standard as 100 to 95, and by the second standard as 100 to 31. + +Primula cortusoides. + +The pistil of the long-styled form is about thrice as long as that of the short- +styled, the stigma being double as long and covered with much longer papillae. +The pollen-grains of the short-styled form are, as usual, "larger, less +transparent, and more bluntly triangular than those from the long-styled +plants." The fertility of the two legitimate unions to that of the two +illegitimate unions is by the first standard as 100 to 74, and by the second +standard as 100 to 66. + +Primula involucrata. + +The pistil of the long-styled form is about thrice as long as that of the short- +styled; the stigma of the former is globular and closely beset with papillae, +whilst that of the short-styled is smooth and depressed on the apex. The pollen- +grains of the two forms differ in size and transparency as before, but not in +shape. The fertility of the two legitimate to that of the two illegitimate +unions is by the first standard as 100 to 72; and by the second standard as 100 +to 47. + +Primula farinosa. + +According to Mr. Scott, the pistil of the long-styled form is only about twice +as long as that of the short-styled. The stigmas of the two forms differ but +little in shape. The pollen-grains differ in the usual manner in size, but not +in form. The fertility of the two legitimate to that of the two illegitimate +unions is by the first standard as 100 to 71, and by the second standard as 100 +to 44.] + +SUMMARY ON THE FOREGOING HETEROSTYLED SPECIES OF PRIMULA. + +TABLE 1.12. Summary on the Fertility of the two Legitimate Unions, compared with +that of the two Illegitimate Unions, in the genus Primula. The former taken at +100. + +Column 1: Name of Species. +Column 2: Illegitimate Unions, Judged of by the Proportional Number of Flowers +which produced Capsules. +Column 3: Illegitimate Unions, Judged of by the Average Number (or Weight in +some cases) of Seeds per Capsule. + +Primula veris : 69 : 65. + +Primula elatior : 27 : 75 (Probably too high). + +Primula vulgaris : 60 : 54 (Perhaps too low). + +Primula Sinensis : 84 : 63. + +Primula Sinensis (second trial) : ? : 53. +Primula Sinensis (after Hildebrand) : 100 : 42. + +Primula auricula (Scott) : 80 : 15. + +Primula Sikkimensis (Scott): 95 : 31. + +Primula cortusoides (Scott): 74 : 66. + +Primula involucrata (Scott): 72 : 48. + +Primula farinosa (Scott): 71 : 44. + +Average of the nine species : 88.4 : 61.8. + +The fertility of the long-and short-styled plants of the above species of +Primula, when the two forms are fertilised legitimately, and illegitimately with +pollen of the same form taken from a distinct plant, has now been given. The +results are seen in Table 1.12; the fertility being judged by two standards, +namely, by that of the proportional number of flowers which yielded capsules, +and by that of the average number of seeds per capsule. But for full accuracy +many more observations, under varied conditions, would be requisite. + +With plants of all kinds some flowers generally fail to produce capsules, from +various accidental causes; but this source of error has been eliminated, as far +as possible, in all the previous cases, by the manner in which the calculations +have been made. Supposing, for instance, that 20 flowers were fertilised +legitimately and yielded 18 capsules, and that 30 flowers were fertilised +illegitimately and yielded 15 capsules, we may assume that on an average an +equal proportion of the flowers in both lots would fail to produce capsules from +various accidental causes; and the ratio of 18/20 to 15/30, or as 100 to 56 (in +whole numbers), would show the proportional number of capsules due to the two +methods of fertilisation; and the number 56 would appear in the left-hand column +of Table 1.12, and in my other tables. With respect to the average number of +seeds per capsule hardly anything need be said: supposing that the legitimately +fertilised capsules contained, on an average, 50 seeds, and the illegitimately +fertilised capsules 25 seeds; then as 50 is to 25 so is 100 to 50; and the +latter number would appear in the right hand column. + +It is impossible to look at the above table and doubt that the legitimate unions +between the two forms of the above nine species of Primula are much more fertile +than the illegitimate unions; although in the latter case pollen was always +taken from a distinct plant of the same form. There is, however, no close +correspondence in the two rows of figures, which give, according to the two +standards, the difference of fertility between the legitimate and illegitimate +unions. Thus all the flowers of P. Sinensis which were illegitimately fertilised +by Hildebrand produced capsules; but these contained only 42 per cent of the +number of seeds yielded by the legitimately fertilised capsules. So again, 95 +per cent of the illegitimately fertilised flowers of P. Sikkimensis produced +capsules; but these contained only 31 per cent of the number of seeds in the +legitimate capsules. On the other hand, with P. elatior only 27 per cent of the +illegitimately fertilised flowers yielded capsules; but these contained nearly +75 per cent of the legitimate number of seeds. It appears that the setting of +the flowers, that is, the production of capsules whether good or bad, is not so +much influenced by legitimate and illegitimate fertilisation as is the number of +seeds which the capsules contain. For, as may be seen at the bottom of Table +1.12, 88.4 per cent of the illegitimately fertilised flowers yielded capsules; +but these contained only 61.8 per cent of seeds, in comparison, in each case, +with the legitimately fertilised flowers and capsules of the same species. +There is another point which deserves notice, namely, the relative degree of +infertility in the several species of the long-styled and short-styled flowers, +when both are illegitimately fertilised. The data may be found in the earlier +tables, and in those given by Mr. Scott in the Paper already referred to. If we +call the number of seeds per capsule produced by the illegitimately fertilised +long-styled flowers 100, the seeds from the illegitimately fertilised short- +styled flowers will be represented by the following numbers (Table 1.a.):-- + +TABLE 1.a. + +Primula veris : 71. + +Primula elatior : 44 (Probably too low). + +Primula vulgaris : 36 (Perhaps too low). + +Primula Sinensis : 71. + +Primula auricula : 119. + +Primula Sikkimensis : 57. + +Primula cortusoides : 93. + +Primula involucrata : 74. + +Primula farinosa : 63. + +We thus see that, with the exception of P. auricula, the long-styled flowers of +all nine species are more fertile than the short-styled flowers, when both forms +are illegitimately fertilised. Whether P. auricula really differs from the other +species in this respect I can form no opinion, as the result may have been +accidental. The degree of self-fertility of a plant depends on two elements, +namely, on the stigma receiving its own pollen and on its more or less efficient +action when placed there. Now as the anthers of the short-styled flowers of +several species of Primula stand directly above the stigma, their pollen is more +likely to fall on it, or to be carried down to it by insects, than in the case +of the long-styled form. It appears probable, therefore, at first sight, that +the lessened capacity of the short-styled flowers to be fertilised with their +own pollen, is a special adaptation for counteracting their greater liability to +receive their own pollen, and thus for checking self-fertilisation. But from +facts with respect to other species hereafter to be given, this view can hardly +be admitted. In accordance with the above liability, when some of the species of +Primula were allowed to fertilise themselves spontaneously under a net, all +insects being excluded, except such minute ones as Thrips, the short-styled +flowers, notwithstanding their greater innate self-sterility, yielded more seed +than did the long-styled. None of the species, however, when insects were +excluded, made a near approach to full fertility. But the long-styled form of P. +Sinensis gave, under these circumstances, a considerable number of seeds, as the +corolla in falling off drags the anthers, which are seated low down in the tube, +over the stigma, and thus leaves plenty of pollen on it. + +HOMOSTYLED SPECIES OF PRIMULA. + +It has now been shown that nine of the species in this genus exist under two +forms, which differ not only in structure but in function. Besides these Mr. +Scott enumerates 27 other species which are heterostyled (1/13. H. Muller has +given in 'Nature' December 10, 1874 page 110, a drawing of one of these species, +viz. The alpine P. villosa, and shows that it is fertilised exclusively by +Lepidoptera.); and to these probably others will be hereafter added. +Nevertheless, some species are homostyled; that is, they exist only under a +single form; but much caution is necessary on this head, as several species when +cultivated are apt to become equal-styled. Mr. Scott believes that P. Scotica, +verticillata, a variety of Sibirica, elata, mollis, and longiflora, are truly +homostyled; and to these may be added, according to Axell, P. stricta. (1/14. +Koch was aware that this species was homostyled: see "Treviranus uber Dichogamie +nach Sprengel und Darwin" 'Botanische Zeitung' January 2, 1863 page 4.) Mr. +Scott experimented on P. Scotica, mollis, and verticillata, and found that their +flowers yielded an abundance of seeds when fertilised with their own pollen. +This shows that they are not heterostyled in function. P. Scotica is, however, +only moderately fertile when insects are excluded, but this depends merely on +the coherent pollen not readily falling on the stigma without their aid. Mr. +Scott also found that the capsules of P. verticillata contained rather more seed +when the flowers were fertilised with pollen from a distinct plant than when +with their own pollen; and from this fact he infers that they are sub- +heterostyled in function, though not in structure. But there is no evidence that +two sets of individuals exist, which differ slightly in function and are adapted +for reciprocal fertilisation; and this is the essence of heterostylism. The mere +fact of a plant being more fertile with pollen from a distinct individual than +with its own pollen, is common to very many species, as I have shown in my work +'On the Effects of Cross and Self-fertilisation.' + +Hottonia palustris. + +This aquatic member of the Primulaceae is conspicuously heterostyled, as the +pistil of the long-styled form projects far out of the flower, the stamens being +enclosed within the tube; whilst the stamens of the short-styled flower project +far outwards, the pistil being enclosed. This difference between the two forms +has attracted the attention of various botanists, and that of Sprengel, in 1793, +who, with his usual sagacity, adds that he does not believe the existence of the +two forms to be accidental, though he cannot explain their purpose. (1/15. 'Das +entdeckte Geheimniss der Nature' page 103.) The pistil of the long-styled form +is more than twice as long as that of the short-styled, with the stigma rather +smaller, though rougher. H. Muller gives figures of the stigmatic papillae of +the two forms, and those of the long-styled are seen to be more than double the +length, and much thicker than the papillae of the short-styled form. (1/16. 'Die +Befruchtung' etc. page 350.) The anthers in the one form do not stand exactly on +a level with the stigma in the other form; for the distance between the organs +is greater in the short-styled than in the long-styled flowers in the proportion +of 100 to 71. In dried specimens soaked in water the anthers of the short-styled +form are larger than those of the long-styled, in the ratio of 100 to 83. The +pollen-grains, also, from the short-styled flowers are conspicuously larger than +those from the long-styled; the ratio between the diameters of the moistened +grains being as 100 to 64, according to my measurements, but according to the +measurements of H. Muller as 100 to 61; and his are probably the more accurate +of the two. The contents of the larger pollen-grains appear more coarsely +granular and of a browner tint, than those in the smaller grains. The two forms +of Hottonia thus agree closely in most respects with those of the heterostyled +species of Primula. The flowers of Hottonia are cross-fertilised, according to +Muller, chiefly by Diptera. + +Mr. Scott made a few trials on a short-styled plant, and found that the +legitimate unions were in all ways more fertile than the illegitimate (1/17. +'Journal of the Linnean Society Botany' volume 8 1864 page 79.); but since the +publication of his paper H. Muller has made much fuller experiments, and I give +his results in Table 1.13, drawn up in accordance with my usual plan:-- + +TABLE 1.13. Hottonia palustris (from H. Muller). + +Column 1: Nature of the Union. +Column 2: Number of Capsules examined. +Column 3: Average Number of Seeds per Capsule. + +Long-styled by pollen of short-styled. Legitimate union: +34 : 91.4. + +Long-styled by own-form pollen, from a distinct plant. Illegitimate union: +18 : 77.5. + +Short-styled by pollen of long-styled. Legitimate union: +30 : 66.2. + +Short-styled by own-form pollen, from a distinct plant. Illegitimate union: +19 : 18.7. + +SUMMARY: + +The two legitimate unions together: +64 : 78.8. + +The two illegitimate unions together: +37 : 48.1. + +The most remarkable point in this table is the small average number of seeds +from the short-styled flowers when illegitimately fertilised, and the unusually +large average number of seeds yielded by the illegitimately fertilised long- +styled flowers, relatively in both cases to the product of the legitimately +fertilised flowers. (1/18. H. Muller says 'Die Befruchtung' etc. page 352, that +the long-styled flowers, when illegitimately fertilised, yield as many seeds as +when legitimately fertilised; but by adding up the number of seeds from all the +capsules produced by the two methods of fertilisation, as given by him, I arrive +at the results shown in Table 1.13. The average number in the long-styled +capsules, when legitimately fertilised, is 91.4, and when illegitimately +fertilised, 77.5; or as 100 to 85. H. Muller agrees with me that this is the +proper manner of viewing the case.) The two legitimate unions compared with the +two illegitimate together yield seeds in the ratio of 100 to 61. + +H. Muller also tried the effects of illegitimately fertilising the long-styled +and short-styled flowers with their own pollen, instead of with that from +another plant of the same form; and the results are very striking. For the +capsules from the long-styled flowers thus treated contained, on an average, +only 15.7 seeds instead of 77.5; and those from the short-styled 6.5, instead of +18.7 seeds per capsule. The number 6.5 agrees closely with Mr. Scott's result +from the same form similarly fertilised. + +From some observations by Dr. Torrey, Hottonia inflata, an inhabitant of the +United States, does not appear to be heterostyled, but is remarkable from +producing cleistogamic flowers, as will be seen in the last chapter of this +volume. + +Besides the genera Primula and Hottonia, Androsace (vel Gregoria, vel Aretia) +vitalliana is heterostyled. Mr. Scott fertilised with their own pollen 21 +flowers on three short-styled plants in the Edinburgh Botanic Gardens, and not +one yielded a single seed; but eight of them which were fertilised with pollen +from one of the other plants of the same form, set two empty capsules. (1/19. +See also Treviranus in 'Botanische Zeitung' 1863 page 6 on this plant being +dimorphic.) He was able to examine only dried specimens of the long-styled +forms. But the evidence seems sufficient to leave hardly a doubt that Androsace +is heterostyled. Fritz Muller sent me from South Brazil dried flowers of a +Statice which he believed to be heterostyled. In the one form the pistil was +considerably longer and the stamens slightly shorter than the corresponding +organs in the other form. But as in the shorter-styled form the stigmas reached +up to the anthers of the same flower, and as I could not detect in the dried +specimens of the two forms any difference in their stigmas, or in the size of +their pollen-grains, I dare not rank this plant as heterostyled. From statements +made by Vaucher I was led to think that Soldanella alpina was heterostyled, but +it is impossible that Kerner, who has closely studied this plant, could have +overlooked the fact. So again from other statements it appeared probable that +Pyrola might be heterostyled, but H. Muller examined for me two species in North +Germany, and found this not to be the case. + + +CHAPTER II. + +HYBRID PRIMULAS. + +The oxlip a hybrid naturally produced between Primula veris and vulgaris. +The differences in structure and function between the two parent-species. +Effects of crossing long-styled and short-styled oxlips with one another and +with the two forms of both parent-species. +Character of the offspring from oxlips artificially self-fertilised and cross- +fertilised in a state of nature. +Primula elatior shown to be a distinct species. +Hybrids between other heterostyled species of Primula. +Supplementary note on spontaneously produced hybrids in the genus Verbascum. + +The various species of Primula have produced in a state of nature throughout +Europe an extraordinary number of hybrid forms. For instance, Professor Kerner +has found no less than twenty-five such forms in the Alps. (2/1. "Die +Primulaceen-Bastarten" 'Oesterr. Botanische Zeitschrift' Jahr 1875 Numbers 3, 4 +and 5. See also Godron on hybrid Primulas in 'Bull. Soc. Bot. de France' tome 10 +1853 page 178. Also in 'Revue des Sciences Nat.' 1875 page 331.) The frequent +occurrence of hybrids in this genus no doubt has been favoured by most of the +species being heterostyled, and consequently requiring cross-fertilisation by +insects; yet in some other genera, species which are not heterostyled and which +in some respects appear not well adapted for hybrid-fertilisation, have likewise +been largely hybridised. In certain districts of England, the common oxlip--a +hybrid between the cowslip (P. veris, vel officinalis) and the primrose (P. +vulgaris, vel acaulis)--is frequently found, and it occurs occasionally almost +everywhere. Owing to the frequency of this intermediate hybrid form, and to the +existence of the Bardfield oxlip (P. elatior), which resembles to a certain +extent the common oxlip, the claim of the three forms to rank as distinct +species has been discussed oftener and at greater length than that of almost any +other plant. Linnaeus considered P. veris, vulgaris and elatior to be varieties +of the same species, as do some distinguished botanists at the present day; +whilst others who have carefully studied these plants do not doubt that they are +distinct species. The following observations prove, I think, that the latter +view is correct; and they further show that the common oxlip is a hybrid between +P. veris and vulgaris. + +The cowslip differs so conspicuously in general appearance from the primrose, +that nothing need here be said with respect to their external characters. (2/2. +The Reverend W.A. Leighton has pointed out certain differences in the form of +the capsules and seed in 'Annals and Magazine of Natural History' 2nd series +volume 2 1848 page 164.) But some less obvious differences deserve notice. As +both species are heterostyled, their complete fertilisation depends on insects. +The cowslip is habitually visited during the day by the larger humble-bees +(namely Bombus muscorum and hortorum), and at night by moths, as I have seen in +the case of Cucullia. The primrose is never visited (and I speak after many +years' observation) by the larger humble-bees, and only rarely by the smaller +kinds; hence its fertilisation must depend almost exclusively on moths. There is +nothing in the structure of the flowers of the two plants which can determine +the visits of such widely different insects. But they emit a different odour, +and perhaps their nectar may have a different taste. Both the long-styled and +short-styled forms of the primrose, when legitimately and naturally fertilised, +yield on an average many more seeds per capsule than the cowslip, namely, in the +proportion of 100 to 55. When illegitimately fertilised they are likewise more +fertile than the two forms of the cowslip, as shown by the larger proportion of +their flowers which set capsules, and by the larger average number of seeds +which the capsules contain. The difference also between the number of seeds +produced by the long-styled and short-styled flowers of the primrose, when both +are illegitimately fertilised, is greater than that between the number produced +under similar circumstances by the two forms of the cowslip. The long-styled +flowers of the primrose when protected from the access of all insects, except +such minute ones as Thrips, yield a considerable number of capsules containing +on an average 19.2 seeds per capsule; whereas 18 plants of the long-styled +cowslip similarly treated did not yield a single seed. + +The primrose, as every one knows, flowers a little earlier in the spring than +the cowslip, and inhabits slightly different stations and districts. The +primrose generally grows on banks or in woods, whilst the cowslip is found in +more open places. The geographical range of the two forms is different. Dr. +Bromfield remarks that "the primrose is absent from all the interior region of +northern Europe, where the cowslip is indigenous." (2/3. 'Phytologist' volume 3 +page 694.) In Norway, however, both plants range to the same degree of north +latitude. (2/4. H. Lecoq 'Geograph. Bot. de l'Europe' tome 8 1858 pages 141, +144. See also 'Annals and Magazine of Natural History' 9 1842 pages 156, 515. +Also Boreau 'Flore du centre de la France' 1840 tome 2 page 376. With respect to +the rarity of P. veris in western Scotland, see H.C. Watson 'Cybele Britannica' +2 page 293.) + +The cowslip and primrose, when intercrossed, behave like distinct species, for +they are far from being mutually fertile. Gartner crossed 27 flowers of P. +vulgaris with pollen of P. veris, and obtained 16 capsules; but these did not +contain any good seed. (2/5. 'Bastarderzeugung' 1849 page 721.) He also crossed +21 flowers of P. veris with pollen of P. vulgaris; and now he got only five +capsules, containing seed in a still less perfect condition. Gartner knew +nothing about heterostylism; and his complete failure may perhaps be accounted +for by his having crossed together the same forms of the cowslip and primrose; +for such crosses would have been of an illegitimate as well as of a hybrid +nature, and this would have increased their sterility. My trials were rather +more fortunate. Twenty-one flowers, consisting of both forms of the cowslip and +primrose, were intercrossed legitimately, and yielded seven capsules (i.e. 33 +per cent), containing on an average 42 seeds; some of these seeds, however, were +so poor that they probably would not have germinated. Twenty-one flowers on the +same cowslip and primrose plants were also intercrossed illegitimately, and they +likewise yielded seven capsules (or 33 per cent), but these contained on an +average only 13 good and bad seeds. I should, however, state that some of the +above flowers of the primrose were fertilised with pollen from the polyanthus, +which is certainly a variety of the cowslip, as may be inferred from the perfect +fertility inter se of the crossed offspring from these two plants. (2/6. Mr. +Scott has discussed the nature of the polyanthus ('Proceedings of the Linnean +Society' 8 Botany 1864 page 103), and arrives at a different conclusion; but I +do not think that his experiments were sufficiently numerous. The degree of +infertility of a cross is liable to much fluctuation. Pollen from the cowslip at +first appears rather more efficient on the primrose than that of the polyanthus; +for 12 flowers of both forms of the primrose, fertilised legitimately and +illegitimately with pollen of the cowslip gave five capsules, containing on an +average 32.4 seeds; whilst 18 flowers similarly fertilised by polyanthus-pollen +yielded only five capsules, containing only 22.6 seeds. On the other hand, the +seeds produced by the polyanthus-pollen were much the finest of the whole lot, +and were the only ones which germinated.) To show how sterile these hybrid +unions were I may remind the reader that 90 per cent of the flowers of the +primrose fertilised legitimately with primrose-pollen yielded capsules, +containing on an average 66 seeds; and that 54 per cent of the flowers +fertilised illegitimately yielded capsules containing on an average 35.5 seeds +per capsule. The primrose, especially the short-styled form, when fertilised by +the cowslip, is less sterile, as Gartner likewise observed, than is the cowslip +when fertilised by the primrose. The above experiments also show that a cross +between the same forms of the primrose and cowslip is much more sterile than +that between different forms of these two species. + +The seeds from the several foregoing crosses were sown, but none germinated +except those from the short-styled primrose fertilised with pollen of the +polyanthus; and these seeds were the finest of the whole lot. I thus raised six +plants, and compared them with a group of wild oxlips which I had transplanted +into my garden. One of these wild oxlips produced slightly larger flowers than +the others, and this one was identical in every character (in foliage, flower- +peduncle, and flowers) with my six plants, excepting that the flowers of the +latter were tinged of a dingy red colour, from being descended from the +polyanthus. + +We thus see that the cowslip and primrose cannot be crossed either way except +with considerable difficulty, that they differ conspicuously in external +appearance, that they differ in various physiological characters, that they +inhabit slightly different stations and range differently. Hence those botanists +who rank these plants as varieties ought to be able to prove that they are not +as well fixed in character as are most species; and the evidence in favour of +such instability of character appears at first sight very strong. It rests, +first, on statements made by several competent observers that they have raised +cowslips, primroses, and oxlips from seeds of the same plant; and, secondly, on +the frequent occurrence in a state of nature of plants presenting every +intermediate gradation between the cowslip and primrose. + +The first statement, however, is of little value; for, heterostylism not being +formerly understood, the seed-bearing plants were in no instance protected from +the visits of insects (2/7. One author states in the 'Phytologist' volume 3 page +703 that he covered with bell-glasses some cowslips, primroses, etc., on which +he experimented. He specifies all the details of his experiment, but does not +say that he artificially fertilised his plants; yet he obtained an abundance of +seed, which is simply impossible. Hence there must have been some strange error +in these experiments, which may be passed over as valueless.); and there would +be almost as much risk of an isolated cowslip, or of several cowslips if +consisting of the same form, being crossed by a neighbouring primrose and +producing oxlips, as of one sex of a dioecious plant, under similar +circumstances, being crossed by the opposite sex of an allied and neighbouring +species. Mr. H.C. Watson, a critical and most careful observer, made many +experiments by sowing the seeds of cowslips and of various kinds of oxlips, and +arrived at the following conclusion, namely, "that seeds of a cowslip can +produce cowslips and oxlips, and that seeds of an oxlip can produce cowslips, +oxlips, and primroses." (2/8. 'Phytologist' 2 pages 217, 852; 3 page 43.) This +conclusion harmonises perfectly with the view that in all cases, when such +results have been obtained, the unprotected cowslips have been crossed by +primroses, and the unprotected oxlips by either cowslips or primroses; for in +this latter case we might expect, by the aid of reversion, which notoriously +comes into powerful action with hybrids, that the two parent-forms in appearance +pure, as well as many intermediate gradations, would be occasionally produced. +Nevertheless the two following statements offer considerable difficulty. The +Reverend Professor Henslow raised from seeds of a cowslip growing in his garden, +various kinds of oxlips and one perfect primrose; but a statement in the same +paper perhaps throws light on this anomalous result. (2/9. Loudon's 'Magazine of +Natural History' 3 1830 page 409.) Professor Henslow had previously transplanted +into his garden a cowslip, which completely changed its appearance during the +following year, and now resembled an oxlip. Next year again it changed its +character, and produced, in addition to the ordinary umbels, a few single- +flowered scapes, bearing flowers somewhat smaller and more deeply coloured than +those of the common primrose. From what I have myself observed with oxlips, I +cannot doubt that this plant was an oxlip in a highly variable condition, almost +like that of the famous Cytisus adami. This presumed oxlip was propagated by +offsets, which were planted in different parts of the garden; and if Professor +Henslow took by mistake seeds from one of these plants, especially if it had +been crossed by a primrose, the result would be quite intelligible. Another case +is still more difficult to understand: Dr. Herbert raised, from the seeds of a +highly cultivated red cowslip, cowslips, oxlips of various kinds, and a +primrose. (2/10. 'Transactions of the Horticultural Society' 4 page 19.) This +case, if accurately recorded, which I much doubt, is explicable only on the +improbable assumption that the red cowslip was not of pure parentage. With +species and varieties of many kinds, when intercrossed, one is sometimes +strongly prepotent over the other; and instances are known of a variety crossed +by another, producing offspring which in certain characters, as in colour, +hairiness, etc., have proved identical with the pollen-bearing parent, and quite +dissimilar to the mother-plant (2/11. I have given instances in my work 'On the +Variation of Animals and Plants under Domestication' chapter 15 2nd edition +volume 2 page 69.); but I do not know of any instance of the offspring of a +cross perfectly resembling, in a considerable number of important characters, +the father alone. It is, therefore, very improbable that a pure cowslip crossed +by a primrose should ever produce a primrose in appearance pure. Although the +facts given by Dr. Herbert and Professor Henslow are difficult to explain, yet +until it can be shown that a cowslip or a primrose, carefully protected from +insects, will give birth to at least oxlips, the cases hitherto recorded have +little weight in leading us to admit that the cowslip and primrose are varieties +of one and the same species. + +Negative evidence is of little value; but the following facts may be worth +giving:--Some cowslips which had been transplanted from the fields into a +shrubbery were again transplanted into highly manured land. In the following +year they were protected from insects, artificially fertilised, and the seed +thus procured was sown in a hotbed. The young plants were afterwards planted +out, some in very rich soil, some in stiff poor clay, some in old peat, and some +in pots in the greenhouse; so that these plants, 765 in number, as well as their +parents, were subjected to diversified and unnatural treatment; but not one of +them presented the least variation except in size--those in the peat attaining +almost gigantic dimensions, and those in the clay being much dwarfed. + +I do not, of course, doubt that cowslips exposed during SEVERAL successive +generations to changed conditions would vary, and that this might occasionally +occur in a state of nature. Moreover, from the law of analogical variation, the +varieties of any one species of Primula would probably in some cases resemble +other species of the genus. For instance I raised a red primrose from seed from +a protected plant, and the flowers, though still resembling those of the +primrose, were borne during one season in umbels on a long foot-stalk like that +of a cowslip. + +With regard to the second class of facts in support of the cowslip and primrose +being ranked as mere varieties, namely, the well-ascertained existence in a +state of nature of numerous linking forms (2/12. See an excellent article on +this subject by Mr. H.C. Watson in the 'Phytologist' volume 3 page 43.):--If it +can be shown that the common wild oxlip, which is intermediate in character +between the cowslip and primrose, resembles in sterility and other essential +respects a hybrid plant, and if it can further be shown that the oxlip, though +in a high degree sterile, can be fertilised by either parent-species, thus +giving rise to still finer gradational links, then the presence of such linking +forms in a state of nature ceases to be an argument of any weight in favour of +the cowslip and primrose being varieties, and becomes, in fact, an argument on +the other side. The hybrid origin of a plant in a state of nature can be +recognised by four tests: first, by its occurrence only where both presumed +parent-species exist or have recently existed; and this holds good, as far as I +can discover, with the oxlip; but the P. elatior of Jacq., which, as we shall +presently see, constitutes a distinct species, must not be confounded with the +common oxlip. Secondly, by the supposed hybrid plant being nearly intermediate +in character between the two parent-species, and especially by its resembling +hybrids artificially made between the same two species. Now the oxlip is +intermediate in character, and resembles in every respect, except in the colour +of the corolla, hybrids artificially produced between the primrose and the +polyanthus, which latter is a variety of the cowslip. Thirdly, by the supposed +hybrids being more or less sterile when crossed inter se: but to try this fairly +two distinct plants of the same parentage, and not two flowers on the same +plant, should be crossed; for many pure species are more or less sterile with +pollen from the same individual plant; and in the case of hybrids from +heterostyled species the opposite forms should be crossed. Fourthly and lastly, +by the supposed hybrids being much more fertile when crossed with either pure +parent-species than when crossed inter se, but still not as fully fertile as the +parent-species. + +For the sake of ascertaining the two latter points, I transplanted a group of +wild oxlips into my garden. They consisted of one long-styled and three short- +styled plants, which, except in the corolla of one being slightly larger, +resembled each other closely. The trials which were made, and the results +obtained, are shown in tables 2.14, 2.15, 2.16, 2.17 and 2.18. No less than +twenty different crosses are necessary in order to ascertain fully the fertility +of hybrid heterostyled plants, both inter se and with their two parent-species. +In this instance 256 flowers were crossed in the course of four seasons. I may +mention, as a mere curiosity, that if any one were to raise hybrids between two +trimorphic heterostyled species, he would have to make 90 distinct unions in +order to ascertain their fertility in all ways; and as he would have to try at +least 10 flowers in each case, he would be compelled to fertilise 900 flowers +and count their seeds. This would probably exhaust the patience of the most +patient man. + +TABLE 2.14. Crosses inter se between the two forms of the common Oxlip. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled oxlip: 20 flowers fertilised, did +not produce one capsule. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled oxlip: 10 flowers fertilised, did +not produce one capsule. + +Column 3: Illegitimate union. +Long-styled oxlip, by its own pollen: 24 flowers fertilised, produced five +capsules, containing 6, 10, 20, 8, and 14 seeds. Average 11.6. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled oxlip: 10 flowers fertilised, did +not produce one capsule. + +TABLE 2.15. Both forms of the Oxlip crossed with Pollen of both forms of the +Cowslip, P. veris. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled cowslip: 18 flowers fertilised, +did not produce one capsule. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled cowslip: 18 flowers fertilised, +produced three capsules, containing 7, 3, and 3 wretched seeds, apparently +incapable of germination. + +Column 3: Illegitimate union. +Long-styled oxlip, by pollen of long-styled cowslip: 11 flowers fertilised, +produced one capsule, containing 13 wretched seeds. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled cowslip: 5 flowers fertilised, +produced two capsules, containing 21 and 28 very fine seeds. + +TABLE 2.16. Both forms of the Oxlip crossed with Pollen of both forms of the +Primrose, P. vulgaris. + +Column 1: Illegitimate union. +Short-styled oxlip, by pollen of short-styled primrose: 34 flowers fertilised, +produced two capsules, containing 5 and 12 seeds. + +Column 2: Legitimate union. +Short-styled oxlip, by pollen of long-styled primrose: 26 flowers fertilised, +produced six capsules, containing 16, 20, 5, 10, 19, and 24 seeds. Average 15.7. +Many of the seeds very poor, some good. + +Column 3: Illegitimate union. +Long-styled oxlip, by pollen of long-styled primrose: 11 flowers fertilised, +produced four capsules, containing 10, 7, 5, and 6 wretched seeds. Average 7.0. + +Column 4: Legitimate union. +Long-styled oxlip, by pollen of short-styled primrose: 5 flowers fertilised, +produced five capsules, containing 26, 32, 23, 28, and 34 seeds. Average 28.6. + +TABLE 2.17. Both forms of the Cowslip crossed with Pollen of both forms of the +Oxlip. + +Column 1: Illegitimate union. +Short-styled cowslip, by pollen of short-styled oxlip: 8 flowers fertilised, did +not produce one capsule. + +Column 2: Legitimate union. +Long-styled cowslip, by pollen of short-styled oxlip: 8 flowers fertilised, +produced one capsule, containing 26 seeds. + +Column 3: Illegitimate union. +Long-styled cowslip, by pollen of long-styled oxlip: 8 flowers fertilised, +produced three capsules, containing 5, 6 and 14 seeds. Average 8.3. + +Column 4: Legitimate union. +Short-styled cowslip, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 8 capsules, containing 58, 38, 31, 44, 23, 26, 37, and 66 seeds. +Average 40.4. + +TABLE 2.18. Both forms of the Primrose crossed with Pollen of both forms of the +Oxlip. + +Column 1: Illegitimate union. +Short-styled primrose, by pollen of short-styled oxlip: 8 flowers fertilised, +did not produce one capsule. + +Column 2: Legitimate union. +Long-styled primrose, by pollen of short-styled oxlip: 8 flowers fertilised, +produced two capsules, containing 5 and 2 seeds. + +Column 3: Illegitimate union. +Long-styled primrose, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 8 capsules, containing 15, 7, 12, 20, 22, 7, 16, and 13 seeds. Average +14.0. + +Column 4: Legitimate union. +Short-styled primrose, by pollen of long-styled oxlip: 8 flowers fertilised, +produced 4 capsules, containing 52, 52, 42, and 49 seeds, some good and some +bad. Average 48.7. + +We see in Tables 2/14 to 2/18 the number of capsules and of seeds produced, by +crossing both forms of the oxlip in a legitimate and illegitimate manner with +one another, and with the two forms of the primrose and cowslip. I may premise +that the pollen of two of the short-styled oxlips consisted of nothing but +minute aborted whitish cells; but in the third short-styled plant about one- +fifth of the grains appeared in a sound condition. Hence it is not surprising +that neither the short-styled nor the long-styled oxlip produced a single seed +when fertilised with this pollen. Nor did the pure cowslips or primroses when +illegitimately fertilised with it; but when thus legitimately fertilised they +yielded a few good seeds. The female organs of the short-styled oxlips, though +greatly deteriorated in power, were in a rather better condition than the male +organs; for though the short-styled oxlips yielded no seed when fertilised by +the long-styled oxlips, and hardly any when illegitimately fertilised by pure +cowslips or primroses, yet when legitimately fertilised by these latter species, +especially by the long-styled primrose, they yielded a moderate supply of good +seed. + +The long-styled oxlip was more fertile than the three short-styled oxlips, and +about half its pollen-grains appeared sound. It bore no seed when legitimately +fertilised by the short-styled oxlips; but this no doubt was due to the badness +of the pollen of the latter; for when illegitimately fertilised (Table 2.14) by +its own pollen it produced some good seeds, though much fewer than self- +fertilised cowslips or primroses would have produced. The long-styled oxlip +likewise yielded a very low average of seed, as may be seen in the third +compartment of Tables 2.15 to 2.18, when illegitimately fertilised by, and when +illegitimately fertilising, pure cowslips and primroses. The four corresponding +legitimate unions, however, were moderately fertile, and one (namely that +between a short-styled cowslip and the long-styled oxlip in Table 2.17) was +nearly as fertile as if both parents had been pure. A short-styled primrose +legitimately fertilised by the long-styled oxlip (Table 2.18) also yielded a +moderately good average, namely 48.7 seeds; but if this short-styled primrose +had been fertilised by a long-styled primrose it would have yielded an average +of 65 seeds. If we take the ten legitimate unions together, and the ten +illegitimate unions together, we shall find that 29 per cent of the flowers +fertilised in a legitimate manner yielded capsules, these containing on an +average 27.4 good and bad seeds; whilst only 15 per cent of the flowers +fertilised in an illegitimate manner yielded capsules, these containing on an +average only 11.0 good and bad seeds. + +In a previous part of this chapter it was shown that illegitimate crosses +between the long-styled form of the primrose and the long-styled cowslip, and +between the short-styled primrose and short-styled cowslip, are more sterile +than legitimate crosses between these two species; and we now see that the same +rule holds good almost invariably with their hybrid offspring, whether these are +crossed inter se, or with either parent-species; so that in this particular +case, but not as we shall presently see in other cases, the same rule prevails +with the pure unions between the two forms of the same heterostyled species, +with crosses between two distinct heterostyled species, and with their hybrid +offspring. + +Seeds from the long-styled oxlip fertilised by its own pollen were sown, and +three long-styled plants raised. The first of these was identical in every +character with its parent. The second bore rather smaller flowers, of a paler +colour, almost like those of the primrose; the scapes were at first single- +flowered, but later in the season a tall thick scape, bearing many flowers, like +that of the parent oxlip, was thrown up. The third plant likewise produced at +first only single-flowered scapes, with the flowers rather small and of a darker +yellow; but it perished early. The second plant also died in September; and the +first plant, though all three grew under very favourable conditions, looked very +sickly. Hence we may infer that seedlings from self-fertilised oxlips would +hardly be able to exist in a state of nature. I was surprised to find that all +the pollen-grains in the first of these seedling oxlips appeared sound; and in +the second only a moderate number were bad. These two plants, however, had not +the power of producing a proper number of seeds; for though left uncovered and +surrounded by pure primroses and cowslips, the capsules were estimated to +include an average of only from fifteen to twenty seeds. + +From having many experiments in hand, I did not sow the seed obtained by +crossing both forms of the primrose and cowslip with both forms of the oxlip, +which I now regret; but I ascertained an interesting point, namely, the +character of the offspring from oxlips growing in a state of nature near both +primroses and cowslips. The oxlips were the same plants which, after their seeds +had been collected, were transplanted and experimented on. From the seeds thus +obtained eight plants were raised, which, when they flowered, might have been +mistaken for pure primroses; but on close comparison the eye in the centre of +the corolla was seen to be of a darker yellow, and the peduncles more elongated. +As the season advanced, one of these plants threw up two naked scapes, 7 inches +in height, which bore umbels of flowers of the same character as before. This +fact led me to examine the other plants after they had flowered and were dug up; +and I found that the flower-peduncles of all sprung from an extremely short +common scape, of which no trace can be found in the pure primrose. Hence these +plants are beautifully intermediate between the oxlip and the primrose, +inclining rather towards the latter; and we may safely conclude that the parent +oxlips had been fertilised by the surrounding primroses. + +From the various facts now given, there can be no doubt that the common oxlip is +a hybrid between the cowslip (P. veris, Brit. Fl.) and the primrose (P. +vulgaris, Brit. Fl.), as has been surmised by several botanists. It is probable +that oxlips may be produced either from the cowslip or the primrose as the seed- +bearer, but oftenest from the latter, as I judge from the nature of the stations +in which oxlips are generally found (2/13. See also on this head Hardwicke's +'Science Gossip' 1867 pages 114, 137.), and from the primrose when crossed by +the cowslip being more fertile than, conversely, the cowslip by the primrose. +The hybrids themselves are also rather more fertile when crossed with the +primrose than with the cowslip. Whichever may be the seed-bearing plant, the +cross is probably between different forms of the two species; for we have seen +that legitimate hybrid unions are more fertile than illegitimate hybrid unions. +Moreover a friend in Surrey found that 29 oxlips which grew in the neighbourhood +of his house consisted of 13 long-styled and 16 short-styled plants; now, if the +parent-plants had been illegitimately united, either the long- or short-styled +form would have greatly preponderated, as we shall hereafter see good reason to +believe. The case of the oxlip is interesting; for hardly any other instance is +known of a hybrid spontaneously arising in such large numbers over so wide an +extent of country. The common oxlip (not the P. elatior of Jacq.) is found +almost everywhere throughout England, where both cowslips and primroses grow. In +some districts, as I have seen near Hartfield in Sussex and in parts of Surrey, +specimens may be found on the borders of almost every field and small wood. In +other districts the oxlip is comparatively rare: near my own residence I have +found, during the last twenty-five years, not more than five or six plants or +groups of plants. It is difficult to conjecture what is the cause of this +difference in their number. It is almost necessary that a plant, or several +plants belonging to the same form, of one parent-species, should grow near the +opposite form of the other parent-species; and it is further necessary that both +species should be frequented by the same kind of insect, no doubt a moth. The +cause of the rare appearance of the oxlip in certain districts may be the rarity +of some moth, which in other districts habitually visits both the primrose and +cowslip. + +Finally, as the cowslip and primrose differ in the various characters above +specified,--as they are in a high degree sterile when intercrossed,--as there is +no trustworthy evidence that either species, when uncrossed, has ever given +birth to the other species or to any intermediate form,--and as the intermediate +forms which are often found in a state of nature have been shown to be more or +less sterile hybrids of the first or second generation,--we must for the future +look at the cowslip and primrose as good and true species. + +Primula elatior, Jacq., or the Bardfield Oxlip, is found in England only in two +or three of the eastern counties. On the Continent it has a somewhat different +range from that of the cowslip and primrose; and it inhabits some districts +where neither of these species live. (2/14. For England, see Hewett C. Watson +'Cybele Britannica' volume 2 1849 page 292. For the Continent, see Lecoq +'Geograph. Botanique de l'Europe' tome 8 1858 page 142. For the Alps see 'Annals +and Magazine of Natural History' volume 9 1842 pages 156 and 515.) In general +appearance it differs so much from the common oxlip, that no one accustomed to +see both forms in the living state could afterwards confound them; but there is +scarcely more than a single character by which they can be distinctly defined, +namely, their linear-oblong capsules equalling the calyx in length. (2/15. +Babington 'Manual of British Botany' 1851 page 258.) The capsules when mature +differ conspicuously, owing to their length, from those of the cowslip and +primrose. With respect to the fertility of the two forms when these are united +in the four possible methods, they behave like the other heterostyled species of +the genus, but differ somewhat (see Tables 1.8 and 1.12.) in the smaller +proportion of the illegitimately fertilised flowers which set capsules. That P. +elatior is not a hybrid is certain, for when the two forms were legitimately +united they yielded the large average of 47.1 seeds, and when illegitimately +united 35.5 per capsule; whereas, of the four possible unions (Table 2.14) +between the two forms of the common oxlip which we know to be a hybrid, one +alone yielded any seed; and in this case the average number was only 11.6 per +capsule. Moreover I could not detect a single bad pollen-grain in the anthers of +the short-styled P. elatior; whilst in two short-styled plants of the common +oxlip all the grains were bad, as were a large majority in a third plant. As the +common oxlip is a hybrid between the primrose and cowslip, it is not surprising +that eight long-styled flowers of the primrose, fertilised by pollen from the +long-styled common oxlip, produced eight capsules (Table 1.18), containing, +however, only a low average of seeds; whilst the same number of flowers of the +primrose, similarly fertilised by the long-styled Bardfield oxlip, produced only +a single capsule; this latter plant being an altogether distinct species from +the primrose. Plants of P. elatior have been propagated by seed in a garden for +twenty-five years, and have kept all this time quite constant, excepting that in +some cases the flowers varied a little in size and tint. (2/16. See Mr. H. +Doubleday in the 'Gardener's Chronicle' 1867 page 435, also Mr. W. Marshall +ibid. page 462.) Nevertheless, according to Mr. H.C. Watson and Dr. Bromfield +(2/17. 'Phytologist' volume 1 page 1001 and volume 3 page 695.), plants may be +occasionally found in a state of nature, in which most of the characters by +which this species can be distinguished from P. veris and vulgaris fail; but +such intermediate forms are probably due to hybridisation; for Kerner states, in +the paper before referred to, that hybrids sometimes, though rarely, arise in +the Alps between P. elatior and veris. + +Finally, although we may freely admit that Primula veris, vulgaris, and elatior, +as well as all the other species of the genus, are descended from a common +primordial form, yet from the facts above given, we must conclude that these +three forms are now as fixed in character as are many others which are +universally ranked as true species. Consequently they have as good a right to +receive distinct specific names as have, for instance, the ass, quagga, and +zebra. + +Mr. Scott has arrived at some interesting results by crossing other heterostyled +species of Primula. (2/18. 'Journal of the Linnean Society Botany' volume 8 1864 +page 93 to end.) I have already alluded to his statement, that in four instances +(not to mention others) a species when crossed with a distinct one yielded a +larger number of seeds than the same species fertilised illegitimately with its +own-form pollen, though taken from a distinct plant. It has long been known from +the researches of Kolreuter and Gartner, that two species when crossed +reciprocally sometimes differ as widely as is possible in their fertility: thus +A when crossed with the pollen of B will yield a large number of seeds, whilst B +may be crossed repeatedly with pollen of A, and will never yield a single seed. +Now Mr. Scott shows in several cases that the same law holds good when two +heterostyled species of Primula are intercrossed, or when one is crossed with a +homostyled species. But the results are much more complicated than with ordinary +plants, as two heterostyled dimorphic species can be intercrossed in eight +different ways. I will give one instance from Mr. Scott. The long-styled P. +hirsuta fertilised legitimately and illegitimately with pollen from the two +forms of P. auricula, and reciprocally the long-styled P. auricula fertilised +legitimately and illegitimately with pollen from the two forms of P. hirsuta, +did not produce a single seed. Nor did the short-styled P. hirsuta when +fertilised legitimately and illegitimately with the pollen of the two forms of +P. auricula. On the other hand, the short-styled P. auricula fertilised with +pollen from the long-styled P. hirsuta yielded capsules containing on an average +no less than 56 seeds; and the short-styled P. auricula by pollen of the short- +styled P. hirsuta yielded capsules containing on an average 42 seeds per +capsule. So that out of the eight possible unions between the two forms of these +two species, six were utterly barren, and two fairly fertile. We have seen also +the same sort of extraordinary irregularity in the results of my twenty +different crosses (Tables 2.14 to 2.18), between the two forms of the oxlip, +primrose, and cowslip. Mr. Scott remarks, with respect to the results of his +trials, that they are very surprising, as they show us that "the sexual forms of +a species manifest in their respective powers for conjunction with those of +another species, physiological peculiarities which might well entitle them, by +the criterion of fertility, to specific distinction." + +Finally, although P. veris and vulgaris, when crossed legitimately, and +especially when their hybrid offspring are crossed in this manner with both +parent-species, were decidedly more fertile, than when crossed in an +illegitimate manner, and although the legitimate cross effected by Mr. Scott +between P. auricula and hirsuta was more fertile, in the ratio of 56 to 42, than +the illegitimate cross, nevertheless it is very doubtful, from the extreme +irregularity of the results in the various other hybrid crosses made by Mr. +Scott, whether it can be predicted that two heterostyled species are generally +more fertile if crossed legitimately (i.e. when opposite forms are united) than +when crossed illegitimately. + +SUPPLEMENTARY NOTE ON SOME WILD HYBRID VERBASCUMS. + +In an early part of this chapter I remarked that few other instances could be +given of a hybrid spontaneously arising in such large numbers, and over so wide +an extent of country, as that of the common oxlip; but perhaps the number of +well-ascertained cases of naturally produced hybrid willows is equally great. +(2/19. Max Wichura 'Die Bastardbefruchtung etc. der Weiden' 1865.) Numerous +spontaneous hybrids between several species of Cistus, found near Narbonne, have +been carefully described by M. Timbal-Lagrave (2/20. 'Mem. de l'Acad. des +Sciences de Toulouse' 5e serie tome 5 page 28.), and many hybrids between an +Aceras and Orchis have been observed by Dr. Weddell. (2/21. 'Annales des Sc. +Nat.' 3e serie Bot. tome 18 page 6.) In the genus Verbascum, hybrids are +supposed to have often originated in a state of nature (2/22. See for instance +the 'English Flora' by Sir J.E. Smith 1824 volume 1 page 307.); some of these +undoubtedly are hybrids, and several hybrids have originated in gardens; but +most of these cases require, as Gartner remarks, verification. (2/23. See +Gartner 'Bastarderzeugung' 1849 page 590.) Hence the following case is worth +recording, more especially as the two species in question, V. thapsus and +lychnitis, are perfectly fertile when insects are excluded, showing that the +stigma of each flower receives its own pollen. Moreover the flowers offer only +pollen to insects, and have not been rendered attractive to them by secreting +nectar. + +I transplanted a young wild plant into my garden for experimental purposes, and +when it flowered it plainly differed from the two species just mentioned and +from a third which grows in this neighbourhood. I thought that it was a strange +variety of V. thapsus. It attained the height (by measurement) of 8 feet! It was +covered with a net, and ten flowers were fertilised with pollen from the same +plant; later in the season, when uncovered, the flowers were freely visited by +pollen-collecting bees; nevertheless, although many capsules were produced, not +one contained a single seed. During the following year this same plant was left +uncovered near plants of V. thapsus and lychnitis; but again it did not produce +a single seed. Four flowers, however, which were repeatedly fertilised with +pollen of V. lychnitis, whilst the plant was temporarily kept under a net, +produced four capsules, which contained five, one, two, and two seeds; at the +same time three flowers were fertilised with pollen of V. thapsus, and these +produced two, two, and three seeds. To show how unproductive these seven +capsules were, I may state that a fine capsule from a plant of V. thapsus +growing close by contained above 700 seeds. These facts led me to search the +moderately-sized field whence my plant had been removed, and I found in it many +plants of V. thapsus and lychnitis as well as thirty-three plants intermediate +in character between these two species. These thirty-three plants differed much +from one another. In the branching of the stem they more closely resembled V. +lychnitis than V. thapsus, but in height the latter species. In the shape of +their leaves they often closely approached V. lychnitis, but some had leaves +extremely woolly on the upper surface and decurrent like those of V. thapsus; +yet the degree of woolliness and of decurrency did not always go together. In +the petals being flat and remaining open, and in the manner in which the anthers +of the longer stamens were attached to the filaments, these plants all took more +after V. lychnitis than V. thapsus. In the yellow colour of the corolla they all +resembled the latter species. On the whole, these plants appeared to take rather +more after V. lychnitis than V. thapsus. On the supposition that they were +hybrids, it is not an anomalous circumstance that they should all have produced +yellow flowers; for Gartner crossed white and yellow-flowered varieties of +Verbascum, and the offspring thus produced never bore flowers of an intermediate +tint, but either pure white or pure yellow flowers, generally of the latter +colour. (2/24. 'Bastardzeugung' page 307.) + +My observations were made in the autumn; so that I was able to collect some +half-matured capsules from twenty of the thirty-three intermediate plants, and +likewise capsules of the pure V. lychnitis and thapsus growing in the same +field. All the latter were filled with perfect but immature seeds, whilst the +capsules of the twenty intermediate plants did not contain one single perfect +seed. These plants, consequently, were absolutely barren. From this fact,--from +the one plant which was transplanted into my garden yielding when artificially +fertilised with pollen from V. lychnitis and thapsus some seeds, though +extremely few in number,--from the circumstance of the two pure species growing +in the same field,--and from the intermediate character of the sterile plants, +there can be no doubt that they were hybrids. Judging from the position in which +they were chiefly found, I am inclined to believe they were descended from V. +thapsus as the seed-bearer, and V. lychnitis as the pollen-bearer. + +It is known that many species of Verbascum, when the stem is jarred or struck by +a stick, cast off their flowers. (2/25. This was first observed by Correa de +Serra: see Sir J.E. Smith's 'English Flora' 1824 volume 1 page 311; also 'Life +of Sir J.E. Smith' volume 2 page 210. I was guided to these references by the +Reverend W.A. Leighton, who observed this same phenomenon with V. virgatum.) +This occurs with V. thapsus, as I have repeatedly observed. The corolla first +separates from its attachment, and then the sepals spontaneously bend inwards so +as to clasp the ovarium, pushing off the corolla by their movement, in the +course of two or three minutes. Nothing of this kind takes place with young +barely expanded flowers. With Verbascum lychnitis and, as I believe, V. +phoeniceum the corolla is not cast off, however often and severely the stem may +be struck. In this curious property the above-described hybrids took after V. +thapsus; for I observed, to my surprise, that when I pulled off the flower-buds +round the flowers which I wished to mark with a thread, the slight jar +invariably caused the corollas to fall off. + +These hybrids are interesting under several points of view. First, from the +number found in various parts of the same moderately-sized field. That they owed +their origin to insects flying from flower to flower, whilst collecting pollen, +there can be no doubt. Although insects thus rob the flowers of a most precious +substance, yet they do great good; for, as I have elsewhere shown, the seedlings +of V. thapsus raised from flowers fertilised with pollen from another plant, are +more vigorous than those raised from self-fertilised flowers. (2/26. 'The +Effects of Cross and Self-fertilisation' 1876 page 89.) But in this particular +instance the insects did great harm, as they led to the production of utterly +barren plants. Secondly, these hybrids are remarkable from differing much from +one another in many of their characters; for hybrids of the first generation, if +raised from uncultivated plants, are generally uniform in character. That these +hybrids belonged to the first generation we may safely conclude, from the +absolute sterility of all those observed by me in a state of nature and of the +one plant in my garden, excepting when artificially and repeatedly fertilised +with pure pollen, and then the number of seeds produced was extremely small. As +these hybrids varied so much, an almost perfectly graduated series of forms, +connecting together the two widely distinct parent-species, could easily have +been selected. This case, like that of the common oxlip, shows that botanists +ought to be cautious in inferring the specific identity of two forms from the +presence of intermediate gradations; nor would it be easy in the many cases in +which hybrids are moderately fertile to detect a slight degree of sterility in +such plants growing in a state of nature and liable to be fertilised by either +parent-species. Thirdly and lastly, these hybrids offer an excellent +illustration of a statement made by that admirable observer Gartner, namely, +that although plants which can be crossed with ease generally produce fairly +fertile offspring, yet well-pronounced exceptions to this rule occur; and here +we have two species of Verbascum which evidently cross with the greatest ease, +but produce hybrids which are excessively sterile. + + +CHAPTER III. HETEROSTYLED DIMORPHIC PLANTS--continued. + +Linum grandiflorum, long-styled form utterly sterile with own-form pollen. +Linum perenne, torsion of the pistils in the long-styled form alone. +Homostyled species of Linum. +Pulmonaria officinalis, singular difference in self-fertility between the +English and German long-styled plants. +Pulmonaria angustifolia shown to be a distinct species, long-styled form +completely self-sterile. +Polygonum fagopyrum. +Various other heterostyled genera. +Rubiaceae. +Mitchella repens, fertility of the flowers in pairs. +Houstonia. +Faramea, remarkable difference in the pollen-grains of the two forms; torsion of +the stamens in the short-styled form alone; development not as yet perfect. +The heterostyled structure in the several Rubiaceous genera not due to descent +in common. + +(FIGURE 3.4. Linum grandiflorum. +Left: Long-styled form. +Right: Short-styled form. +s, s: stigmas.) + +It has long been known that several species of Linum present two forms (3/1. +Treviranus has shown that this is the case in his review of my original paper +'Botanische Zeitung' 1863 page 189.), and having observed this fact in L. flavum +more than thirty years ago, I was led, after ascertaining the nature of +heterostylism in Primula, to examine the first species of Linum which I met +with, namely, the beautiful L. grandiflorum. This plant exists under two forms, +occurring in about equal numbers, which differ little in structure, but greatly +in function. The foliage, corolla, stamens, and pollen-grains (the latter +examined both distended with water and dry) are alike in the two forms (Figure +3.4). The difference is confined to the pistil; in the short-styled form the +styles and the stigmas are only about half the length of those in the long- +styled. A more important distinction is, that the five stigmas in the short- +styled form diverge greatly from one another, and pass out between the filaments +of the stamens, and thus lie within the tube of the corolla. In the long-styled +form the elongated stigmas stand nearly upright, and alternate with the anthers. +In this latter form the length of the stigmas varies considerably, their upper +extremities projecting even a little above the anthers, or reaching up only to +about their middle. Nevertheless, there is never the slightest difficulty in +distinguishing between the two forms; for, besides the difference in the +divergence of the stigmas, those of the short-styled form never reach even to +the bases of the anthers. In this form the papillae on the stigmatic surfaces +are shorter, darker-coloured, and more crowded together than in the long-styled +form; but these differences seem due merely to the shortening of the stigma, for +in the varieties of the long-styled form with shorter stigmas, the papillae are +more crowded and darker-coloured than in those with the longer stigmas. +Considering the slight and variable differences between the two forms of this +Linum, it is not surprising that hitherto they have been overlooked. + +In 1861 I had eleven plants in my garden, eight of which were long-styled, and +three short-styled. Two very fine long-styled plants grew in a bed a hundred +yards off all the others, and separated from them by a screen of evergreens. I +marked twelve flowers, and placed on their stigmas a little pollen from the +short-styled plants. The pollen of the two forms is, as stated, identical in +appearance; the stigmas of the long-styled flowers were already thickly covered +with their own pollen--so thickly that I could not find one bare stigma, and it +was late in the season, namely, September 15th. Altogether, it seemed almost +childish to expect any result. Nevertheless from my experiments on Primula, I +had faith, and did not hesitate to make the trial, but certainly did not +anticipate the full result which was obtained. The germens of these twelve +flowers all swelled, and ultimately six fine capsules (the seed of which +germinated on the following year) and two poor capsules were produced; only four +capsules shanking off. These same two long-styled plants produced, in the course +of the summer, a vast number of flowers, the stigmas of which were covered with +their own pollen; but they all proved absolutely barren, and their germens did +not even swell. + +The nine other plants, six long-styled and three short-styled, grew not very far +apart in my flower-garden. Four of these long-styled plants produced no seed- +capsules; the fifth produced two; and the remaining one grew so close to a +short-styled plant that their branches touched, and this produced twelve +capsules, but they were poor ones. The case was different with the short-styled +plants. The one which grew close to the long-styled plant produced ninety-four +imperfectly fertilised capsules containing a multitude of bad seeds, with a +moderate number of good ones. The two other short-styled plants growing together +were small, being partly smothered by other plants; they did not stand very +close to any long-styled plants, yet they yielded together nineteen capsules. +These facts seem to show that the short-styled plants are more fertile with +their own pollen than are the long-styled, and we shall immediately see that +this probably is the case. But I suspect that the difference in fertility +between the two forms was in this instance in part due to a distinct cause. I +repeatedly watched the flowers, and only once saw a humble-bee momentarily +alight on one, and then fly away. If bees had visited the several plants, there +cannot be a doubt that the four long-styled plants, which did not produce a +single capsule, would have borne an abundance. But several times I saw small +diptera sucking the flowers; and these insects, though not visiting the flowers +with anything like the regularity of bees, would carry a little pollen from one +form to the other, especially when growing near together; and the stigmas of the +short-styled plants, diverging within the tube of the corolla, would be more +likely than the upright stigmas of the long-styled plants, to receive a small +quantity of pollen if brought to them by small insects. Moreover from the +greater number of the long-styled than of the short-styled plants in the garden, +the latter would be more likely to receive pollen from the long-styled, than the +long-styled from the short-styled. + +In 1862 I raised thirty-four plants of this Linum in a hot-bed; and these +consisted of seventeen long-styled and seventeen short-styled forms. Seed sown +later in the flower-garden yielded seventeen long-styled and twelve short-styled +forms. These facts justify the statement that the two forms are produced in +about equal numbers. The thirty-four plants of the first lot were kept under a +net which excluded all insects, except such minute ones as Thrips. I fertilised +fourteen long-styled flowers legitimately with pollen from the short-styled, and +got eleven fine seed-capsules, which contained on an average 8.6 seeds per +capsule, but only 5.6 appeared to be good. It may be well to state that ten +seeds is the maximum production for a capsule, and that our climate cannot be +very favourable to this North-African plant. On three occasions the stigmas of +nearly a hundred flowers were fertilised illegitimately with their own-form +pollen, taken from separate plants, so as to prevent any possible ill effects +from close inter-breeding. Many other flowers were also produced, which, as +before stated, must have received plenty of their own pollen; yet from all these +flowers, borne by the seventeen long-styled plants, only three capsules were +produced. One of these included no seed, and the other two together gave only +five good seeds. It is probable that this miserable product of two half-fertile +capsules from the seventeen plants, each of which must have produced at least +fifty or sixty flowers, resulted from their fertilisation with pollen from the +short-styled plants by the aid of Thrips; for I made a great mistake in keeping +the two forms under the same net, with their branches often interlocking; and it +is surprising that a greater number of flowers were not accidentally fertilised. + +Twelve short-styled flowers were in this instance castrated, and afterwards +fertilised legitimately with pollen from the long-styled form; and they produced +seven fine capsules. These included on an average 7.6 seeds, but of apparently +good seed only 4.3 per capsule. At three separate times nearly a hundred flowers +were fertilised illegitimately with their own-form pollen, taken from separate +plants; and numerous other flowers were produced, many of which must have +received their own pollen. From all these flowers on the seventeen short-styled +plants only fifteen capsules were produced, of which only eleven contained any +good seed, on an average 4.2 per capsule. As remarked in the case of the long- +styled plants, some even of these capsules were perhaps the product of a little +pollen accidentally fallen from the adjoining flowers of the other form on to +the stigmas, or transported by Thrips. Nevertheless the short-styled plants seem +to be slightly more fertile with their own pollen than the long-styled, in the +proportion of fifteen capsules to three; nor can this difference be accounted +for by the short-styled stigmas being more liable to receive their own pollen +than the long-styled, for the reverse is the case. The greater self-fertility of +the short-styled flowers was likewise shown in 1861 by the plants in my flower- +garden, which were left to themselves, and were but sparingly visited by +insects. + +On account of the probability of some of the flowers on the plants of both +forms, which were covered under the same net, having been legitimately +fertilised in an accidental manner, the relative fertility of the two legitimate +and two illegitimate unions cannot be compared with certainty; but judging from +the number of good seeds per capsule, the difference was at least in the ratio +of 100 to 7, and probably much greater. + +Hildebrand tested my results, but only on a single short-styled plant, by +fertilising many flowers with their own-form pollen; and these did not produce +any seed. This confirms my suspicion that some of the few capsules produced by +the foregoing seventeen short-styled plants were the product of accidental +legitimate fertilisation. Other flowers on the same plant were fertilised by +Hildebrand with pollen from the long-styled form, and all produced fruit. (3/2. +'Botanische Zeitung' January 1, 1864 page 2.) + +The absolute sterility (judging from the experiments of 1861) of the long-styled +plants with their own-form pollen led me to examine into its apparent cause; and +the results are so curious that they are worth giving in detail. The experiments +were tried on plants grown in pots and brought successively into the house. + +FIRST. + +Pollen from a short-styled plant was placed on the five stigmas of a long-styled +flower, and these, after thirty hours, were found deeply penetrated by a +multitude of pollen-tubes, far too numerous to be counted; the stigmas had also +become discoloured and twisted. I repeated this experiment on another flower, +and in eighteen hours the stigmas were penetrated by a multitude of long pollen- +tubes. This is what might have been expected, as the union is a legitimate one. +The converse experiment was likewise tried, and pollen from a long-styled flower +was placed on the stigmas of a short-styled flower, and in twenty-four hours the +stigmas were discoloured, twisted, and penetrated by numerous pollen-tubes; and +this, again, is what might have been expected, as the union was a legitimate +one. + +SECONDLY. + +Pollen from a long-styled flower was placed on all five stigmas of a long-styled +flower on a separate plant: after nineteen hours the stigmas were dissected, and +only a single pollen-grain had emitted a tube, and this was a very short one. To +make sure that the pollen was good, I took in this case, and in most of the +other cases, pollen either from the same anther or from the same flower, and +proved it to be good by placing it on the stigma of a short-styled plant, and +found numerous pollen-tubes emitted. + +THIRDLY. + +Repeated last experiment, and placed own-form pollen on all five stigmas of a +long-styled flower; after nineteen hours and a half, not one single grain had +emitted its tube. + +FOURTHLY. + +Repeated the experiment, with the same result after twenty-four hours. + +FIFTHLY. + +Repeated last experiment, and, after leaving pollen on for nineteen hours, put +on an additional quantity of own-form pollen on all five stigmas. After an +interval of three days, the stigmas were examined, and, instead of being +discoloured and twisted, they were straight and fresh-coloured. Only one grain +had emitted a quite short tube, which was drawn out of the stigmatic tissue +without being ruptured. + +The following experiments are more striking:-- + +SIXTHLY. + +I placed own-form pollen on three of the stigmas of a long-styled flower, and +pollen from a short-styled flower on the other two stigmas. After twenty-two +hours these two stigmas were discoloured, slightly twisted, and penetrated by +the tubes of numerous pollen-grains: the other three stigmas, covered with their +own-form pollen, were fresh, and all the pollen-grains were loose; but I did not +dissect the whole stigma. + +SEVENTHLY. + +Experiment repeated in the same manner, with the same result. + +EIGHTHLY. + +Experiment repeated, but the stigmas were carefully examined after an interval +of only five hours and a half. The two stigmas with pollen from a short-styled +flower were penetrated by innumerable tubes, which were as yet short, and the +stigmas themselves were not at all discoloured. The three stigmas covered with +their own-form pollen were not penetrated by a single pollen-tube. + +NINTHLY. + +Put pollen of a short-styled flower on a single long-styled stigma, and own-form +pollen on the other four stigmas; after twenty-four hours the one stigma was +somewhat discoloured and twisted, and penetrated by many long tubes: the other +four stigmas were quite straight and fresh; but on dissecting them I found that +three pollen-grains had protruded very short tubes into the tissue. + +TENTHLY. + +Repeated the experiment, with the same result after twenty-four hours, excepting +that only two own-form grains had penetrated the stigmatic tissue with their +tubes to a very short depth. The one stigma, which was deeply penetrated by a +multitude of tubes from the short-styled pollen, presented a conspicuous +difference in being much curled, half-shrivelled, and discoloured, in comparison +with the other four straight and bright pink stigmas. + +I could add other experiments; but those now given amply suffice to show that +the pollen-grains of a short-styled flower placed on the stigma of a long-styled +flower emit a multitude of tubes after an interval of from five to six hours, +and penetrate the tissue ultimately to a great depth; and that after twenty-four +hours the stigmas thus penetrated change colour, become twisted, and appear +half-withered. On the other hand, pollen-grains from a long-styled flower placed +on its own stigmas, do not emit their tubes after an interval of a day, or even +three days; or at most only three or four grains out of a multitude emit their +tubes, and these apparently never penetrate the stigmatic tissue deeply, and the +stigmas themselves do not soon become discoloured and twisted. + +This seems to me a remarkable physiological fact. The pollen-grains of the two +forms are undistinguishable under the microscope; the stigmas differ only in +length, degree of divergence, and in the size, shade of colour, and +approximation of their papillae, these latter differences being variable and +apparently due merely to the degree of elongation of the stigma. Yet we plainly +see that the two kinds of pollen and the two stigmas are widely dissimilar in +their mutual reaction--the stigmas of each form being almost powerless on their +own pollen, but causing, through some mysterious influence, apparently by simple +contact (for I could detect no viscid secretion), the pollen-grains of the +opposite form to protrude their tubes. It may be said that the two pollens and +the two stigmas mutually recognise each other by some means. Taking fertility as +the criterion of distinctness, it is no exaggeration to say that the pollen of +the long-styled Linum grandiflorum (and conversely that of the other form) has +been brought to a degree of differentiation, with respect to its action on the +stigma of the same form, corresponding with that existing between the pollen and +stigma of species belonging to distinct genera. + +Linum perenne. + +This species is conspicuously heterostyled, as has been noticed by several +authors. The pistil in the long-styled form is nearly twice as long as that of +the short-styled. In the latter the stigmas are smaller and, diverging to a +greater degree, pass out low down between the filaments. I could detect no +difference in the two forms in the size of the stigmatic papillae. In the long- +styled form alone the stigmatic surfaces of the mature pistils twist round, so +as to face the circumference of the flower; but to this point I shall presently +return. Differently from what occurs in L. grandiflorum, the long-styled flowers +have stamens hardly more than half the length of those in the short-styled. The +size of the pollen-grains is rather variable; after some doubt, I have come to +the conclusion that there is no uniform difference between the grains in the two +forms. The long-stamens in the short-styled form project to some height above +the corolla, and their filaments are coloured blue apparently from exposure to +the light. The anthers of the longer stamens correspond in height with the lower +part of the stigmas of the long-styled flowers; and the anthers of the shorter +stamens of the latter correspond in the same manner in height with the stigmas +of the short-styled flowers. + +I raised from seed twenty-six plants, of which twelve proved to be long-styled +and fourteen short-styled. They flowered well, but were not large plants. As I +did not expect them to flower so soon, I did not transplant them, and they +unfortunately grew with their branches closely interlocked. All the plants were +covered under the same net, excepting one of each form. Of the flowers on the +long-styled plants, twelve were illegitimately fertilised with their own-form +pollen, taken in every case from a separate plant; and not one set a seed- +capsule: twelve other flowers were legitimately fertilised with pollen from +short-styled flowers; and they set nine capsules, each including on an average 7 +good seeds, ten being the maximum number ever produced. Of the flowers on the +short-styled plants, twelve were illegitimately fertilised with own-form pollen, +and they yielded one capsule, including only 3 good seeds; twelve other flowers +were legitimately fertilised with pollen from long-styled flowers, and these +produced nine capsules, but one was bad; the eight good capsules contained on an +average 8 good seeds each. Judging from the number of seeds per capsule, the +fertility of the two legitimate to that of the two illegitimate unions is as 100 +to 20. + +The numerous flowers on the eleven long-styled plants under the net, which were +not fertilised, produced only three capsules, including 8, 4, and 1 good seeds. +Whether these three capsules were the product of accidental legitimate +fertilisation, owing to the branches of the plants of the two forms +interlocking, I will not pretend to decide. The single long-styled plant which +was left uncovered, and grew close by the uncovered short-styled plant, produced +five good pods; but it was a poor and small plant. + +The flowers borne on the thirteen short-styled plants under the net, which were +not fertilised, produced twelve capsules, containing on an average 5.6 seeds. As +some of these capsules were very fine, and as five were borne on one twig, I +suspect that some minute insect had accidentally got under the net and had +brought pollen from the other form to the flowers which produced this little +group of capsules. The one uncovered short-styled plant which grew close to the +uncovered long-styled plant yielded twelve capsules. + +From these facts we have some reason to believe, as in the case of L. +grandiflorum, that the short-styled plants are in a slight degree more fertile +with their own pollen than are the long-styled plants. Anyhow we have the +clearest evidence, that the stigmas of each form require for full fertility that +pollen from the stamens of corresponding height belonging to the opposite form +should be brought to them. + +Hildebrand, in the paper lately referred to, confirms my results. He placed a +short-styled plant in his house, and fertilised about 20 flowers with their own +pollen, and about 30 with pollen from another plant belonging to the same form, +and these 50 flowers did not set a single capsule. On the other hand he +fertilised about 30 flowers with pollen from the long-styled form, and these, +with the exception of two, yielded capsules, containing good seeds. + +It is a singular fact, in contrast with what occurred in the case of L. +grandiflorum, that the pollen-grains of both forms of L. perenne, when placed on +their own-form stigmas, emitted their tubes, though this action did not lead to +the production of seeds. After an interval of eighteen hours, the tubes +penetrated the stigmatic tissue, but to what depth I did not ascertain. In this +case the impotence of the pollen-grains on their own stigmas must have been due +either to the tubes not reaching the ovules, or to their not acting properly +after reaching them. + +The plants both of L. perenne and grandiflorum, grew, as already stated, with +their branches interlocked, and with scores of flowers of the two forms close +together; they were covered by a rather coarse net, through which the wind, when +high, passed; and such minute insects as Thrips could not, of course, be +excluded; yet we have seen that the utmost possible amount of accidental +fertilisation on seventeen long-styled plants in the one case, and on eleven +long-styled plants in the other, resulted in the production, in each case, of +three poor capsules; so that when the proper insects are excluded, the wind does +hardly anything in the way of carrying pollen from plant to plant. I allude to +this fact because botanists in speaking of the fertilisation of various flowers, +often refer to the wind or to insects as if the alternative were indifferent. +This view, according to my experience, is entirely erroneous. When the wind is +the agent in carrying pollen, either from one sex to the other, or from +hermaphrodite to hermaphrodite, we can recognise structure as manifestly adapted +to its action as to that of insects when these are the carriers. We see +adaptation to the wind in the incoherence of the pollen,--in the inordinate +quantity produced (as in the Coniferae, Spinage, etc.),--in the dangling anthers +well fitted to shake out the pollen,--in the absence or small size of the +perianth,--in the protrusion of the stigmas at the period of fertilisation,--in +the flowers being produced before they are hidden by the leaves,--and in the +stigmas being downy or plumose (as in the Gramineae, Docks, etc), so as to +secure the chance-blown grains. In plants which are fertilised by the wind, the +flowers do not secrete nectar, their pollen is too incoherent to be easily +collected by insects, they have not bright-coloured corollas to serve as guides, +and they are not, as far as I have seen, visited by insects. When insects are +the agents of fertilisation (and this is incomparably the more frequent case +with hermaphrodite plants), the wind plays no part, but we see an endless number +of adaptations to ensure the safe transport of the pollen by the living workers. +These adaptations are most easily recognised in irregular flowers; but they are +present in regular flowers, of which those of Linum offer a good instance, as I +will now endeavour to show. + +I have already alluded to the rotation of each separate stigma in the long- +styled form of Linum perenne. In both forms of the other heterostyled species +and in the homostyled species of Linum which I have seen, the stigmatic surfaces +face the centre of the flower, with the furrowed backs of the stigmas, to which +the styles are attached, facing outwards. This is the case with the stigmas of +the long-styled flowers of L. perenne whilst in bud. But by the time the flowers +have expanded, the five stigmas twist round so as to face the circumference, +owing to the torsion of that part of the style which lies beneath the stigma. I +should state that the five stigmas do not always turn round completely, two or +three sometimes facing only obliquely outwards. My observations were made during +October; and it is not improbable that earlier in the season the torsion would +have been more complete; for after two or three cold and wet days the movement +was very imperfectly performed. The flowers should be examined shortly after +their expansion, as their duration is brief; as soon as they begin to wither, +the styles become spirally twisted all together, the original position of the +parts being thus lost. + +He who will compare the structure of the whole flower in both forms of L. +perenne and grandiflorum, and, as I may add, of L. flavum, will not doubt about +the meaning of this torsion of the styles in the one form alone of L. perenne, +as well as the meaning of the divergence of the stigmas in the short-styled form +of all three species. It is absolutely necessary as we know, that insects should +carry pollen from the flowers of the one form reciprocally to those of the +other. Insects are attracted by five drops of nectar, secreted exteriorly at the +base of the stamens, so that to reach these drops they must insert their +proboscides outside the ring of broad filaments, between them and the petals. In +the short-styled form of the above three species, the stigmas face the axis of +the flower; and had the styles retained their original upright and central +position, not only would the stigmas have presented their backs to the insects +which sucked the flowers, but their front and fertile surfaces would have been +separated from the entering insects by the ring of broad filaments, and would +never have received any pollen. As it is, the styles diverge and pass out +between the filaments. After this movement the short stigmas lie within the tube +of the corolla; and their papillous surfaces being now turned upwards are +necessarily brushed by every entering insect, and thus receive the required +pollen. + +In the long-styled form of L. grandiflorum, the almost parallel or slightly +diverging anthers and stigmas project a little above the tube of the somewhat +concave flower; and they stand directly over the open space leading to the drops +of nectar. Consequently when insects visit the flowers of either form (for the +stamens in this species occupy the same position in both forms), they will get +their foreheads or proboscides well dusted with the coherent pollen. As soon as +they visit the flowers of the long-styled form they will necessarily leave +pollen on the proper surface of the elongated stigmas; and when they visit the +short-styled flowers, they will leave pollen on the upturned stigmatic surfaces. +Thus the stigmas of both forms will receive indifferently the pollen of both +forms; but we know that the pollen alone of the opposite form causes +fertilisation. + +(Figure 3.5. Long-styled form of L. perenne var. Austriacum in its early +condition before the stigmas have rotated. The petals and calyx have been +removed on the near side. (3/3. I neglected to get drawings made from fresh +flowers of the two forms. But Mr. Fitch has made the above sketch of a long- +styled flower from dried specimens and from published engravings. His well-known +skill ensures accuracy in the proportional size of the parts.) + +In the case of L. perenne, affairs are arranged more perfectly; for the stamens +in the two forms stand at different heights, so that pollen from the anthers of +the longer stamens will adhere to one part of an insect's body, and will +afterwards be brushed off by the rough stigmas of the longer pistils; whilst +pollen from the anthers of the shorter stamens will adhere to a different part +of the insect's body, and will afterwards be brushed off by the stigmas of the +shorter pistils; and this is what is required for the legitimate fertilisation +of both forms. The corolla of L. perenne is more expanded than that of L. +grandiflorum, and the stigmas of the long-styled form do not diverge greatly +from one another; nor do the stamens of either form. Hence insects, especially +rather small ones, will not insert their proboscides between the stigmas of the +long-styled form, nor between the anthers of either form (Figure 3.5), but will +strike against them, at nearly right angles, with the backs of their head or +thorax. Now, in the long-styled flowers, if each stigma did not rotate on its +axis, insects in visiting them would strike their heads against the backs of the +stigmas; as it is, they strike against that surface which is covered with +papillae, with their heads already charged with pollen from the stamens of +corresponding height borne by the flowers of the other form, and legitimate +fertilisation is thus ensured. + +Thus we can understand the meaning of the torsion of the styles in the long- +styled flowers alone, as well as their divergence in the short-styled flowers. + +One other point is worth notice. In botanical works many flowers are said to be +fertilised in the bud. This statement generally rests, as far as I can discover, +on the anthers opening in the bud; no evidence being adduced that the stigma is +at this period mature, or that it is not subsequently acted on by pollen brought +from other flowers. In the case of Cephalanthera grandiflora I have shown that +precocious and partial self-fertilisation, with subsequent full fertilisation, +is the regular course of events. (3/4. 'Fertilisation of Orchids' page 108; 2nd +edition 1877 page 84.) The belief that the flowers of many plants are fertilised +in the bud, that is, are perpetually self-fertilised, is a most effectual bar to +understanding their real structure. I am, however, far from wishing to assert +that some flowers, during certain seasons, are not fertilised in the bud; for I +have reason to believe that this is the case. A good observer, resting his +belief on the usual kind of evidence, states that in Linum Austriacum (which is +heterostyled, and is considered by Planchon as a variety of L. perenne) the +anthers open the evening before the expansion of the flowers, and that the +stigmas are then almost always fertilised. (3/5. H. Lecoq 'Etudes sur la Geogr. +Bot.' 1856 tome 5 page 325.) Now we know positively that, so far from Linum +perenne being fertilised by its own pollen in the bud, its own pollen is as +powerless on the stigma as so much inorganic dust. + +Linum flavum. + +The pistil of the long-styled form of this species is nearly twice as long as +that of the short-styled; the stigmas are longer and the papillae coarser. In +the short-styled form the stigmas diverge and pass out between the filaments, as +in the previous species. The stamens in the two forms differ in length; and, +what is singular, the anthers of the longer stamens are not so long as those of +the other form; so that in the short-styled form both the stigmas and the +anthers are shorter than in the long-styled form. The pollen-grains of the two +forms do not differ in size. As this species is propagated by cuttings, +generally all the plants in the same garden belong to the same form. I have +inquired, but have never heard of its seeding in this country. Certainly my own +plants never produced a single seed as long as I possessed only one of the two +forms. After considerable search I procured both forms, but from want of time +only a few experiments were made. Two plants of the two forms were planted some +way apart in my garden, and were not covered by nets. Three flowers on the long- +styled plant were legitimately fertilised with pollen from the short-styled +plant, and one of them set a fine capsule. No other capsules were produced by +this plant. Three flowers on the short-styled plant were legitimately fertilised +with pollen from the long-styled, and all three produced capsules, containing +respectively no less than 8, 9, and 10 seeds. Three other flowers on this plant, +which had not been artificially fertilised, produced capsules containing 5, 1, +and 5 seeds; and it is quite possible that pollen may have been brought to them +by insects from the long-styled plant growing in the same garden. Nevertheless, +as they did not yield half the number of seeds compared with the other flowers +on the same plant which had been artificially and legitimately fertilised, and +as the short-styled plants of the two previous species apparently evince some +slight capacity for fertilisation with their own-form pollen, these three +capsules may have been the product of self-fertilisation. + +Besides the three species now described, the yellow-flowered L. corymbiferum is +certainly heterostyled, as is, according to Planchon, L. salsoloides. (3/6. +Hooker's 'London Journal of Botany' 1848 volume 7 page 174.) This botanist is +the only one who seems to have inferred that heterostylism might have some +important functional bearing. Dr. Alefeld, who has made a special study of the +genus, says that about half of the sixty-five species known to him are +heterostyled. (3/7. 'Botanische Zeitung' September 18, 1863 page 281.) This is +the case with L. trigynum, which differs so much from the other species that it +has been formed by him into a distinct genus. (3/8. It is not improbable that +the allied genus, Hugonia, is heterostyled, for one species is said by Planchon +(Hooker's 'London Journal of Botany' 1848 volume 7 page 525) to be provided with +"staminibus exsertis;" another with "stylis staminibus longioribus," and another +has "stamina 5, majora, stylos longe superantia.") According to the same author, +none of the species which inhabit America and the Cape of Good Hope are +heterostyled. + +I have examined only three homostyled species, namely, L. usitatissimum, +angustifolium, and catharticum. I raised 111 plants of a variety of the first- +named species, and these, when protected under a net, all produced plenty of +seed. The flowers, according to H. Muller, are frequented by bees and moths. +(3/9. 'Die Befruchtung der Blumen' etc. page 168.) With respect to L. +catharticum, the same author shows that the flowers are so constructed that they +can freely fertilise themselves; but if visited by insects they might be cross- +fertilised. He has, however, only once seen the flowers thus visited during the +day; but it may be suspected that they are frequented during the night by small +moths for the sake of the five minute drops of nectar secreted. Lastly, L. +Lewisii is said by Planchon to bear on the same plant flowers with stamens and +pistils of the same height, and others with the pistils either longer or shorter +than the stamens. This case formerly appeared to me an extraordinary one; but I +am now inclined to believe that it is one merely of great variability. (3/10. +Planchon in Hooker's 'London Journal of Botany' 1848 volume 7 page 175. See on +this subject Asa Gray in 'American Journal of Science' volume 36 September 1863 +page 284.) + +PULMONARIA (BORAGINEAE). + +Pulmonaria officinalis. + +Hildebrand has published a full account of this heterostyled plant. (3/11. +'Botanische Zeitung' 1865 January 13 page 13.) The pistil of the long-styled +form is twice as long as that of the short-styled; and the stamens differ in a +corresponding, though converse, manner. There is no marked difference in the +shape or state of surface of the stigma in the two forms. The pollen-grains of +the short-styled form are to those of the long-styled as 9 to 7, or as 100 to +78, in length, and as 7 to 6 in breadth. They do not differ in the appearance of +their contents. The corolla of the one form differs in shape from that of the +other in nearly the same manner as in Primula; but besides this difference the +flowers of the short-styled are generally the larger of the two. Hildebrand +collected on the Siebengebirge, ten wild long-styled and ten short-styled +plants. The former bore 289 flowers, of which 186 (i.e. 64 per cent) had set +fruit, yielding 1.88 seed per fruit. The ten short-styled plants bore 373 +flowers, of which 262 (i.e. 70 per cent) had set fruit, yielding 1.86 seed per +fruit. So that the short-styled plants produced many more flowers, and these set +a rather larger proportion of fruit, but the fruits themselves yielded a +slightly lower average number of seeds than did the long-styled plants. The +results of Hildebrand's experiments on the fertility of the two forms are given +in Table 3.19. + +TABLE 3.19. Pulmonaria officinalis (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Fruits produced. +Column 4: Average Number of Seeds per Fruit. + +Long-styled by pollen of short-styled. Legitimate union : +14 : 10 : 1.30. + +Long-styled 14 by own-pollen, and 16 by pollen of other plant of same form. +Illegitimate union : +30 : 0 : 0. + +Short-styled by pollen of long-styled. Legitimate union: +16 : 14 : 1.57. + +Short-styled 11 by own-pollen, 14 by pollen of other plant of same form. +Illegitimate union : +25 : 0 : 0. + +In the summer of 1864, before I had heard of Hildebrand's experiments, I noticed +some long-styled plants of this species (named for me by Dr. Hooker) growing by +themselves in a garden in Surrey; and to my surprise about half the flowers had +set fruit, several of which contained 2, and one contained even 3 seeds. These +seeds were sown in my garden and eleven seedlings thus raised, all of which +proved long-styled, in accordance with the usual rule in such cases. Two years +afterwards the plants were left uncovered, no other plant of the same genus +growing in my garden, and the flowers were visited by many bees. They set an +abundance of seeds: for instance, I gathered from a single plant rather less +than half of the seeds which it had produced, and they numbered 47. Therefore +this illegitimately fertilised plant must have produced about 100 seeds; that +is, thrice as many as one of the wild long-styled plants collected on the +Siebengebirge by Hildebrand, and which, no doubt, had been legitimately +fertilised. In the following year one of my plants was covered by a net, and +even under these unfavourable conditions it produced spontaneously a few seeds. +It should be observed that as the flowers stand either almost horizontally or +hang considerably downwards, pollen from the short stamens would be likely to +fall on the stigma. We thus see that the English long-styled plants when +illegitimately fertilised were highly fertile, whilst the German plants +similarly treated by Hildebrand were completely sterile. How to account for this +wide discordance in our results I know not. Hildebrand cultivated his plants in +pots and kept them for a time in the house, whilst mine were grown out of doors; +and he thinks that this difference of treatment may have caused the difference +in our results. But this does not appear to me nearly a sufficient cause, +although his plants were slightly less productive than the wild ones growing on +the Siebengbirge. My plants exhibited no tendency to become equal-styled, so as +to lose their proper long-styled character, as not rarely happens under +cultivation with several heterostyled species of Primula; but it would appear +that they had been greatly affected in function, either by long-continued +cultivation or by some other cause. We shall see in a future chapter that +heterostyled plants illegitimately fertilised during several successive +generations sometimes become more self-fertile; and this may have been the case +with my stock of the present species of Pulmonaria; but in this case we must +assume that the long-styled plants were at first sufficiently fertile to yield +some seed, instead of being absolutely self-sterile like the German plants. + +Pulmonaria angustifolia. + +(FIGURE 3.6. Pulmonaria angustifolia. +Left: Long-styled form. +Right: Short-styled form.) + +Seedlings of this plant, raised from plants growing wild in the Isle of Wight, +were named for me by Dr. Hooker. It is so closely allied to the last species, +differing chiefly in the shape and spotting of the leaves, that the two have +been considered by several eminent botanists--for instance, Bentham--as mere +varieties. But, as we shall presently see, good evidence can be assigned for +ranking them as distinct. Owing to the doubts on this head, I tried whether the +two would mutually fertilise one another. Twelve short-styled flowers of P. +angustifolia were legitimately fertilised with pollen from long-styled plants of +P. officinalis (which, as we have just seen, are moderately self-fertile), but +they did not produce a single fruit. Thirty-six long-styled flowers of P. +angustifolia were also illegitimately fertilised during two seasons with pollen +from the long-styled P. officinalis, but all these flowers dropped off +unimpregnated. Had the plants been mere varieties of the same species these +illegitimate crosses would probably have yielded some seeds, judging from my +success in illegitimately fertilising the long-styled flowers of P. officinalis; +and the twelve legitimate crosses, instead of yielding no fruit, would almost +certainly have yielded a considerable number, namely, about nine, judging from +the results given in Table 3.20. Therefore P. officinalis and angustifolia +appear to be good and distinct species, in conformity with other important +functional differences between them, immediately to be described. + +TABLE 3.20. Pulmonaria angustifolia. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Fruits produced. +Column 4: Average Number of Seeds per Fruit. + +Long-styled by pollen of short-styled. Legitimate union : +18 : 9 : 2.11. + +Long-styled by own-form pollen. Illegitimate union : +18 : 0 : 0. + +Short-styled by pollen of long-styled. Legitimate union: +18 : 15 : 2.60. + +Short-styled by own-form pollen. Illegitimate union : +12 : 7 : 1.86. + +The long-styled and short-styled flowers of P. angustifolia differ from one +another in structure in nearly the same manner as those of P. officinalis. But +in Figure 3.6 a slight bulging of the corolla in the long-styled form, where the +anthers are seated, has been overlooked. My son William, who examined a large +number of wild plants in the Isle of Wight, observed that the corolla, though +variable in size, was generally larger in the long-styled flowers than in the +short-styled; and certainly the largest corollas of all were found on the long- +styled plants, and the smallest on the short-styled. Exactly the reverse occurs, +according to Hildebrand, with P. officinalis. Both the pistils and stamens of P. +angustifolia vary much in length; so that in the short-styled form the distance +between the stigma and the anthers varied from 119 to 65 divisions of the +micrometer, and in the long-styled from 115 to 112. From an average of seven +measurements of each form the distance between these organs in the long-styled +is to the same distance in the short-styled form as 100 to 69; so that the +stigma in the one form does not stand on a level with the anthers in the other. +The long-styled pistil is sometimes thrice as long as that of the short-styled; +but from an average of ten measurements of both, its length to that of the +short-styled was as 100 to 56. The stigma varies in being more or less, though +slightly, lobed. The anthers also vary much in length in both forms, but in a +greater degree in the long-styled than in the short-styled-form; many in the +former being from 80 to 63, and in the latter from 80 to 70 divisions of the +micrometer in length. From an average of seven measurements, the short-styled +anthers were to those from the long-styled as 100 to 91 in length. Lastly, the +pollen-grains from the long-styled flowers varied between 13 and 11.5 divisions +of the micrometer, and those from the short-styled between 15 and 13. The +average diameter of 25 grains from the latter, or short-styled form, was to that +of 20 grains from the long-styled as 100 to 91. We see, therefore, that the +pollen-grains from the smaller anthers of the shorter stamens in the long-styled +form are, as usual, of smaller size than those in the other form. But what is +remarkable, a larger proportion of the grains were small, shrivelled, and +worthless. This could be seen by merely comparing the contents of the anthers +from several distinct plants of each form. But in one instance my son found, by +counting, that out of 193 grains from a long-styled flower, 53 were bad, or 27 +per cent; whilst out of 265 grains from a short-styled flower only 18 were bad, +or 7 per cent. From the condition of the pollen in the long-styled form, and +from the extreme variability of all the organs in both forms, we may perhaps +suspect that the plant is undergoing a change, and tending to become dioecious. + +My son collected in the Isle of Wight on two occasions 202 plants, of which 125 +were long-styled and 77 short-styled; so that the former were the more numerous. +On the other hand, out of 18 plants raised by me from seed, only 4 were long- +styled and 14 short-styled. The short-styled plants seemed to my son to produce +a greater number of flowers than the long-styled; and he came to this conclusion +before a similar statement had been published by Hildebrand with respect to P. +officinalis. My son gathered ten branches from ten different plants of both +forms, and found the number of flowers of the two forms to be as 100 to 89, 190 +being short-styled and 169 long-styled. With P. officinalis the difference, +according to Hildebrand, is even greater, namely, as 100 flowers for the short- +styled to 77 for the long-styled plants. Table 3.20 shows the results of my +experiments. + +We see in Table 3.20 that the fertility of the two legitimate unions to that of +the two illegitimate together is as 100 to 35, judged by the proportion of +flowers which produced fruit; and as 100 to 32, judged by the average number of +seeds per fruit. But the small number of fruit yielded by the 18 long-styled +flowers in the first line was probably accidental, and if so, the difference in +the proportion of legitimately and illegitimately fertilised flowers which yield +fruit is really greater than that represented by the ratio of 100 to 35. The 18 +long-styled flowers illegitimately fertilised yielded no seeds,--not even a +vestige of one. Two long-styled plants which were placed under a net produced +138 flowers, besides those which were artificially fertilised, and none of these +set any fruit; nor did some plants of the same form which were protected during +the next summer. Two other long-styled plants were left uncovered (all the +short-styled plants having been previously covered up), and humble-bees, which +had their foreheads white with pollen, incessantly visited the flowers, so that +their stigmas must have received an abundance of pollen, yet these flowers did +not produce a single fruit. We may therefore conclude that the long-styled +plants are absolutely barren with their own-form pollen, though brought from a +distinct plant. In this respect they differ greatly from the long-styled English +plants of P. officinalis which were found by me to be moderately self-fertile; +but they agree in their behaviour with the German plants of P. officinalis +experimented on by Hildebrand. + +Eighteen short-styled flowers legitimately fertilised yielded, as may be seen in +Table 3.20, 15 fruits, each having on an average 2.6 seeds. Four of these fruits +contained the highest possible number of seeds, namely 4, and four other fruits +contained each 3 seeds. The 12 illegitimately fertilised short-styled flowers +yielded 7 fruits, including on an average 1.86 seed; and one of these fruits +contained the maximum number of 4 seeds. This result is very surprising in +contrast with the absolute barrenness of the long-styled flowers when +illegitimately fertilised; and I was thus led to attend carefully to the degree +of self-fertility of the short-styled plants. A plant belonging to this form and +covered by a net bore 28 flowers besides those which had been artificially +fertilised, and of all these only two produced a fruit each including a single +seed. This high degree of self-sterility no doubt depended merely on the stigmas +not receiving any pollen, or not a sufficient quantity. For after carefully +covering all the long-styled plants in my garden, several short-styled plants +were left exposed to the visits of humble-bees, and their stigmas will thus have +received plenty of short-styled pollen; and now about half the flowers, thus +illegitimately fertilised, set fruit. I judge of this proportion partly from +estimation and partly from having examined three large branches, which had borne +31 flowers, and these produced 16 fruits. Of the fruits produced 233 were +collected (many being left ungathered), and these included on an average 1.82 +seed. No less than 16 out of the 233 fruits included the highest possible number +of seeds, namely 4, and 31 included 3 seeds. So we see how highly fertile these +short-styled plants were when illegitimately fertilised with their own-form +pollen by the aid of bees. + +The great difference in the fertility of the long and short-styled flowers, when +both are illegitimately fertilised, is a unique case, as far as I have observed +with heterostyled plants. The long-styled flowers when thus fertilised are +utterly barren, whilst about half of the short-styled ones produce capsules, and +these include a little above two-thirds of the number of seeds yielded by them +when legitimately fertilised. The sterility of the illegitimately fertilised +long-styled flowers is probably increased by the deteriorated condition of their +pollen; nevertheless this pollen was highly efficient when applied to the +stigmas of the short-styled flowers. With several species of Primula the short- +styled flowers are much more sterile than the long-styled, when both are +illegitimately fertilised; and it is a tempting view, as formerly remarked, that +this greater sterility of the short-styled flowers is a special adaptation to +check self-fertilisation, as their stigmas are eminently liable to receive their +own pollen. This view is even still more tempting in the case of the long-styled +form of Linum grandiflorum. On the other hand, with Pulmonaria angustifolia, it +is evident, from the corolla projecting obliquely upwards, that pollen is much +more likely to fall on, or to be carried by insects down to the stigma of the +short-styled than of the long-styled flowers; yet the short-styled instead of +being more sterile, as a protection against self-fertilisation, are far more +fertile than the long-styled, when both are illegitimately fertilised. + +Pulmonaria azurea, according to Hildebrand, is not heterostyled. (3/12. 'Die +Geschlechter-Vertheilung bei den Pflanzen' 1867 page 37.) + +[From an examination of dried flowers of Amsinckia spectabilis, sent me by +Professor Asa Gray, I formerly thought that this plant, a member of the +Boragineae, was heterostyled. The pistil varies to an extraordinary degree in +length, being in some specimens twice as long as in others, and the point of +insertion of the stamens likewise varies. But on raising many plants from seed, +I soon became convinced that the whole case was one of mere variability. The +first-formed flowers are apt to have stamens somewhat arrested in development, +with very little pollen in their anthers; and in such flowers the stigma +projects above the anthers, whilst generally it stands below and sometimes on a +level with them. I could detect no difference in the size of the pollen-grain or +in the structure of the stigma in the plants which differed most in the above +respects; and all of them, when protected from the access of insects, yielded +plenty of seeds. Again, from statements made by Vaucher, and from a hasty +inspection, I thought at first that the allied Anchusa arvensis and Echium +vulgare were heterostyled, but soon saw my error. From information given me, I +examined dried flowers of another member of the Boragineae, Arnebia +hispidissima, collected from several sites, and though the corolla, together +with the included organs, differed much in length, there was no sign of +heterostylism.] + +Polygonum fagopyrum (Polygonaceae). + +(FIGURE 3.7. Polygonum fagopyrum. (From H. Muller.) +Upper figure, the long-styled form; lower figure, the short-styled. +Some of the anthers have dehisced, others have not.) + +Hildebrand has shown that this plant, the common Buck-wheat, is heterostyled. +(3/13. 'Die Geschlechter-Vertheilung' etc. 1867 page 34.) In the long-styled +form (Figure 3.7), the three stigmas project considerably above the eight short +stamens, and stand on a level with the anthers of the eight long stamens in the +short-styled form; and so it is conversely with the stigmas and stamens of this +latter form. I could perceive no difference in the structure of the stigmas in +the two forms. The pollen-grains of the short-styled form are to those of the +long-styled as 100 to 82 in diameter. This plant is therefore without doubt +heterostyled. + +I experimented only in an imperfect manner on the relative fertility of the two +forms. Short-styled flowers were dragged several times over two heads of flowers +on long-styled plants, protected under a net, which were thus legitimately, +though not fully, fertilised. They produced 22 seeds, or 11 per flower-head. + +Three flower-heads on long-styled plants received pollen in the same manner from +other long-styled plants, and were thus illegitimately fertilised. They produced +14 seeds, or only 4.66 per flower-head. + +Two flower-heads on short-styled plants received pollen in like manner from +long-styled flowers, and were thus legitimately fertilised. They produced 8 +seeds, or 4 per flower-head. + +Four heads on short-styled plants similarly received pollen from other short- +styled plants, and were thus illegitimately fertilised. They produced 9 seeds, +or 2.25 per flower-head. + +The results from fertilising the flower-heads in the above imperfect manner +cannot be fully trusted; but I may state that the four legitimately fertilised +flower-heads yielded on an average 7.50 seeds per head; whereas the seven +illegitimately fertilised heads yielded less than half the number, or on an +average only 3.28 seeds. The legitimately crossed seeds from the long-styled +flowers were finer than those from the illegitimately fertilised flowers on the +same plants, in the ratio of 100 to 82, as shown by the weights of an equal +number. + +About a dozen plants, including both forms, were protected under nets, and early +in the season they produced spontaneously hardly any seeds, though at this +period the artificially fertilised flowers produced an abundance; but it is a +remarkable fact that later in the season, during September, both forms became +highly self-fertile. They did not, however, produce so many seeds as some +neighbouring uncovered plants which were visited by insects. Therefore the +flowers of neither form when left to fertilise themselves late in the season +without the aid of insects, are nearly so sterile as most other heterostyled +plants. A large number of insects, namely 41 kinds as observed by H. Muller, +visit the flowers for the sake of the eight drops of nectar. (3/14. 'Die +Befruchtung' etc. page 175 and 'Nature' January 1, 1874 page 166.) He infers +from the structure of the flowers that insects would be apt to fertilise them +both illegitimately as well as legitimately; but he is mistaken in supposing +that the long-styled flowers cannot spontaneously fertilise themselves. + +Differently to what occurs in the other genera hitherto noticed, Polygonum, +though a very large genus, contains, as far as is at present known, only a +single heterostyled species, namely the present one. H. Muller in his +interesting description of several other species shows that P. bistorta is so +strongly proterandrous (the anthers generally falling off before the stigmas are +mature) that the flowers must be cross-fertilised by the many insects which +visit them. Other species bear much less conspicuous flowers which secrete +little or no nectar, and consequently are rarely visited by insects; these are +adapted for self-fertilisation, though still capable of cross-fertilisation. +According to Delpino, the Polygonaceae are generally fertilised by the wind, +instead of by insects as in the present genus. + +[Leucosmia Burnettiana (Thymeliae). + +As Professor Asa Gray has expressed his belief that this species and L. +acuminata, as well as some species in the allied genus Drymispermum, are +dimorphic or heterostyled (3/15. 'American Journal of Science' 1865 page 101 and +Seemann's 'Journal of Botany' volume 3 1865 page 305.), I procured from Kew, +through the kindness of Dr. Hooker, two dried flowers of the former species, an +inhabitant of the Friendly Islands in the Pacific. The pistil of the long-styled +form is to that of the short-styled as 100 to 86 in length; the stigma projects +just above the throat of the corolla, and is surrounded by five anthers, the +tips of which reach up almost to its base; and lower down, within the tubular +corolla, five other and rather smaller anthers are seated. In the short-styled +form, the stigma stands some way down the tube of the corolla, nearly on a level +with the lower anthers of the other form: it differs remarkably from the stigma +of the long-styled form, in being more papillose, and in being longer in the +ratio of 100 to 60. The anthers of the upper stamens in the short-styled form +are supported on free filaments, and project above the throat of the corolla, +whilst the anthers of the lower stamens are seated in the throat on a level with +the upper stamens of the other form. The diameters of a considerable number of +grains from both sets of anthers in both forms were measured, but they did not +differ in any trustworthy degree. The mean diameter of twenty-two grains from +the short-styled flower was to that of twenty-four grains from the long-styled, +as 100 to 99. The anthers of the upper stamens in the short-styled form appeared +to be poorly developed, and contained a considerable number of shrivelled grains +which were omitted in striking the above average. Notwithstanding the fact of +the pollen-grains from the two forms not differing in diameter in any +appreciable degree, there can hardly be a doubt from the great difference in the +two forms in the length of the pistil, and especially of the stigma, together +with its more papillose condition in the short-styled form, that the present +species is truly heterostyled. This case resembles that of Linum grandiflorum, +in which the sole difference between the two forms consists in the length of the +pistils and stigmas. From the great length of the tubular corolla of Leucosmia, +it is clear that the flowers are cross-fertilised by large Lepidoptera or by +honey-sucking birds, and the position of the stamens in two whorls one beneath +the other, which is a character that I have not seen in any other heterostyled +dimorphic plant, probably serves to smear the inserted organ thoroughly with +pollen. + +Menyanthes trifoliata (Gentianeae). + +This plant inhabits marshes: my son William gathered 247 flowers from so many +distinct plants, and of these 110 were long-styled, and 137 short-styled. The +pistil of the long-styled form is in length to that of the short-styled in the +ratio of about 3 to 2. The stigma of the former, as my son observed, is +decidedly larger than that of the short-styled; but in both forms it varies much +in size. The stamens of the short-styled are almost double the length of those +of the long-styled; so that their anthers stand rather above the level of the +stigma of the long-styled form. The anthers also vary much in size, but seem +often to be of larger size in the short-styled flowers. My son made with the +camera many drawings of the pollen-grains, and those from the short-styled +flowers were in diameter in nearly the ratio of 100 to 84 to those from the +long-styled flowers. I know nothing about the capacity for fertilisation in the +two forms; but short-styled plants, living by themselves in the gardens at Kew, +have produced an abundance of capsules, yet the seeds have never germinated; and +this looks as if the short-styled form was sterile with its own pollen. + +Limnanthemum Indicum (Gentianeae). + +This plant is mentioned by Mr. Thwaites in his Enumeration of the Plants of +Ceylon as presenting two forms; and he was so kind as to send me specimens +preserved in spirits. The pistil of the long-styled form is nearly thrice as +long (i.e. as 14 to 5) as that of the short-styled, and is very much thinner in +the ratio of about 3 to 5. The foliaceous stigma is more expanded, and twice as +large as that of the short-styled form. In the latter the stamens are about +twice as long as those of the long-styled, and their anthers are larger in the +ratio of 100 to 70. The pollen-grains, after having been long kept in spirits, +were of the same shape and size in both forms. The ovules, according to Mr. +Thwaites, are equally numerous (namely from 70 to 80) in the two forms. + +Villarsia [sp.?] (Gentianeae). + +Fritz Muller sent me from South Brazil dried flowers of this aquatic plant, +which is closely allied to Limnanthemum. In the long-styled form the stigma +stands some way above the anthers, and the whole pistil, together with the +ovary, is in length to that of the short-styled form as about 3 to 2. In the +latter form the anthers stand above the stigma, and the style is very short and +thick; but the pistil varies a good deal in length, the stigma being either on a +level with the tips of the sepals or considerably beneath them. The foliaceous +stigma in the long-styled form is larger, with the expansions running farther +down the style, than in the other form. One of the most remarkable differences +between the two forms is that the anthers of the longer stamens in the short- +styled flowers are conspicuously longer than those of the shorter stamens in the +long-styled flowers. In the former the sub-triangular pollen-grains are larger; +the ratio between their breadth (measured from one angle to the middle of the +opposite side) and that of the grains from the long-styled flowers being about +100 to 75. Fritz Muller also informs me that the pollen of the short-styled +flowers has a bluish tint, whilst that of the long-styled is yellow. When we +treat of Lythrum salicaria we shall find a strongly marked contrast in the +colour of the pollen in two of the forms. + +The three genera, Menyanthes, Limnanthemum, and Villarsia, now described, +constitute a well-marked sub-tribe of the Gentianeae. All the species, as far as +at present known, are heterostyled, and all inhabit aquatic or sub-aquatic +stations. + +Forsythia suspensa (Oleaceae). + +Professor Asa Gray states that the plants of this species growing in the Botanic +Gardens at Cambridge, U.S., are short-styled, but that Siebold and Zuccarini +describe the long-styled form, and give figures of two forms; so that there can +be little doubt, as he remarks, about the plant being dimorphic. (3/16. 'The +American Naturalist' July 1873 page 422.) I therefore applied to Dr. Hooker, who +sent me a dried flower from Japan, another from China, and another from the +Botanic Gardens at Kew. The first proved to be long-styled, and the other two +short-styled. In the long-styled form, the pistil is in length to that of the +short-styled as 100 to 38, the lobes of the stigma being a little longer (as 10 +to 9), but narrower and less divergent. This last character, however, may be +only a temporary one. There seems to be no difference in the papillose condition +of the two stigmas. In the short-styled form, the stamens are in length to those +of the long-styled as 100 to 66, but the anthers are shorter in the ratio of 87 +to 100; and this is unusual, for when there is any difference in size between +the anthers of the two forms, those from the longer stamens of the short-styled +are generally the longest. The pollen-grains from the short-styled flowers are +certainly larger, but only in a slight degree, than those from the long-styled, +namely, as 100 to 94 in diameter. The short-styled form, which grows in the +Gardens at Kew, has never there produced fruit. + +Forsythia viridissima appears likewise to be heterostyled; for Professor Asa +Gray says that although the long-styled form alone grows in the gardens at +Cambridge, U.S., the published figures of this species belong to the short- +styled form. + +Cordia [sp.?] (Cordiaceae). + +Fritz Muller sent me dried specimens of this shrub, which he believes to be +heterostyled; and I have not much doubt that this is the case, though the usual +characteristic differences are not well pronounced in the two forms. Linum +grandiflorum shows us that a plant may be heterostyled in function in the +highest degree, and yet the two forms may have stamens of equal length, and +pollen-grains of equal size. In the present species of Cordia, the stamens of +both forms are of nearly equal length, those of the short-styled being rather +the longest; and the anthers of both are seated in the mouth of the corolla. Nor +could I detect any difference in the size of the pollen-grains, when dry or +after being soaked in water. The stigmas of the long-styled form stand clear +above the anthers, and the whole pistil is longer than that of the short-styled, +in about the ratio of 3 to 2. + +The stigmas of the short-styled form are seated beneath the anthers, and they +are considerably shorter than those of the long-styled form. This latter +difference is the most important one of any between the two forms. + +Gilia (Ipomopsis) pulchella vel aggregata (Polemoniaceae). + +Professor Asa Gray remarks with respect to this plant: "the tendency to +dimorphism, of which there are traces, or perhaps rather incipient +manifestations in various portions of the genus, is most marked in G. +aggregata." (3/17. 'Proceedings of the American Academy of Arts and Sciences.' +June 14, 1870 page 275.) He sent me some dried flowers, and I procured others +from Kew. They differ greatly in size, some being nearly twice as long as others +(namely as 30 to 17), so that it was not possible to compare, except by +calculation, the absolute length of the organs from different plants. Moreover, +the relative position of the stigmas and anthers is variable: in some long- +styled flowers the stigmas and anthers were exserted only just beyond the throat +of the corolla; whilst in others they were exserted as much as 4/10 of an inch. +I suspect also that the pistil goes on growing for some time after the anthers +have dehisced. Nevertheless it is possible to class the flowers under two forms. +In some of the long-styled, the length of pistil to that of the short-styled was +as 100 to 82; but this result was gained by reducing the size of the corollas to +the same scale. In another pair of flowers the difference in length between the +pistils of the two forms was certainly greater, but they were not actually +measured. In the short-styled flowers whether large or small, the stigma is +seated low down within the tube of the corolla. The papillae on the long-styled +stigma are longer than those on the short-styled, in the ratio of 100 to 40. The +filaments in some of the short-styled flowers were, to those of the long-styled, +as 100 to 25 in length, the free, or unattached portion being alone measured; +but this ratio cannot be trusted, owing to the great variability of the stamens. +The mean diameter of eleven pollen-grains from long-styled flowers, and of +twelve from the short-styled, was exactly the same. It follows from these +several statements, that the difference in length and state of surface of the +stigmas in the flowers is the sole reliable evidence that this species is +heterostyled; for it would be rash to trust to the difference in the length of +the pistils, seeing how variable they are. I should have left the case +altogether doubtful, had it not been for the observations on the following +species; and these leave little doubt on my mind that the present plant is truly +heterostyled. Professor Gray informs me that in another species, G. +coronopifolia, belonging to the same section of the genus, he can see no sign of +dimorphism. + +Gilia (Leptosiphon) micrantha. + +A few flowers sent me from Kew had been somewhat injured, so that I cannot say +anything positively with respect to the position and relative length of the +organs in the two forms. But their stigmas differed almost exactly in the same +manner as in the last species; the papillae on the long-styled stigma being +longer than those on the short-styled, in the ratio of 100 to 42. My son +measured nine pollen-grains from the long-styled, and the same number from the +short-styled form; and the mean diameter of the former was to that of the latter +as 100 to 81. Considering this difference, as well as that between the stigmas +of the two forms, there can be no doubt that this species is heterostyled. So +probably is Gilia nudicaulis, which likewise belongs to the Leptosiphon section +of the genus, for I hear from Professor Asa Gray that in some individuals the +style is very long, with the stigma more or less exserted, whilst in others it +is deeply included within the tube; the anthers being always seated in the +throat of the corolla. + +Phlox subulata (Polemoniaceae). + +Professor Asa Gray informs me that the greater number of the species in this +genus have a long pistil, with the stigma more or less exserted; whilst several +other species, especially the annuals, have a short pistil seated low down +within the tube of the corolla. In all the species the anthers are arranged one +below the other, the uppermost just protruding from the throat of the corolla. +In Phlox subulata alone he has "seen both long and short styles; and here the +short-styled plant has (irrespective of this character) been described as a +distinct species (P. nivalis, P. Hentzii), and is apt to have a pair of ovules +in each cell, while the long-styled P. subulata rarely shows more than one." +(3/18. 'Proceedings of the American Academy of Arts and Sciences' June 14, 1870 +page 248.) Some dried flowers of both forms were sent me by him, and I received +others from Kew, but I have failed to make out whether the species is +heterostyled. In two flowers of nearly equal size, the pistil of the long-styled +form was twice as long as that of the short-styled; but in other cases the +difference was not nearly so great. The stigma of the long-styled pistil stands +nearly in the throat of the corolla; whilst in the short-styled it is placed low +down--sometimes very low down in the tube, for it varies greatly in position. +The stigma is more papillose, and of greater length (in one instance in the +ratio of 100 to 67), in the short-styled flowers than in the long-styled. My son +measured twenty pollen-grains from a short-styled flower, and nine from a long- +styled, and the former were in diameter to the latter as 100 to 93; and this +difference accords with the belief that the plant is heterostyled. But the +grains from the short-styled varied much in diameter. He afterwards measured ten +grains from a distinct long-styled flower, and ten from another plant of the +same form, and these grains differed in diameter in the ratio of 100 to 90. The +mean diameter of these two lots of twenty grains was to that of twelve grains +from another short-styled flower as 100 to 75: here, then, the grains from the +short-styled form were considerably smaller than those from the long-styled, +which is the reverse of what occurred in the former instance, and of what is the +general rule with heterostyled plants. The whole case is perplexing in the +highest degree, and will not be understood until experiments are tried on living +plants. The greater length, and more papillose condition of the stigma in the +short-styled than in the long-styled flowers, looks as if the plant was +heterostyled; for we know that with some species--for instance, Leucosmia and +certain Rubiaceae--the stigma is longer and more papillose in the short-styled +form, though the reverse of this holds good in Gilia, a member of the same +family with Phlox. The similar position of the anthers in the two forms is +somewhat opposed to the present species being heterostyled; as is the great +difference in the length of the pistil in several short-styled flowers. But the +extraordinary variability in diameter of the pollen-grains, and the fact that in +one set of flowers the grains from the long-styled flowers were larger than +those from the short-styled, is strongly opposed to the belief that Phlox +subulata is heterostyled. Possibly this species was once heterostyled, but is +now becoming sub-dioecious; the short-styled plants having been rendered more +feminine in nature. This would account for their ovaries usually containing more +ovules, and for the variable condition of their pollen-grains. Whether the long- +styled plants are now changing their nature, as would appear to be the case from +the variability of their pollen-grains, and are becoming more masculine, I will +not pretend to conjecture; they might remain as hermaphrodites, for the +coexistence of hermaphrodite and female plants of the same species is by no +means a rare event. + +Erythroxylum [sp.?] (Erythroxylidae). + +(FIGURE 3.8. Erythroxylon [sp.?] +Left: Long-styled form. +Right: Short-styled form. +From a sketch by Fritz Muller, magnified five times.) + +Fritz Muller sent me from South Brazil dried flowers of this tree, together with +the drawings (Figure 3.8.), which show the two forms, magnified about five +times, with the petals removed. In the long-styled form the stigmas project +above the anthers, and the styles are nearly twice as long as those of the +short-styled form, in which the stigmas stand beneath the anthers. The stigmas +in many, but not in all the short-styled flowers are larger than those in the +long-styled. The anthers of the short-styled flowers stand on a level with the +stigmas of the other form; but the stamens are longer by only one-fourth or one- +fifth of their own length than those of the long-styled. Consequently the +anthers of the latter do not stand on a level with, but rather above the stigmas +of the other form. Differently from what occurs in the following closely allied +genus, Sethia, the stamens are of nearly equal length in the flowers of the same +form. The pollen-grains of the short-styled flowers, measured in their dry +state, are a little larger than those from the long-styled flowers in about the +ratio of 100 to 93. (3/19. F. Muller remarks in his letter to me that the +flowers, of which he carefully examined many specimens, are curiously variable +in the number of their parts: 5 sepals and petals, 10 stamens and 3 pistils are +the prevailing numbers; but the sepals and petals often vary from 5 to 7; the +stamens from 10 to 14, and the pistils from 3 to 4.) + +Sethia acuminata (Erythroxylidae). + +Mr. Thwaites pointed out several years ago that this plant exists under two +forms, which he designated as forma stylosa et staminea; and the flowers sent to +me by him are clearly heterostyled. (3/20. 'Enumeratio Plantarum Zeylaniae' 1864 +page 54.) In the long-styled form the pistil is nearly twice as long, and the +stamens half as long as the corresponding organs in the short-styled form. The +stigmas of the long-styled seem rather smaller than those of the short-styled. +All the stamens in the short-styled flowers are of nearly equal length, whereas +in long-styled they differ in length, being alternately a little longer and +shorter; and this difference in the stamens of the two forms is probably +related, as we shall hereafter see in the case of the short-styled flowers of +Lythrum salicaria, to the manner in which insects can best transport pollen from +the long-styled flowers to the stigmas of the short-styled. The pollen-grains +from the short-styled flowers, though variable in size, are to those of the +long-styled, as far as I could make out, as 100 to 83 in their longer diameter. +Sethia obtusifolia is heterostyled like S. acuminata. + +Cratoxylon formosum (Hypericineae). + +Mr. Thiselton Dyer remarks that this tree, an inhabitant of Malacca and Borneo, +appears to be heterostyled. (3/21. 'Journal of Botany' London 1872 page 26.) He +sent me dried flowers, and the difference between the two forms is conspicuous. +In the short-styled form the pistils are in length to those of the short-styled +as 100 to 40, with their globular stigmas about twice as thick. These stand just +above the numerous anthers and a little beneath the tips of the petals. In the +short-styled form the anthers project high above the pistils, the stigmas of +which diverge between the three bundles of stamens, and stand only a little +above the tips of the sepals. The stamens in this form are to those of the long- +styled as 100 to 86 in length; and therefore they do not differ so much in +length as do the pistils. Ten pollen-grains from each form were measured, and +those from the short-styled were to those from the long-styled as 100 to 86 in +diameter. This plant, therefore, is in all respects a well-characterised +heterostyled species. + +Aegiphila elata (Verbenaceae). + +Mr. Bentham was so kind as to send me dried flowers of this species and of Ae. +mollis, both inhabitants of South America. The two forms differ conspicuously, +as the deeply bifid stigma of the one, and the anthers of the other project far +above the mouth of the corolla. In the long-styled form of the present species, +the style is twice and a half as long as that of the short-styled. The divergent +stigmas of the two forms do not differ much in length, nor as far as I could +perceive in their papillae. In the long-styled flowers the filaments adhere to +the corolla close up to the anthers, which are enclosed some way down within the +tube. In the short-styled flowers the filaments are free above the point where +the anthers are seated in the other form, and they project from the corolla to +an equal height with that of the stigmas in the long-styled flowers. It is often +difficult to measure with accuracy pollen-grains, which have long been dried and +then soaked in water; but they here manifestly differed greatly in size. Those +from the short-styled flowers were to those from the long-styled in diameter in +about the ratio of 100 to 62. The two forms of Ae. mollis present a like +difference in the length of their pistils and stamens. + +Aegiphila obdurata. + +Flowers of this bush were sent me from St. Catharina in Brazil, by Fritz Muller, +and were named for me at Kew. They appeared at first sight grandly heterostyled, +as the stigma of the long-styled form projects far out of the corolla, whilst +the anthers are seated halfway down within the tube; whereas in the short-styled +form the anthers project from the corolla and the stigma is enclosed in the tube +at nearly the same level with the anthers of the other form. The pistil of the +long-styled is to that of the short-styled as 100 to 60 in length, and the +stigmas, taken by themselves, as 100 to 55. Nevertheless, this plant cannot be +heterostyled. The anthers in the long-styled form are brown, tough, and fleshy, +and less than half the length of those in the short-styled form, strictly as 44 +to 100; and what is much more important, they were in a rudimentary condition in +the two flowers examined by me, and did not contain a single grain of pollen. In +the short-styled form, the divided stigma, which as we have seen is much +shortened, is thicker and more fleshy than the stigma of the long-styled, and is +covered with small irregular projections, formed of rather large cells. It had +the appearance of having suffered from hyperthrophy, and is probably incapable +of fertilisation. If this be so the plant is dioecious, and judging from the two +species previously described, it probably was once heterostyled, and has since +been rendered dioecious by the pistil in the one form, and the stamens in the +other having become functionless and reduced in size. It is, however, possible +that the flowers may be in the same state as those of the common thyme and of +several other Labiatae, in which females and hermaphrodites regularly co-exist. +Fritz Muller, who thought that the present plant was heterostyled, as I did at +first, informs me that he found bushes in several places growing quite isolated, +and that these were completely sterile; whilst two plants growing close together +were covered with fruit. This fact agrees better with the belief that the +species is dioecious than that it consists of hermaphrodites and females; for if +any one of the isolated plants had been an hermaphrodite, it would probably have +produced some fruit.] + +RUBIACEAE. + +This great natural family contains a much larger number of heterostyled genera +than any other one, as yet known. + +Mitchella repens. + +Professor Asa Gray sent me several living plants collected when out of flower, +and nearly half of these proved long-styled, and the other half short-styled. +The white flowers, which are fragrant and which secrete plenty of nectar, always +grow in pairs with their ovaries united, so that the two together produce "a +berry-like double drupe." (3/22. A. Gray 'Manual of the Botany of the United +States' 1856 page 172.) In my first series of experiments (1864) I did not +suppose that this curious arrangement of the flowers would have any influence on +their fertility; and in several instances only one of the two flowers in a pair +was fertilised; and a large proportion or all of these failed to produce +berries. In the ensuing year both flowers of each pair were invariably +fertilised in the same manner; and the latter experiments alone serve to show +the proportion of flowers which yield berries, when legitimately and +illegitimately fertilised; but for calculating the average number of seeds per +berry I have used those produced during both seasons. + +In the long-styled flowers the stigma projects just above the bearded throat of +the corolla, and the anthers are seated some way down the tube. In the short- +styled flowers those organs occupy reversed positions. In this latter form the +fresh pollen-grains are a little larger and more opaque than those of the long- +styled form. The results of my experiments are given in Table 3.21. + +TABLE 3.21. Mitchella repens. + +Column 1: Nature of the Union. +Column 2: Number of Pairs of Flowers fertilised during the second season. +Column 3: Number of Drupes produced during the second season. +Column 4: Average Number of good Seeds per Drupe in all the Drupes during the +two Seasons. + +Long-styled by pollen of short-styled. Legitimate union : +9 : 8 : 4.6. + +Long-styled by own-form pollen. Illegitimate union : +8 : 3 : 2.2. + +Short-styled by pollen of long-styled. Legitimate union: +8 : 7 : 4.1. + +Short-styled by own-form pollen. Illegitimate union : +9 : 0 : 2.0. + +The two legitimate unions together : +17 : 15 : 4.4. + +The two illegitimate unions together : +17 : 3 : 2.1. + +It follows from this table that 88 per cent of the paired flowers of both forms, +when legitimately fertilised, yielded double berries, nineteen of which +contained on an average 4.4 seeds, with a maximum in one of 8 seeds. Of the +illegitimately fertilised paired flowers only 18 per cent yielded berries, six +of which contained on an average only 2.1 seeds, with a maximum in one of 4 +seeds. Thus the two legitimate unions are more fertile than the two +illegitimate, according to the proportion of flowers which yielded berries, in +the ratio of 100 to 20; and according to the average number of contained seeds +as 100 to 47. + +Three long-styled and three short-styled plants were protected under separate +nets, and they produced altogether only 8 berries, containing on an average only +1.5 seed. Some additional berries were produced which contained no seeds. The +plants thus treated were therefore excessively sterile, and their slight degree +of fertility may be attributed in part to the action of the many individuals of +Thrips which haunted the flowers. Mr. J. Scott informs me that a single plant +(probably a long-styled one), growing in the Botanic Gardens at Edinburgh, which +no doubt was freely visited by insects, produced plenty of berries, but how many +of them contained seeds was not observed. + +Borreria, nov. sp. near valerianoides (Rubiaceae). + +Fritz Muller sent me seeds of this plant, which is extremely abundant in St. +Catharina, in South Brazil; and ten plants were raised, consisting of five long- +styled and five short-styled. The pistil of the long-styled flowers projects +just beyond the mouth of the corolla, and is thrice as long as that of the +short-styled, and the divergent stigmas are likewise rather larger. The anthers +in the long-styled form stand low down within the corolla, and are quite hidden. +In the short-styled flowers the anthers project just above the mouth of the +corolla, and the stigma stands low down within the tube. Considering the great +difference in the length of the pistils in the two forms, it is remarkable that +the pollen-grains differ very little in size, and Fritz Muller was struck with +the same fact. In a dry state the grains from the short-styled flowers could +just be perceived to be larger than those from the long-styled, and when both +were swollen by immersion in water, the former were to the latter in diameter in +the ratio of 100 to 92. In the long-styled flowers beaded hairs almost fill up +the mouth of the corolla and project above it; they therefore stand above the +anthers and beneath the stigma. In the short-styled flowers a similar brush of +hairs is situated low down within the tubular corolla, above the stigma and +beneath the anthers. The presence of these beaded hairs in both forms, though +occupying such different positions, shows that they are probably of considerable +functional importance. They would serve to guard the stigma of each form from +its own pollen; but in accordance with Professor Kerner's view their chief use +probably is to prevent the copious nectar being stolen by small crawling +insects, which could not render any service to the species by carrying pollen +from one form to the other. (3/23. 'Die Schutzmittel der Bluthen gegen +unberufene Gaste' 1876 page 37.) + +The flowers are so small and so crowded together that I was not willing to +expend time in fertilising them separately; but I dragged repeatedly heads of +short-styled flowers over three long-styled flower-heads, which were thus +legitimately fertilised; and they produced many dozen fruits, each containing +two good seeds. I fertilised in the same manner three heads on the same long- +styled plant with pollen from another long-styled plant, so that these were +fertilised illegitimately, and they did not yield a single seed. Nor did this +plant, which was of course protected by a net, bear spontaneously any seeds. +Nevertheless another long-styled plant, which was carefully protected, produced +spontaneously a very few seeds; so that the long-styled form is not always quite +sterile with its own pollen. + +Faramea [sp.?] (Rubiaceae). + +(FIGURE 3.9. Faramea [sp.?] +Left: Short-styled form. +Right: Long-styled form. +Outlines of flowers from dried specimens. Pollen-grains magnified 180 times, by +Fritz Muller.) + +Fritz Muller has fully described the two forms of this remarkable plant, an +inhabitant of South Brazil. (3/24. 'Botanische Zeitung' September 10, 1869 page +606.) In the long-styled form the pistil projects above the corolla, and is +almost exactly twice as long as that of the short-styled, which is included +within the tube. The former is divided into two rather short and broad stigmas, +whilst the short-styled pistil is divided into two long, thin, sometimes much +curled stigmas. The stamens of each form correspond in height or length with the +pistils of the other form. The anthers of the short-styled form are a little +larger than those of the long-styled; and their pollen-grains are to those of +the other form as 100 to 67 in diameter. But the pollen-grains of the two forms +differ in a much more remarkable manner, of which no other instance is known; +those from the short-styled flowers being covered with sharp points; the smaller +ones from the long-styled being quite smooth. Fritz Muller remarks that this +difference between the pollen-grains of the two forms is evidently of service to +the plant; for the grains from the projecting stamens of the short-styled form, +if smooth, would have been liable to be blown away by the wind, and would thus +have been lost; but the little points on their surfaces cause them to cohere, +and at the same time favour their adhesion to the hairy bodies of insects, which +merely brush against the anthers of these stamens whilst visiting the flowers. +On the other hand, the smooth grains of the long-styled flowers are safely +included within the tube of the corolla, so that they cannot be blown away, but +are almost sure to adhere to the proboscis of an entering insect, which is +necessarily pressed close against the enclosed anthers. + +It may be remembered that in the long-styled form of Linum perenne each separate +stigma rotates on its own axis, when the flower is mature, so as to turn its +papillose surface outwards. There can be no doubt that this movement, which is +confined to the long-styled form, is effected in order that the proper surface +of the stigma should receive pollen brought by insects from the other form. Now +with Faramea, as Fritz Muller shows, it is the stamens which rotate on their +axes in one of the two forms, namely, the short-styled, in order that their +pollen should be brushed off by insects and transported to the stigmas of the +other form. In the long-styled flowers the anthers of the short enclosed stamens +do not rotate on their axes, but dehisce on their inner sides, as is the common +rule with the Rubiaceae; and this is the best position for the adherence of the +pollen-grains to the proboscis of an entering insect. Fritz Muller therefore +infers that as the plant became heterostyled, and as the stamens of the short- +styled form increased in length, they gradually acquired the highly beneficial +power of rotating on their own axes. But he has further shown, by the careful +examination of many flowers, that this power has not as yet been perfected; and, +consequently, that a certain proportion of the pollen is rendered useless, +namely, that from the anthers which do not rotate properly. It thus appears that +the development of the plant has not as yet been completed; the stamens have +indeed acquired their proper length, but not their full and perfect power of +rotation. (3/25. Fritz Muller gives another instance of the want of absolute +perfection in the flowers of another member of the Rubiaceae, namely, Posoqueria +fragrans, which is adapted in a most wonderful manner for cross-fertilisation by +the agency of moths. (See 'Botanische Zeitung' 1866 Number 17.) In accordance +with the nocturnal habits of these insects, most of the flowers open only during +the night; but some open in the day, and the pollen of such flowers is robbed, +as Fritz Muller has often seen, by humble-bees and other insects, without any +benefit being thus conferred on the plant.) + +The several points of difference in structure between the two forms of Faramea +are highly remarkable. Until within a recent period, if any one had been shown +two plants which differed in a uniform manner in the length of their stamens and +pistils,--in the form of their stigmas,--in the manner of dehiscence and +slightly in the size of their anthers,--and to an extraordinary degree in the +diameter and structure of their pollen-grains, he would have declared it +impossible that the two could have belonged to one and the same species. + +[Suteria (species unnamed in the herbarium at Kew.) (Rubiaceae). + +I owe to the kindness of Fritz Muller dried flowers of this plant from St. +Catharina, in Brazil. In the long-styled form the stigma stands in the mouth of +the corolla, above the anthers, which latter are enclosed within the tube, but +only a short way down. In the short-styled form the anthers are placed in the +mouth of the corolla above the stigma, which occupies the same position as the +anthers in the other form, being seated only a short way down the tube. +Therefore the pistil of the long-styled form does not exceed in length that of +the short-styled in nearly so great a degree as in many other Rubiaceae. +Nevertheless there is a considerable difference in the size of the pollen-grains +in the two forms; for, as Fritz Muller informs me, those of the short-styled are +to those of the long-styled as 100 to 75 in diameter. + +Houstonia coerulea (Rubiaceae). + +Professor Asa Gray has been so kind as to send me an abstract of some +observations made by Dr. Rothrock on this plant. The pistil is exserted in the +one form and the stamens in the other, as has long been observed. The stigmas of +the long-styled form are shorter, stouter, and far more hispid than in the other +form. The stigmatic hairs or papillae on the former are .04 millimetres, and on +the latter only .023 millimetres in length. In the short-styled form the anthers +are larger, and the pollen-grains, when distended with water, are to those from +the long-styled form as 100 to 72 in diameter. + +Selected capsules from some long-styled plants growing in the Botanic Gardens at +Cambridge, U.S., near where plants of the other form grew, contained on an +average 13 seeds; but these plants must have been subjected to unfavourable +conditions, for some long-styled plants in a state of nature yielded an average +of 21.5 seeds per capsule. Some short-styled plants, which had been planted by +themselves in the Botanic Gardens, where it was not likely that they would have +been visited by insects that had previously visited long-styled plants, produced +capsules, eleven of which were wholly sterile, but one contained 4, and another +8 seeds. So that the short-styled form seems to be very sterile with its own +pollen. Professor Asa Gray informs me that the other North American species of +this genus are likewise heterostyled. + +Oldenlandia [sp.?] (Rubiaceae). + +Mr. J. Scott sent me from India dried flowers of a heterostyled species of this +genus, which is closely allied to the last. The pistil in the long-styled +flowers is longer by about a quarter of its length, and the stamens shorter in +about the same proportion, than the corresponding organs in the short-styled +flowers. In the latter the anthers are longer, and the divergent stigmas +decidedly longer and apparently thinner than in the long-styled form. Owing to +the state of the specimens, I could not decide whether the stigmatic papillae +were longer in the one form than in the other. The pollen-grains, distended with +water, from the short-styled flowers were to those from the long-styled as 100 +to 78 in diameter, as deduced from the mean of ten measurements of each kind. + +Hedyotis [sp.?] (Rubiaceae). + +Fritz Muller sent me from St. Catharina, in Brazil, dried flowers of a small +delicate species, which grows on wet sand near the edges of fresh-water pools. +In the long-styled form the stigma projects above the corolla, and stands on a +level with the projecting anthers of the short-styled form; but in the latter +the stigmas stand rather beneath the level of the anthers in the other or long- +styled form, these being enclosed within the tube of the corolla. The pistil of +the long-styled form is nearly thrice as long as that of the short-styled, or, +speaking strictly, as 100 to 39; and the papillae on the stigma of the former +are broader, in the ratio of 4 to 3, but whether longer than those of the short- +styled, I could not decide. In the short-styled form, the anthers are rather +larger, and the pollen-grains are to those from the long-styled flowers, as 100 +to 88 in diameter. Fritz Muller sent me a second, small-sized species, which is +likewise heterostyled. + +Coccocypselum [sp.?] (Rubiaceae). + +Fritz Muller also sent me dried flowers of this plant from St. Catharina, in +Brazil. The exserted stigma of the long-styled form stands a little above the +level of the exserted anthers of the short-styled form; and the enclosed stigma +of the latter also stands a little above the level of the enclosed anthers in +the long-styled form. The pistil of the long-styled is about twice as long as +that of the short-styled, with its two stigmas considerably longer, more +divergent, and more curled. Fritz Muller informs me that he could detect no +difference in the size of the pollen-grains in the two forms. Nevertheless, +there can be no doubt that this plant is heterostyled. + +Lipostoma [sp.?] (Rubiaceae). + +Dried flowers of this plant, which grows in small wet ditches in St. Catharina, +in Brazil, were likewise sent me by Fritz Muller. In the long-styled form the +exserted stigma stands rather above the level of the exserted anthers of the +other form; whilst in the short-styled form it stands on a level with the +anthers of the other form. So that the want of strict correspondence in height +between the stigmas and anthers in the two forms is reversed, compared with what +occurs in Hedyotis. The long-styled pistil is to that of the short-styled as 100 +to 36 in length; and its divergent stigmas are longer by fully one-third of +their own length than those of the short-styled form. In the latter the anthers +are a little larger, and the pollen-grains are as 100 to 80 in diameter, +compared with those from the long-styled form. + +Cinchona micrantha (Rubiaceae). + +Dried specimens of both forms of this plant were sent me from Kew. (3/26. My +attention was called to this plant by a drawing copied from Howard's +'Quinologia' Table 3 given by Mr. Markham in his 'Travels in Peru' page 539.) In +the long-styled form the apex of the stigma stands just beneath the bases of the +hairy lobes of the corolla; whilst the summits of the anthers are seated about +halfway down the tube. The pistil is in length as 100 to 38 to that of the +short-styled form. In the latter the anthers occupy the same position as the +stigma of the other form, and they are considerably longer than those of the +long-styled form. As the summit of the stigma in the short-styled form stands +beneath the bases of the anthers, which are seated halfway down the corolla, the +style has been extremely shortened in this form, its length to that of the long- +styled being, in the specimens examined, only as 5.3 to 100! The stigma, also, +in the short-styled form is very much shorter than that in the long-styled, in +the ratio of 57 to 100. The pollen grains from the short-styled flowers, after +having been soaked in water, were rather larger--in about the ratio of 100 to +91--than those from the long-styled flowers, and they were more triangular, with +the angles more prominent. As all the grains from the short-styled flowers were +thus characterised, and as they had been left in water for three days, I am +convinced that this difference in shape in the two sets of grains cannot be +accounted for by unequal distension with water. + +Besides the several Rubiaceous genera already mentioned, Fritz Muller informs me +that two or three species of Psychotria and Rudgea eriantha, natives of St. +Catharina, in Brazil, are heterostyled, as is Manettia bicolor. I may add that I +formerly fertilised with their own pollen several flowers on a plant of this +latter species in my hothouse, but they did not set a single fruit. From Wight +and Arnott's description, there seems to be little doubt that Knoxia in India is +heterostyled; and Asa Gray is convinced that this is the case with Diodia and +Spermacoce in the United States. Lastly, from Mr. W.W. Bailey's description, it +appears that the Mexican Bouvardia leiantha is heterostyled. (3/27. 'Bulletin of +the Torrey Bot. Club' 1876 page 106.)] + +Altogether we now know of 17 heterostyled genera in the great family of the +Rubiaceae; though more information is necessary with respect to some of them, +more especially those mentioned in the last paragraph, before we can feel +absolutely safe. In the 'Genera Plantarum,' by Bentham and Hooker, the Rubiaceae +are divided into 25 tribes, containing 337 genera; and it deserves notice that +the genera now known to be heterostyled are not grouped in one or two of these +tribes, but are distributed in no less than eight of them. From this fact we may +infer that most of the genera have acquired their heterostyled structure +independently of one another; that is, they have not inherited this structure +from some one or even two or three progenitors in common. It further deserves +notice that in the homostyled genera, as I am informed by Professor Asa Gray, +the stamens are either exserted or are included within the tube of the corolla, +in a nearly constant manner; so that this character, which is not even of +specific value in the heterostyled species, is often of generic value in other +members of the family. + + +CHAPTER IV. + +HETEROSTYLED TRIMORPHIC PLANTS. + +Lythrum salicaria. +Description of the three forms. +Their power and complex manner of fertilising one another. +Eighteen different unions possible. +Mid-styled form eminently feminine in nature. +Lythrum Graefferi likewise trimorphic. +L. thymifolia dimorphic. +L. Hyssopifolia homostyled. +Nesaea verticillata trimorphic. +Lagerstroemia, nature doubtful. +Oxalis, trimorphic species of. +O. Valdiviana. +O. Regnelli, the illegitimate unions quite barren. +O. speciosa. +O. sensitiva. +Homostyled species of Oxalis. +Pontederia, the one monocotyledonous genus known to include heterostyled +species. + +In the previous chapters various heterostyled dimorphic plants have been +described, and now we come to heterostyled trimorphic plants, or those which +present three forms. These have been observed in three families, and consist of +species of Lythrum and of the allied genus Nesaea, of Oxalis and Pontederia. In +their manner of fertilisation these plants offer a more remarkable case than can +be found in any other plant or animal. + +Lythrum salicaria. + +(FIGURE 4.10. Diagram of the flowers of the three forms of Lythrum salicaria, in +their natural position, with the petals and calyx removed on the near side: +enlarged six times. +Top: Long-styled. +Middle: Mid-styled. +Bottom: Short-styled. +The dotted lines with the arrows show the directions in which pollen must be +carried to each stigma to ensure full fertility.) + +The pistil in each form differs from that in either of the other forms, and in +each there are two sets of stamens different in appearance and function. But one +set of stamens in each form corresponds with a set in one of the other two +forms. Altogether this one species includes three females or female organs and +three sets of male organs, all as distinct from one another as if they belonged +to different species; and if smaller functional differences are considered, +there are five distinct sets of males. Two of the three hermaphrodites must +coexist, and pollen must be carried by insects reciprocally from one to the +other, in order that either of the two should be fully fertile; but unless all +three forms coexist, two sets of stamens will be wasted, and the organisation of +the species, as a whole, will be incomplete. On the other hand, when all three +hermaphrodites coexist, and pollen is carried from one to the other, the scheme +is perfect; there is no waste of pollen and no false co-adaptation. In short, +nature has ordained a most complex marriage-arrangement, namely a triple union +between three hermaphrodites,--each hermaphrodite being in its female organ +quite distinct from the other two hermaphrodites and partially distinct in its +male organs, and each furnished with two sets of males. + +The three forms may be conveniently called, from the unequal lengths of their +pistils, the LONG-STYLED, MID-STYLED, and SHORT-STYLED. The stamens also are of +unequal lengths, and these may be called the LONGEST, MID-LENGTH, and SHORTEST. +Two sets of stamens of different length are found in each form. The existence of +the three forms was first observed by Vaucher, and subsequently more carefully +by Wirtgen ; but these botanists, not being guided by any theory or even +suspicion of their functional differences, did not perceive some of the most +curious points of difference in their structure. (4/1. Vaucher 'Hist. Phys. des +Plantes d'Europe' tome 2 1841 page 371. Wirtgen "Ueber Lythrum salicaria und +dessen Formen" 'Verhand. des naturhist. Vereins fur preuss. Rheinl.' 5 Jahrgang +1848 S. 7.) I will first briefly describe the three forms by the aid of Figure +4.10, which shows the flowers, six times magnified, in their natural position, +with their petals and calyx on the near side removed. + +LONG-STYLED FORM. + +This form can be at once recognised by the length of the pistil, which is +(including the ovarium) fully one-third longer than that of the mid-styled, and +more than thrice as long as that of the short-styled form. It is so +disproportionately long, that it projects in the bud through the folded petals. +It stands out considerably beyond the mid-length stamens; its terminal portion +depends a little, but the stigma itself is slightly upturned. The globular +stigma is considerably larger than that of the other two forms, with the +papillae on its surface generally longer. The six mid-length stamens project +about two-thirds the length of the pistil, and correspond in length with the +pistil of the mid-styled form. Such correspondence in this and the two following +forms is generally very close; the difference, where there is any, being usually +in a slight excess of length in the stamens. The six shortest stamens lie +concealed within the calyx; their ends are turned up, and they are graduated in +length, so as to form a double row. The anthers of these stamens are smaller +than those of the mid-length ones. The pollen is of the same yellow colour in +both sets. H. Muller measured the pollen-grain in all three forms, and his +measurements are evidently more trustworthy than those which I formerly made, so +I will give them. (4/2. 'Die Befruchtung der Blumen' 1873 page 193.) The numbers +refer to divisions of the micrometer equalling 1/300 millimetres. The grains, +distended with water, from the mid-length stamens are 7 to 7 1/2, and those from +the shortest stamens 6 to 6 1/2 in diameter, or as 100 to 86. The capsules of +this form contain on an average 93 seeds: how this average was obtained will +presently be explained. As these seeds, when cleaned, seemed larger than those +from the mid-styled or short-styled forms, 100 of them were placed in a good +balance, and by the double method of weighing were found to equal 121 seeds of +the mid-styled or 142 of the short-styled; so that five long-styled seeds very +nearly equal six mid-styled or seven short-styled seeds. + +MID-STYLED FORM. + +The pistil occupies the position represented in Figure 4.10, with its extremity +considerably upturned, but to a variable degree; the stigma is seated between +the anthers of the longest and the shortest stamens. The six longest stamens +correspond in length with the pistil of the long-styled form; their filaments +are coloured bright pink; the anthers are dark-coloured, but from containing +bright-green pollen and from their early dehiscence they appear emerald-green. +Hence in general appearance these stamens are remarkably dissimilar from the +mid-length stamens of the long-styled form. The six shortest stamens are +enclosed within the calyx, and resemble in all respects the shortest stamens of +the long-styled form; both these sets correspond in length with the short pistil +of the short-styled form. The green pollen-grains of the longest stamens are 9 +to 10 in diameter, whilst the yellow grains from the shortest stamens are only +6; or as 100 to 63. But the pollen-grains from different plants appeared to me, +in this case and others, to be in some degree variable in size. The capsules +contain on an average 130 seeds; but perhaps, as we shall see, this is rather +too high an average. The seeds themselves, as before remarked, are smaller than +those of the long-styled form. + +SHORT-STYLED FORM. + +The pistil is here very short, not one-third of the length of that of the long- +styled form. It is enclosed within the calyx, which, differently from that in +the other two forms, does not enclose any anthers. The end of the pistil is +generally bent upwards at right angles. The six longest stamens, with their pink +filaments and green pollen, resemble the corresponding stamens of the mid-styled +form. But according to H. Muller, their pollen-grains are a little larger, +namely 9 1/2 to 10 1/2, instead of 9 to 10 in diameter. The six mid-length +stamens, with their uncoloured filaments and yellow pollen, resemble in the size +of their pollen-grains and in all other respects the corresponding stamens of +the long-styled form. The difference in diameter between the grains from the two +sets of anthers in the short-styled form is as 100 to 73. The capsules contain +fewer seeds on an average than those of either of the preceding forms, namely +83.5; and the seeds are considerably smaller. In this latter respect, but not in +number, there is a gradation parallel to that in the length of the pistil, the +long-styled having the largest seeds, the mid-styled the next in size, and the +short-styled the smallest. + +We thus see that this plant exists under three female forms, which differ in the +length and curvature of the style, in the size and state of the stigma, and in +the number and size of the seed. There are altogether thirty-six males or +stamens, and these can be divided into three sets of a dozen each, differing +from one another in length, curvature, and colour of the filaments--in the size +of the anthers, and especially in the colour and diameter of the pollen-grains. +Each form bears half-a-dozen of one kind of stamens and half-a-dozen of another +kind, but not all three kinds. The three kinds of stamens correspond in length +with the three pistils: the correspondence is always between half of the stamens +in two of the forms with the pistil of the third form. Table 4.a of the +diameters of the pollen-grains, after immersion in water, from both sets of +stamens in all three forms is copied from H. Muller; they are arranged in the +order of their size:-- + +TABLE 4.a. Lythrum salicaria. Diameters of pollen-grains after immersion in +water. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +Longest stamens of short-styled form : 9 1/2 : 10 1/2. +Longest stamens of mid-styled form : 9 : 10. +Mid-length stamens of long-styled form : 7 : 7 1/2. +Mid-length stamens of short-styled form : 7 : 7 1/2. +Shortest stamens of long-styled form : 6 : 6 1/2. +Shortest stamens of mid-styled form : 6 : 6. + +We here see that the largest pollen-grains come from the longest stamens, and +the least (smallest) from the shortest; the extreme difference in diameter +between them being as 100 to 60. + +The average number of seeds in the three forms was ascertained by counting them +in eight fine selected capsules taken from plants growing wild, and the result +was, as we have seen, for the long-styled (neglecting decimals) 93, mid-styled +130, and short-styled 83. I should not have trusted in these ratios had I not +possessed a number of plants in my garden which, owing to their youth, did not +yield the full complement of seed, but were of the same age and grew under the +same conditions, and were freely visited by bees. I took six fine capsules from +each, and found the average to be for the long-styled 80, for the mid-styled 97, +and for the short-styled 61. Lastly, legitimate unions effected by me between +the three forms gave, as may be seen in the following tables, for the long- +styled an average of 90 seeds, for the mid-styled 117, and for the short-styled +71. So that we have good concurrent evidence of a difference in the average +production of seed by the three forms. To show that the unions effected by me +often produced their full effect and may be trusted, I may state that one mid- +styled capsule yielded 151 good seeds, which is the same number as in the finest +wild capsule which I examined. Some artificially fertilised short- and long- +styled capsules produced a greater number of seeds than was ever observed by me +in wild plants of the same forms, but then I did not examine many of the latter. +This plant, I may add, offers a remarkable instance, how profoundly ignorant we +are of the life-conditions of a species. Naturally it grows "in wet ditches, +watery places, and especially on the banks of streams," and though it produces +so many minute seeds, it never spreads on the adjoining land; yet, when planted +in my garden, on clayey soil lying over chalk, and which is so dry that a rush +cannot be found, it thrives luxuriantly, grows to above 6 feet in height, +produces self-sown seedlings, and (which is a severer test) is as fertile as in +a state of nature. Nevertheless it would be almost a miracle to find this plant +growing spontaneously on such land as that in my garden. + +According to Vaucher and Wirtgen, the three forms coexist in all parts of +Europe. Some friends gathered for me in North Wales a number of twigs from +separate plants growing near one another, and classified them. My son did the +same in Hampshire, and here is the result:-- + +TABLE 4.22. Lythrum salicaria. Classification according to form of flower. + +Column 1: Place of origin. +Column 2: Long-styled. +Column 3: Mid-styled. +Column 4: Short-styled. +Column 5: Total. + +North Wales : 95 : 97 : 72 : 264. +Hampshire : 53 : 38 : 38 : 129. +Total : 148 : 135 : 110 : 393. + +If twice or thrice the number had been collected, the three forms would probably +have been found nearly equal; I infer this from considering the above figures, +and from my son telling me that if he had collected in another spot, he felt +sure that the mid-styled plants would have been in excess. I several times sowed +small parcels of seed, and raised all three forms; but I neglected to record the +parent-form, excepting in one instance, in which I raised from short-styled seed +twelve plants, of which only one turned out long-styled, four mid-styled, and +seven short-styled. + +Two plants of each form were protected from the access of insects during two +successive years, and in the autumn they yielded very few capsules and presented +a remarkable contrast with the adjoining uncovered plants, which were densely +covered with capsules. In 1863 a protected long-styled plant produced only five +poor capsules; two mid-styled plants produced together the same number; and two +short-styled plants only a single one. These capsules contained very few seeds; +yet the plants were fully productive when artificially fertilised under the net. +In a state of nature the flowers are incessantly visited for their nectar by +hive- and other bees, various Diptera and Lepidoptera. (4/3. H. Muller gives a +list of the species 'Die Befruchtung der Blumen' page 196. It appears that one +bee, the Cilissa melanura, almost confines its visits to this plant.) The nectar +is secreted all round the base of the ovarium; but a passage is formed along the +upper and inner side of the flower by the lateral deflection (not represented in +the diagram) of the basal portions of the filaments; so that insects invariably +alight on the projecting stamens and pistil, and insert their proboscides along +the upper and inner margin of the corolla. We can now see why the ends of the +stamens with their anthers, and the ends of the pistils with their stigmas, are +a little upturned, so that they may be brushed by the lower hairy surfaces of +the insects' bodies. The shortest stamens which lie enclosed within the calyx of +the long- and mid-styled forms can be touched only by the proboscis and narrow +chin of a bee; hence they have their ends more upturned, and they are graduated +in length, so as to fall into a narrow file, sure to be raked by the thin +intruding proboscis. The anthers of the longer stamens stand laterally farther +apart and are more nearly on the same level, for they have to brush against the +whole breadth of the insect's body. In very many other flowers the pistil, or +the stamens, or both, are rectangularly bent to one side of the flower. This +bending may be permanent, as with Lythrum and many others, or may be effected, +as in Dictamnus fraxinella and others, by a temporary movement, which occurs in +the case of the stamens when the anthers dehisce, and in the case of the pistil +when the stigma is mature; but these two movements do not always take place +simultaneously in the same flower. Now I have found no exception to the rule, +that when the stamens and pistil are bent, they bend to that side of the flower +which secretes nectar, even though there be a rudimentary nectary of large size +on the opposite side, as in some species of Corydalis. When nectar is secreted +on all sides, they bend to that side where the structure of the flower allows +the easiest access to it, as in Lythrum, various Papilionaceae, and others. The +rule consequently is, that when the pistils and stamens are curved or bent, the +stigma and anthers are thus brought into the pathway leading to the nectary. +There are a few cases which seem to be exceptions to this rule, but they are not +so in truth; for instance, in the Gloriosa lily, the stigma of the grotesque and +rectangularly bent pistil is brought, not into any pathway from the outside +towards the nectar-secreting recesses of the flower, but into the circular route +which insects follow in proceeding from one nectary to the other. In +Scrophularia aquatica the pistil is bent downwards from the mouth of the +corolla, but it thus strikes the pollen-dusted breast of the wasps which +habitually visit these ill-scented flowers. In all these cases we see the +supreme dominating power of insects on the structure of flowers, especially of +those which have irregular corollas. Flowers which are fertilised by the wind +must of course be excepted; but I do not know of a single instance of an +irregular flower which is thus fertilised. + +Another point deserves notice. In each of the three forms two sets of stamens +correspond in length with the pistils in the other two forms. When bees suck the +flowers, the anthers of the longest stamens, bearing the green pollen, are +rubbed against the abdomen and the inner sides of the hind legs, as is likewise +the stigma of the long-styled form. The anthers of the mid-length stamens and +the stigma of the mid-styled form are rubbed against the under side of the +thorax and between the front pair of legs. And, lastly, the anthers of the +shortest stamens and the stigma of the short-styled form are rubbed against the +proboscis and chin: for the bees in sucking the flowers insert only the front +part of their heads into the flower. On catching bees, I observed much green +pollen on the inner sides of the hind legs and on the abdomen, and much yellow +pollen on the under side of the thorax. There was also pollen on the chin, and, +it may be presumed, on the proboscis, but this was difficult to observe. I had, +however, independent proof that pollen is carried on the proboscis; for a small +branch of a protected short-styled plant (which produced spontaneously only two +capsules) was accidentally left during several days pressing against the net, +and bees were seen inserting their proboscides through the meshes, and in +consequence numerous capsules were formed on this one small branch. From these +several facts it follows that insects will generally carry the pollen of each +form from the stamens to the pistil of corresponding length; and we shall +presently see the importance of this adaptation. It must not, however, be +supposed that the bees do not get more or less dusted all over with the several +kinds of pollen; for this could be seen to occur with the green pollen from the +longest stamens. Moreover a case will presently be given of a long-styled plant +producing an abundance of capsules, though growing quite by itself, and the +flowers must have been fertilised by their own kinds of pollen; but these +capsules contained a very poor average of seed. Hence insects, and chiefly bees, +act both as general carriers of pollen, and as special carriers of the right +sort. + +Wirtgen remarks on the variability of this plant in the branching of the stem, +in the length of the bracteae, size of the petals, and in several other +characters. (4/4. 'Verhand. des naturhist. Vereins fur Pr. Rheinl.' 5 Jahrgang +1848 pages 11, 13.) The plants which grew in my garden had their leaves, which +differed much in shape, arranged oppositely, alternately, or in whorls of three. +In this latter case the stems were hexagonal; those of the other plants being +quadrangular. But we are concerned chiefly, with the reproductive organs: the +upward bending of the pistil is variable, and especially in the short-styled +form, in which it is sometimes straight, sometimes slightly curved, but +generally bent at right angles. The stigma of the long-styled pistil frequently +has longer papillae or is rougher than that of the mid-styled, and the latter +than that of the short-styled; but this character, though fixed and uniform in +the two forms of Primula veris, etc., is here variable, for I have seen mid- +styled stigmas rougher than those of the long-styled. (4/5. The plants which I +observed grew in my garden, and probably varied rather more than those growing +in a state of nature. H. Muller has described the stigmas of all three forms +with great care, and he appears to have found the stigmatic papillae differing +constantly in length and structure in the three forms, being longest in the +long-styled form.) The degree to which the longest and mid-length stamens are +graduated in length and have their ends upturned is variable; sometimes all are +equally long. The colour of the green pollen in the longest stamens is variable, +being sometimes pale greenish-yellow; in one short-styled plant it was almost +white. The grains vary a little in size: I examined one short-styled plant with +the grains from the mid-length and shortest anthers of the same size. We here +see great variability in many important characters; and if any of these +variations were of service to the plant, or were correlated with useful +functional differences, the species is in that state in which natural selection +might readily do much for its modification. + +ON THE POWER OF MUTUAL FERTILISATION BETWEEN THE THREE FORMS. + +Nothing shows more clearly the extraordinary complexity of the reproductive +system of this plant, than the necessity of making eighteen distinct unions in +order to ascertain the relative fertilising power of the three forms. Thus the +long-styled form has to be fertilised with pollen from its own two kinds of +anthers, from the two in the mid-styled, and from the two in the short-styled +form. The same process has to be repeated with the mid-styled and short-styled +forms. It might have been thought sufficient to have tried on each stigma the +green pollen, for instance, from either the mid- or short-styled longest +stamens, and not from both; but the result proves that this would have been +insufficient, and that it was necessary to try all six kinds of pollen on each +stigma. As in fertilising flowers there will always be some failures, it would +have been advisable to have repeated each of the eighteen unions a score of +times; but the labour would have been too great; as it was, I made 223 unions, +i.e. on an average I fertilised above a dozen flowers in the eighteen different +methods. Each flower was castrated; the adjoining buds had to be removed, so +that the flowers might be safely marked with thread, wool, etc.; and after each +fertilisation the stigma was examined with a lens to see that there was +sufficient pollen on it. Plants of all three forms were protected during two +years by large nets on a framework; two plants were used during one or both +years, in order to avoid any individual peculiarity in a particular plant. As +soon as the flowers had withered, the nets were removed; and in the autumn the +capsules were daily inspected and gathered, the ripe seeds being counted under +the microscope. I have given these details that confidence may be placed in the +following tables, and as some excuse for two blunders which, I believe, were +made. These blunders are referred to, with their probable cause, in two +footnotes to the tables. The erroneous numbers, however, are entered in the +tables, that it may not be supposed that I have in any one instance tampered +with the results. + +A few words explanatory of the three tables must be given. Each is devoted to +one of the three forms, and is divided into six compartments. The two upper ones +in each table show the number of good seeds resulting from the application to +the stigma of pollen from the two sets of stamens which correspond in length +with the pistil of that form, and which are borne by the other two forms. Such +unions are of a legitimate nature. The two next lower compartments show the +result of the application of pollen from the two sets of stamens, not +corresponding in length with the pistil, and which are borne by the other two +forms. These unions are illegitimate. The two lowest compartments show the +result of the application of each form's own two kinds of pollen from the two +sets of stamens belonging to the same form, and which do not equal the pistil in +length. These unions are likewise illegitimate. The term own-form pollen here +used does not mean pollen from the flower to be fertilised--for this was never +used--but from another flower on the same plant, or more commonly from a +distinct plant of the same form. The figure "0" means that no capsule was +produced, or if a capsule was produced that it contained no good seed. In some +part of each row of figures in each compartment, a short horizontal line may be +seen; the unions above this line were made in 1862, and below it in 1863. It is +of importance to observe this, as it shows that the same general result was +obtained during two successive years; but more especially because 1863 was a +very hot and dry season, and the plants had occasionally to be watered. This did +not prevent the full complement of seed being produced from the more fertile +unions; but it rendered the less fertile ones even more sterile than they +otherwise would have been. I have seen striking instances of this fact in making +illegitimate and legitimate unions with Primula; and it is well known that the +conditions of life must be highly favourable to give any chance of success in +producing hybrids between species which are crossed with difficulty. + +TABLE 4.23. Lythrum salicaria, long-styled form. + +TABLE 4.23.1. Legitimate union. + +13 flowers fertilised by the longest stamens of the mid-styled. These stamens +equal in length the pistil of the long-styled. + +Product of good seed in each capsule. + + 36 53 + 81 0 + 0 0 + 0 0 + 0 0 + - 0 + 45 + 41 + +38 percent of these flowers yielded capsules. Each capsule contained, on an +average, 51.2 seeds. + +TABLE 4.23.2. Legitimate union. + +13 flowers fertilised by the longest stamens of the short-styled. These stamens +equal in length the pistil of the long-styled. + +Product of good seed in each capsule. + + 159 104 + 43 119 + 96 poor seed. 96 + 103 99 + 0 131 + 0 116 + - + 114 + +84 percent of these flowers yielded capsules. Each capsule contained, on an +average, 107.3 seeds. + +TABLE 4.23.3. Illegitimate union. + +14 flowers fertilised by the shortest stamens of the mid-styled. + + 3 0 + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.23.4. Illegitimate union. + +12 flowers fertilised by the mid-length stamens of the short-styled. + + 20 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.23.5. Illegitimate union. + +15 flowers fertilised by own-form mid-length stamens. + + 2 - + 10 0 + 23 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 + +Too sterile for any average. + +TABLE 4.23.6. Illegitimate union. + +15 flowers fertilised by own-form shortest stamens. + + 4 - + 8 0 + 4 0 + 0 0 + 0 0 + 0 0 + 0 0 + 0 0 + +Too sterile for any average. + +Besides the above experiments, I fertilised a considerable number of long-styled +flowers with pollen, taken by a camel's-hair brush, from both the mid-length and +shortest stamens of their own form: only 5 capsules were produced, and these +yielded on an average 14.5 seeds. In 1863 I tried a much better experiment: a +long-styled plant was grown by itself, miles away from any other plant, so that +the flowers could have received only their own two kinds of pollen. The flowers +were incessantly visited by bees, and their stigmas must have received +successive applications of pollen on the most favourable days and at the most +favourable hours: all who have crossed plants know that this highly favours +fertilisation. This plant produced an abundant crop of capsules; I took by +chance 20 capsules, and these contained seeds in number as follows:-- + + 20 20 35 21 19 + 26 24 12 23 10 + 7 30 27 29 13 + 20 12 29 19 35 + +This gives an average of 21.5 seeds per capsule. As we know that the long-styled +form, when standing near plants of the other two forms and fertilised by +insects, produces on an average 93 seeds per capsule, we see that this form, +fertilised by its own two pollens, yields only between one-fourth and one-fifth +of the full number of seed. I have spoken as if the plant had received both its +own kinds of pollen, and this is, of course, possible; but, from the enclosed +position of the shortest stamens, it is much more probable that the stigma +received exclusively pollen from the mid-length stamens; and this, as may be +seen in Table 4.23.5, is the more fertile of the two self-unions. + +TABLE 4.24. Lythrum salicaria, mid-styled form. + +TABLE 4.24.1. Legitimate union. + +12 flowers fertilised by the mid-length stamens of the long-styled. These +stamens equal in length the pistil of the mid-styled. + +Product of good seed in each capsule. + + 138 122 + 149 50 + 147 151 + 109 119 + 133 138 + 144 0 + - + +92 percent of these flowers (probably 100 per cent) yielded capsules. Each +capsule contained, on an average, 127.3 seeds. + +TABLE 4.24.2. Legitimate union. + +12 flowers fertilised by the mid-length stamens of the short-styled. These +stamens equal in length the pistil of the mid-styled. + +Product of good seed in each capsule. + + 112 109 + 130 143 + 143 124 + 100 145 + 33 12 + - 141 + 104 + +100 percent of these flowers yielded capsules. Each capsule contained, on an +average, 108.0 seeds; or, excluding capsules with less than 20 seeds, the +average is 116.7 seeds. + +TABLE 4.24.3. Illegitimate union. + +13 flowers fertilised by the shortest stamens of the long-styled. + + 83 12 + 0 19 + 0 85 seeds small and poor. + - 0 + 44 0 + 44 0 + 45 0 + +54 percent of these flowers yielded capsules. Each capsule contained, on an +average, 47.4 seeds; or, excluding capsules with less than 20 seeds, the average +is 60.2 seeds. + +TABLE 4.24.4. Illegitimate union. + +15 flowers fertilised by the longest stamens of the short-styled. + + 130 86 + 115 113 + 14 29 + 6 17 + 2 113 + 9 79 + - 128 + 132 0 + +93 percent of these flowers yielded capsules. Each capsule contained, on an +average, 69.5 seeds; or, excluding capsules with less than 20 seeds, the average +is 102.8 seeds. + +TABLE 4.24.5. Illegitimate union. + +12 flowers fertilised by own-form longest stamens. + + 92 0 + 9 0 + 63 0 + - 0 + 136?* 0 + 0 0 + 0 + +(4/6. * I have hardly a doubt that this result of 136 seeds in Table 4.24.5 was +due to a gross error. The flowers to be fertilised by their own longest stamens +were first marked by "white thread," and those by the mid-length stamens of the +long-styled form by "white silk;" a flower fertilised in the later manner would +have yielded about 136 seeds, and it may be observed that one such pod is +missing, namely at the bottom of Table 4.24.1. Therefore I have hardly any doubt +that I fertilised a flower marked with "white thread" as if it had been marked +with "white silk." With respect to the capsule which yielded 92 seeds, in the +same column with that which yielded 136, I do not know what to think. I +endeavoured to prevent pollen dropping from an upper to a lower flower, and I +tried to remember to wipe the pincers carefully after each fertilisation; but in +making eighteen different unions, sometimes on windy days, and pestered by bees +and flies buzzing about, some few errors could hardly be avoided. One day I had +to keep a third man by me all the time to prevent the bees visiting the +uncovered plants, for in a few seconds' time they might have done irreparable +mischief. It was also extremely difficult to exclude minute Diptera from the +net. In 1862 I made the great mistake of placing a mid-styled and long-styled +under the same huge net: in 1863 I avoided this error.) + +Excluding the capsule with 136 seeds, 25 percent of the flowers yielded +capsules, and each capsule contained, on an average, 54.6 seeds; or, excluding +capsules with less than 20 seeds, the average is 77.5. + +TABLE 4.24.6. Illegitimate union. + +12 flowers fertilised by own-form shortest stamens. + + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 0 + 0 + +Not one flower yielded a capsule. + +Besides the experiments in Table 4.24, I fertilised a considerable number of +mid-styled flowers with pollen, taken by a camel's-hair brush, from both the +longest and shortest stamens of their own form: only 5 capsules were produced, +and these yielded on an average 11.0 seeds. + +TABLE 4.25. Lythrum salicaria, short-styled form. + +TABLE 4.25.1. Legitimate union. + +12 flowers fertilised by the shortest stamens of the long-styled. These stamens +equal in length the pistil of the short-styled. + + 69 56 + 61 88 + 88 112 + 66 111 + 0 62 + 0 100 + - + +83 percent of the flowers yielded capsules. Each capsule contained, on an +average, 81.3 seeds. + +TABLE 4.25.2. Legitimate union. + +13 flowers fertilised by the shortest stamens of the mid-styled. These stamens +equal in length the pistil of the short-styled. + + 93 69 + 77 69 + 48 53 + 43 9 + 0 0 + 0 0 + - 0 + +61 percent of the flowers yielded capsules. Each capsule contained, on an +average, 64.6 seeds. + +TABLE 4.25.3. Illegitimate union. + +10 flowers fertilised by the mid-length stamens of the long-styled. + + 0 14 + 0 0 + 0 0 + 0 0 + - 0 + 23 + +Too sterile for any average. + +TABLE 4.25.4. Illegitimate union. +10 flowers fertilised by the longest stamens of the mid-styled. + + 0 0 + 0 0 + 0 0 + 0 0 + - 0 + 0 + +Too sterile for any average. + +TABLE 4.25.5. Illegitimate union. + +10 flowers fertilised by own-form longest stamens. + + 0 0 + 0 0 + 0 0 + - 0 + 0 0 + 0 + +Too sterile for any average. + +TABLE 4.25.6. Illegitimate union. + +10 flowers fertilised by own-form mid-length stamens. + + 64?* 0 + 0 0 + 0 0 + - 0 + 21 0 + 9 + +(4/7. *I suspect that by mistake I fertilised this flower in Table 4.25.6 with +pollen from the shortest stamens of the long-styled form, and it would then have +yielded about 64 seeds. Flowers to be thus fertilised were marked with black +silk; those with pollen from the mid-length stamens of the short-styled with +black thread; and thus probably the mistake arose.) + +Too sterile for any average. + +Besides the experiments in the table, I fertilised a number of flowers without +particular care with their own two kinds of pollen, but they did not produce a +single capsule. + +SUMMARY OF THE RESULTS. + +LONG-STYLED FORM. + +Twenty-six flowers fertilised legitimately by the stamens of corresponding +length, borne by the mid-and short-styled forms, yielded 61.5 per cent of +capsules, which contained on an average 89.7 seeds. + +Twenty-six long-styled flowers fertilised illegitimately by the other stamens of +the mid-and short-styled forms yielded only two very poor capsules. + +Thirty long-styled flowers fertilised illegitimately by their own-form two sets +of stamens yielded only eight very poor capsules; but long-styled flowers +fertilised by bees with pollen from their own stamens produced numerous capsules +containing on an average 21.5 seeds. + +MID-STYLED FORM. + +Twenty-four flowers legitimately fertilised by the stamens of corresponding +length, borne by the long and short-styled forms, yielded 96 (probably 100) per +cent of capsules, which contained (excluding one capsule with 12 seeds) on an +average 117.2 seeds. + +Fifteen mid-styled flowers fertilised illegitimately by the longest stamens of +the short-styled form yielded 93 per cent of capsules, which (excluding four +capsules with less than 20 seeds) contained on an average 102.8 seeds. + +Thirteen mid-styled flowers fertilised illegitimately by the mid-length stamens +of the long-styled form yielded 54 per cent of capsules, which (excluding one +with 19 seeds) contained on an average 60.2 seeds. + +Twelve mid-styled flowers fertilised illegitimately by their own-form longest +stamens yielded 25 per cent of capsules, which (excluding one with 9 seeds) +contained on an average 77.5 seeds. + +Twelve mid-styled flowers fertilised illegitimately by their own-form shortest +stamens yielded not a single capsule. + +SHORT-STYLED FORM. + +Twenty-five flowers fertilised legitimately by the stamens of corresponding +length, borne by the long and mid-styled forms, yielded 72 per cent of capsules, +which (excluding one capsule with only 9 seeds) contained on an average 70.8 +seeds. + +Twenty short-styled flowers fertilised illegitimately by the other stamens of +the long and mid-styled forms yielded only two very poor capsules. + +Twenty short-styled flowers fertilised illegitimately by their own stamens +yielded only two poor (or perhaps three) capsules. + +If we take all six legitimate unions together, and all twelve illegitimate +unions together, we get the following results: + +TABLE 4.26. + +Column 1: Nature of union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. +Column 5: Average Number of Seeds per Flower fertilised. + +The six legitimate unions : 75 : 56 : 96.29 : 71.89. +The twelve illegitimate unions : 146 : 36 : 44.72 : 11.03. + +Therefore the fertility of the legitimate unions to that of the illegitimate, as +judged by the proportion of the fertilised flowers which yielded capsules, is as +100 to 33; and judged by the average number of seeds per capsule, as 100 to 46. + +From this summary and the several foregoing tables we see that it is only pollen +from the longest stamens which can fully fertilise the longest pistil; only that +from the mid-length stamens, the mid-length pistil; and only that from the +shortest stamens, the shortest pistil. And now we can comprehend the meaning of +the almost exact correspondence in length between the pistil in each form and a +set of six stamens in two of the other forms; for the stigma of each form is +thus rubbed against that part of the insect's body which becomes charged with +the proper pollen. It is also evident that the stigma of each form, fertilised +in three different ways with pollen from the longest, mid-length, and shortest +stamens, is acted on very differently, and conversely that the pollen from the +twelve longest, twelve mid-length, and twelve shortest stamens acts very +differently on each of the three stigmas; so that there are three sets of female +and of male organs. Moreover, in most cases the six stamens of each set differ +somewhat in their fertilising power from the six corresponding ones in one of +the other forms. We may further draw the remarkable conclusion that the greater +the inequality in length between the pistil and the set of stamens, the pollen +of which is employed for its fertilisation, by so much is the sterility of the +union increased. There are no exceptions to this rule. To understand what +follows the reader should look to Tables 4.23, 4.24 and 4.25, and to the diagram +Figure 4.10. In the long-styled form the short stamens obviously differ in +length from the pistil to a greater degree than do the mid-length stamens; and +the capsules produced by the use of pollen from the shortest stamens contain +fewer seeds than those produced by the pollen from the mid-length stamens. The +same result follows with the long-styled form, from the use of the pollen of +shortest stamens of the mid-styled form and of the mid-length stamens of the +short-styled form. The same rule also holds good with the mid-styled and short- +styled forms, when illegitimately fertilised with pollen from the stamens more +or less unequal in length to their pistils. Certainly the difference in +sterility in these several cases is slight; but, as far as we are enabled to +judge, it always increases with the increasing inequality of length between the +pistil and the stamens which are used in each case. + +The correspondence in length between the pistil in each form and a set of +stamens in the other two forms, is probably the direct result of adaptation, as +it is of high service to the species by leading to full and legitimate +fertilisation. But the rule of the increased sterility of the illegitimate +unions according to the greater inequality in length between the pistils and +stamens employed for the union can be of no service. With some heterostyled +dimorphic plants the difference of fertility between the two illegitimate unions +appears at first sight to be related to the facility of self-fertilisation; so +that when from the position of the parts the liability in one form to self- +fertilisation is greater than in the other, a union of this kind has been +checked by having been rendered the more sterile of the two. But this +explanation does not apply to Lythrum; thus the stigma of the long-styled form +is more liable to be illegitimately fertilised with pollen from its own mid- +length stamens, or with pollen from the mid-length stamens of the short-styled +form, than by its own shortest stamens or those of the mid-styled form; yet the +two former unions, which it might have been expected would have been guarded +against by increased sterility, are much less likely to be effected. The same +relation holds good even in a more striking manner with the mid-styled form, and +with the short-styled form as far as the extreme sterility of all its +illegitimate unions allows of any comparison. We are led, therefore, to conclude +that the rule of increased sterility in accordance with increased inequality in +length between the pistils and stamens, is a purposeless result, incidental on +those changes through which the species has passed in acquiring certain +characters fitted to ensure the legitimate fertilisation of the three forms. + +Another conclusion which may be drawn from Tables 4.23, 4.24, and 4.25, even +from a glance at them, is that the mid-styled form differs from both the others +in its much higher capacity for fertilisation in various ways. Not only did the +twenty-four flowers legitimately fertilised by the stamens of corresponding +lengths, all, or all but one, yield capsules rich in seed; but of the other four +illegitimate unions, that by the longest stamens of the short-styled form was +highly fertile, though less so than the two legitimate unions, and that by the +mid-length stamens of the long-styled form was fertile to a considerable degree; +the remaining two illegitimate unions, namely, with this form's own pollen, were +sterile, but in different degrees. So that the mid-styled form, when fertilised +in the six different possible methods, evinces five grades of fertility. By +comparing Tables 4.24.3 and 4.24.6 we may see that the action of the pollen from +the shortest stamens of the long-styled and mid-styled forms is widely +different; in the one case above half the fertilised flowers yielded capsules +containing a fair number of seeds; in the other case not one capsule was +produced. So, again, the green, large-grained pollen from the longest stamens of +the short-styled and mid-styled forms (in Tables 4.24.4 and 4.24.5) is widely +different. In both these cases the difference in action is so plain that it +cannot be mistaken, but it can be corroborated. If we look to Table 4.25 to the +legitimate action of the shortest stamens of the long- and mid-styled forms on +the short-styled form, we again see a similar but slighter difference, the +pollen of the shortest stamens of the mid-styled form yielding a smaller average +of seed during the two years of 1862 and 1863 than that from the shortest +stamens of the long-styled form. Again, if we look to Table 4.23, to the +legitimate action on the long-styled form of the green pollen of the two sets of +longest stamens, we shall find exactly the same result, namely, that the pollen +from the longest stamens of the mid-styled form yielded during both years fewer +seeds than that from the longest stamens of the short-styled form. Hence it is +certain that the two kinds of pollen produced by the mid-styled form are less +potent than the two similar kinds of pollen produced by the corresponding +stamens of the other two forms. + +In close connection with the lesser potency of the two kinds of pollen of the +mid-styled form is the fact that, according to H. Muller, the grains of both are +a little less in diameter than the corresponding grains produced by the other +two forms. Thus the grains from the longest stamens of the mid-styled form are 9 +to 10, whilst those from the corresponding stamens of the short-styled form are +9 1/2 to 10 1/2 in diameter. So, again, the grains from the shortest stamens of +the mid-styled are 6, whilst those from the corresponding stamens of the long- +styled are 6 to 6 1/2 in diameter. It would thus appear as if the male organs of +the mid-styled form, though not as yet rudimentary, were tending in this +direction. On the other hand, the female organs of this form are in an eminently +efficient state, for the naturally fertilised capsules yielded a considerably +larger average number of seeds than those of the other two forms--almost every +flower which was artificially fertilised in a legitimate manner produced a +capsule--and most of the illegitimate unions were highly productive. The mid- +styled form thus appears to be highly feminine in nature; and although, as just +remarked, it is impossible to consider its two well-developed sets of stamens +which produce an abundance of pollen as being in a rudimentary condition, yet we +can hardly avoid connecting as balanced the higher efficiency of the female +organs in this form with the lesser efficiency and lesser size of its two kinds +of pollen-grains. The whole case appears to me a very curious one. + +It may be observed in Tables 4.23 to 4.25 that some of the illegitimate unions +yielded during neither year a single seed; but, judging from the long-styled +plants, it is probable, if such unions were to be effected repeatedly by the aid +of insects under the most favourable conditions, some few seeds would be +produced in every case. Anyhow, it is certain that in all twelve illegitimate +unions the pollen-tubes penetrated the stigma in the course of eighteen hours. +At first I thought that two kinds of pollen placed together on the same stigma +would perhaps yield more seed than one kind by itself; but we have seen that +this is not so with each form's own two kinds of pollen; nor is it probable in +any case, as I occasionally got, by the use of a single kind of pollen, fully as +many seeds as a capsule naturally fertilised ever produces. Moreover the pollen +from a single anther is far more than sufficient to fertilise fully a stigma; +hence, in this as with so many other plants, more than twelve times as much of +each kind of pollen is produced as is necessary to ensure the full fertilisation +of each form. From the dusted condition of the bodies of the bees which I caught +on the flowers, it is probable that pollen of various kinds is often deposited +on all three stigmas; but from the facts already given with respect to the two +forms of Primula, there can hardly be a doubt that pollen from the stamens of +corresponding length placed on a stigma would be prepotent over any other kind +of pollen and obliterate its effects,--even if the latter had been placed on the +stigma some hours previously. + +Finally, it has now been shown that Lythrum salicaria presents the extraordinary +case of the same species bearing three females, different in structure and +function, and three or even five sets (if minor differences are considered) of +males; each set consisting of half-a-dozen, which likewise differ from one +another in structure and function. + +[Lythrum Graefferi. + +I have examined numerous dried flowers of this species, each from a separate +plant, sent me from Kew. Like L. salicaria, it is trimorphic, and the three +forms apparently occur in about equal numbers. In the long-styled form the +pistil projects about one-third of the length of the calyx beyond its mouth, and +is therefore relatively much shorter than in L. salicaria; the globose and +hirsute stigma is larger than that of the other two forms; the six mid-length +stamens, which are graduated in length, have their anthers standing close above +and close beneath the mouth of the calyx; the six shortest stamens rise rather +above the middle of the calyx. In the mid-styled form the stigma projects just +above the mouth of the calyx, and stands almost on a level with the mid-length +stamens of the long and short-styled forms; its own longest stamens project well +above the mouth of the calyx, and stand a little above the level of the stigma +of the long-styled form. In short, without entering on further details, there is +a close general correspondence in structure between this species and L. +salicaria, but with some differences in the proportional lengths of the parts. +The fact of each of the three pistils having two sets of stamens of +corresponding lengths, borne by the two other forms, comes out conspicuously. In +the mid-styled form the pollen-grains from the longest stamens are nearly double +the diameter of those from the shortest stamens; so that there is a greater +difference in this respect than in L. salicaria. In the long-styled form, also, +the difference in diameter between the pollen-grains of the mid-length and +shortest stamens is greater than in L. salicaria. These comparisons, however, +must be received with caution, as they were made on specimens soaked in water +after having been long kept dry. + +Lythrum thymifolia. + +This form, according to Vaucher, is dimorphic, like Primula, and therefore +presents only two forms. (4/8. 'Hist. Phys. des Plantes d'Europe' tome 2 1841 +pages 369, 371.) I received two dried flowers from Kew, which consisted of the +two forms; in one the stigma projected far beyond the calyx, in the other it was +included within the calyx; in this latter form the style was only one-fourth of +the length of that in the other form. There are only six stamens; these are +somewhat graduated in length, and their anthers in the short-styled form stand a +little above the stigma, but yet by no means equal in length the pistil of the +long-styled form. In the latter the stamens are rather shorter than those in the +other form. The six stamens alternate with the petals, and therefore correspond +homologically with the longest stamens of L. salicaria and L. Graefferi. + +Lythrum hyssopifolia. + +This species is said by Vaucher, but I believe erroneously, to be dimorphic. I +have examined dried flowers from twenty-two separate plants from various +localities, sent to me by Mr. Hewett C. Watson, Professor Babington, and others. +These were all essentially alike, so that the species cannot be heterostyled. +The pistil varies somewhat in length, but when unusually long, the stamens are +likewise generally long; in the bud the stamens are short; and Vaucher was +perhaps thus deceived. There are from six to nine stamens, graduated in length. +The three stamens, which vary in being either present or absent, correspond with +the six shorter stamens of L. salicaria and with the six which are always absent +in L. thymifolia. The stigma is included within the calyx, and stands in the +midst of the anthers, and would generally be fertilised by them; but as the +stigma and anthers are upturned, and as, according to Vaucher, there is a +passage left in the upper side of the flower to the nectary, there can hardly be +a doubt that the flowers are visited by insects, and would occasionally be +cross-fertilised by them, as surely as the flowers of the short-styled L. +salicaria, the pistil of which and the corresponding stamens in the other two +forms closely resemble those of L. hyssopifolia. According to Vaucher and Lecoq, +this species, which is an annual, generally grows almost solitarily (4/9. +'Geograph. Bot. de l'Europe' tome 6 1857 page 157.), whereas the three preceding +species are social; and this fact alone would almost have convinced me that L. +hyssopifolia was not heterostyled, as such plants cannot habitually live +isolated any better than one sex of a dioecious species. + +We thus see that within this genus some species are heterostyled and trimorphic; +one apparently heterostyled and dimorphic, and one homostyled. + +Nesaea verticillata. + +I raised a number of plants from seed sent me by Professor Asa Gray, and they +presented three forms. These differed from one another in the proportional +lengths of their organs of fructification and in all respects, in very nearly +the same way as the three forms of Lythrum Graefferi. The green pollen-grains +from the longest stamens, measured along their longer axis and not distended +with water, were 13/7000 of an inch in length; those from the mid-length stamens +9 to 10/7000, and those from the shortest stamens 8 to 9/7000 of an inch. So +that the largest pollen-grains are to the smallest in diameter as 100 to 65. +This plant inhabits swampy ground in the United States. According to Fritz +Muller, a species of this genus in St. Catharina, in Southern Brazil, is +homostyled. (4/10. 'Botanische Zeitung' 1868 page 112.) + +Lagerstroemia Indica. + +This plant, a member of the Lythraceae, may perhaps be heterostyled, or may +formerly have been so. It is remarkable from the extreme variability of its +stamens. On a plant, growing in my hothouse, the flowers included from nineteen +to twenty-nine short stamens with yellow pollen, which correspond in position +with the shortest stamens of Lythrum; and from one to five (the latter number +being the commonest) very long stamens, with thick flesh-coloured filaments and +green pollen, corresponding in position with the longest stamens of Lythrum. In +one flower, two of the long stamens produced green, while a third produced +yellow pollen, although the filaments of all three were thick and flesh- +coloured. In an anther of another flower, one cell contained green and the other +yellow pollen. The green and yellow pollen-grains from the stamens of different +length are of the same size. The pistil is a little bowed upwards, with the +stigma seated between the anthers of the short and long stamens, so that this +plant was mid-styled. Eight flowers were fertilised with green pollen, and six +with yellow pollen, but not one set fruit. This latter fact by no means proves +that the plant is heterostyled, as it may belong to the class of self-sterile +species. Another plant growing in the Botanic Gardens at Calcutta, as Mr. J. +Scott informs me, was long-styled, and it was equally sterile with its own +pollen; whilst a long-styled plant of L. reginae, though growing by itself, +produced fruit. I examined dried flowers from two plants of L. parviflora, both +of which were long-styled, and they differed from L. Indica in having eight long +stamens with thick filaments, and a crowd of shorter stamens. Thus the evidence +whether L. Indica is heterostyled is curiously conflicting: the unequal number +of the short and long stamens, their extreme variability, and especially the +fact of their pollen-grains not differing in size, are strongly opposed to this +belief; on the other hand, the difference in length of the pistils in two of the +plants, their sterility with their own pollen, and the difference in length and +structure of the two sets of stamens in the same flower, and in the colour of +their pollen, favour the belief. We know that when plants of any kind revert to +a former condition, they are apt to be highly variable, and the two halves of +the same organ sometimes differ much, as in the case of the above-described +anther of the Lagerstroemia; we may therefore suspect that this species was once +heterostyled, and that it still retains traces of its former state, together +with a tendency to revert more completely to it. It deserves notice, as bearing +on the nature of Lagerstroemia, that in Lythrum hyssopifolia, which is a +homostyled species, some of the shorter stamens vary in being either present or +absent; and that these same stamens are altogether absent in L. thymifolia. In +another genus of the Lythraceae, namely Cuphea, three species raised by me from +seed certainly were homostyled; nevertheless their stamens consisted of two +sets, differing in length and in the colour and thickness of their filaments, +but not in the size or colour of their pollen-grains; so that they thus far +resembled the stamens of Lagerstroemia. I found that Cuphea purpurea was highly +fertile with its own pollen when artificially aided, but sterile when insects +were excluded. (4/11. Mr. Spence informs me that in several species of the genus +Mollia (Tiliaceae) which he collected in South America, the stamens of the five +outer cohorts have purplish filaments and green pollen, whilst the stamens of +the five inner cohorts have yellow pollen. He therefore suspected that these +species might prove to be heterostyled and trimorphic: but he did not notice the +length of the pistils. In the allied Luhea the outer purplish stamens are +destitute of anthers. I procured some specimens of Mollia lepidota and speciosa +from Kew, but could not make out that their pistils differed in length in +different plants; and in all those which I examined the stigma stood close +beneath the uppermost anthers. The numerous stamens are graduated in length, and +the pollen-grains from the longest and shortest ones did not present any marked +difference in diameter. Therefore these species do not appear to be +heterostyled.)] + +Oxalis (Geraniaceae). + +(Figure 4.11. Oxalis speciosa (with the petals removed). +Left: Long-styled. +Centre: Mid-styled. +Right: Short-styled. +S, S, S, stigmas. The dotted lines with arrows show which pollen must be carried +to the stigmas for legitimate fertilisation.) + +In 1863 Mr. Roland Trimen wrote to me from the Cape of Good Hope that he had +there found species of Oxalis which presented three forms; and of these he +enclosed drawings and dried specimens. Of one species he collected 43 flowers +from distinct plants, and they consisted of 10 long-styled, 12 mid-styled, and +21 short-styled. Of another species he collected 13 flowers, consisting of 3 +long-styled, 7 mid-styled, and 3 short-styled. In 1866 Professor Hildebrand +proved by an examination of the specimens in several herbaria that 20 species +are certainly heterostyled and trimorphic, and 51 others almost certainly so. +(4/12. 'Monatsber. der Akad. der Wiss. Berlin' 1866 pages 352, 372. He gives +drawings of the three forms at page 42 of his 'Geschlechter-Vertheilung' etc. +1867.) He also made some interesting observations on living plants belonging to +one form alone; for at that time he did not possess the three forms of any +living species. During the years 1864 to 1868 I occasionally experimented on +Oxalis speciosa, but until now have never found time to publish the results. In +1871 Hildebrand published an admirable paper in which he shows in the case of +two species of Oxalis, that the sexual relations of the three forms are nearly +the same as in Lythrum salicaria. (4/13. 'Botanische Zeitung' 1871 pages 416 and +432.) I will now give an abstract of his observations, and afterwards of my own +less complete ones. I may premise that in all the species seen by me, the +stigmas of the five straight pistils of the long-styled form stand on a level +with the anthers of the longest stamens in the two other forms. In the mid- +styled form, the stigmas pass out between the filaments of the longest stamens +(as in the short-styled form of Linum); and they stand rather nearer to the +upper anthers than to the lower ones. In the short-styled form, the stigmas also +pass out between the filaments nearly on a level with the tips of the sepals. +The anthers in this latter form and in the mid-styled rise to the same height as +the corresponding stigmas in the other two forms. + +Oxalis Valdiviana. + +This species, an inhabitant of the west coast of South America, bears yellow +flowers. Hildebrand states that the stigmas of the three forms do not differ in +any marked manner, but that the pistil of the short-styled form alone is +destitute of hairs. The diameters of the pollen-grains are as follows:-- + +Table 4.b. Oxalis Valdiviana. Diameters of pollen-grains in divisions of the +micrometer. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +From the: +Longest stamens of short-styled form : 8 to 9. +Mid-length stamens of short-styled form : 7 to 8. +Longest stamens of mid-styled form : 8. +Shortest stamens of mid-styled form : 8. +Mid-length stamens of long-styled form : 7. +Shortest stamens of long-styled form : 6. + +Therefore the extreme difference in diameter is as 8.5 to 6, or as 100 to 71. +The results of Hildebrand's experiments are given in Table 4.27, drawn up in +accordance with my usual plan. + +Table 4.27. Oxalis Valdiviana (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +28 : 28 : 11.9. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +21 : 21 : 12.0. + +Long-styled by pollen of own and own-form mid-length stamens. Illegitimate union +: +40 : 2 : 5.5. + +Long-styled by pollen of own and own-form shortest stamens. Illegitimate union : +26 : 0 : 0. + +Long-styled by pollen of shortest stamens of short-styled. Illegitimate union : +16 : 1 : 1. + +Long-styled by pollen of shortest stamens of mid-styled. Illegitimate union : +9 : 0 : 0. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +38 : 38 : 11.3. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +23 : 23 : 10.4. + +Mid-styled by pollen of own and own-form longest stamens. Illegitimate union : +52 : 0 : 0. + +Mid-styled by pollen of own and own-form shortest stamens. Illegitimate union : +30 : 1 : 6. + +Mid-styled by pollen of shortest stamens of long-styled. Illegitimate union : +16 : 0 : 0. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +16 : 2 : 2.5. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +18 : 18 : 11.0. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +10 : 10 : 11.3. + +Short-styled by pollen of own and own-form longest stamens. Illegitimate union : +21 : 0 : 0. + +Short-styled by pollen of own and own-form mid-length stamens. Illegitimate +union : +22 : 0 : 0. + +Short-styled by pollen of longest stamens of mid-styled. Illegitimate union: +4 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +3 : 0 : 0. + +We here have the remarkable result that every one of 138 legitimately fertilised +flowers on the three forms yielded capsules, containing on an average 11.33 +seeds. Whilst of the 255 illegitimately fertilised flowers, only 6 yielded +capsules, which contained 3.83 seeds on an average. Therefore the fertility of +the six legitimate to that of the twelve illegitimate unions, as judged by the +proportion of flowers that yielded capsules, is as 100 to 2, and as judged by +the average number of seeds per capsule as 100 to 34. It may be added that some +plants which were protected by nets did not spontaneously produce any fruit; nor +did one which was left uncovered by itself and was visited by bees. On the other +hand, scarcely a single flower on some uncovered plants of the three forms +growing near together failed to produce fruit. + +Oxalis Regnelli. + +This species bears white flowers and inhabits Southern Brazil. Hildebrand says +that the stigma of the long-styled form is somewhat larger than that of the mid- +styled, and this than that of the short-styled. The pistil of the latter is +clothed with a few hairs, whilst it is very hairy in the other two forms. The +diameter of the pollen-grains from both sets of the longest stamens equals 9 +divisions of the micrometer,--that from the mid-length stamens of the long- +styled form between 8 and 9, and of the short-styled 8,--and that from the +shortest stamens of both sets 7. So that the extreme difference in diameter is +as 9 to 7 or as 100 to 78. The experiments made by Hildebrand, which are not so +numerous as in the last case, are given in Table 4.28 in the same manner as +before. + +TABLE 4.28. Oxalis Regnelli (from Hildebrand). + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +6 : 6 : 10.1. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +5 : 5 : 10.6. + +Long-styled by pollen of own mid-length stamens. Illegitimate union : +4 : 0 : 0. + +Long-styled by pollen of own shortest stamens. Illegitimate union : +1 : 0 : 0. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +9 : 9 : 10.4. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +10 : 10 : 10.1. + +Mid-styled by pollen of own longest stamens. Illegitimate union : +9 : 0 : 0. + +Mid-styled by pollen of own shortest stamens. Illegitimate union : +2 : 0 : 0. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +1 : 0 : 0. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +9 : 9 : 10.6. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +2 : 2 : 9.5. + +Short-styled by pollen of own mid-length stamens. Illegitimate union : +12 : 0 : 0. + +Short-styled by pollen of own longest stamens. Illegitimate union : +9 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +1 : 0 : 0. + +The results are nearly the same as in the last case, but more striking; for 41 +flowers belonging to the three forms fertilised legitimately all yielded +capsules, containing on an average 10.31 seeds; whilst 39 flowers fertilised +illegitimately did not yield a single capsule or seed. Therefore the fertility +of the six legitimate to that of the several illegitimate unions, as judged both +by the proportion of flowers which yielded capsules and by the average number of +contained seeds, is as 100 to 0. + +Oxalis speciosa. + +This species, which bears pink flowers, was introduced from the Cape of Good +Hope. A sketch of the reproductive organs of the three forms (Figure 4.11) has +already been given. The stigma of the long-styled form (with the papillae on its +surface included) is twice as large as that of the short-styled, and that of the +mid-styled intermediate in size. The pollen-grains from the stamens in the three +forms are in their longer diameters as follows:-- + +Table 4.c. Oxalis speciosa. Diameters of pollen-grains in divisions of the +micrometer. + +Column 1: Source of Pollen-grains. +Column 2: Minimum diameter. +Column 3: Maximum diameter. + +From the: +Longest stamens of short-styled form : 15 to 16. +Mid-length stamens of short-styled form : 12 to 13. +Longest stamens of mid-styled form : 16. +Shortest stamens of mid-styled form : 11 to 12. +Mid-length stamens of long-styled form : 14. +Shortest stamens of long-styled form : 12. + +Therefore the extreme difference in diameter is as 16 to 11, or as 100 to 69; +but as the measurements were taken at different times, they are probably only +approximately accurate. The results of my experiments in fertilising the three +forms are given in Table 4.29. + +Table 4.29. Oxalis speciosa. + +Column 1: Nature of the Union. +Column 2: Number of Flowers fertilised. +Column 3: Number of Capsules produced. +Column 4: Average Number of Seeds per Capsule. + +Long-styled by pollen of longest stamens of short-styled. Legitimate union : +19 : 15 : 57.4. + +Long-styled by pollen of longest stamens of mid-styled. Legitimate union : +4 : 3 : 59.0. + +Long-styled by pollen of own-form mid-length stamens. Illegitimate union : +9 : 2 : 42.5. + +Long-styled by pollen of own-form shortest stamens. Illegitimate union : +11 : 0 : 0. + +Long-styled by pollen of shortest stamens of mid-styled. Illegitimate union : +4 : 0 : 0. + +Long-styled by pollen of mid-length stamens of short-styled. Illegitimate union +: +12 : 5 : 30.0. + +Mid-styled by pollen of mid-length stamens of long-styled. Legitimate union : +3 : 3 : 63.6. + +Mid-styled by pollen of mid-length stamens of short-styled. Legitimate union : +4 : 4 : 56.3. + +Mid-styled by mixed pollen from both own-form longest and shortest stamens. +Illegitimate union : +9 : 2 : 19. + +Mid-styled by pollen of longest stamens of short-styled. Illegitimate union : +12 : 1 : 8. + +Short-styled by pollen of shortest stamens of mid-styled. Legitimate union: +3 : 2 : 67. + +Short-styled by pollen of shortest stamens of long-styled. Legitimate union: +3 : 3 : 54.3. + +Short-styled by pollen of own-form longest stamens. Illegitimate union: +5 : 1 : 8. + +Short-styled by pollen of own-form mid-length stamens. Illegitimate union : +3 : 0 : 0. + +Short-styled by both pollens mixed together, of own-form longest and mid-length +stamens. Illegitimate union: +13 : 0 : 0. + +Short-styled by pollen of longest stamens of mid-styled. Illegitimate union : +7 : 0 : 0. + +Short-styled by pollen of mid-length stamens of long-styled. Illegitimate union: +10 : 1 : 54. + +We here see that thirty-six flowers on the three forms legitimately fertilised +yielded 30 capsules, these containing on an average 58.36 seeds. Ninety-five +flowers illegitimately fertilised yielded 12 capsules, containing on an average +28.58 seeds. Therefore the fertility of the six legitimate to that of the twelve +illegitimate unions, as judged by the proportion of flowers which yielded +capsules, is as 100 to 15, and judged by the average number of seeds per capsule +as 100 to 49. This plant, in comparison with the two South American species +previously described, produces many more seeds, and the illegitimately +fertilised flowers are not quite so sterile. + +Oxalis rosea. + +Hildebrand possessed in a living state only the long-styled form of this +trimorphic Chilian species. (4/14. 'Monatsber. der Akad. der Wiss. Berlin' 1866 +page 372.) The pollen-grains from the two sets of anthers differ in diameter as +9 to 7.5, or as 100 to 83. He has further shown that there is an analogous +difference between the grains from the two sets of anthers of the same flower in +five other species of Oxalis, besides those already described. The present +species differs remarkably from the long-styled form of the three species +previously experimented on, in a much larger proportion of the flowers setting +capsules when fertilised with their own-form pollen. Hildebrand fertilised 60 +flowers with pollen from the mid-length stamens (of either the same or another +flower), and they yielded no less than 55 capsules, or 92 per cent. These +capsules contained on an average 5.62 seeds; but we have no means of judging how +near an approach this average makes to that from flowers legitimately +fertilised. He also fertilised 45 flowers with pollen from the shortest stamens, +and these yielded only 17 capsules, or 31 per cent, containing on an average +only 2.65 seeds. We thus see that about thrice as many flowers, when fertilised +with pollen from the mid-length stamens, produced capsules, and these contained +twice as many seeds, as did the flowers fertilised with pollen from the shortest +stamens. It thus appears (and we find some evidence of the same fact with O. +speciosa), that the same rule holds good with Oxalis as with Lythrum salicaria; +namely, that in any two unions, the greater the inequality in length between the +pistils and stamens, or, which is the same thing, the greater the distance of +the stigma from the anthers, the pollen of which is used for fertilisation, the +less fertile is the union,--whether judged by the proportion of flowers which +set capsules, or by the average number of seeds per capsule. The rule cannot be +explained in this case any more than in that of Lythrum, by supposing that +wherever there is greater liability to self-fertilisation, this is checked by +the union being rendered more sterile; for exactly the reverse occurs, the +liability to self-fertilisation being greatest in the unions between the pistils +and stamens which approach each other the nearest, and these are the more +fertile. I may add that I also possessed some long-styled plants of this +species: one was covered by a net, and it set spontaneously a few capsules, +though extremely few compared with those produced by a plant growing by itself, +but exposed to the visits of bees. + +With most of the species of Oxalis the short-styled form seems to be the most +sterile of the three forms, when these are illegitimately fertilised; and I will +add two other cases to those already given. I fertilised 29 short-styled flowers +of O. compressa with pollen from their own two sets of stamens (the pollen- +grains of which differ in diameter as 100 and 83), and not one produced a +capsule. I formerly cultivated during several years the short-styled form of a +species purchased under the name of O. Bowii (but I have some doubts whether it +was rightly named), and fertilised many flowers with their own two kinds of +pollen, which differ in diameter in the usual manner, but never got a single +seed. On the other hand, Hildebrand says that the short-styled form of O. +Deppei, growing by itself, yields plenty of seed; but it is not positively known +that this species is heterostyled; and the pollen-grains from the two sets of +anthers do not differ in diameter. + +Some facts communicated to me by Fritz Muller afford excellent evidence of the +utter sterility of one of the forms of certain trimorphic species of Oxalis, +when growing isolated. He has seen in St. Catharina, in Brazil, a large field of +young sugar-cane, many acres in extent, covered with the red blossoms of one +form alone, and these did not produce a single seed. His own land is covered +with the short-styled form of a white-flowered trimorphic species, and this is +equally sterile; but when the three forms were planted near together in his +garden they seeded freely. With two other trimorphic species he finds that +isolated plants are always sterile. + +Fritz Muller formerly believed that a species of Oxalis, which is so abundant in +St. Catharina that it borders the roads for miles, was dimorphic instead of +trimorphic. Although the pistils and stamens vary greatly in length, as was +evident in some specimens sent to me, yet the plants can be divided into two +sets, according to the lengths of these organs. A large proportion of the +anthers are of a white colour and quite destitute of pollen; others which are +pale yellow contain many bad with some good grains; and others again which are +bright yellow have apparently sound pollen; but he has never succeeded in +finding any fruit on this species. The stamens in some of the flowers are +partially converted into petals. Fritz Muller after reading my description, +hereafter to be given, of the illegitimate offspring of various heterostyled +species, suspects that these plants of Oxalis may be the variable and sterile +offspring of a single form of some trimorphic species, perhaps accidentally +introduced into the district, which has since been propagated asexually. It is +probable that this kind of propagation would be much aided by there being no +expenditure in the production of seed. + +Oxalis (Biophytum) sensitiva. + +This plant is ranked by many botanists as a distinct genus. Mr. Thwaites sent me +a number of flowers preserved in spirits from Ceylon, and they are clearly +trimorphic. The style of the long-styled form is clothed with many scattered +hairs, both simple and glandular; such hairs are much fewer on the style of the +mid-styled, and quite absent from that of the short-styled form; so that this +plant resembles in this respect O. Valdiviana and Regnelli. Calling the length +of the two lobes of the stigma of the long-styled form 100, that of the mid- +styled is 141, and that of the short-styled 164. In all other cases, in which +the stigma in this genus differs in size in the three forms, the difference is +of a reversed nature, the stigma of the long-styled being the largest, and that +of the short-styled the smallest. The diameter of the pollen-grains from the +longest stamens being represented by 100, those from the mid-length stamens are +91, and those from the shortest stamens 84 in diameter. This plant is +remarkable, as we shall see in the last chapter of this volume, by producing +long-styled, mid-styled, and short-styled cleistogamic flowers. + +HOMOSTYLED SPECIES OF OXALIS. + +Although the majority of the species in the large genus Oxalis seem to be +trimorphic, some are homostyled, that is, exist under a single form; for +instance the common O. acetosella, and according to Hildebrand two other widely +distributed European species, O. stricta and corniculata. Fritz Muller also +informs me that a similarly constituted species is found in St. Catharina, and +that it is quite fertile with its own pollen when insects are excluded. The +stigmas of O. stricta and of another homostyled species, namely O. +tropaeoloides, commonly stand on a level with the upper anthers, and both these +species are likewise quite fertile when insects are excluded. + +With respect to O. acetosella, Hildebrand says that in all the many specimens +examined by him the pistil exceeded the longer stamens in length. I procured 108 +flowers from the same number of plants growing in three distant parts of +England; of these 86 had their stigmas projecting considerably above, whilst 22 +had them nearly on a level with the upper anthers. In one lot of 17 flowers from +the same wood, the stigmas in every flower projected fully as much above the +upper anthers as these stood above the lower anthers. So that these plants might +fairly be compared with the long-styled form of a heterostyled species; and I at +first thought that O. acetosella was trimorphic. But the case is one merely of +great variability. The pollen-grains from the two sets of anthers, as observed +by Hildebrand and myself, do not differ in diameter. I fertilised twelve flowers +on several plants with pollen from a distinct plant, choosing those with pistils +of a different length; and 10 of these (i.e. 83 per cent) produced capsules, +which contained on an average 7.9 seeds. Fourteen flowers were fertilised with +their own pollen, and 11 of these (i.e. 79 per cent) yielded capsules, +containing a larger average of seed, namely 9.2. These plants, therefore, in +function show not the least sign of being heterostyled. I may add that 18 +flowers protected by a net were left to fertilise themselves, and only 10 of +these (i.e. 55 per cent) yielded capsules, which contained on an average only +6.3 seeds. So that the access of insects, or artificial aid in placing pollen on +the stigma, increases the fertility of the flowers; and I found that this +applied especially to those having shorter pistils. It should be remembered that +the flowers hang downwards, so that those with short pistils would be the least +likely to receive their own pollen, unless they were aided in some manner. + +Finally, as Hildebrand has remarked, there is no evidence that any of the +heterostyled species of Oxalis are tending towards a dioecious condition, as +Zuccarini and Lindley inferred from the differences in the reproductive organs +of the three forms, the meaning of which they did not understand. + +PONTEDERIA [SP.?] (PONTEDERIACEAE). + +Fritz Muller found this aquatic plant, which is allied to the Liliaceae, growing +in the greatest profusion on the banks of a river in Southern Brazil. (4/15. +"Ueber den Trimorphismus der Pontederien" 'Jenaische Zeitschrift' etc. Band 6 +1871 page 74.) But only two forms were found, the flowers of which include three +long and three short stamens. The pistil of the long-styled form, in two dried +flowers which were sent me, was in length as 100 to 32, and its stigma as 100 to +80, compared with the same organs in the short-styled form. The long-styled +stigma projects considerably above the upper anthers of the same flower, and +stands on a level with the upper ones of the short-styled form. In the latter +the stigma is seated beneath both its own sets of anthers, and is on a level +with the anthers of the shorter stamens in the long-styled form. The anthers of +the longer stamens of the short-styled form are to those of the shorter stamens +of the long-styled form as 100 to 88 in length. The pollen-grains distended with +water from the longer stamens of the short-styled form are to those from the +shorter stamens of the same form as 100 to 87 in diameter, as deduced from ten +measurements of each kind. We thus see that the organs in these two forms differ +from one another and are arranged in an analogous manner, as in the long and +short-styled forms of the trimorphic species of Lythrum and Oxalis. Moreover, +the longer stamens of the long-styled form of Pontederia, and the shorter ones +of the short-styled form are placed in a proper position for fertilising the +stigma of a mid-styled form. But Fritz Muller, although he examined a vast +number of plants, could never find one belonging to the mid-styled form. The +older flowers of the long-styled and short-styled plants had set plenty of +apparently good fruit; and this might have been expected, as they could +legitimately fertilise one another. Although he could not find the mid-styled +form of this species, he possessed plants of another species growing in his +garden, and all these were mid-styled; and in this case the pollen-grains from +the anthers of the longer stamens were to those from the shorter stamens of the +same flower as 100 to 86 in diameter, as deduced from ten measurements of each +kind. These mid-styled plants growing by themselves never produced a single +fruit. + +Considering these several facts, there can hardly be a doubt that both these +species of Pontederia are heterostyled and trimorphic. This case is an +interesting one, for no other Monocotyledonous plant is known to be +heterostyled. Moreover, the flowers are irregular, and all other heterostyled +plants have almost symmetrical flowers. The two forms differ somewhat in the +colour of their corollas, that of the short-styled being of a darker blue, +whilst that of the long-styled tends towards violet, and no other such case is +known. Lastly, the three longer stamens alternate with the three shorter ones, +whereas in Lythrum and Oxalis the long and short stamens belong to distinct +whorls. With respect to the absence of the mid-styled form in the case of the +Pontederia which grows wild in Southern Brazil, this would probably follow if +only two forms had been originally introduced there; for, as we shall hereafter +see from the observations of Hildebrand, Fritz Muller and myself, when one form +of Oxalis is fertilised exclusively by either of the other two forms, the +offspring generally belong to the two parent-forms. + +Fritz Muller has recently discovered, as he informs me, a third species of +Pontederia, with all three forms growing together in pools in the interior of S. +Brazil; so that no shadow of doubt can any longer remain about this genus +including trimorphic species. He sent me dried flowers of all three forms. In +the long-styled form the stigma stands a little above the tips of the petals, +and on a level with the anthers of the longest stamens in the other two forms. +The pistil is in length to that of the mid-styled as 100 to 56, and to that of +the short-styled as 100 to 16. Its summit is rectangularly bent upwards, and the +stigma is rather broader than that of the mid-styled, and broader in about the +ratio of 7 to 4 than that of the short-styled. In the mid-styled form, the +stigma is placed rather above the middle of the corolla, and nearly on a level +with the mid-length stamens in the other two forms; its summit is a little bent +upwards. In the short-styled form the pistil is, as we have seen, very short, +and differs from that in the other two forms in being straight. It stands rather +beneath the level of the anthers of the shortest stamens in the long-styled and +mid-styled forms. The three anthers of each set of stamens, more especially +those of the shortest stamens, are placed one beneath the other, and the ends of +the filaments are bowed a little upwards, so that the pollen from all the +anthers would be effectively brushed off by the proboscis of a visiting insect. +The relative diameters of the pollen-grains, after having been long soaked in +water, are given in Table 4.d, as measured by my son Francis. + +TABLE 4.d. Pontederia. Diameters of pollen-grains, after having been long soaked +in water, in divisions of the micrometer. + +Column 1: Source of Pollen-grains. +Column 2: diameter. + +Long-styled form, mid-length stamens (Average of 20 measurements): 13.2. +Long-styled form, shortest stamens (10 measurements): 9.0. + +Mid-styled form, longest stamens (15 measurements) : 16.4. +Mid-styled form, shortest stamens (20 measurements): 9.1. + +Short-styled form, longest stamens (20 measurements): 14.6. +Short-styled form, mid-length stamens (20 measurements): 12.3. + +We have here the usual rule of the grains from the longer stamens, the tubes of +which have to penetrate the longer pistil, being larger than those from the +stamens of less length. The extreme difference in diameter between the grains +from the longest stamens of the mid-styled form, and from the shortest stamens +of the long-styled, is as 16.4 to 9.0, or as 100 to 55; and this is the greatest +difference observed by me in any heterostyled plant. It is a singular fact that +the grains from the corresponding longest stamens in the two forms differ +considerably in diameter; as do those in a lesser degree from the corresponding +mid-length stamens in the two forms; whilst those from the corresponding +shortest stamens in the long- and mid-styled forms are almost exactly equal. +Their inequality in the two first cases depends on the grains in both sets of +anthers in the short-styled form being smaller than those from the corresponding +anthers in the other two forms; and here we have a case parallel with that of +the mid-styled form of Lythrum salicaria. In this latter plant the pollen-grains +of the mid-styled forms are of smaller size and have less fertilising power than +the corresponding ones in the other two forms; whilst the ovarium, however +fertilised, yields a greater number of seeds; so that the mid-styled form is +altogether more feminine in nature than the other two forms. In the case of +Pontederia, the ovarium includes only a single ovule, and what the meaning of +the difference in size between the pollen-grains from the corresponding sets of +anthers may be, I will not pretend to conjecture. + +The clear evidence that the species just described is heterostyled and +trimorphic is the more valuable as there is some doubt with respect to P. +cordata, an inhabitant of the United States. Mr. Leggett suspects that it is +either dimorphic or trimorphic, for the pollen-grains of the longer stamens are +"more than twice the diameter or than eight times the mass of the grains of the +shorter stamens. Though minute, these smaller grains seem as perfect as the +larger ones." (4/16. 'Bulletin of the Torrey Botanical Club' 1875 volume 6 page +62.) On the other hand, he says that in all the mature flowers, "the style was +as long at least as the longer stamens;" "whilst in the young flowers it was +intermediate in length between the two sets of stamens;" and if this be so, the +species can hardly be heterostyled. + + +CHAPTER V. + +ILLEGITIMATE OFFSPRING OF HETEROSTYLED PLANTS. + +Illegitimate offspring from all three forms of Lythrum salicaria. +Their dwarfed stature and sterility, some utterly barren, some fertile. +Oxalis, transmission of form to the legitimate and illegitimate seedlings. +Primula Sinensis, Illegitimate offspring in some degree dwarfed and infertile. +Equal-styled varieties of P. Sinensis, auricula, farinosa, and elatior. +P. vulgaris, red-flowered variety, Illegitimate seedlings sterile. +P. veris, Illegitimate plants raised during several successive generations, +their dwarfed stature and sterility. +Equal-styled varieties of P. veris. +Transmission of form by Pulmonaria and Polygonum. +Concluding remarks. +Close parallelism between illegitimate fertilisation and hybridism. + +We have hitherto treated of the fertility of the flowers of heterostyled plants, +when legitimately and illegitimately fertilised. The present chapter will be +devoted to the character of their offspring or seedlings. Those raised from +legitimately fertilised seeds will be here called LEGITIMATE SEEDLINGS or +PLANTS, and those from illegitimately fertilised seeds, ILLEGITIMATE SEEDLINGS +or PLANTS. They differ chiefly in their degree of fertility, and in their powers +of growth or vigour. I will begin with trimorphic plants, and I must remind the +reader that each of the three forms can be fertilised in six different ways; so +that all three together can be fertilised in eighteen different ways. For +instance, a long-styled form can be fertilised legitimately by the longest +stamens of the mid-styled and short-styled forms, and illegitimately by its own- +form and mid-length and shortest stamens, also by the mid-length stamens of the +mid-styled and by the shortest stamens of the short-styled form; so that the +long-styled can be fertilised legitimately in two ways and illegitimately in +four ways. The same holds good with respect to the mid-styled and short-styled +forms. Therefore with trimorphic species six of the eighteen unions yield +legitimate offspring, and twelve yield illegitimate offspring. + +I will give the results of my experiments in detail, partly because the +observations are extremely troublesome, and will not probably soon be repeated-- +thus, I was compelled to count under the microscope above 20,000 seeds of +Lythrum salicaria--but chiefly because light is thus indirectly thrown on the +important subject of hybridism. + +Lythrum salicaria. + +Of the twelve illegitimate unions two were completely barren, so that no seeds +were obtained, and of course no seedlings could be raised. Seedlings were, +however, raised from seven of the ten remaining illegitimate unions. Such +illegitimate seedlings when in flower were generally allowed to be freely and +legitimately fertilised, through the agency of bees, by other illegitimate +plants belonging to the two other forms growing close by. This is the fairest +plan, and was usually followed; but in several cases (which will always be +stated) illegitimate plants were fertilised with pollen taken from legitimate +plants belonging to the other two forms; and this, as might have been expected, +increased their fertility. Lythrum salicaria is much affected in its fertility +by the nature of the season; and to avoid error from this source, as far as +possible, my observations were continued during several years. Some few +experiments were tried in 1863. The summer of 1864 was too hot and dry, and, +though the plants were copiously watered, some few apparently suffered in their +fertility, whilst others were not in the least affected. The years 1865 and, +especially, 1866, were highly favourable. Only a few observations were made +during 1867. The results are arranged in classes according to the parentage of +the plants. In each case the average number of seeds per capsule is given, +generally taken from ten capsules, which, according to my experience, is a +nearly sufficient number. The maximum number of seeds in any one capsule is also +given; and this is a useful point of comparison with the normal standard--that +is, with the number of seeds produced by legitimate plants legitimately +fertilised. I will give likewise in each case the minimum number. When the +maximum and minimum differ greatly, if no remark is made on the subject, it may +be understood that the extremes are so closely connected by intermediate figures +that the average is a fair one. Large capsules were always selected for +counting, in order to avoid over-estimating the infertility of the several +illegitimate plants. + +In order to judge of the degree of inferiority in fertility of the several +illegitimate plants, the following statement of the average and of the maximum +number of seeds produced by ordinary or legitimate plants, when legitimately +fertilised, some artificially and some naturally, will serve as a standard of +comparison, and may in each case be referred to. But I give under each +experiment the percentage of seeds produced by the illegitimate plants, in +comparison with the standard legitimate number of the same form. For instance, +ten capsules from the illegitimate long-styled plant (Number 10), which was +legitimately and naturally fertilised by other illegitimate plants, contained on +an average 44.2 seeds; whereas the capsules on legitimate long-styled plants, +legitimately and naturally fertilised by other legitimate plants, contained on +an average 93 seeds. Therefore this illegitimate plant yielded only 47 per cent +of the full and normal complement of seeds. + +STANDARD NUMBER OF SEEDS PRODUCED BY LEGITIMATE PLANTS OF THE THREE FORMS, WHEN +LEGITIMATELY FERTILISED. + +Long-styled form: +Average number of seeds in each capsule, 93; +Maximum number observed out of twenty-three capsules, 159. + +Mid-styled form: +Average number of seeds, 130; +Maximum number observed out of thirty-one capsules, 151. + +Short-styled form: +Average number of seeds, 83.5; but we may, for the sake of brevity, say 83; +Maximum number observed out of twenty-five capsules, 112. + +CLASSES 1 AND 2. ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED PARENTS FERTILISED +WITH POLLEN FROM THE MID-LENGTH OR THE SHORTEST STAMENS OF OTHER PLANTS OF THE +SAME FORM. + +From this union I raised at different times three lots of illegitimate +seedlings, amounting altogether to 56 plants. I must premise that, from not +foreseeing the result, I did not keep a memorandum whether the eight plants of +the first lot were the product of the mid-length or shortest stamens of the same +form; but I have good reason to believe that they were the product of the +latter. These eight plants were much more dwarfed, and much more sterile than +those in the other two lots. The latter were raised from a long-styled plant +growing quite isolated, and fertilised by the agency of bees with its own +pollen; and it is almost certain, from the relative position of the organs of +fructification, that the stigma under these circumstances would receive pollen +from the mid-length stamens. + +All the fifty-six plants in these three lots proved long-styled; now, if the +parent-plants had been legitimately fertilised by pollen from the longest +stamens of the mid-styled and short-styled forms, only about one-third of the +seedlings would have been long-styled, the other two-thirds being mid-styled and +short-styled. In some other trimorphic and dimorphic genera we shall find the +same curious fact, namely, that the long-styled form, fertilised illegitimately +by its own-form pollen, produces almost exclusively long-styled seedlings. (5/1. +Hildebrand first called attention to this fact in the case of Primula Sinensis +('Botanische Zeitung' January 1, 1864 page 5); but his results were not nearly +so uniform as mine.) + +The eight plants of the first lot were of low stature: three which I measured +attained, when fully grown, the heights of only 28, 29, and 47 inches; whilst +legitimate plants growing close by were double this height, one being 77 inches. +They all betrayed in their general appearance a weak constitution; they flowered +rather later in the season, and at a later age than ordinary plants. Some did +not flower every year; and one plant, behaving in an unprecedented manner, did +not flower until three years old. In the two other lots none of the plants grew +quite to their full and proper height, as could at once be seen by comparing +them with the adjoining rows of legitimate plants. In several plants in all +three lots, many of the anthers were either shrivelled or contained brown and +tough, or pulpy matter, without any good pollen-grains, and they never shed +their contents; they were in the state designated by Gartner as contabescent, +which term I will for the future use. (5/2. 'Beitrage zur Kenntniss der +Befruchtung' 1844 page 116.) In one flower all the anthers were contabescent +excepting two which appeared to the naked eye sound; but under the microscope +about two-thirds of the pollen-grains were seen to be small and shrivelled. In +another plant, in which all the anthers appeared sound, many of the pollen- +grains were shrivelled and of unequal sizes. I counted the seeds produced by +seven plants (1 to 7) in the first lot of eight plants, probably the product of +parents fertilised by their own-form shortest stamens, and the seeds produced by +three plants in the other two lots, almost certainly the product of parents +fertilised by their own-form mid-length stamens. + +[PLANT 1. + +This long-styled plant was allowed during 1863 to be freely and legitimately +fertilised by an adjoining illegitimate mid-styled plant, but it did not yield a +single seed-capsule. It was then removed and planted in a remote place close to +a brother long-styled plant Number 2, so that it must have been freely though +illegitimately fertilised; under these circumstances it did not yield during +1864 and 1865 a single capsule. I should here state that a legitimate or +ordinary long-styled plant, when growing isolated, and freely though +illegitimately fertilised by insects with its own pollen, yielded an immense +number of capsules, which contained on an average 21.5 seeds. + +PLANT 2. + +This long-styled plant, after flowering during 1863 close to an illegitimate +mid-styled plant, produced less than twenty capsules, which contained on an +average between four and five seeds. When subsequently growing in company with +Number 1, by which it will have been illegitimately fertilised, it yielded in +1866 not a single capsule, but in 1865 it yielded twenty-two capsules: the best +of these, fifteen in number, were examined; eight contained no seed, and the +remaining seven contained on an average only three seeds, and these seeds were +so small and shrivelled that I doubt whether they would have germinated. + +PLANTS 3 AND 4. + +These two long-styled plants, after being freely and legitimately fertilised +during 1863 by the same illegitimate mid-styled plant as in the last case, were +as miserably sterile as Number 2. + +PLANT 5. + +This long-styled plant, after flowering in 1863 close to an illegitimate mid- +styled plant, yielded only four capsules, which altogether included only five +seeds. During 1864, 1865, and 1866, it was surrounded either by illegitimate or +legitimate plants of the other two forms; but it did not yield a single capsule. +It was a superfluous experiment, but I likewise artificially fertilised in a +legitimate manner twelve flowers; but not one of these produced a capsule; so +that this plant was almost absolutely barren. + +PLANT 6. + +This long-styled plant, after flowering during the favourable year of 1866, +surrounded by illegitimate plants of the other two forms, did not produce a +single capsule. + +PLANT 7. + +This long-styled plant was the most fertile of the eight plants of the first +lot. During 1865 it was surrounded by illegitimate plants of various parentage, +many of which were highly fertile, and must thus have been legitimately +fertilised. It produced a good many capsules, ten of which yielded an average of +36.1 seeds, with a maximum of 47 and a minimum of 22; so that this plant +produced 39 per cent of the full number of seeds. During 1864 it was surrounded +by legitimate and illegitimate plants of the other two forms; and nine capsules +(one poor one being rejected) yielded an average of 41.9 seeds, with a maximum +of 56 and a minimum of 28; so that, under these favourable circumstances, this +plant, the most fertile of the first lot, did not yield, when legitimately +fertilised, quite 45 per cent of the full complement of seeds.] + +In the second lot of plants in the present class, descended from the long-styled +form, almost certainly fertilised with pollen from its own mid-length stamens, +the plants, as already stated, were not nearly so dwarfed or so sterile as in +the first lot. All produced plenty of capsules. I counted the number of seeds in +only three plants, namely Numbers 8, 9, and 10. + +[PLANT 8. + +This plant was allowed to be freely fertilised in 1864 by legitimate and +illegitimate plants of the other two forms, and ten capsules yielded on an +average 41.1 seeds, with a maximum of 73 and a minimum of 11. Hence this plant +produced only 44 per cent of the full complement of seeds. + +PLANT 9. + +This long-styled plant was allowed in 1865 to be freely fertilised by +illegitimate plants of the other two forms, most of which were moderately +fertile. Fifteen capsules yielded on an average 57.1 seeds, with a maximum of 86 +and a minimum of 23. Hence the plant yielded 61 per cent of the full complement +of seeds. + +PLANT 10. + +This long-styled plant was freely fertilised at the same time and in the same +manner as the last. Ten capsules yielded an average of 44.2 seeds, with a +maximum of 69 and a minimum of 25; hence this plant yielded 47 per cent of the +full complement of seeds.] + +The nineteen long-styled plants of the third lot, of the same parentage as the +last lot, were treated differently; for they flowered during 1867 by themselves +so that they must have been illegitimately fertilised by one another. It has +already been stated that a legitimate long-styled plant, growing by itself and +visited by insects, yielded an average of 21.5 seeds per capsule, with a maximum +of 35; but, to judge fairly of its fertility, it ought to have been observed +during successive seasons. We may also infer from analogy that, if several +legitimate long-styled plants were to fertilise one another, the average number +of seeds would be increased; but how much increased I do not know; hence I have +no perfectly fair standard of comparison by which to judge of the fertility of +the three following plants of the present lot, the seeds of which I counted. + +[PLANT 11. + +This long-styled plant produced a large crop of capsules, and in this respect +was one of the most fertile of the whole lot of nineteen plants. But the average +from ten capsules was only 35.9 seeds, with a maximum of 60 and a minimum of 8. + +PLANT 12. + +This long-styled plant produced very few capsules; and ten yielded an average of +only 15.4 seeds, with a maximum of 30 and a minimum of 4. + +PLANT 13. + +This plant offers an anomalous case; it flowered profusely, yet produced very +few capsules; but these contained numerous seeds. Ten capsules yielded an +average of 71.9 seeds, with a maximum of 95 and a minimum of 29. Considering +that this plant was illegitimate and illegitimately fertilised by its brother +long-styled seedlings, the average and the maximum are so remarkably high that I +cannot at all understand the case. We should remember that the average for a +legitimate plant legitimately fertilised is 93 seeds.] + +CLASS 3. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED WITH +POLLEN FROM OWN-FORM MID-LENGTH STAMENS. + +I raised from this union nine plants, of which eight were short-styled and one +long-styled; so that there seems to be a strong tendency in this form to +reproduce, when self-fertilised, the parent-form; but the tendency is not so +strong as with the long-styled. These nine plants never attained the full height +of legitimate plants growing close to them. The anthers were contabescent in +many of the flowers on several plants. + +[PLANT 14. + +This short-styled plant was allowed during 1865 to be freely and legitimately +fertilised by illegitimate plants descended from self-fertilised mid-, long- and +short-styled plants. Fifteen capsules yielded an average of 28.3 seeds, with a +maximum of 51 and a minimum of 11; hence this plant produced only 33 per cent of +the proper number of seeds. The seeds themselves were small and irregular in +shape. Although so sterile on the female side, none of the anthers were +contabescent. + +PLANT 15. + +This short-styled plant, treated like the last during the same year, yielded an +average, from fifteen capsules, of 27 seeds, with a maximum of 49 and a minimum +of 7. But two poor capsules may be rejected, and then the average rises to 32.6, +with the same maximum of 49 and a minimum of 20; so that this plant attained 38 +per cent of the normal standard of fertility, and was rather more fertile than +the last, yet many of the anthers were contabescent. + +PLANT 16. + +This short-styled plant, treated like the two last, yielded from ten capsules an +average of 77.8 seeds, with a maximum of 97 and a minimum of 60; so that this +plant produced 94 per cent of the full number of seeds. + +PLANT 17. + +This, the one long-styled plant of the same parentage as the last three plants, +when freely and legitimately fertilised in the same manner as the last, yielded +an average from ten capsules of 76.3 rather poor seeds, with a maximum of 88 and +a minimum of 57. Hence this plant produced 82 per cent of the proper number of +seeds. Twelve flowers enclosed in a net were artificially and legitimately +fertilised with pollen from a legitimate short-styled plant; and nine capsules +yielded an average of 82.5 seeds, with a maximum of 98 and a minimum of 51; so +that its fertility was increased by the action of pollen from a legitimate +plant, but still did not reach the normal standard.] + +CLASS 4. ILLEGITIMATE PLANTS RAISED FROM A MID-STYLED PARENT FERTILISED WITH +POLLEN FROM OWN-FORM LONGEST STAMENS. + +After two trials, I succeeded in raising only four plants from this illegitimate +union. These proved to be three mid-styled and one long-styled; but from so +small a number we can hardly judge of the tendency in mid-styled plants when +self-fertilised to reproduce the same form. These four plants never attained +their full and normal height; the long-styled plant had several of its anthers +contabescent. + +[PLANT 18. + +This mid-styled plant, when freely and legitimately fertilised during 1865 by +illegitimate plants descended from self-fertilised long-, short-, and mid-styled +plants, yielded an average from ten capsules of 102.6 seeds, with a maximum of +131 and a minimum of 63: hence this plant did not produce quite 80 per cent of +the normal number of seeds. Twelve flowers were artificially and legitimately +fertilised with pollen from a legitimate long-styled plant, and yielded from +nine capsules an average of 116.1 seeds, which were finer than in the previous +case, with a maximum of 135 and a minimum of 75; so that, as with Plant 17, +pollen from a legitimate plant increased the fertility, but did not bring it up +to the full standard. + +PLANT 19. + +This mid-styled plant, fertilised in the same manner and at the same period as +the last, yielded an average from ten capsules of 73.4 seeds, with a maximum of +87 and a minimum of 64: hence this plant produced only 56 per cent of the full +number of seeds. Thirteen flowers were artificially and legitimately fertilised +with pollen from a legitimate long-styled plant, and yielded ten capsules with +an average of 95.6 seeds; so that the application of pollen from a legitimate +plant added, as in the two previous cases, to the fertility, but did not bring +it up to the proper standard. + +PLANT 20. + +This long-styled plant, of the same parentage with the two last mid-styled +plants, and freely fertilised in the same manner, yielded an average from ten +capsules of 69.6 seeds, with a maximum of 83 and a minimum of 52: hence this +plant produced 75 per cent of the full number of seeds.] + +CLASS 5. ILLEGITIMATE PLANTS RAISED FROM A SHORT-STYLED PARENT FERTILISED WITH +POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + +In the four previous classes, plants raised from the three forms fertilised with +pollen from either the longer or shorter stamens of the same form, but generally +not from the same plant, have been described. Six other illegitimate unions are +possible, namely, between the three forms and the stamens in the other two forms +which do not correspond in height with their pistils. But I succeeded in raising +plants from only three of these six unions. From one of them, forming the +present Class 5, twelve plants were raised; these consisted of eight short- +styled, and four long-styled plants, with not one mid-styled. These twelve +plants never attained quite their full and proper height, but by no means +deserved to be called dwarfs. The anthers in some of the flowers were +contabescent. One plant was remarkable from all the longer stamens in every +flower and from many of the shorter ones having their anthers in this condition. +The pollen of four other plants, in which none of the anthers were contabescent, +was examined; in one a moderate number of grains were minute and shrivelled, but +in the other three they appeared perfectly sound. With respect to the power of +producing seed, five plants (Numbers 21 to 25) were observed: one yielded +scarcely more than half the normal number; a second was slightly infertile; but +the three others actually produced a larger average number of seeds, with a +higher maximum, than the standard. In my concluding remarks I shall recur to +this fact, which at first appears inexplicable. + +[PLANT 21. + +This short-styled plant, freely and legitimately fertilised during 1865 by +illegitimate plants, descended from self-fertilised long-, mid- and short-styled +parents, yielded an average from ten capsules of 43 seeds, with a maximum of 63 +and a minimum of 26: hence this plant, which was the one with all its longer and +many of its shorter stamens contabescent, produced only 52 per cent of the +proper number of seeds. + +PLANT 22. + +This short-styled plant produced perfectly sound pollen, as viewed under the +microscope. During 1866 it was freely and legitimately fertilised by other +illegitimate plants belonging to the present and the following class, both of +which include many highly fertile plants. Under these circumstances it yielded +from eight capsules an average of 100.5 seeds, with a maximum of 123 and a +minimum of 86; so that it produced 121 per cent of seeds in comparison with the +normal standard. During 1864 it was allowed to be freely and legitimately +fertilised by legitimate and illegitimate plants, and yielded an average, from +eight capsules, of 104.2 seeds, with a maximum of 125 and a minimum of 90; +consequently it exceeded the normal standard, producing 125 per cent of seeds. +In this case, as in some previous cases, pollen from legitimate plants added in +a small degree to the fertility of the plant; and the fertility would, perhaps, +have been still greater had not the summer of 1864 been very hot and certainly +unfavourable to some of the plants of Lythrum. + +PLANT 23. + +This short-styled plant produced perfectly sound pollen. During 1866 it was +freely and legitimately fertilised by the other illegitimate plants specified +under the last experiment, and eight capsules yielded an average of 113.5 seeds, +with a maximum of 123 and a minimum of 93. Hence this plant exceeded the normal +standard, producing no less than 136 per cent of seeds. + +PLANT 24. + +This long-styled plant produced pollen which seemed under the microscope sound; +but some of the grains did not swell when placed in water. During 1864 it was +legitimately fertilised by legitimate and illegitimate plants in the same manner +as Plant 22, but yielded an average, from ten capsules, of only 55 seeds, with a +maximum of 88 and a minimum of 24, thus attaining 59 per cent of the normal +fertility. This low degree of fertility, I presume, was owing to the +unfavourable season; for during 1866, when legitimately fertilised by +illegitimate plants in the manner described under Number 22, it yielded an +average, from eight capsules, of 82 seeds, with a maximum of 120 and a minimum +of 67, thus producing 88 per cent of the normal number of seeds. + +PLANT 25. + +The pollen of this long-styled plant contained a moderate number of poor and +shrivelled grains; and this is a surprising circumstance, as it yielded an +extraordinary number of seeds. During 1866 it was freely and legitimately +fertilised by illegitimate plants, as described under Number 22, and yielded an +average, from eight capsules, of 122.5 seeds, with a maximum of 149 and a +minimum of 84. Hence this plant exceeded the normal standard, producing no less +than 131 per cent of seeds.] + +CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + +I raised from this union twenty-five plants, which proved to be seventeen long- +styled and eight mid-styled, but not one short-styled. None of these plants were +in the least dwarfed. I examined, during the highly favourable season of 1866, +the pollen of four plants: in one mid-styled plant, some of the anthers of the +longest stamens were contabescent, but the pollen-grains in the other anthers +were mostly sound, as they were in all the anthers of the shortest stamens; in +two other mid-styled and in one long-styled plant many of the pollen-grains were +small and shrivelled; and in the latter plant as many as a fifth or sixth part +appeared to be in this state. I counted the seeds in five plants (Numbers 26 to +30), of which two were moderately sterile and three fully fertile. + +[PLANT 26. + +This mid-styled plant was freely and legitimately fertilised, during the rather +unfavourable year 1864, by numerous surrounding legitimate and illegitimate +plants. It yielded an average, from ten capsules, of 83.5 seeds, with a maximum +of 110 and a minimum of 64, thus attaining 64 per cent of the normal fertility. +During the highly favourable year 1866, it was freely and legitimately +fertilised by illegitimate plants belonging to the present Class and to Class 5, +and yielded an average, from eight capsules, of 86 seeds, with a maximum of 109 +and a minimum of 61, and thus attained 66 per cent of the normal fertility. This +was the plant with some of the anthers of the longest stamens contabescent as +above mentioned. + +PLANT 27. + +This mid-styled plant, fertilised during 1864 in the same manner as the last, +yielded an average, from ten capsules, of 99.4 seeds, with a maximum of 122 and +a minimum of 53, thus attaining to 76 per cent of the normal fertility. If the +season had been more favourable, its fertility would probably have been somewhat +greater, but, judging from the last experiment, only in a slight degree. + +PLANT 28. + +This mid-styled plant, when legitimately fertilised during the favourable season +of 1866, in the manner described under Number 26, yielded an average, from eight +capsules, of 89 seeds, with a maximum of 119 and a minimum of 69, thus producing +68 per cent of the full number of seeds. In the pollen of both sets of anthers, +nearly as many grains were small and shrivelled as sound. + +PLANT 29. + +This long-styled plant was legitimately fertilised during the unfavourable +season of 1864, in the manner described under Number 26, and yielded an average, +from ten capsules, of 84.6 seeds, with a maximum of 132 and a minimum of 47, +thus attaining to 91 per cent of the normal fertility. During the highly +favourable season of 1866, when fertilised in the manner described under Number +26, it yielded an average, from nine capsules (one poor capsule having been +excluded), of 100 seeds, with a maximum of 121 and a minimum of 77. This plant +thus exceeded the normal standard, and produced 107 per cent of seeds. In both +sets of anthers there were a good many bad and shrivelled pollen-grains, but not +so many as in the last-described plant. + +Plant 30. + +This long-styled plant was legitimately fertilised during 1866 in the manner +described under Number 26, and yielded an average, from eight capsules, of 94 +seeds, with a maximum of 106 and a minimum of 66; so that it exceeded the normal +standard, yielding 101 per cent of seeds. + +Plant 31. + +Some flowers on this long-styled plant were artificially and legitimately +fertilised by one of its brother illegitimate mid-styled plants; and five +capsules yielded an average of 90.6 seeds, with a maximum of 97 and a minimum of +79. Hence, as far as can be judged from so few capsules, this plant attained, +under these favourable circumstances, 98 per cent of the normal standard.] + +CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + +It was shown in the last chapter that the union from which these illegitimate +plants were raised is far more fertile than any other illegitimate union; for +the mid-styled parent, when thus fertilised, yielded an average (all very poor +capsules being excluded) of 102.8 seeds, with a maximum of 130; and the +seedlings in the present class likewise have their fertility not at all +lessened. Forty plants were raised; and these attained their full height and +were covered with seed-capsules. Nor did I observe any contabescent anthers. It +deserves, also, particular notice that these plants, differently from what +occurred in any of the previous classes, consisted of all three forms, namely, +eighteen short-styled, fourteen long-styled, and eight mid-styled plants. As +these plants were so fertile, I counted the seeds only in the two following +cases. + +[PLANT 32. + +This mid-styled plant was freely and legitimately fertilised during the +unfavourable year of 1864, by numerous surrounding legitimate and illegitimate +plants. Eight capsules yielded an average of 127.2 seeds, with a maximum of 144 +and a minimum of 96; so that this plant attained 98 per cent of the normal +standard. + +PLANT 33. + +This short-styled plant was fertilised in the same manner and at the same time +with the last; and ten capsules yielded an average of 113.9, with a maximum of +137 and a minimum of 90. Hence this plant produced no less than 137 per cent of +seeds in comparison with the normal standard.] + +CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF THE THREE FORMS OF Lythrum +salicaria. + +From the three forms occurring in approximately equal numbers in a state of +nature, and from the results of sowing seed naturally produced, there is reason +to believe that each form, when legitimately fertilised, reproduces all three +forms in about equal numbers. Now, we have seen (and the fact is a very singular +one) that the fifty-six plants produced from the long-styled form, +illegitimately fertilised with pollen from the same form (Class 1 and 2), were +all long-styled. The short-styled form, when self-fertilised (Class 3), produced +eight short-styled and one long-styled plant; and the mid-styled form, similarly +treated (Class 4), produced three mid-styled and one long-styled offspring; so +that these two forms, when illegitimately fertilised with pollen from the same +form, evince a strong, but not exclusive, tendency to reproduce the parent-form. +When the short-styled form was illegitimately fertilised by the long-styled form +(Class 5), and again when the mid-styled was illegitimately fertilised by the +long-styled (Class 6), in each case the two parent-forms alone were reproduced. +As thirty-seven plants were raised from these two unions, we may, with much +confidence, believe that it is the rule that plants thus derived usually consist +of both parent-forms, but not of the third form. When, however, the mid-styled +form was illegitimately fertilised by the longest stamens of the short-styled +(Class 7), the same rule did not hold good; for the seedlings consisted of all +three forms. The illegitimate union from which these latter seedlings were +raised is, as previously stated, singularly fertile, and the seedlings +themselves exhibited no signs of sterility and grew to their full height. From +the consideration of these several facts, and from analogous ones to be given +under Oxalis, it seems probable that in a state of nature the pistil of each +form usually receives, through the agency of insects, pollen from the stamens of +corresponding height from both the other forms. But the case last given shows +that the application of two kinds of pollen is not indispensable for the +production of all three forms. Hildebrand has suggested that the cause of all +three forms being regularly and naturally reproduced, may be that some of the +flowers are fertilised with one kind of pollen, and others on the same plant +with the other kind of pollen. Finally, of the three forms, the long-styled +evinces somewhat the strongest tendency to reappear amongst the offspring, +whether both, or one, or neither of the parents are long-styled. + +[TABLE 5.30. Tabulated results of the fertility of the foregoing illegitimate +plants, when legitimately fertilised, generally by illegitimate plants, as +described under each experiment. Plants 11, 12 and 13 are excluded, as they were +illegitimately fertilised. + +NORMAL STANDARD OF FERTILITY OF THE THREE FORMS, WHEN LEGITIMATELY AND NATURALLY +FERTILISED. + +Column 1: Form. +Column 2: Average number of seeds per capsule. +Column 3: Maximum number in any one capsule. +Column 4: Minimum number in any one capsule. + +Long-styled : 93 : 159 : No record was kept as all very poor capsules were +rejected. +Mid-styled : 130 : 151 : No record was kept as all very poor capsules were +rejected. +Short-styled : 83.5 : 112 : No record was kept as all very poor capsules were +rejected. + +TABLE 5.30. Continued. + +CLASS 1 AND CLASS 2.--ILLEGITIMATE PLANTS RAISED FROM LONG-STYLED PARENTS +FERTILISED WITH POLLEN FROM OWN-FORM MID-LENGTH OR SHORTEST STAMENS. + +Column 1: Number (name) of plant. +Column 2: Form. +Column 3: Average number of seeds per capsule. +Column 4: Maximum number of seeds in any one capsule. +Column 5: Minimum number of seeds in any one capsule. +Column 6: Average number of seeds, expressed as the percentage of the normal +standard. + + 1 : Long-styled : 0 : 0 : 0 : 0. + 2 : Long-styled : 4.5 : ? : 0 : 5. + 3 : Long-styled : 4.5 : ? : 0 : 5. + 4 : Long-styled : 4.5 : ? : 0 : 5. + 5 : Long-styled : 0 or 1 : 2 : 0 : 0 or 1. + 6 : Long-styled : 0 : 0 : 0 : 0. + 7 : Long-styled : 36.1 : 47 : 22 : 39. + 8 : Long-styled : 41.1 : 73 : 11 : 44. + 9 : Long-styled : 57.1 : 86 : 23 : 61. +10 : Long-styled : 44.2 : 69 : 25 : 47. + +CLASS 3. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED WITH +POLLEN FROM OWN-FORM SHORTEST STAMENS. + +14 : Short-styled : 28.3 : 51 : 11 : 33. +15 : Short-styled : 32.6 : 49 : 20 : 38. +16 : Short-styled : 77.8 : 97 : 60 : 94. +17 : Long-styled : 76.3 : 88 : 57 : 82. + +CLASS 4. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM OWN-FORM LONGEST STAMENS. + +18 : Mid-styled : 102.6 : 131 : 63 : 80. +19 : Mid-styled : 73.4 : 87 : 64 : 56. +20 : Long-styled : 69.6 : 83 : 52 : 75. + +CLASS 5. ILLEGITIMATE PLANTS RAISED FROM SHORT-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE MID-LENGTH STAMENS OF THE LONG-STYLED FORM. + +21 : Short-styled : 43.0 : 63 : 26 : 52. +22 : Short-styled : 100.5 : 123 : 86 : 121. +23 : Short-styled : 113.5 : 123 : 93 : 136. +24 : Long-styled : 82.0 : 120 : 67 : 88. +25 : Long-styled : 122.5 : 149 : 84 : 131. + +CLASS 6. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE SHORTEST STAMENS OF THE LONG-STYLED FORM. + +26 : Mid-styled : 86.0 : 109 : 61 : 66. +27 : Mid-styled : 99.4 : 122 : 53 : 76. +28 : Mid-styled : 89.0 : 119 : 69 : 68. +29 : Long-styled : 100.0 : 121 : 77 : 107. +30 : Long-styled : 94.0 : 106 : 66 : 101. +31 : Long-styled : 90.6 : 97 : 79 : 98. + +CLASS 7. ILLEGITIMATE PLANTS RAISED FROM MID-STYLED PARENTS FERTILISED WITH +POLLEN FROM THE LONGEST STAMENS OF THE SHORT-STYLED FORM. + +32 : Mid-styled : 127.2 : 144 : 96 : 98. +33 : Short-styled : 113.9 : 137 : 90 : 137. + +The lessened fertility of most of these illegitimate plants is in many respects +a highly remarkable phenomenon. Thirty-three plants in the seven classes were +subjected to various trials, and the seeds carefully counted. Some of them were +artificially fertilised, but the far greater number were freely fertilised (and +this is the better and natural plan) through the agency of insects, by other +illegitimate plants. In the right hand, or percentage column, in Table 5.30, a +wide difference in fertility between the plants in the first four and the last +three classes may be perceived. In the first four classes the plants are +descended from the three forms illegitimately fertilised with pollen taken from +the same form, but only rarely from the same plant. It is necessary to observe +this latter circumstance; for, as I have elsewhere shown, most plants, when +fertilised with their own pollen, or that from the same plant, are in some +degree sterile, and the seedlings raised from such unions are likewise in some +degree sterile, dwarfed, and feeble. (5/3. 'The Effects of Cross and Self- +fertilisation in the Vegetable Kingdom' 1876.) None of the nineteen illegitimate +plants in the first four classes were completely fertile; one, however, was +nearly so, yielding 96 per cent of the proper number of seeds. From this high +degree of fertility we have many descending gradations, till we reach an +absolute zero, when the plants, though bearing many flowers, did not produce, +during successive years, a single seed or even seed-capsule. Some of the most +sterile plants did not even yield a single seed when legitimately fertilised +with pollen from legitimate plants. There is good reason to believe that the +first seven plants in Class 1 and 2 were the offspring of a long-styled plant +fertilised with pollen from its own-form shortest stamens, and these plants were +the most sterile of all. The remaining plants in Class 1 and 2 were almost +certainly the product of pollen from the mid-length stamens, and although very +sterile, they were less so than the first set. None of the plants in the first +four classes attained their full and proper stature; the first seven, which were +the most sterile of all (as already stated), were by far the most dwarfed, +several of them never reaching to half their proper height. These same plants +did not flower at so early an age, or at so early a period in the season, as +they ought to have done. The anthers in many of their flowers, and in the +flowers of some other plants in the first six classes, were either contabescent +or included numerous small and shrivelled pollen-grains. As the suspicion at one +time occurred to me that the lessened fertility of the illegitimate plants might +be due to the pollen alone having been affected, I may remark that this +certainly was not the case; for several of them, when fertilised by sound pollen +from legitimate plants, did not yield the full complement of seeds; hence it is +certain that both the female and male reproductive organs were affected. In each +of the seven classes, the plants, though descended from the same parents, sown +at the same time and in the same soil, differed much in their average degree of +fertility. + +Turning now to the fifth, sixth, and seventh classes, and looking to the right +hand column of Table 5.30, we find nearly as many plants with a percentage of +seeds above the normal standard as beneath it. As with most plants the number of +seeds produced varies much, it might be thought that the present case was one +merely of variability. But this view must be rejected, as far as the less +fertile plants in these three classes are concerned: first, because none of the +plants in Class 5 attained their proper height, which shows that they were in +some manner affected; and, secondly, because many of the plants in Classes 5 and +6 produced anthers which were either contabescent or included small and +shrivelled pollen-grains. And as in these cases the male organs were manifestly +deteriorated, it is by far the most probable conclusion that the female organs +were in some cases likewise affected, and that this was the cause of the reduced +number of seeds. + +With respect to the six plants in these three classes which yielded a very high +percentage of seeds, the thought naturally arises that the normal standard of +fertility for the long-styled and short-styled forms (with which alone we are +here concerned) may have been fixed too low, and that the six legitimate plants +are merely fully fertile. The standard for the long-styled form was deduced by +counting the seeds in twenty-three capsules, and for the short-styled form from +twenty-five capsules. I do not pretend that this is a sufficient number of +capsules for absolute accuracy; but my experience has led me to believe that a +very fair result may thus be gained. As, however, the maximum number observed in +the twenty-five capsules of the short-styled form was low, the standard in this +case may possibly be not quite high enough. But it should be observed, in the +case of the illegitimate plants, that in order to avoid over-estimating their +infertility, ten very fine capsules were always selected; and the years 1865 and +1866, during which the plants in the three latter classes were experimented on, +were highly favourable for seed-production. Now, if this plan of selecting very +fine capsules during favourable seasons had been followed for obtaining the +normal standards, instead of taking, during various seasons, the first capsules +which came to hand, the standards would undoubtedly have been considerably +higher; and thus the fact of the six foregoing plants appearing to yield an +unnaturally high percentage of seeds may, perhaps, be explained. On this view, +these plants are, in fact, merely fully fertile, and not fertile to an abnormal +degree. Nevertheless, as characters of all kinds are liable to variation, +especially with organisms unnaturally treated, and as in the four first and more +sterile classes, the plants derived from the same parents and treated in the +same manner, certainly did vary much in sterility, it is possible that certain +plants in the latter and more fertile classes may have varied so as to have +acquired an abnormal degree of fertility. But it should be noticed that, if my +standards err in being too low, the sterility of all the many sterile plants in +the several classes will have to be estimated by so much the higher. Finally, we +see that the illegitimate plants in the four first classes are all more or less +sterile, some being absolutely barren, with one alone almost completely fertile; +in the three latter classes, some of the plants are moderately sterile, whilst +others are fully fertile, or possibly fertile in excess. + +The last point which need here be noticed is that, as far as the means of +comparison serve, some degree of relationship generally exists between the +infertility of the illegitimate union of the several parent-forms and that of +their illegitimate offspring. Thus the two illegitimate unions, from which the +plants in Classes 6 and 7 were derived, yielded a fair amount of seed, and only +a few of these plants are in any degree sterile. On the other hand, the +illegitimate unions between plants of the same form always yield very few seeds, +and their seedlings are very sterile. Long-styled parent-plants when fertilised +with pollen from their own-form shortest stamens, appear to be rather more +sterile than when fertilised with their own-form mid-length stamens; and the +seedlings from the former union were much more sterile than those from the +latter union. In opposition to this relationship, short-styled plants +illegitimately fertilised with pollen from the mid-length stamens of the long- +styled form (Class 5) are very sterile; whereas some of the offspring raised +from this union were far from being highly sterile. It may be added that there +is a tolerably close parallelism in all the classes between the degree of +sterility of the plants and their dwarfed stature. As previously stated, an +illegitimate plant fertilised with pollen from a legitimate plant has its +fertility slightly increased. The importance of the several foregoing +conclusions will be apparent at the close of this chapter, when the illegitimate +unions between the forms of the same species and their illegitimate offspring, +are compared with the hybrid unions of distinct species and their hybrid +offspring. + +OXALIS. + +No one has compared the legitimate and illegitimate offspring of any trimorphic +species in this genus. Hildebrand sowed illegitimately fertilised seeds of +Oxalis Valdiviana, but they did not germinate (5/4. 'Botanische Zeitung' 1871 +page 433 footnote.); and this fact, as he remarks, supports my view that an +illegitimate union resembles a hybrid one between two distinct species, for the +seeds in this latter case are often incapable of germination. + +[The following observations relate to the nature of the forms which appear among +the legitimate seedlings of Oxalis Valdiviana. Hildebrand raised, as described +in the paper just referred to, 211 seedlings from all six legitimate unions, and +the three forms appeared among the offspring from each union. For instance, +long-styled plants were legitimately fertilised with pollen from the longest +stamens of the mid-styled form, and the seedlings consisted of 15 long-styled, +18 mid-styled, and 6 short-styled. We here see that a few short-styled plants +were produced, though neither parent was short-styled; and so it was with the +other legitimate unions. Out of the above 211 seedlings, 173 belonged to the +same two forms as their parents, and only 38 belonged to the third form distinct +from either parent. In the case of O. Regnelli, the result, as observed by +Hildebrand, was nearly the same, but more striking: all the offspring from four +of the legitimate unions consisted of the two parent-forms, whilst amongst the +seedlings from the other two legitimate unions the third form appeared. Thus, of +the 43 seedlings from the six legitimate unions, 35 belonged to the same two +forms as their parents, and only 8 to the third form. Fritz Muller also raised +in Brazil seedlings from long-styled plants of O. Regnelli legitimately +fertilised with pollen from the longest stamens of the mid-styled form, and all +these belonged to the two parent-forms. (5/5. 'Jenaische Zeitschrift' etc. Band +6 1871 page 75.) Lastly, seedlings were raised by me from long-styled plants of +O. speciosa legitimately fertilised by the short-styled form, and from the +latter reciprocally fertilised by the long-styled; and these consisted of 33 +long-styled and 26 short-styled plants, with not one mid-styled form. There can, +therefore, be no doubt that the legitimate offspring from any two forms of +Oxalis tend to belong to the same two forms as their parents; but that a few +seedlings belonging to the third form occasionally make their appearance; and +this latter fact, as Hildebrand remarks, may be attributed to atavism, as some +of their progenitors will almost certainly have belonged to the third form. + +When, however, any one form of Oxalis is fertilised illegitimately with pollen +from the same form, the seedlings appear to belong invariably to this form. Thus +Hildebrand states that long-styled plants of O. rosea growing by themselves have +been propagated in Germany year after year by seed, and have always produced +long-styled plants. (5/6. 'Ueber den Trimorphismus in der Gattung Oxalis: +Monatsberichte der Akad. der Wissen. zu Berlin' 21 June 1866 page 373 and +'Botanische Zeitung' 1871 page 435.) Again, 17 seedlings were raised from mid- +styled plants of O. hedysaroides growing by themselves, and these were all mid- +styled. So that the forms of Oxalis, when illegitimately fertilised with their +own pollen, behave like the long-styled form of Lythrum salicaria, which when +thus fertilised always produced with me long-styled offspring.] + +PRIMULA. + +Primula Sinensis. + +I raised during February 1862, from some long-styled plants illegitimately +fertilised with pollen from the same form, twenty-seven seedlings. These were +all long-styled. They proved fully fertile or even fertile in excess; for ten +flowers, fertilised with pollen from other plants of the same lot, yielded nine +capsules, containing on an average 39.75 seeds, with a maximum in one capsule of +66 seeds. Four other flowers legitimately crossed with pollen from a legitimate +plant, and four flowers on the latter crossed with pollen from the illegitimate +seedlings, yielded seven capsules with an average of 53 seeds, with a maximum of +72. I must here state that I have found some difficulty in estimating the normal +standard of fertility for the several unions of this species, as the results +differ much during successive years, and the seeds vary so greatly in size that +it is hard to decide which ought to be considered good. In order to avoid over- +estimating the infertility of the several illegitimate unions, I have taken the +normal standard as low as possible. + +From the foregoing twenty-seven illegitimate plants, fertilised with their own- +form pollen, twenty-five seedling grandchildren were raised; and these were all +long-styled; so that from the two illegitimate generations fifty-two plants were +raised, and all without exception proved long-styled. These grandchildren grew +vigorously, and soon exceeded in height two other lots of illegitimate seedlings +of different parentage and one lot of equal-styled seedlings presently to be +described. Hence I expected that they would have turned out highly ornamental +plants; but when they flowered, they seemed, as my gardener remarked, to have +gone back to the wild state; for the petals were pale-coloured, narrow, +sometimes not touching each other, flat, generally deeply notched in the middle, +but not flexuous on the margin, and with the yellow eye or centre conspicuous. +Altogether these flowers were strikingly different from those of their +progenitors; and this I think, can only be accounted for on the principle of +reversion. Most of the anthers on one plant were contabescent. Seventeen flowers +on the grandchildren were illegitimately fertilised with pollen taken from other +seedlings of the same lot, and produced fourteen capsules, containing on an +average 29.2 seeds; but they ought to have contained about 35 seeds. Fifteen +flowers legitimately fertilised with pollen from an illegitimate short-styled +plant (belonging to the lot next to be described) produced fourteen capsules, +containing an average of 46 seeds; they ought to have contained at least 50 +seeds. Hence these grandchildren of illegitimate descent appear to have lost, +though only in a very slight degree, their full fertility. + +We will now turn to the short-styled form: from a plant of this kind, fertilised +with its own-form pollen, I raised, during February 1862, eight seedlings, seven +of which were short-styled and one long-styled. They grew slowly, and never +attained to the full stature of ordinary plants; some of them flowered +precociously, and others late in the season. Four flowers on these short-styled +seedlings and four on the one long-styled seedling were illegitimately +fertilised with their own-form pollen and produced only three capsules, +containing on an average 23.6 seeds, with a maximum of 29; but we cannot judge +of their fertility from so few capsules; and I have greater doubts about the +normal standard for this union than about any other; but I believe that rather +above 25 seeds would be a fair estimate. Eight flowers on these same short- +styled plants, and the one long-styled illegitimate plant were reciprocally and +legitimately crossed; they produced five capsules, which contained an average of +28.6 seeds, with a maximum of 36. A reciprocal cross between legitimate plants +of the two forms would have yielded an average of at least 57 seeds, with a +possible maximum of 74 seeds; so that these illegitimate plants were sterile +when legitimately crossed. + +I succeeded in raising from the above seven short-styled illegitimate plants, +fertilised with their own-form pollen, only six plants--grandchildren of the +first union. These, like their parents, were of low stature, and had so poor a +constitution that four died before flowering. With ordinary plants it has been a +rare event with me to have more than a single plant die out of a large lot. The +two grandchildren which lived and flowered were short-styled; and twelve of +their flowers were fertilised with their own-form pollen and produced twelve +capsules containing an average of 28.2 seeds; so that these two plants, though +belonging to so weakly a set, were rather more fertile than their parents, and +perhaps not in any degree sterile. Four flowers on the same two grandchildren +were legitimately fertilised by a long-styled illegitimate plant, and produced +four capsules, containing only 32.2 seeds instead of about 64 seeds, which is +the normal average for legitimate short-styled plants legitimately crossed. + +By looking back, it will be seen that I raised at first from a short-styled +plant fertilised with its own-form pollen one long-styled and seven short-styled +illegitimate seedlings. These seedlings were legitimately intercrossed, and from +their seed fifteen plants were raised, grandchildren of the first illegitimate +union, and to my surprise all proved short-styled. Twelve short-styled flowers +borne by these grandchildren were illegitimately fertilised with pollen taken +from other plants of the same lot, and produced eight capsules which contained +an average of 21.8 seeds, with a maximum of 35. These figures are rather below +the normal standard for such a union. Six flowers were also legitimately +fertilised with pollen from an illegitimate long-styled plant and produced only +three capsules, containing on an average 23.6 seeds, with a maximum of 35. Such +a union in the case of a legitimate plant ought to have yielded an average of 64 +seeds, with a possible maximum of 73 seeds. + +SUMMARY ON THE TRANSMISSION OF FORM, CONSTITUTION, AND FERTILITY OF THE +ILLEGITIMATE OFFSPRING OF Primula Sinensis. + +In regard to the long-styled plants, their illegitimate offspring, of which +fifty-two were raised in the course of two generations, were all long-styled. +(5/7. Dr. Hildebrand, who first called attention to this subject 'Botanische +Zeitung' 1864 page 5, raised from a similar illegitimate union seventeen plants, +of which fourteen were long-styled and three short-styled. From a short-styled +plant illegitimately fertilised with its own pollen he raised fourteen plants, +of which eleven were short-styled and three long-styled.) These plants grew +vigorously; but the flowers in one instance were small, appearing as if they had +reverted to the wild state. In the first illegitimate generation they were +perfectly fertile, and in the second their fertility was only very slightly +impaired. With respect to the short-styled plants, twenty-four out of twenty- +five of their illegitimate offspring were short-styled. They were dwarfed in +stature, and one lot of grandchildren had so poor a constitution that four out +of six plants perished before flowering. The two survivors, when illegitimately +fertilised with their own-form pollen, were rather less fertile than they ought +to have been; but their loss of fertility was clearly shown in a special and +unexpected manner, namely, when legitimately fertilised by other illegitimate +plants: thus altogether eighteen flowers were fertilised in this manner, and +yielded twelve capsules, which included on an average only 28.5 seeds, with a +maximum of 45. Now a legitimate short-styled plant would have yielded, when +legitimately fertilised, an average of 64 seeds, with a possible maximum of 74. +This particular kind of infertility will perhaps be best appreciated by a +simile: we may assume that with mankind six children would be born on an average +from an ordinary marriage; but that only three would be born from an incestuous +marriage. According to the analogy of Primula Sinensis, the children of such +incestuous marriages, if they continued to marry incestuously, would have their +sterility only slightly increased; but their fertility would not be restored by +a proper marriage; for if two children, both of incestuous origin, but in no +degree related to each other, were to marry, the marriage would of course be +strictly legitimate, nevertheless they would not give birth to more than half +the full and proper number of children. + +[EQUAL-STYLED VARIETY OF Primula Sinensis. + +As any variation in the structure of the reproductive organs, combined with +changed function, is a rare event, the following cases are worth giving in +detail. My attention was first called to the subject by observing, in 1862, a +long-styled plant, descended from a self-fertilised long-styled parent, which +had some of its flowers in an anomalous state, namely, with the stamens placed +low down in the corolla as in the ordinary long-styled form, but with the +pistils so short that the stigmas stood on a level with the anthers. These +stigmas were nearly as globular and as smooth as in the short-styled form, +instead of being elongated and rough as in the long-styled form. Here, then, we +have combined in the same flower, the short stamens of the long-styled form with +a pistil closely resembling that of the short-styled form. But the structure +varied much even on the same umbel: for in two flowers the pistil was +intermediate in length between that of the long and that of the short-styled +form, with the stigma elongated as in the former, and smooth as in the latter; +and in three other flowers the structure was in all respects like that of the +long-styled form. These modifications appeared to me so remarkable that I +fertilised eight of the flowers with their own pollen, and obtained five +capsules, which contained on an average 43 seeds; and this number shows that the +flowers had become abnormally fertile in comparison with those of ordinary long- +styled plants when self-fertilised. I was thus led to examine the plants in +several small collections, and the result showed that the equal-styled variety +was not rare. + +TABLE 5.31. Primula Sinensis. Preponderance of long-styled over the short-styled +form. + +Column 1: Name of owner or place. +Column 2: Long-styled form. +Column 3: Short-styled form. +Column 4: equal-styled variety. + +Mr. Horwood : 0 : 0 : 17. +Mr. Duck : 20 : 0 : 9. +Baston : 30 : 18 : 15. +Chichester : 12 : 9 : 2. +Holwood : 42 : 12 : 0. +High Elms : 16 : 0 : 0. +Westerham : 1 : 5 : 0. +My own plants from purchased seeds : 13 : 7 : 0. +Total : 134 : 51 : 43. + +In a state of nature the long and short-styled forms would no doubt occur in +nearly equal numbers, as I infer from the analogy of the other heterostyled +species of Primula, and from having raised the two forms of the present species +in exactly the same number from flowers which had been LEGITIMATELY crossed. The +preponderance in Table 5.31 of the long-styled form over the short-styled (in +the proportion of 134 to 51) results from gardeners generally collecting seed +from self-fertilised flowers; and the long-styled flowers produce spontaneously +much more seed (as shown in the first chapter) than the short-styled, owing to +the anthers of the long-styled form being placed low down in the corolla, so +that, when the flowers fall off, the anthers are dragged over the stigma; and we +now also know that long-styled plants, when self-fertilised, very generally +reproduce long-styled offspring. From the consideration of this table, it +occurred to me in the year 1862, that almost all the plants of the Chinese +primrose cultivated in England would sooner or later become long-styled or +equal-styled; and now, at the close of 1876, I have had five small collections +of plants examined, and almost all consisted of long-styled, with some more or +less well-characterised equal-styled plants, but with not one short-styled. + +With respect to the equal-styled plants in the table, Mr. Horwood raised from +purchased seeds four plants, which he remembered were certainly not long-styled, +but either short or equal-styled, probably the latter. These four plants were +kept separate and allowed to fertilise themselves; from their seed the seventeen +plants in the table were raised, all of which proved equal-styled. The stamens +stood low down in the corolla as in the long-styled form; and the stigmas, which +were globular and smooth, were either completely surrounded by the anthers, or +stood close above them. My son William made drawings for me, by the aid of the +camera, of the pollen of one of the above equal-styled plants; and, in +accordance with the position of the stamens, the grains resembled in their small +size those of the long-styled form. He also examined pollen from two equal- +styled plants at Southampton; and in both of them the grains differed extremely +in size in the same anthers, a large number being small and shrivelled, whilst +many were fully as large as those of the short-styled form and rather more +globular. It is probable that the large size of these grains was due, not to +their having assumed the character of the short-styled form, but to monstrosity; +for Max Wichura has observed pollen-grains of monstrous size in certain hybrids. +The vast number of the small shrivelled grains in the above two cases explains +the fact that, though equal-styled plants are generally fertile in a high +degree, yet some of them yield few seeds. I may add that my son compared, in +1875, the grains from two white-flowered plants, in both of which the pistil +projected above the anthers, but neither were properly long-styled or equal- +styled; and in the one in which the stigma projected most, the grains were in +diameter to those in the other plant, in which the stigma projected less, as 100 +to 88; whereas the difference between the grains from perfectly characterised +long-styled and short-styled plants is as 100 to 57. So that these two plants +were in an intermediate condition. To return to the 17 plants in the first line +of Table 5.31: from the relative position of their stigmas and anthers, they +could hardly fail to fertilise themselves; and accordingly four of them +spontaneously yielded no less than 180 capsules; of these Mr. Horwood selected +eight fine capsules for sowing; and they included on an average 54.8 seeds, with +a maximum of 72. He gave me thirty other capsules, taken by hazard, of which +twenty-seven contained good seeds, averaging 35.5, with a maximum of 70; but if +six poor capsules, each with less than 13 seeds, be excluded, the average rises +to 42.5. These are higher numbers than could be expected from either well- +characterised form if self-fertilised; and this high degree of fertility accords +with the view that the male organs belonged to one form, and the female organs +partially to the other form; so that a self-union in the case of the equal- +styled variety is in fact a legitimate union. + +The seed saved from the above seventeen self-fertilised equal-styled plants +produced sixteen plants, which all proved equal-styled, and resembled their +parents in all the above-specified respects. The stamens, however, in one plant +were seated higher up the tube of the corolla than in the true long-styled form; +in another plant almost all the anthers were contabescent. These sixteen plants +were the grandchildren of the four original plants, which it is believed were +equal-styled; so that this abnormal condition was faithfully transmitted, +probably through three, and certainly through two generations. The fertility of +one of these grandchildren was carefully observed: six flowers were fertilised +with pollen from the same flower, and produced six capsules, containing on an +average 68 seeds, with a maximum of 82, and a minimum of 40. Thirteen capsules +spontaneously self-fertilised yielded an average of 53.2 seeds, with the +astonishing maximum in one of 97 seeds. In no legitimate union has so high an +average as 68 seeds been observed by me, or nearly so high a maximum as 82 and +97. These plants, therefore, not only have lost their proper heterostyled +structure and peculiar functional powers, but have acquired an abnormal grade of +fertility--unless, indeed, their high fertility may be accounted for by the +stigmas receiving pollen from the circumjacent anthers at exactly the most +favourable period. + +With respect to Mr. Duck's lot in Table 5.31, seed was saved from a single +plant, of which the form was not observed, and this produced nine equal-styled +and twenty long-styled plants. The equal-styled resembled in all respects those +previously described; and eight of their capsules spontaneously self-fertilised +contained on an average 44.4 seeds, with a maximum of 61 and a minimum of 23. In +regard to the twenty long-styled plants, the pistil in some of the flowers did +not project quite so high as in ordinary long-styled flowers; and the stigmas, +though properly elongated, were smooth; so that we have here a slight approach +in structure to the pistil of the short-styled form. Some of these long-styled +plants also approached the equal-styled in function; for one of them produced no +less than fifteen spontaneously self-fertilised capsules, and of these eight +contained, on an average, 31.7 seeds, with a maximum of 61. This average would +be rather low for a long-styled plant artificially fertilised with its own +pollen, but is high for one spontaneously self-fertilised. For instance, thirty- +four capsules produced by the illegitimate grandchildren of a long-styled plant, +spontaneously self-fertilised, contained on an average only 9.1 seeds, with a +maximum of 46. Some seeds indiscriminately saved from the foregoing twenty-nine +equal-styled and long-styled plants produced sixteen seedlings, grandchildren of +the original plant belonging to Mr. Duck; and these consisted of fourteen equal- +styled and two long-styled plants; and I mention this fact as an additional +instance of the transmission of the equal-styled variety. + +The third lot in Table 5.31, namely the Baston plants, are the last which need +be mentioned. The long and short-styled plants, and the fifteen equal-styled +plants, were descended from two distinct stocks. The latter were derived from a +single plant, which the gardener is positive was not long-styled; hence, +probably, it was equal-styled. In all these fifteen plants the anthers, +occupying the same position as in the long-styled form, closely surrounded the +stigma, which in one instance alone was slightly elongated. Notwithstanding this +position of the stigma, the flowers, as the gardener assured me, did not yield +many seeds; and this difference from the foregoing cases may perhaps have been +caused by the pollen being bad, as in some of the Southampton equal-styled +plants.] + +CONCLUSIONS WITH RESPECT TO THE EQUAL-STYLED VARIETY OF P. Sinensis. + +That this is a variation, and not a third or distinct form, as in the trimorphic +genera Lythrum and Oxalis, is clear; for we have seen its first appearance in +one out of a lot of illegitimate long-styled plants; and in the case of Mr. +Duck's seedlings, long-styled plants, only slightly deviating from the normal +state, as well as equal-styled plants were produced from the same self- +fertilised parent. The position of the stamens in their proper place low down in +the tube of the corolla, together with the small size of the pollen-grains, +show, firstly, that the equal-styled variety is a modification of the long- +styled form, and, secondly, that the pistil is the part which has varied most, +as indeed was obvious in many of the plants. This variation is of frequent +occurrence, and is strongly inherited when it has once appeared. It would, +however, have possessed little interest if it had consisted of a mere change of +structure; but this is accompanied by modified fertility. Its occurrence +apparently stands in close relation with the illegitimate birth of the parent +plant; but to this whole subject I shall hereafter recur. + +[Primula auricula. + +Although I made no experiments on the illegitimate offspring of this species, I +refer to it for two reasons:--First, because I have observed two equal-styled +plants in which the pistil resembled in all respects that of the long-styled +form, whilst the stamens had become elongated as in the short-styled form, so +that the stigma was almost surrounded by the anthers. The pollen-grains, +however, of the elongated stamens resembled in their small size those of the +shorter stamens proper to the long-styled form. Hence these plants have become +equal-styled by the increased length of the stamens, instead of, as with P. +Sinensis, by the diminished length of the pistil. Mr. J. Scott observed five +other plants in the same state, and he shows that one of them, when self- +fertilised, yielded more seed than an ordinary long- or short-styled form would +have done when similarly fertilised, but that it was far inferior in fertility +to either form when legitimately crossed. (5/8. 'Journal of the Proceedings of +the Linnean Society' 8 1864 page 91.) Hence it appears that the male and female +organs of this equal-styled variety have been modified in some special manner, +not only in structure but in functional powers. This, moreover, is shown by the +singular fact that both the long-styled and short-styled plants, fertilised with +pollen from the equal-styled variety, yield a lower average of seed than when +these two forms are fertilised with their own pollen. + +The second point which deserves notice is that florists always throw away the +long-styled plants, and save seed exclusively from the short-styled form. +Nevertheless, as Mr. Scott was informed by a man who raises this species +extensively in Scotland, about one-fourth of the seedlings appear long-styled; +so that the short-styled form of the Auricula, when fertilised by its own +pollen, does not reproduce the same form in so large a proportion as in the case +of P. Sinensis. We may further infer that the short-styled form is not rendered +quite sterile by a long course of fertilisation with pollen of the same form: +but as there would always be some liability to an occasional cross with the +other form, we cannot tell how long self-fertilisation has been continued. + +Primula farinosa. + +Mr. Scott says that it is not at all uncommon to find equal-styled plants of +this heterostyled species. (5/9. 'Journal of the Proceedings of the Linnean +Society' 8 1864 page 115.) Judging from the size of the pollen-grains, these +plants owe their structure, as in the case of P. auricula, to the abnormal +elongation of the stamens of the long-styled form. In accordance with this view, +they yield less seed when crossed with the long-styled form than with the short- +styled. But they differ in an anomalous manner from the equal-styled plants of +P. auricula in being extremely sterile with their own pollen. + +Primula elatior. + +It was shown in the first chapter, on the authority of Herr Breitenbach, that +equal-styled flowers are occasionally found on this species whilst growing in a +state of nature; and this is the only instance of such an occurrence known to +me, with the exception of some wild plants of the Oxlip--a hybrid between P. +veris and vulgaris--which were equal-styled. Herr Breitenbach's case is +remarkable in another way; for equal-styled flowers were found in two instances +on plants which bore both long-styled and short-styled flowers. In every other +instance these two forms and the equal-styled variety have been produced by +distinct plants.] + +Primula vulgaris, BRIT. FL. + +VAR. acaulis OF LINN. AND P. acaulis OF JACQ. + +VAR. RUBRA. + +Mr. Scott states that this variety, which grew in the Botanic Garden in +Edinburgh, was quite sterile when fertilised with pollen from the common +primrose, as well as from a white variety of the same species, but that some of +the plants, when artificially fertilised with their own pollen, yielded a +moderate supply of seed. (5/10. 'Journal of the Proceedings of the Linnean +Society' 8 1864 page 98.) He was so kind as to send me some of these self- +fertilised seeds, from which I raised the plants immediately to be described. I +may premise that the results of my experiments on the seedlings, made on a large +scale, do not accord with those by Mr. Scott on the parent-plant. + +First, in regard to the transmission of form and colour. The parent-plant was +long-styled, and of a rich purple colour. From the self-fertilised seed 23 +plants were raised; of these 18 were purple of different shades, with two of +them a little streaked and freckled with yellow, thus showing a tendency to +reversion; and 5 were yellow, but generally with a brighter orange centre than +in the wild flower. All the plants were profuse flowerers. All were long-styled; +but the pistil varied a good deal in length even on the same plant, being rather +shorter, or considerably longer, than in the normal long-styled form; and the +stigmas likewise varied in shape. It is, therefore, probable that an equal- +styled variety of the primrose might be found on careful search; and I have +received two accounts of plants apparently in this condition. The stamens always +occupied their proper position low down in the corolla; and the pollen-grains +were of the small size proper to the long-styled form, but were mingled with +many minute and shrivelled grains. The yellow-flowered and the purple-flowered +plants of this first generation were fertilised under a net with their own +pollen, and the seed separately sown. From the former, 22 plants were raised, +and all were yellow and long-styled. From the latter or the purple-flowered +plants, 24 long-styled plants were raised, of which 17 were purple and 7 yellow. +In this last case we have an instance of reversion in colour, without the +possibility of any cross, to the grandparents or more distant progenitors of the +plants in question. Altogether 23 plants in the first generation and 46 in the +second generation were raised; and the whole of these 69 illegitimate plants +were long-styled! + +Eight purple-flowered and two yellow-flowered plants of the first illegitimate +generation were fertilised in various ways with their own pollen and with that +of the common primrose; and the seeds were separately counted, but as I could +detect no difference in fertility between the purple and yellow varieties, the +results are run together in Table 5.32. + +TABLE 5.32. Primula vulgaris. + +Column 1: Nature of plant experimented on, and kind of union. +Column 2: Number of flowers fertilised. +Column 3: Number of capsules produced. +Column 4: Average Number of seeds per capsule. +Column 5: Maximum Number of seeds in any one capsule. +Column 6: Minimum Number of seeds in any one capsule. + +Purple- and yellow-flowered illegitimate long-styled plants, ILLEGITIMATELY +fertilised with pollen from the same plant : +72 : 11 : 11.5 : 26 : 5. + +Purple- and yellow-flowered illegitimate long-styled plants, ILLEGITIMATELY +fertilised with pollen from the common long-styled primrose : +72 : 39 : 31.4 : 62 : 3. + +Or, if the ten poorest capsules, including less than 15 seeds, be rejected, we +get: +72 : 29 : 40.6 : 62 : 18. + +Purple- and yellow-flowered illegitimate long-styled plants, LEGITIMATELY +fertilised with pollen from the common short-styled primrose : +26 : 18 : 36.4 : 60 : 9. + +Or, if the two poorest capsules, including less than 15 seeds, be rejected, we +get: +26 : 16 : 41.2 : 60 : 15. + +The long-styled form of the common primrose ILLEGITIMATELY fertilised with +pollen from the long-styled illegitimate purple- and yellow-flowered plants: +20 : 14 : 15.4 : 46 : 1. + +Or, if the three poorest capsules be rejected, we get: +20 : 11 : 18.9 : 46 : 8. + +The short-styled form of the common primrose LEGITIMATELY fertilised with pollen +from the long-styled illegitimate purple- and yellow-flowered plants: +10 : 6 : 30.5 : 61 : 6. + +If we compare the figures in this table with those given in the first chapter, +showing the normal fertility of the common primrose, we shall see that the +illegitimate purple- and yellow-flowered varieties are very sterile. For +instance, 72 flowers were fertilised with their own pollen and produced only 11 +good capsules; but by the standard they ought to have produced 48 capsules; and +each of these ought to have contained on an average 52.2 seeds, instead of only +11.5 seeds. When these plants were illegitimately and legitimately fertilised +with pollen from the common primrose, the average numbers were increased, but +were far from attaining the normal standards. So it was when both forms of the +common primrose were fertilised with pollen from these illegitimate plants; and +this shows that their male as well as their female organs were in a deteriorated +condition. The sterility of these plants was shown in another way, namely, by +their not producing any capsules when the access of all insects (except such +minute ones as Thrips) was prevented; for under these circumstances the common +long-styled primrose produces a considerable number of capsules. There can, +therefore, be no doubt that the fertility of these plants was greatly impaired. +The loss is not correlated with the colour of the flower; and it was to +ascertain this point that I made so many experiments. As the parent-plant +growing in Edinburgh was found by Mr. Scott to be in a high degree sterile, it +may have transmitted a similar tendency to its offspring, independently of their +illegitimate birth. I am, however, inclined to attribute some weight to the +illegitimacy of their descent, both from the analogy of other cases, and more +especially from the fact that when the plants were LEGITIMATELY fertilised with +pollen of the common primrose they yielded an average, as may be seen in the +table, of only 5 more seeds than when ILLEGITIMATELY fertilised with the same +pollen. Now we know that it is eminently characteristic of the illegitimate +offspring of Primula Sinensis that they yield but few more seeds when +legitimately fertilised than when fertilised with their own-form pollen. + +Primula veris, Brit. Fl. + +Var. officinalis of Linn., P. officinalis OF Jacq. + +Seeds from the short-styled form of the cowslip fertilised with pollen from the +same form germinate so badly that I raised from three successive sowings only +fourteen plants, which consisted of nine short-styled and five long-styled +plants. Hence the short-styled form of the cowslip, when self-fertilised, does +not transmit the same form nearly so truly as does that of P. Sinensis. From the +long-styled form, always fertilised with its own-form pollen, I raised in the +first generation three long-styled plants,--from their seed 53 long-styled +grandchildren,--from their seed 4 long-styled great-grandchildren,--from their +seed 20 long-styled great-great-grandchildren,--and lastly, from their seed 8 +long-styled and 2 short-styled great-great-great-grandchildren. In this last +generation short-styled plants appeared for the first time in the course of the +six generations,--the parent long-styled plant which was fertilised with pollen +from another plant of the same form being counted as the first generation. Their +appearance may be attributed to atavism. From two other long-styled plants, +fertilised with their own-form pollen, 72 plants were raised, which consisted of +68 long-styled and 4 short-styled. So that altogether 162 plants were raised +from illegitimately fertilised long-styled cowslips, and these consisted of 156 +long-styled and 6 short-styled plants. + +We will now turn to the fertility and powers of growth possessed by the +illegitimate plants. From a short-styled plant, fertilised with its own-form +pollen, one short-styled and two long-styled plants, and from a long-styled +plant similarly fertilised three long-styled plants were at first raised. The +fertility of these six illegitimate plants was carefully observed; but I must +premise that I cannot give any satisfactory standard of comparison as far as the +number of the seeds is concerned; for though I counted the seeds of many +legitimate plants fertilised legitimately and illegitimately, the number varied +so greatly during successive seasons that no one standard will serve well for +illegitimate unions made during different seasons. Moreover the seeds in the +same capsule frequently differ so much in size that it is scarcely possible to +decide which ought to be counted as good seed. There remains as the best +standard of comparison the proportional number of fertilised flowers which +produce capsules containing any seed. + +First, for the one illegitimate short-styled plant. In the course of three +seasons 27 flowers were illegitimately fertilised with pollen from the same +plant, and they yielded only a single capsule, which, however, contained a +rather large number of seeds for a union of this nature, namely, 23. As a +standard of comparison I may state that during the same three seasons 44 flowers +borne by legitimate short-styled plants were self-fertilised, and yielded 26 +capsules; so that the fact of the 27 flowers on the illegitimate plant having +produced only one capsule proves how sterile it was. To show that the conditions +of life were favourable, I will add that numerous plants of this and other +species of Primula all produced an abundance of capsules whilst growing close by +in the same soil with the present and following plants. The sterility of the +above illegitimate short-styled plant depended on both the male and female +organs being in a deteriorated condition. This was manifestly the case with the +pollen; for many of the anthers were shrivelled or contabescent. Nevertheless +some of the anthers contained pollen, with which I succeeded in fertilising some +flowers on the illegitimate long-styled plants immediately to be described. Four +flowers on this same short-styled plant were likewise LEGITIMATELY fertilised +with pollen from one of the following long-styled plants; but only one capsule +was produced, containing 26 seeds; and this is a very low number for a +legitimate union. + +With respect to the five illegitimate long-styled plants of the first +generation, derived from the above self-fertilised short-styled and long-styled +parents, their fertility was observed during the same three years. These five +plants, when self-fertilised, differed considerably from one another in their +degree of fertility, as was the case with the illegitimate long-styled plants of +Lythrum salicaria; and their fertility varied much according to the season. I +may premise, as a standard of comparison, that during the same years 56 flowers +on legitimate long-styled plants of the same age and grown in the same soil, +were fertilised with their own pollen, and yielded 27 capsules; that is, 48 per +cent. On one of the five illegitimate long-styled plants 36 flowers were self- +fertilised in the course of the three years, but they did not produce a single +capsule. Many of the anthers on this plant were contabescent; but some seemed to +contain sound pollen. Nor were the female organs quite impotent; for I obtained +from a LEGITIMATE cross one capsule with good seed. On a second illegitimate +long-styled plant 44 flowers were fertilised during the same years with their +own pollen, but they produced only a single capsule. The third and fourth plants +were in a very slight degree more productive. The fifth and last plant was +decidedly more fertile; for 42 self-fertilised flowers yielded 11 capsules. +Altogether, in the course of the three years, no less than 160 flowers on these +five illegitimate long-styled plants were fertilised with their own pollen, but +they yielded only 22 capsules. According to the standard above given, they ought +to have yielded 80 capsules. These 22 capsules contained on an average 15.1 +seeds. I believe, subject to the doubts before specified, that with legitimate +plants the average number from a union of this nature would have been above 20 +seeds. Twenty-four flowers on these same five illegitimate long-styled plants +were legitimately fertilised with pollen from the above-described illegitimate +short-styled plant, and produced only 9 capsules, which is an extremely small +number for a legitimate union. These 9 capsules, however, contained an average +of 38 apparently good seeds, which is as large a number as legitimate plants +sometimes yield. But this high average was almost certainly false; and I mention +the case for the sake of showing the difficulty of arriving at a fair result; +for this average mainly depended on two capsules containing the extraordinary +numbers of 75 and 56 seeds; these seeds, however, though I felt bound to count +them, were so poor that, judging from trials made in other cases, I do not +suppose that one would have germinated; and therefore they ought not to have +been included. Lastly, 20 flowers were legitimately fertilised with pollen from +a legitimate plant, and this increased their fertility; for they produced 10 +capsules. Yet this is but a very small proportion for a legitimate union. + +There can, therefore, be no doubt that these five long-styled plants and the one +short-styled plant of the first illegitimate generation were extremely sterile. +Their sterility was shown, as in the case of hybrids, in another way, namely, by +their flowering profusely, and especially by the long endurance of the flowers. +For instance, I fertilised many flowers on these plants, and fifteen days +afterwards (namely on March 22nd) I fertilised numerous long-styled and short- +styled flowers on common cowslips growing close by. These latter flowers, on +April 8th, were withered, whilst most of the illegitimate flowers remained quite +fresh for several days subsequently; so that some of these illegitimate plants, +after being fertilised, remained in full bloom for above a month. + +We will now turn to the fertility of the 53 illegitimate long-styled +grandchildren, descended from the long-styled plant which was first fertilised +with its own pollen. The pollen in two of these plants included a multitude of +small and shrivelled grains. Nevertheless they were not very sterile; for 25 +flowers, fertilised with their own pollen, produced 15 capsules, containing an +average of 16.3 seeds. As already stated, the probable average with legitimate +plants for a union of this nature is rather above 20 seeds. These plants were +remarkably healthy and vigorous, as long as they were kept under highly +favourable conditions in pots in the greenhouse; and such treatment greatly +increases the fertility of the cowslip. When these same plants were planted +during the next year (which, however, was an unfavourable one), out of doors in +good soil, 20 self-fertilised flowers produced only 5 capsules, containing +extremely few and wretched seeds. + +Four long-styled great-grandchildren were raised from the self-fertilised +grandchildren, and were kept under the same highly favourable conditions in the +greenhouse; 10 of their flowers were fertilised with own-form pollen and yielded +the large proportion of 6 capsules, containing on an average 18.7 seeds. From +these seeds 20 long-styled great-great-grandchildren were raised, which were +likewise kept in the greenhouse. Thirty of their flowers were fertilised with +their own pollen and yielded 17 capsules, containing on an average no less than +32, mostly fine seeds. It appears, therefore, that the fertility of these plants +of the fourth illegitimate generation, as long as they were kept under highly +favourable conditions, had not decreased, but had rather increased. The result, +however, was widely different when they were planted out of doors in good soil, +where other cowslips grew vigorously and were completely fertile; for these +illegitimate plants now became much dwarfed in stature and extremely sterile, +notwithstanding that they were exposed to the visits of insects, and must have +been legitimately fertilised by the surrounding legitimate plants. A whole row +of these plants of the fourth illegitimate generation, thus freely exposed and +legitimately fertilised, produced only 3 capsules, containing on an average only +17 seeds. During the ensuing winter almost all these plants died, and the few +survivors were miserably unhealthy, whilst the surrounding legitimate plants +were not in the least injured. + +The seeds from the great-great-grandchildren were sown, and 8 long-styled and 2 +short-styled plants of the fifth illegitimate generation raised. These whilst +still in the greenhouse produced smaller leaves and shorter flower-stalks than +some legitimate plants with which they grew in competition; but it should be +observed that the latter were the product of a cross with a fresh stock,--a +circumstance which by itself would have added much to their vigour. (5/11. For +full details of this experiment, see my 'Effects of Cross and Self- +fertilisation' 1876 page 220.) When these illegitimate plants were transferred +to fairly good soil out of doors, they became during the two following years +much more dwarfed in stature and produced very few flower-stems; and although +they must have been legitimately fertilised by insects, they yielded capsules, +compared with those produced by the surrounding legitimate plants, in the ratio +only of 5 to 100! It is therefore certain that illegitimate fertilisation, +continued during successive generations, affects the powers of growth and +fertility of P. veris to an extraordinary degree; more especially when the +plants are exposed to ordinary conditions of life, instead of being protected in +a greenhouse. + +[EQUAL-STYLED RED VARIETY OF Primula veris. + +Mr. Scott has described a plant of this kind growing in the Botanic Garden of +Edinburgh. (5/12. 'Proceedings of the Linnean Society' volume 8 1864 page 105.) +He states that it was highly self-fertile, although insects were excluded; and +he explains this fact by showing, first, that the anthers and stigma are in +close apposition, and that the stamens in length, position and size of their +pollen-grains resemble those of the short-styled form, whilst the pistil +resembles that of the long-styled form both in length and in the structure of +the stigma. Hence the self-union of this variety is, in fact, a legitimate +union, and consequently is highly fertile. Mr. Scott further states that this +variety yielded very few seeds when fertilised by either the long- or short- +styled common cowslip, and, again, that both forms of the latter, when +fertilised by the equal-styled variety, likewise produced very few seeds. But +his experiments with the cowslip were few, and my results do not confirm his in +any uniform manner. + +I raised twenty plants from self-fertilised seed sent me by Mr. Scott; and they +all produced red flowers, varying slightly in tint. Of these, two were strictly +long-styled both in structure and in function; for their reproductive powers +were tested by crosses with both forms of the common cowslip. Six plants were +equal-styled; but on the same plant the pistil varied a good deal in length +during different seasons. This was likewise the case, according to Mr. Scott, +with the parent-plant. Lastly, twelve plants were in appearance short-styled; +but they varied much more in the length of their pistils than ordinary short- +styled cowslips, and they differed widely from the latter in their powers of +reproduction. Their pistils had become short-styled in structure, whilst +remaining long-styled in function. Short-styled cowslips, when insects are +excluded, are extremely barren: for instance, on one occasion six fine plants +produced only about 50 seeds (that is, less than the product of two good +capsules), and on another occasion not a single capsule. Now, when the above +twelve apparently short-styled seedlings were similarly treated, nearly all +produced a great abundance of capsules, containing numerous seeds, which +germinated remarkably well. Moreover three of these plants, which during the +first year were furnished with quite short pistils, on the following year +produced pistils of extraordinary length. The greater number, therefore, of +these short-styled plants could not be distinguished in function from the equal- +styled variety. The anthers in the six equal-styled and in the apparently twelve +short-styled plants were seated high up in the corolla, as in the true short- +styled cowslip; and the pollen-grains resembled those of the same form in their +large size, but were mingled with a few shrivelled grains. In function this +pollen was identical with that of the short-styled cowslip; for ten long-styled +flowers of the common cowslip, legitimately fertilised with pollen from a true +equal-styled variety, produced six capsules, containing on an average 34.4 +seeds; whilst seven capsules on a short-styled cowslip illegitimately fertilised +with pollen from the equal-styled variety, yielded an average of only 14.5 +seeds. + +As the equal-styled plants differ from one another in their powers of +reproduction, and as this is an important subject, I will give a few details +with respect to five of them. First, an equal-styled plant, protected from +insects (as was done in all the following cases, with one stated exception), +spontaneously produced numerous capsules, five of which gave an average of 44.8 +seeds, with a maximum in one capsule of 57. But six capsules, the product of +fertilisation with pollen from a short-styled cowslip (and this is a legitimate +union), gave an average of 28.5 seeds, with a maximum of 49; and this is a much +lower average than might have been expected. Secondly, nine capsules from +another equal-styled plant, which had not been protected from insects, but +probably was self-fertilised, gave an average of 45.2 seeds, with a maximum of +58. Thirdly, another plant which had a very short pistil in 1865, produced +spontaneously many capsules, six of which contained an average of 33.9 seeds, +with a maximum of 38. In 1866 this same plant had a pistil of wonderful length; +for it projected quite above the anthers, and the stigma resembled that of the +long-styled form. In this condition it produced spontaneously a vast number of +fine capsules, six of which contained almost exactly the same average number as +before, namely 34.3, with a maximum of 38. Four flowers on this plant, +legitimately fertilised with pollen from a short-styled cowslip, yielded +capsules with an average of 30.2 seeds. Fourthly another short-styled plant +spontaneously produced in 1865 an abundance of capsules, ten of which contained +an average of 35.6 seeds, with a maximum of 54. In 1866 this same plant had +become in all respects long-styled, and ten capsules gave almost exactly the +same average as before, namely 35.1 seeds, with a maximum of 47. Eight flowers +on this plant, legitimately fertilised with pollen from a short-styled cowslip, +produced six capsules, with the high average of 53 seeds, and the high maximum +of 67. Eight flowers were also fertilised with pollen from a long-styled cowslip +(this being an illegitimate union), and produced seven capsules, containing an +average of 24.4 seeds, with a maximum of 32. The fifth and last plant remained +in the same condition during both years: it had a pistil rather longer than that +of the true short-styled form, with the stigma smooth, as it ought to be in this +form, but abnormal in shape, like a much-elongated inverted cone. It produced +spontaneously many capsules, five of which, in 1865, gave an average of only +15.6 seeds; and in 1866 ten capsules still gave an average only a little higher, +namely of 22.1, with a maximum of 30. Sixteen flowers were fertilised with +pollen from a long-styled cowslip, and produced 12 capsules, with an average of +24.9 seeds, and a maximum of 42. Eight flowers were fertilised with pollen from +a short-styled cowslip, but yielded only two capsules, containing 18 and 23 +seeds. Hence this plant, in function and partially in structure, was in an +almost exactly intermediate state between the long-styled and short-styled form, +but inclining towards the short-styled; and this accounts for the low average of +seeds which it produced when spontaneously self-fertilised. + +The foregoing five plants thus differ much from one another in the nature of +their fertility. In two individuals a great difference in the length of the +pistil during two succeeding years made no difference in the number of seeds +produced. As all five plants possessed the male organs of the short-styled form +in a perfect state, and the female organs of the long-styled form in a more or +less complete state, they spontaneously produced a surprising number of +capsules, which generally contained a large average of remarkably fine seeds. +With ordinary cowslips LEGITIMATELY FERTILISED, I once obtained from plants +cultivated in the greenhouse the high average, from seven capsules, of 58.7 +seeds, with a maximum in one capsule of 87 seeds; but from plants grown out of +doors I never obtained a higher average than 41 seeds. Now two of the equal- +styled plants, grown out of doors and spontaneously SELF-FERTILISED, gave +averages of 44 and 45 seeds; but this high fertility may perhaps be in part +attributed to the stigma receiving pollen from the surrounding anthers at +exactly the right period. Two of these plants, fertilised with pollen from a +short-styled cowslip (and this in fact is a legitimate union), gave a lower +average than when self-fertilised. On the other hand, another plant, when +similarly fertilised by a cowslip, yielded the unusually high average of 53 +seeds, with a maximum of 67. Lastly, as we have just seen, one of these plants +was in an almost exactly intermediate condition in its female organs between the +long- and short-styled forms, and consequently, when self-fertilised, yielded a +low average of seed. If we add together all the experiments which I made on the +equal-styled plants, 41 spontaneously self-fertilised capsules (insects having +been excluded) gave an average of 34 seeds, which is exactly the same number as +the parent-plant yielded in Edinburgh. Thirty-four flowers, fertilised with +pollen from the short-styled cowslip (and this is an analogous union), produced +17 capsules, containing an average of 33.8 seeds. It is a rather singular +circumstance, for which I cannot account, that 20 flowers, artificially +fertilised on one occasion with pollen from the same plants yielded only ten +capsules, containing the low average of 26.7 seeds. + +As bearing on inheritance, it may be added that 72 seedlings were raised from +one of the red-flowered, strictly equal-styled, self-fertilised plants descended +from the similarly characterised Edinburgh plant. These 72 plants were therefore +grandchildren of the Edinburgh plant, and they all bore, as in the first +generation, red flowers, with the exception of one plant, which reverted in +colour to the common cowslip. In regard to structure, nine plants were truly +long-styled and had their stamens seated low down in the corolla in the proper +position; the remaining 63 plants were equal-styled, though the stigma in about +a dozen of them stood a little below the anthers. We thus see that the anomalous +combination in the same flower, of the male and female sexual organs which +properly exist in the two distinct forms, was inherited with much force. Thirty- +six seedlings were also raised from long and short-styled common cowslips, +crossed with pollen from the equal-styled variety. Of these plants one alone was +equal-styled, 20 were short-styled, but with the pistil in three of them rather +too long, and the remaining 15 were long-styled. In this case we have an +illustration of the difference between simple inheritance and prepotency of +transmission; for the equal-styled variety, when self-fertilised, transmits its +character, as we have just seen, with much force, but when crossed with the +common cowslip cannot withstand the greater power of transmission of the latter. + +PULMONARIA. + +I have little to say on this genus. I obtained seeds of P. officinalis from a +garden where the long-styled form alone grew, and raised 11 seedlings, which +were all long-styled. These plants were named for me by Dr. Hooker. They +differed, as has been shown, from the plants belonging to this species which in +Germany were experimented on by Hildebrand (5/13. 'Botanische Zeitung' 1865 page +13.); for he found that the long-styled form was absolutely sterile with its own +pollen, whilst my long-styled seedlings and the parent-plants yielded a fair +supply of seed when self-fertilised. Plants of the long-styled form of +Pulmonaria angustifolia were, like Hildebrand's plants, absolutely sterile with +their own pollen, so that I could never procure a single seed. On the other +hand, the short-styled plants of this species, differently from those of P. +officinalis, were fertile with their own pollen in a quite remarkable degree for +a heterostyled plant. From seeds carefully self-fertilised I raised 18 plants, +of which 13 proved short-styled and 5 long-styled. + +Polygonum fagopyrum. + +From flowers on long-styled plants fertilised illegitimately with pollen from +the same plant, 49 seedlings were raised, and these consisted of 45 long-styled +and 4 short-styled. From flowers on short-styled plants illegitimately +fertilised with pollen from the same plant 33 seedlings were raised, and these +consisted of 20 short-styled and 13 long-styled. So that the usual rule of +illegitimately fertilised long-styled plants tending much more strongly than +short-styled plants to reproduce their own form here holds good. The +illegitimate plants derived from both forms flowered later than the legitimate, +and were to the latter in height as 69 to 100. But as these illegitimate plants +were descended from parents fertilised with their own pollen, whilst the +legitimate plants were descended from parents crossed with pollen from a +distinct individual, it is impossible to know how much of their difference in +height and period of flowering, is due to the illegitimate birth of the one set, +and how much to the other set being the product of a cross between distinct +plants.] + +CONCLUDING REMARKS ON THE ILLEGITIMATE OFFSPRING OF HETEROSTYLED TRIMORPHIC AND +DIMORPHIC PLANTS. + +It is remarkable how closely and in how many points illegitimate unions between +the two or three forms of the same heterostyled species, together with their +illegitimate offspring, resemble hybrid unions between distinct species together +with their hybrid offspring. In both cases we meet with every degree of +sterility, from very slightly lessened fertility to absolute barrenness, when +not even a single seed-capsule is produced. In both cases the facility of +effecting the first union is much influenced by the conditions to which the +plants are exposed. (5/14. This has been remarked by many experimentalists in +effecting crosses between distinct species; and in regard to illegitimate unions +I have given in the first chapter a striking illustration in the case of Primula +veris.) Both with hybrids and illegitimate plants the innate degree of sterility +is highly variable in plants raised from the same mother-plant. In both cases +the male organs are more plainly affected than the female; and we often find +contabescent anthers enclosing shrivelled and utterly powerless pollen-grains. +The more sterile hybrids, as Max Wichura has well shown, are sometimes much +dwarfed in stature, and have so weak a constitution that they are liable to +premature death (5/15. 'Die Bastardbefruchtung im Pflanzenreich' 1865.); and we +have seen exactly parallel cases with the illegitimate seedlings of Lythrum and +Primula. Many hybrids are the most persistent and profuse flowerers, as are some +illegitimate plants. When a hybrid is crossed by either pure parent-form, it is +notoriously much more fertile than when crossed inter se or by another hybrid; +so when an illegitimate plant is fertilised by a legitimate plant, it is more +fertile than when fertilised inter se or by another illegitimate plant. When two +species are crossed and they produce numerous seeds, we expect as a general rule +that their hybrid offspring will be moderately fertile; but if the parent +species produce extremely few seeds, we expect that the hybrids will be very +sterile. But there are marked exceptions, as shown by Gartner, to these rules. +So it is with illegitimate unions and illegitimate offspring. Thus the mid- +styled form of Lythrum salicaria, when illegitimately fertilised with pollen +from the longest stamens of the short-styled form, produced an unusual number of +seeds; and their illegitimate offspring were not at all, or hardly at all, +sterile. On the other hand, the illegitimate offspring from the long-styled +form, fertilised with pollen from the shortest stamens of the same form, yielded +few seeds, and the illegitimate offspring thus produced were very sterile; but +they were more sterile than might have been expected relatively to the +difficulty of effecting the union of the parent sexual elements. No point is +more remarkable in regard to the crossing of species than their unequal +reciprocity. Thus species A will fertilise B with the greatest ease; but B will +not fertilise A after hundreds of trials. We have exactly the same case with +illegitimate unions; for the mid-styled Lythrum salicaria was easily fertilised +by pollen from the longest stamens of the short-styled form, and yielded many +seeds; but the latter form did not yield a single seed when fertilised by the +longest stamens of the mid-styled form. + +Another important point is prepotency. Gartner has shown that when a species is +fertilised with pollen from another species, if it be afterwards fertilised with +its own pollen, or with that of the same species, this is so prepotent over the +foreign pollen that the effect of the latter, though placed on the stigma some +time previously, is entirely destroyed. Exactly the same thing occurs with the +two forms of a heterostyled species. Thus several long-styled flowers of Primula +veris were fertilised illegitimately with pollen from another plant of the same +form, and twenty-four hours afterwards legitimately with pollen from a short- +styled dark-red polyanthus which is a variety of P. veris; and the result was +that every one of the thirty seedlings thus raised bore flowers more or less +red, showing plainly how prepotent the legitimate pollen from a short-styled +plant was over the illegitimate pollen from a long-styled plant. + +In all the several foregoing points the parallelism is wonderfully close between +the effects of illegitimate and hybrid fertilisation. It is hardly an +exaggeration to assert that seedlings from an illegitimately fertilised +heterostyled plant are hybrids formed within the limits of one and the same +species. This conclusion is important, for we thus learn that the difficulty in +sexually uniting two organic forms and the sterility of their offspring, afford +no sure criterion of so-called specific distinctness. If any one were to cross +two varieties of the same form of Lythrum or Primula for the sake of +ascertaining whether they were specifically distinct, and he found that they +could be united only with some difficulty, that their offspring were extremely +sterile, and that the parents and their offspring resembled in a whole series of +relations crossed species and their hybrid offspring, he might maintain that his +varieties had been proved to be good and true species; but he would be +completely deceived. In the second place, as the forms of the same trimorphic or +dimorphic heterostyled species are obviously identical in general structure, +with the exception of the reproductive organs, and as they are identical in +general constitution (for they live under precisely the same conditions), the +sterility of their illegitimate unions and that of their illegitimate offspring, +must depend exclusively on the nature of the sexual elements and on their +incompatibility for uniting in a particular manner. And as we have just seen +that distinct species when crossed resemble in a whole series of relations the +forms of the same species when illegitimately united, we are led to conclude +that the sterility of the former must likewise depend exclusively on the +incompatible nature of their sexual elements, and not on any general difference +in constitution or structure. We are, indeed, led to this same conclusion by the +impossibility of detecting any differences sufficient to account for certain +species crossing with the greatest ease, whilst other closely allied species +cannot be crossed, or can be crossed only with extreme difficulty. We are led to +this conclusion still more forcibly by considering the great difference which +often exists in the facility of crossing reciprocally the same two species; for +it is manifest in this case that the result must depend on the nature of the +sexual elements, the male element of the one species acting freely on the female +element of the other, but not so in a reversed direction. And now we see that +this same conclusion is independently and strongly fortified by the +consideration of the illegitimate unions of trimorphic and dimorphic +heterostyled plants. In so complex and obscure a subject as hybridism it is no +slight gain to arrive at a definite conclusion, namely, that we must look +exclusively to functional differences in the sexual elements, as the cause of +the sterility of species when first crossed and of their hybrid offspring. It +was this consideration which led me to make the many observations recorded in +this chapter, and which in my opinion make them worthy of publication. + + +CHAPTER VI. +CONCLUDING REMARKS ON HETEROSTYLED PLANTS. + +The essential character of heterostyled plants. +Summary of the differences in fertility between legitimately and illegitimately +fertilised plants. +Diameter of the pollen-grains, size of anthers and structure of stigma in the +different forms. +Affinities of the genera which include heterostyled species. +Nature of the advantages derived from heterostylism. +The means by which plants became heterostyled. +Transmission of form. +Equal-styled varieties of heterostyled plants. +Final remarks. + +In the foregoing chapters all the heterostyled plants known to me have been more +or less fully described. Several other cases have been indicated, especially by +Professor Asa Gray and Kuhn, in which the individuals of the same species differ +in the length of their stamens and pistils (6/1. Asa Gray 'American Journal of +Science' 1865 page 101 and elsewhere as already referred to. Kuhn 'Botanische +Zeitung' 1867 page 67.); but as I have been often deceived by this character +taken alone, it seems to me the more prudent course not to rank any species as +heterostyled, unless we have evidence of more important differences between the +forms, as in the diameter of the pollen-grains, or in the structure of the +stigma. The individuals of many ordinary hermaphrodite plants habitually +fertilise one another, owing to their male and female organs being mature at +different periods, or to the structure of the parts, or to self-sterility, etc.; +and so it is with many hermaphrodite animals, for instance, land-snails or +earth-worms; but in all these cases any one individual can fully fertilise or be +fertilised by any other individual of the same species. This is not so with +heterostyled plants: a long-styled, mid-styled or short-styled plant cannot +fully fertilise or be fertilised by any other individual, but only by one +belonging to another form. Thus the essential character of plants belonging to +the heterostyled class is that the individuals are divided into two or three +bodies, like the males and females of dioecious plants or of the higher animals, +which exist in approximately equal numbers and are adapted for reciprocal +fertilisation. The existence, therefore, of two or three bodies of individuals, +differing from one another in the above more important characteristics, offers +by itself good evidence that the species is heterostyled. But absolutely +conclusive evidence can be derived only from experiments, and by finding that +pollen must be applied from the one form to the other in order to ensure +complete fertility. + +In order to show how much more fertile each form is when legitimately fertilised +with pollen from the other form (or in the case of trimorphic species, with the +proper pollen from one of the two other forms) than when illegitimately +fertilised with its own-form pollen, I will append Table 6.33 giving a summary +of the results in all the cases hitherto ascertained. The fertility of the +unions may be judged by two standards, namely, by the proportion of flowers +which, when fertilised in the two methods, yield capsules, and by the average +number of seeds per capsule. When there is a dash in the left hand column +opposite to the name of the species, the proportion of the flowers which yielded +capsules was not recorded. + +TABLE 6.33. Fertility of the legitimate unions taken together, compared with +that of the illegitimate unions together. The fertility of the legitimate +unions, as judged by both standards, is taken as 100. + +Column 1: Name of species. +Column 2: Illegitimate unions : proportional number of flowers which produced +capsules. +Column 3: Illegitimate unions : average number of seeds per capsule. + +Primula veris : 69 : 65. + +Primula elatior : 27 : 75. + +Primula vulgaris : 60 : 54. + +Primula Sinensis : 84 : 63. + +Primula Sinensis (second trial) : 0 : 53. + +Primula Sinensis (Hildebrand) : 100 : 42. + +Primula auricula (Scott) : 80 : 15. + +Primula Sikkimensis (Scott) : 95 : 31. + +Primula cortusoides (Scott) : 74 : 66. + +Primula involucrata (Scott) : 72 : 48. + +Primula farinosa (Scott) : 71 : 44. + +Average of the nine species of Primula : 88.4 : 69. + +Hottonia palustris (H. Muller) : - : 61. + +Linum grandiflorum (the difference probably is much greater) : - : 69. + +Linum perenne : - : 20. + +Linum perenne (Hildebrand) : 0 : 0. + +Pulmonaria officinalis (German stock, Hildebrand) : 0 : 0. + +Pulmonaria angustifolia : 35 : 32. + +Mitchella repens : 20 : 47. + +Borreria, Brazilian sp. : - : 0. + +Polygonum fagopyrum : - : 46. + +Lythrum salicaria : 33 : 46. + +Oxalis Valdiviana (Hildebrand) : 2 : 34. + +Oxalis Regnelli : 0 : 0. + +Oxalis speciosa : 15 : 49. + +The two or three forms of the same heterostyled species do not differ from one +another in general habit or foliage, as sometimes, though rarely, happens with +the two sexes of dioecious plants. Nor does the calyx differ, but the corolla +sometimes differs slightly in shape, owing to the different position of the +anthers. In Borreria the hairs within the tube of the corolla are differently +situated in the long-styled and short-styled forms. In Pulmonaria there is a +slight difference in the size of the corolla, and in Pontederia in its colour. +In the reproductive organs the differences are much greater and more important. +In the one form the stamens may be all of the same length, and in the other +graduated in length, or alternately longer and shorter. The filaments may differ +in colour and thickness, and are sometimes nearly thrice as long in the one form +as in the other. They adhere also for very different proportional lengths to the +corolla. The anthers sometimes differ much in size in the two forms. Owing to +the rotation of the filaments, the anthers, when mature, dehisce towards the +circumference of the flower in one form of Faramea, and towards the centre in +the other form. The pollen-grains sometimes differ conspicuously in colour, and +often to an extraordinary degree in diameter. They differ also somewhat in +shape, and apparently in their contents, as they are unequally opaque. In the +short-styled form of Faramea the pollen-grains are covered with sharp points, so +as to cohere readily together or to an insect; whilst the smaller grains of the +long-styled form are quite smooth. + +With respect to the pistil, the style may be almost thrice as long in the one +form as in the other. In Oxalis it sometimes differs in hairiness in the three +forms. In Linum the pistils either diverge and pass out between the filaments, +or stand nearly upright and parallel to them. The stigmas in the two forms often +differ much in size and shape, and more especially in the length and thickness +of their papillae; so that the surface may be rough or quite smooth. Owing to +the rotation of the styles, the papillose surface of the stigma is turned +outwards in one form of Linum perenne, and inwards in the other form. In flowers +of the same age of Primula veris the ovules are larger in the long-styled than +in the short-styled form. The seeds produced by the two or three forms often +differ in number, and sometimes in size and weight; thus, five seeds from the +long-styled form of Lythrum salicaria equal in weight six from the mid-styled +and seven from the short-styled form. Lastly, short-styled plants of Pulmonaria +officinalis bear a larger number of flowers, and these set a larger proportional +number of fruit, which however yield a lower average number of seed, than the +long-styled plants. With heterostyled plants we thus see in how many and in what +important characters the forms of the same undoubted species often differ from +one another--characters which with ordinary plants would be amply sufficient to +distinguish species of the same genus. + +As the pollen-grains of ordinary species belonging to the same genus generally +resemble one another closely in all respects, it is worth while to show, in +Table 6.34, the difference in diameter between the grains from the two or three +forms of the same heterostyled species in the forty-three cases in which this +was ascertained. But it should be observed that some of the following +measurements are only approximately accurate, as only a few grains were +measured. In several cases, also, the grains had been dried and were then soaked +in water. Whenever they were of an elongated shape their longer diameters were +measured. The grains from the short-styled plants are invariably larger than +those from the long-styled, whenever there is any difference between them. The +diameter of the former is represented in the table by the number 100. + +TABLE 6.34. Relative diameter of the pollen-grains from the forms of the same +heterostyled species; those from the short-styled form being represented by 100. + +DIMORPHIC SPECIES. + +Column 1: Name of species. +Column 2: From the long-styled form : relative diameter. + +Primula veris : 67. + +Primula vulgaris : 71. + +Primula Sinensis (Hildebrand) : 57. + +Primula auricula : 71. + +Hottonia palustris (H. Muller) : 61. + +Hottonia palustris (self) : 64. + +Linum grandiflorum : 100. + +Linum perenne (diameter variable) : 100 (?). + +Linum flavum : 100. + +Pulmonaria officinalis : 78. + +Pulmonaria angustifolia : 91. + +Polygonum fagopyrum : 82. + +Leucosmia Burnettiana : 99. + +Aegiphila elata : 62. + +Menyanthes trifoliata : 84. + +Limnanthemum Indicum : 100. + +Villarsia (sp.?) : 75. + +Forsythia suspensa : 94. + +Cordia (sp.?) : 100. + +Gilia pulchella : 100. + +Gilia micrantha : 81. + +Sethia acuminata : 83. + +Erythroxylum (sp.?) : 93. + +Cratoxylon formosum : 86. + +Mitchella repens, pollen-grains of the long-styled a little smaller. + +Borreria (sp.?) : 92. + +Faramea (sp.?) : 67. + +Suteria (sp.?) (Fritz Muller) : 75. + +Houstonia coerulea : 72. + +Oldenlandia (sp.?) : 78. + +Hedyotis (sp.?) : 88. + +Coccocypselum (sp.?) (Fritz Muller) : 100. + +Lipostoma (sp.?) : 80. + +Cinchona micrantha : 91. + +TRIMORPHIC SPECIES. + +Column 1: Name of species. +Column 2: Ratio expressing the extreme differences in diameter of the pollen- +grains from the two sets of anthers in the three forms. + +Lythrum salicaria : 60. + +Nesaea verticillata : 65. + +Oxalis Valdiviana (Hildebrand) : 71. + +Oxalis Regnelli : 78. + +Oxalis speciosa : 69. + +Oxalis sensitiva : 84. + +Pontederia (sp.?) : 55. + +Column 1: Name of species. +Column 2: Ratio between the diameters of the pollen-grains of the two sets of +anthers in the same form. + +Oxalis rosea, long-styled form (Hildebrand) : 83. + +Oxalis compressa, short-styled form : 83. + +Pontederia (sp.?) short-styled form : 87. + +Pontederia other sp. mid-styled form : 86. + +We here see that, with seven or eight exceptions out of the forty-three cases, +the pollen-grains from one form are larger than those from the other form of the +same species. The extreme difference is as 100 to 55; and we should bear in mind +that in the case of spheres differing to this degree in diameter, their contents +differ in the ratio of six to one. With all the species in which the grains +differ in diameter, there is no exception to the rule that those from the +anthers of the short-styled form, the tubes of which have to penetrate the +longer pistil of the long-styled form, are larger than the grains from the other +form. This curious relation led Delpino (as it formerly did me) to believe that +the larger size of the grains in the short-styled flowers is connected with the +greater supply of matter needed for the development of their longer tubes. (6/2. +'Sull' Opera, la Distribuzione dei Sessi nelle Piante' etc 1867 page 17.) But +the case of Linum, in which the grains of the two forms are of equal size, +whilst the pistil of the one is about twice as long as that of the other, made +me from the first feel very doubtful with respect to this view. My doubts have +since been strengthened by the cases of Limnanthemum and Coccocypselum, in which +the grains are of equal size in the two forms; whilst in the former genus the +pistil is nearly thrice and in the latter twice as long as in the other form. In +those species in which the grains are of unequal size in the two forms, there is +no close relationship between the degree of their inequality and that of their +pistils. Thus in Pulmonaria officinalis and in Erythroxylum the pistil in the +long-styled form is about twice the length of that in the other form, whilst in +the former species the pollen-grains are as 100 to 78, and in the latter as 100 +to 93 in diameter. In the two forms of Suteria the pistil differs but little in +length, whilst the pollen-grains are as 100 to 75 in diameter. These cases seem +to prove that the difference in size between the grains in the two forms is not +determined by the length of the pistil, down which the tubes have to grow. That +with plants in general there is no close relationship between the size of the +pollen-grains and the length of the pistil is manifest: for instance, I found +that the distended grains of Datura arborea were .00243 of an inch in diameter, +and the pistil no less than 9.25 inches in length; now the pistil in the small +flowers of Polygonum fagopyrum is very short, yet the larger pollen-grains from +the short-styled plants had exactly the same diameter as those from the Datura, +with its enormously elongated pistil. + +Notwithstanding these several considerations, it is difficult quite to give up +the belief that the pollen-grains from the longer stamens of heterostyled plants +have become larger in order to allow of the development of longer tubes; and the +foregoing opposing facts may possibly be reconciled in the following manner. The +tubes are at first developed from matter contained within the grains, for they +are sometimes exserted to a considerable length, before the grains have touched +the stigma; but botanists believe that they afterwards draw nourishment from the +conducting tissue of the pistil. It is hardly possible to doubt that this must +occur in such cases as that of the Datura, in which the tubes have to grow down +the whole length of the pistil, and therefore to a length equalling 3,806 times +the diameter of the grains (namely, .00243 of an inch) from which they are +protruded. I may here remark that I have seen the pollen-grains of a willow, +immersed in a very weak solution of honey, protrude their tubes, in the course +of twelve hours, to a length thirteen times as great as the diameter of the +grains. Now if we suppose that the tubes in some heterostyled species are +developed wholly or almost wholly from matter contained within the grains, while +in other species from matter yielded by the pistil, we can see that in the +former case it would be necessary that the grains of the two forms should differ +in size relatively to the length of the pistil which the tubes have to +penetrate, but that in the latter case it would not be necessary that the grains +should thus differ. Whether this explanation can be considered satisfactory must +remain at present doubtful. + +There is another remarkable difference between the forms of several heterostyled +species, namely in the anthers of the short-styled flowers, which contain the +larger pollen-grains, being longer than those of the long-styled flowers. This +is the case with Hottonia palustris in the ratio of 100 to 83. With Limnanthemum +Indicum the ratio is as 100 to 70. With the allied Menyanthes the anthers of the +short-styled form are a little and with Villarsia conspicuously larger than +those of the long-styled. With Pulmonaria angustifolia they vary much in size, +but from an average of seven measurements of each kind the ratio is as 100 to +91. In six genera of the Rubiaceae there is a similar difference, either +slightly or well marked. Lastly, in the trimorphic Pontederia the ratio is 100 +to 88; the anthers from the longest stamens in the short-styled form being +compared with those from the shortest stamens in the long-styled form. On the +other hand, there is a similar and well-marked difference in the length of the +stamens in the two forms of Forsythia suspensa and of Linum flavum; but in these +two cases the anthers of the short-styled flowers are shorter than those of the +long-styled. The relative size of the anthers was not particularly attended to +in the two forms of the other heterostyled plants, but I believe that they are +generally equal, as is certainly the case with those of the common primrose and +cowslip. + +The pistil differs in length in the two forms of every heterostyled plant, and +although a similar difference is very general with the stamens, yet in the two +forms of Linum grandiflorum and of Cordia they are equal. There can hardly be a +doubt that the relative length of these organs is an adaptation for the safe +transportal by insects of the pollen from the one form to the other. The +exceptional cases in which these organs do not stand exactly on a level in the +two forms may probably be explained by the manner in which the flowers are +visited. With most of the species, if there is any difference in the size of the +stigma of the two forms, that of the long-styled, whatever its shape may be, is +larger than that of the short-styled. But here again there are some exceptions +to the rule, for in the short-styled form of Leucosmia Burnettiana the stigmas +are longer and much narrower than those of the long-styled; the ratio between +the lengths of the stigmas in the two forms being 100 to 60. In the three +Rubiaceous genera, Faramea, Houstonia and Oldenlandia, the stigmas of the short- +styled form are likewise somewhat longer and narrower; and in the three forms of +Oxalis sensitiva the difference is strongly marked, for if the length of the two +stigmas of the long-styled pistil be taken as 100, it will be represented in the +mid- and short-styled forms by the numbers 141 and 164. As in all these cases +the stigmas of the short-styled pistil are seated low down within a more or less +tubular corolla, it is probable that they are better fitted by being long and +narrow for brushing the pollen off the inserted proboscis of an insect. + +With many heterostyled plants the stigma differs in roughness in the two forms, +and when this is the case there is no known exception to the rule that the +papillae on the stigma of the long-styled form are longer and often thicker than +those on that of the short-styled. For instance, the papillae on the long-styled +stigma of Hottonia palustris are more than twice the length of those in the +other form. This holds good even in the case of Houstonia coerulea, in which the +stigmas are much shorter and stouter in the long-styled than in the short-styled +form, for the papillae on the former compared with those on the latter are as +100 to 58 in length. The length of the pistil in the long-styled form of Linum +grandiflorum varies much, and the stigmatic papillae vary in a corresponding +manner. From this fact I inferred at first that in all cases the difference in +length between the stigmatic papillae in the two forms was one merely of +correlated growth; but this can hardly be the true or general explanation, as +the shorter stigmas of the long-styled form of Houstonia have the longer +papillae. It is a more probable view that the papillae, which render the stigma +of the long-styled form of various species rough, serve to entangle effectually +the large-sized pollen-grains brought by insects from the short-styled form, +thus ensuring its legitimate fertilisation. This view is supported by the fact +that the pollen-grains from the two forms of eight species in Table 6.34 hardly +differ in diameter, and the papillae on their stigmas do not differ in length. + +The species which are at present positively or almost positively known to be +heterostyled belong, as shown in Table 6.35, to 38 genera, widely distributed +throughout the world. These genera are included in fourteen Families, most of +which are very distinct from one another, for they belong to nine of the several +great Series, into which phanerogamic plants have been divided by Bentham and +Hooker. + +TABLE 6.35. List of genera including heterostyled species. + +DICOTYLEDONS. + +HYPERICINEAE: +Cratoxylon. + +ERYTHROXYLEAE: +Erythroxylum. +Sethia. + +GERANIACEAE: +Linum. +Oxalis. + +LYTHRACEAE: +Lythrum. +Neseae. + +RUBIACEAE: +Cinchona. +Bouvardia. +Manettia. +Hedyotis. +Oldenlandia. +Houstonia. +Coccocypselum. +Lipostoma. +Knoxia. +Faramea. +Psychotria. +Rudgea. +Suteria. +Mitchella. +Diodia. +Borreria. +Spermacoce. + +PRIMULACEAE: +Primula. +Hottonia. +Androsace. + +OLEACEAE: +Forsythia. + +GENTIANACEAE: +Menyanthes. +Limnanthemum. +Villarsia. + +POLEMONIACEAE: +Gilia. + +CORDIEAE: +Cordia. + +BORAGINEAE: +Pulmonaria. + +VERBENACEAE: +Aegiphila. + +POLYGONEAE: +Polygonum. + +THYMELEAE: +Thymelea. + +MONOCOTYLEDONS. + +PONTEDERIACEAE: +Pontederia. + +In some of these families the heterostyled condition must have been acquired at +a very remote period. Thus the three closely allied genera, Menyanthes, +Limnanthemum, and Villarsia, inhabit respectively Europe, India, and South +America. Heterostyled species of Hedyotis are found in the temperate regions of +North and the tropical regions of South America. Trimorphic species of Oxalis +live on both sides of the Cordillera in South America and at the Cape of Good +Hope. In these and some other cases it is not probable that each species +acquired its heterostyled structure independently of its close allies. If they +did not do so, the three closely connected genera of the Menyantheae and the +several trimorphic species of Oxalis must have inherited their structure from a +common progenitor. But an immense lapse of time will have been necessary in all +such cases for the modified descendants of a common progenitor to have spread +from a single centre to such widely remote and separated areas. The family of +the Rubiaceae contains not far short of as many heterostyled genera as all the +other thirteen families together; and hereafter no doubt other Rubiaceous genera +will be found to be heterostyled, although a large majority are homostyled. +Several closely allied genera in this family probably owe their heterostyled +structure to descent in common; but as the genera thus characterised are +distributed in no less than eight of the tribes into which this family has been +divided by Bentham and Hooker, it is almost certain that several of them must +have become heterostyled independently of one another. What there is in the +constitution or structure of the members of this family which favours their +becoming heterostyled, I cannot conjecture. Some families of considerable size, +such as the Boragineae and Verbenaceae, include, as far as is at present known, +only a single heterostyled genus. Polygonum also is the sole heterostyled genus +in its family; and though it is a very large genus, no other species except P. +fagopyrum is thus characterised. We may suspect that it has become heterostyled +within a comparatively recent period, as it seems to be less strongly so in +function than the species in any other genus, for both forms are capable of +yielding a considerable number of spontaneously self-fertilised seeds. Polygonum +in possessing only a single heterostyled species is an extreme case; but every +other genus of considerable size which includes some such species likewise +contains homostyled species. Lythrum includes trimorphic, dimorphic, and +homostyled species. + +Trees, bushes, and herbaceous plants, both large and small, bearing single +flowers or flowers in dense spikes or heads, have been rendered heterostyled. So +have plants which inhabit alpine and lowland sites, dry land, marshes and water. +(6/3. Out of the 38 genera known to include heterostyled species, about eight, +or 21 per cent, are more or less aquatic in their habits. I was at first struck +with this fact, for I was not then aware how large a proportion of ordinary +plants inhabit such stations. Heterostyled plants may be said in one sense to +have their sexes separated, as the forms must mutually fertilise one another. +Therefore it seemed worth while to ascertain what proportion of the genera in +the Linnean classes, Monoecia, Dioecia and Polygamia, contained species which +live "in water, marshes, bogs or watery places." In Sir W.J. Hooker's 'British +Flora' 4th edition 1838, these three Linnean classes include 40 genera, 17 of +which (i.e. 43 per cent) contain species inhabiting the just-specified stations. +So that 43 per cent of those British plants which have their sexes separated are +more or less aquatic in their habits, whereas only 21 per cent of heterostyled +plants have such habits. I may add that the hermaphrodite classes, from +Monandria to Gynandria inclusive, contain 447 genera, of which 113 are aquatic +in the above sense, or only 25 per cent. It thus appears, as far as can be +judged from such imperfect data, that there is some connection between the +separation of the sexes in plants and the watery nature of the sites which they +inhabit; but that this does not hold good with heterostyled species.) + +When I first began to experimentise on heterostyled plants it was under the +impression that they were tending to become dioecious; but I was soon forced to +relinquish this notion, as the long-styled plants of Primula which, from +possessing a longer pistil, larger stigma, shorter stamens with smaller pollen- +grains, seemed to be the more feminine of the two forms, yielded fewer seeds +than the short-styled plants which appeared to be in the above respects the more +masculine of the two. Moreover, trimorphic plants evidently come under the same +category with dimorphic, and the former cannot be looked at as tending to become +dioecious. With Lythrum salicaria, however, we have the curious and unique case +of the mid-styled form being more feminine or less masculine in nature than the +other two forms. This is shown by the large number of seeds which it yields in +whatever manner it may be fertilised, and by its pollen (the grains of which are +of smaller size than those from the corresponding stamens in the other two +forms) when applied to the stigma of any form producing fewer seeds than the +normal number. If we suppose the process of deterioration of the male organs in +the mid-styled form to continue, the final result would be the production of a +female plant; and Lythrum salicaria would then consist of two heterostyled +hermaphrodites and a female. No such case is known to exist, but it is a +possible one, as hermaphrodite and female forms of the same species are by no +means rare. Although there is no reason to believe that heterostyled plants are +regularly becoming dioecious, yet they offer singular facilities, as will +hereafter be shown, for such conversion; and this appears occasionally to have +been effected. + +We may feel sure that plants have been rendered heterostyled to ensure cross- +fertilisation, for we now know that a cross between the distinct individuals of +the same species is highly important for the vigour and fertility of the +offspring. The same end is gained by dichogamy or the maturation of the +reproductive elements of the same flower at different periods,--by +dioeciousness--self-sterility--the prepotency of pollen from another individual +over a plant's own pollen,--and lastly, by the structure of the flower in +relation to the visits of insects. The wonderful diversity of the means for +gaining the same end in this case, and in many others, depends on the nature of +all the previous changes through which the species has passed, and on the more +or less complete inheritance of the successive adaptations of each part to the +surrounding conditions. Plants which are already well adapted by the structure +of their flowers for cross-fertilisation by the aid of insects often possess an +irregular corolla, which has been modelled in relation to their visits; and it +would have been of little or no use to such plants to have become heterostyled. +We can thus understand why it is that not a single species is heterostyled in +such great families as the Leguminosae, Labiatae, Scrophulariaceae, Orchideae, +etc., all of which have irregular flowers. Every known heterostyled plant, +however, depends on insects for its fertilisation, and not on the wind; so that +it is a rather surprising fact that only one genus, Pontederia, has a plainly +irregular corolla. + +Why some species are adapted for cross-fertilisation, whilst others within the +same genus are not so, or if they once were, have since lost such adaptation and +in consequence are now usually self-fertilised, I have endeavoured elsewhere to +explain to a certain limited extent. (6/4. 'The Effects of Cross and Self- +fertilisation' 1876 page 441.) If it be further asked why some species have been +adapted for this end by being made heterostyled, rather than by any of the above +specified means, the answer probably lies in the manner in which heterostylism +originated,--a subject immediately to be discussed. Heterostyled species, +however, have an advantage over dichogamous species, as all the flowers on the +same heterostyled plant belong to the same form, so that when fertilised +legitimately by insects two distinct individuals are sure to intercross. On the +other hand, with dichogamous plants, early or late flowers on the same +individual may intercross; and a cross of this kind does hardly any or no good. +Whenever it is profitable to a species to produce a large number of seeds and +this obviously is a very common case, heterostyled will have an advantage over +dioecious plants, as all the individuals of the former, whilst only half of the +latter, that is the females, yield seeds. On the other hand, heterostyled plants +seem to have no advantage, as far as cross-fertilisation is concerned, over +those which are sterile with their own pollen. They lie indeed under a slight +disadvantage, for if two self-sterile plants grow near together and far removed +from all other plants of the same species, they will mutually and perfectly +fertilise one another, whilst this will not be the case with heterostyled +dimorphic plants, unless they chance to belong to opposite forms. + +It may be added that species which are trimorphic have one slight advantage over +the dimorphic; for if only two individuals of a dimorphic species happen to grow +near together in an isolated spot, the chances are even that both will belong to +the same form, and in this case they will not produce the full number of +vigorous and fertile seedlings; all these, moreover, will tend strongly to +belong to the same form as their parents. On the other hand, if two plants of +the same trimorphic species happen to grow in an isolated spot, the chances are +two to one in favour of their not belonging to the same form; and in this case +they will legitimately fertilise one another, and yield the full complement of +vigorous offspring. + +THE MEANS BY WHICH PLANTS MAY HAVE BEEN RENDERED HETEROSTYLED. + +This is a very obscure subject, on which I can throw little light, but which is +worthy of discussion. It has been shown that heterostyled plants occur in +fourteen natural families, dispersed throughout the whole vegetable kingdom, and +that even within the family of the Rubiaceae they are dispersed in eight of the +tribes. We may therefore conclude that this structure has been acquired by +various plants independently of inheritance from a common progenitor, and that +it can be acquired without any great difficulty--that is, without any very +unusual combination of circumstances. + +It is probable that the first step towards a species becoming heterostyled is +great variability in the length of the pistil and stamens, or of the pistil +alone. Such variations are not very rare: with Amsinckia spectabilis and Nolana +prostrata these organs differ so much in length in different individuals that, +until experimenting on them, I thought both species heterostyled. The stigma of +Gesneria pendulina sometimes protrudes far beyond, and is sometimes seated +beneath the anthers; so it is with Oxalis acetosella and various other plants. I +have also noticed an extraordinary amount of difference in the length of the +pistil in cultivated varieties of Primula veris and vulgaris. + +As most plants are at least occasionally cross-fertilised by the aid of insects, +we may assume that this was the case with our supposed varying plant; but that +it would have been beneficial to it to have been more regularly cross- +fertilised. We should bear in mind how important an advantage it has been proved +to be to many plants, though in different degrees and ways, to be cross- +fertilised. It might well happen that our supposed species did not vary in +function in the right manner, so as to become either dichogamous or completely +self-sterile, or in structure so as to ensure cross-fertilisation. If it had +thus varied, it would never have been rendered heterostyled, as this state would +then have been superfluous. But the parent-species of our several existing +heterostyled plants may have been, and probably were (judging from their present +constitution) in some degree self-sterile; and this would have made regular +cross-fertilisation still more desirable. + +Now let us take a highly varying species with most or all of the anthers +exserted in some individuals, and in others seated low down in the corolla; with +the stigma also varying in position in like manner. Insects which visited such +flowers would have different parts of their bodies dusted with pollen, and it +would be a mere chance whether this were left on the stigma of the next flower +which was visited. If all the anthers could have been placed on the same level +in all the plants, then abundant pollen would have adhered to the same part of +the body of the insects which frequented the flowers, and would afterwards have +been deposited without loss on the stigma, if it likewise stood on the same +unvarying level in all the flowers. But as the stamens and pistils are supposed +to have already varied much in length and to be still varying, it might well +happen that they could be reduced much more easily through natural selection +into two sets of different lengths in different individuals, than all to the +same length and level in all the individuals. We know from innumerable +instances, in which the two sexes and the young of the same species differ, that +there is no difficulty in two or more sets of individuals being formed which +inherit different characters. In our particular case the law of compensation or +balancement (which is admitted by many botanists) would tend to cause the pistil +to be reduced in those individuals in which the stamens were greatly developed, +and to be increased in length in those which had their stamens but little +developed. + +Now if in our varying species the longer stamens were to be nearly equalised in +length in a considerable body of individuals, with the pistil more or less +reduced; and in another body, the shorter stamens to be similarly equalised, +with the pistil more or less increased in length, cross-fertilisation would be +secured with little loss of pollen; and this change would be so highly +beneficial to the species, that there is no difficulty in believing that it +could be effected through natural selection. Our plant would then make a close +approach in structure to a heterostyled dimorphic species; or to a trimorphic +species, if the stamens were reduced to two lengths in the same flower in +correspondence with that of the pistils in the other two forms. But we have not +as yet even touched on the chief difficulty in understanding how heterostyled +species could have originated. A completely self-sterile plant or a dichogamous +one can fertilise and be fertilised by any other individual of the same species; +whereas the essential character of a heterostyled plant is that an individual of +one form cannot fully fertilise or be fertilised by an individual of the same +form, but only by one belonging to another form. + +H. Muller has suggested that ordinary or homostyled plants may have been +rendered heterostyled merely through the effects of habit. (6/5. 'Die +Befruchtung der Blumen' page 352.) Whenever pollen from one set of anthers is +habitually applied to a pistil of particular length in a varying species, he +believes that at last the possibility of fertilisation in any other manner will +be nearly or completely lost. He was led to this view by observing that Diptera +frequently carried pollen from the long-styled flowers of Hottonia to the stigma +of the same form, and that this illegitimate union was not nearly so sterile as +the corresponding union in other heterostyled species. But this conclusion is +directly opposed by some other cases, for instance by that of Linum +grandiflorum; for here the long-styled form is utterly barren with its own-form +pollen, although from the position of the anthers this pollen is invariably +applied to the stigma. It is obvious that with heterostyled dimorphic plants the +two female and the two male organs differ in power; for if the same kind of +pollen be placed on the stigmas of the two forms, and again if the two kinds of +pollen be placed on the stigmas of the same form, the results are in each case +widely different. Nor can we see how this differentiation of the two female and +two male organs could have been effected merely through each kind of pollen +being habitually placed on one of the two stigmas. + +Another view seems at first sight probable, namely, that an incapacity to be +fertilised in certain ways has been specially acquired by heterostyled plants. +We may suppose that our varying species was somewhat sterile (as is often the +case) with pollen from its own stamens, whether these were long or short; and +that such sterility was transferred to all the individuals with pistils and +stamens of the same length, so that these became incapable of intercrossing +freely; but that such sterility was eliminated in the case of the individuals +which differed in the length of their pistils and stamens. It is, however, +incredible that so peculiar a form of mutual infertility should have been +specially acquired unless it were highly beneficial to the species; and although +it may be beneficial to an individual plant to be sterile with its own pollen, +cross-fertilisation being thus ensured, how can it be any advantage to a plant +to be sterile with half its brethren, that is, with all the individuals +belonging to the same form? Moreover, if the sterility of the unions between +plants of the same form had been a special acquirement, we might have expected +that the long-styled form fertilised by the long-styled would have been sterile +in the same degree as the short-styled fertilised by the short-styled; but this +is hardly ever the case. On the contrary, there is sometimes the widest +difference in this respect, as between the two illegitimate unions of Pulmonaria +angustifolia and of Hottonia palustris. + +It is a more probable view that the male and female organs in two sets of +individuals have been by some means specially adapted for reciprocal action; and +that the sterility between the individuals of the same set or form is an +incidental and purposeless result. The meaning of the term "incidental" may be +illustrated by the greater or less difficulty in grafting or budding together +two plants belonging to distinct species; for as this capacity is quite +immaterial to the welfare of either, it cannot have been specially acquired, and +must be the incidental result of differences in their vegetative systems. But +how the sexual elements of heterostyled plants came to differ from what they +were whilst the species was homostyled, and how they became co-adapted in two +sets of individuals, are very obscure points. We know that in the two forms of +our existing heterostyled plants the pistil always differs, and the stamens +generally differ in length; so does the stigma in structure, the anthers in +size, and the pollen-grains in diameter. It appears, therefore, at first sight +probable that organs which differ in such important respects could act on one +another only in some manner for which they had been specially adapted. The +probability of this view is supported by the curious rule that the greater the +difference in length between the pistils and stamens of the trimorphic species +of Lythrum and Oxalis, the products of which are united for reproduction, by so +much the greater is the infertility of the union. The same rule applies to the +two illegitimate unions of some dimorphic species, namely, Primula vulgaris and +Pulmonaria angustifolia; but it entirely fails in other cases, as with Hottonia +palustris and Linum grandiflorum. We shall, however, best perceive the +difficulty of understanding the nature and origin of the co-adaptation between +the reproductive organs of the two forms of heterostyled plants, by considering +the case of Linum grandiflorum: the two forms of this plant differ exclusively, +as far as we can see, in the length of their pistils; in the long-styled form, +the stamens equal the pistil in length, but their pollen has no more effect on +it than so much inorganic dust; whilst this pollen fully fertilises the short +pistil of the other form. Now, it is scarcely credible that a mere difference in +the length of the pistil can make a wide difference in its capacity for being +fertilised. We can believe this the less because with some plants, for instance, +Amsinckia spectabilis, the pistil varies greatly in length without affecting the +fertility of the individuals which are intercrossed. So again I observed that +the same plants of Primula veris and vulgaris differed to an extraordinary +degree in the length of their pistils during successive seasons; nevertheless +they yielded during these seasons exactly the same average number of seeds when +left to fertilise themselves spontaneously under a net. + +We must therefore look to the appearance of inner or hidden constitutional +differences between the individuals of a varying species, of such a nature that +the male element of one set is enabled to act efficiently only on the female +element of another set. We need not doubt about the possibility of variations in +the constitution of the reproductive system of a plant, for we know that some +species vary so as to be completely self-sterile or completely self-fertile, +either in an apparently spontaneous manner or from slightly changed conditions +of life. Gartner also has shown that the individual plants of the same species +vary in their sexual powers in such a manner that one will unite with a distinct +species much more readily than another. (6/6. Gartner 'Bastarderzeugung im +Pflanzenreich' 1849 page 165.) But what the nature of the inner constitutional +differences may be between the sets or forms of the same varying species, or +between distinct species, is quite unknown. It seems therefore probable that the +species which have become heterostyled at first varied so that two or three sets +of individuals were formed differing in the length of their pistils and stamens +and in other co-adapted characters, and that almost simultaneously their +reproductive powers became modified in such a manner that the sexual elements in +one set were adapted to act on the sexual elements of another set; and +consequently that these elements in the same set or form incidentally became +ill-adapted for mutual interaction, as in the case of distinct species. I have +elsewhere shown that the sterility of species when first crossed and of their +hybrid offspring must also be looked at as merely an incidental result, +following from the special co-adaptation of the sexual elements of the same +species. (6/7. 'Origin of Species' 6th edition page 247; 'Variation of Animals +and Plants under Domestication' 2nd edition volume 2 page 169; 'The Effects of +Cross and Self-fertilisation' page 463. It may be well here to remark that, +judging from the remarkable power with which abruptly changed conditions of life +act on the reproductive system of most organisms, it is probable that the close +adaptation of the male to the female elements in the two forms of the same +heterostyled species, or in all the individuals of the same ordinary species, +could be acquired only under long-continued nearly uniform conditions of life.) +We can thus understand the striking parallelism, which has been shown to exist +between the effects of illegitimately uniting heterostyled plants and of +crossing distinct species. The great difference in the degree of sterility +between the various heterostyled species when illegitimately fertilised, and +between the two forms of the same species when similarly fertilised, harmonises +well with the view that the result is an incidental one which follows from +changes gradually effected in their reproductive systems, in order that the +sexual elements of the distinct forms should act perfectly on one another. + +TRANSMISSION OF THE TWO FORMS BY HETEROSTYLED PLANTS. + +The transmission of the two forms by heterostyled plants, with respect to which +many facts were given in the last chapter, may perhaps be found hereafter to +throw some light on their manner of development. Hildebrand observed that +seedlings from the long-styled form of Primula Sinensis when fertilised with +pollen from the same form were mostly long-styled, and many analogous cases have +since been observed by me. All the known cases are given in Tables 6.36 and +6.37. + +TABLE 6.36. Nature of the offspring from illegitimately fertilised dimorphic +plants. + +Column 1: Species and form. +Column 2: Number of long-styled offspring. +Column 3: Number of short-styled offspring. + +Primula veris. Long-styled form, fertilised by own-form pollen during five +successive generations : 156 : 6. + +Primula veris. Short-styled form, fertilised by own-form pollen : 5 : 9. + +Primula vulgaris. Long-styled form, fertilised by own-form pollen during two +successive generations : 69 : 0. + +Primula auricula. Short-styled form, fertilised by own-form pollen, is said to +produce during successive generations offspring in about the following +proportions : 25 : 75. + +Primula Sinensis. Long-styled form, fertilised by own-form pollen during two +successive generations : 52 : 0. + +Primula Sinensis. Long-styled form, fertilised by own-form pollen (Hildebrand) : +14 : 3. + +Primula Sinensis. Short-styled form, fertilised by own-form pollen: 1 : 24. + +Pulmonaria officinalis. Long-styled form, fertilised by own-form pollen : 11 : +0. + +Polygonum fagopyrum. Long-styled form, fertilised by own-form pollen : 45 : 4. + +Polygonum fagopyrum. Short-styled form, fertilised by own-form pollen : 13 : 20. + +TABLE 6.37. Nature of the offspring from illegitimately fertilised trimorphic +plants. + +Column 1: Species and form. +Column 2: Number of long-styled offspring. +Column 3: Number of mid-styled offspring. +Column 4: Number of short-styled offspring. + +Lythrum salicaria. Long-styled form, fertilised by own-form pollen : 56 : 0 : 0. + +Lythrum salicaria. Short-styled form, fertilised by own-form pollen : 1 : 0 : 8. + +Lythrum salicaria. Short-styled form, fertilised by pollen from mid-length +stamens of long-styled form : 4 : 0 : 8. + +Lythrum salicaria. Mid-styled form, fertilised by own-form pollen : 1 : 3 : 0. + +Lythrum salicaria. Mid-styled form, fertilised by pollen from shortest stamens +of long-styled form : 17 : 8 : 0. + +Lythrum salicaria. Mid-styled form, fertilised by pollen from longest stamens of +short-styled form : 14 : 8 : 18. + +Oxalis rosea. Long-styled form, fertilised during several generations by own- +form pollen, produced offspring in the ratio of : 100 : 0 : 0. + +Oxalis hedysaroides. Mid-styled form, fertilised by own-form pollen : 0 : 17 : +0. + +We see in these two tables that the offspring from a form illegitimately +fertilised with pollen from another plant of the same form belong, with a few +exceptions, to the same form as their parents. For instance, out of 162 +seedlings from long-styled plants of Primula veris fertilised during five +generations in this manner, 156 were long-styled and only 6 short-styled. Of 69 +seedlings from P. vulgaris similarly raised all were long-styled. So it was with +56 seedlings from the long-styled form of the trimorphic Lythrum salicaria, and +with numerous seedlings from the long-styled form of Oxalis rosea. The offspring +from the short-styled forms of dimorphic plants, and from both the mid-styled +and short-styled forms of trimorphic plants, fertilised with their own-form +pollen, likewise tend to belong to the same form as their parents, but not in so +marked a manner as in the case of the long-styled form. There are three cases in +Table 6.37, in which a form of Lythrum was fertilised illegitimately with pollen +from another form; and in two of these cases all the offspring belonged to the +same two forms as their parents, whilst in the third case they belonged to all +three forms. + +The cases hitherto given relate to illegitimate unions, but Hildebrand, Fritz +Muller, and myself found that a very large proportion, or all of the offspring, +from a legitimate union between any two forms of the trimorphic species of +Oxalis belonged to the same two forms. A similar rule therefore holds good with +unions which are fully fertile, as with those of an illegitimate nature which +are more or less sterile. When some of the seedlings from a heterostyled plant +belong to a different form from that of its parents, Hildebrand accounts for the +fact by reversion. For instance, the long-styled parent-plant of Primula veris, +from which the 162 illegitimate seedlings in Table 6.36 were derived in the +course of five generations, was itself no doubt derived from the union of a +long-styled and a short-styled parent; and the 6 short-styled seedlings may be +attributed to reversion to their short-styled progenitor. But it is a surprising +fact in this case, and in other similar ones, that the number of the offspring +which thus reverted was not larger. The fact is rendered still more strange in +the particular instance of P. veris, for there was no reversion until four or +five generations of long-styled plants had been raised. It may be seen in both +tables that the long-styled form transmits its form much more faithfully than +does the short-styled, when both are fertilised with their own-form pollen; and +why this should be so it is difficult to conjecture, unless it be that the +aboriginal parent-form of most heterostyled species possessed a pistil which +exceeded its own stamens considerably in length. (6/8. It may be suspected that +this was the case with Primula, judging from the length of the pistil in several +allied genera (see Mr. J. Scott 'Journal of the Linnean Society Botany' volume 8 +1864 page 85). Herr Breitenbach found many specimens of Primula elatior growing +in a state of nature with some flowers on the same plant long-styled, others +short-styled and others equal-styled; and the long-styled form greatly +preponderated in number; there being 61 of this form to 9 of the short-styled +and 15 of the equal-styled.) I will only add that in a state of nature any +single plant of a trimorphic species no doubt produces all three forms; and this +may be accounted for either by its several flowers being separately fertilised +by both the other forms, as Hildebrand supposes; or by pollen from both the +other forms being deposited by insects on the stigma of the same flower. + +EQUAL-STYLED VARIETIES. + +The tendency of the dimorphic species of Primula to produce equal-styled +varieties deserves notice. Cases of this kind have been observed, as shown in +the last chapter, in no less than six species, namely, P. veris, vulgaris, +Sinensis, auricula, farinosa, and elatior. In the case of P. veris, the stamens +resemble in length, position and size of their pollen-grains the stamens of the +short-styled form; whilst the pistil closely resembles that of the long-styled, +but as it varies much in length, one proper to the short-styled form appears to +have been elongated and to have assumed at the same time the functions of a +long-styled pistil. Consequently the flowers are capable of spontaneous self- +fertilisation of a legitimate nature and yield a full complement of seed, or +even more than the number produced by ordinary flowers legitimately fertilised. +With P. Sinensis, on the other hand, the stamens resemble in all respects the +shorter ones proper to the long-styled form, whilst the pistil makes a near +approach to that of the short-styled, but as it varies in length, it would +appear as if a long-styled pistil had been reduced in length and modified in +function. The flowers in this case as in the last are capable of spontaneous +legitimate fertilisation, and are rather more productive than ordinary flowers +legitimately fertilised. With P. auricula and farinosa the stamens resemble +those of the short-styled form in length, but those of the long-styled in the +size of their pollen-grains; the pistil also resembles that of the long-styled, +so that although the stamens and pistil are of nearly equal length, and +consequently pollen is spontaneously deposited on the stigma, yet the flowers +are not legitimately fertilised and yield only a very moderate supply of seed. +We thus see, firstly, that equal-styled varieties have originated in various +ways, and, secondly, that the combination of the two forms in the same flower +differs in completeness. With P. elatior some of the flowers on the same plant +have become equal-styled, instead of all of them as in the other species. + +Mr. Scott has suggested that the equal-styled varieties arise through reversion +to the former homostyled condition of the genus. This view is supported by the +remarkable fidelity with which the equal-styled variation is transmitted after +it has once appeared. I have shown in Chapter 13 of my 'Variation of Animals and +Plants under Domestication,' that any cause which disturbs the constitution +tends to induce reversion, and it is chiefly the cultivated species of Primula +which become equal-styled. Illegitimate fertilisation, which is an abnormal +process, is likewise an exciting cause; and with illegitimately descended long- +styled plants of P. Sinensis, I have observed the first appearance and +subsequent stages of this variation. With some other plants of P. Sinensis of +similar parentage the flowers appeared to have reverted to their original wild +condition. Again, some hybrids between P. veris and vulgaris were strictly +equal-styled, and others made a near approach to this structure. All these facts +support the view that this variation results, at least in part, from reversion +to the original state of the genus, before the species had become heterostyled. +On the other hand, some considerations indicate, as previously remarked, that +the aboriginal parent-form of Primula had a pistil which exceeded the stamens in +length. The fertility of the equal-styled varieties has been somewhat modified, +being sometimes greater and sometimes less than that of a legitimate union. +Another view, however, may be taken with respect to the origin of the equal- +styled varieties, and their appearance may be compared with that of +hermaphrodites amongst animals which properly have their sexes separated; for +the two sexes are combined in a monstrous hermaphrodite in a somewhat similar +manner as the two sexual forms are combined in the same flower of an equal- +styled variety of a heterostyled species. + +FINAL REMARKS. + +The existence of plants which have been rendered heterostyled is a highly +remarkable phenomenon, as the two or three forms of the same undoubted species +differ not only in important points of structure, but in the nature of their +reproductive powers. As far as structure is concerned, the two sexes of many +animals and of some plants differ to an extreme degree; and in both kingdoms the +same species may consist of males, females, and hermaphrodites. Certain +hermaphrodite cirripedes are aided in their reproduction by a whole cluster of +what I have called complemental males, which differ wonderfully from the +ordinary hermaphrodite form. With ants we have males and females, and two or +three castes of sterile females or workers. With Termites there are, as Fritz +Muller has shown, both winged and wingless males and females, besides the +workers. But in none of these cases is there any reason to believe that the +several males or several females of the same species differ in their sexual +powers, except in the atrophied condition of the reproductive organs in the +workers of social insects. Many hermaphrodite animals must unite for +reproduction, but the necessity of such union apparently depends solely on their +structure. On the other hand, with heterostyled dimorphic species there are two +females and two sets of males, and with trimorphic species three females and +three sets of males, which differ essentially in their sexual powers. We shall, +perhaps, best perceive the complex and extraordinary nature of the marriage +arrangements of a trimorphic plant by the following illustration. Let us suppose +that the individuals of the same species of ant always lived in triple +communities; and that in one of these, a large-sized female (differing also in +other characters) lived with six middle-sized and six small-sized males; in the +second community a middle-sized female lived with six large- and six small-sized +males; and in the third, a small-sized female lived with six large- and six +middle-sized males. Each of these three females, though enabled to unite with +any male, would be nearly sterile with her own two sets of males, and likewise +with two other sets of males of the same size with her own which lived in the +other two communities; but she would be fully fertile when paired with a male of +her own size. Hence the thirty-six males, distributed by half-dozens in the +three communities, would be divided into three sets of a dozen each; and these +sets, as well as the three females, would differ from one another in their +reproductive powers in exactly the same manner as do the distinct species of the +same genus. But it is a still more remarkable fact that young ants raised from +any one of the three female ants, illegitimately fertilised by a male of a +different size would resemble in a whole series of relations the hybrid +offspring from a cross between two distinct species of ants. They would be +dwarfed in stature, and more or less, or even utterly barren. Naturalists are so +much accustomed to behold great diversities of structure associated with the two +sexes, that they feel no surprise at almost any amount of difference; but +differences in sexual nature have been thought to be the very touchstone of +specific distinction. We now see that such sexual differences--the greater or +less power of fertilising and being fertilised--may characterise the co-existing +individuals of the same species, in the same manner as they characterise and +have kept separate those groups of individuals, produced during the lapse of +ages, which we rank and denominate as distinct species. + + +CHAPTER VII. +POLYGAMOUS, DIOECIOUS, AND GYNO-DIOECIOUS PLANTS. + +The conversion in various ways of hermaphrodite into dioecious plants. +Heterostyled plants rendered dioecious. +Rubiaceae. +Verbenaceae. +Polygamous and sub-dioecious plants. +Euonymus. +Fragaria. +The two sub-forms of both sexes of Rhamnus and Epigaea. +Ilex. +Gyno-dioecious plants. +Thymus, difference in fertility of the hermaphrodite and female individuals. +Satureia. +Manner in which the two forms probably originated. +Scabiosa and other gyno-dioecious plants. +Difference in the size of the corolla in the forms of polygamous, dioecious, and +gyno-dioecious plants. + +There are several groups of plants in which all the species are dioecious, and +these exhibit no rudiments in the one sex of the organs proper to the other. +About the origin of such plants nothing is known. It is possible that they may +be descended from ancient lowly organised forms, which had from the first their +sexes separated; so that they have never existed as hermaphrodites. There are, +however, many other groups of species and single ones, which from being allied +on all sides to hermaphrodites, and from exhibiting in the female flowers plain +rudiments of male organs, and conversely in the male flowers rudiments of female +organs, we may feel sure are descended from plants which formerly had the two +sexes combined in the same flower. It is a curious and obscure problem how and +why such hermaphrodites have been rendered bisexual. + +If in some individuals of a species the stamens alone were to abort, females and +hermaphrodites would be left existing, of which many instances occur; and if the +female organs of the hermaphrodite were afterwards to abort, the result would be +a dioecious plant. Conversely, if we imagine the female organs alone to abort in +some individuals, males and hermaphrodites would be left; and the hermaphrodites +might afterwards be converted into females. + +In other cases, as in that of the common Ash-tree mentioned in the Introduction, +the stamens are rudimentary in some individuals, the pistils in others, others +again remaining as hermaphrodites. Here the modification of the two sets of +organs appears to have occurred simultaneously, as far as we can judge from +their equal state of abortion. If the hermaphrodites were supplanted by the +individuals having separated sexes, and if these latter were equalised in +number, a strictly dioecious species would be formed. + +There is much difficulty in understanding why hermaphrodite plants should ever +have been rendered dioecious. There would be no such conversion, unless pollen +was already carried regularly by insects or by the wind from one individual to +the other; for otherwise every step towards dioeciousness would lead towards +sterility. As we must assume that cross-fertilisation was assured before an +hermaphrodite could be changed into a dioecious plant, we may conclude that the +conversion has not been effected for the sake of gaining the great benefits +which follow from cross-fertilisation. We can, however, see that if a species +were subjected to unfavourable conditions from severe competition with other +plants, or from any other cause, the production of the male and female elements +and the maturation of the ovules by the same individual, might prove too great a +strain on its powers, and the separation of the sexes would then be highly +beneficial. This, however, would be effected only under the contingency of a +reduced number of seeds, produced by the females alone, being sufficient to keep +up the stock. + +There is another way of looking at the subject which partially removes a +difficulty that appears at first sight insuperable, namely, that during the +conversion of an hermaphrodite into a dioecious plant, the male organs must +abort in some individuals and the female organs in others. Yet as all are +exposed to the same conditions, it might have been expected that those which +varied would tend to vary in the same manner. As a general rule only a few +individuals of a species vary simultaneously in the same manner; and there is no +improbability in the assumption that some few individuals might produce larger +seeds than the average, better stocked with nourishment. If the production of +such seeds were highly beneficial to a species, and on this head there can be +little doubt, the variety with the large seeds would tend to increase. (7/1. See +the facts given in 'The Effects of Cross and Self-fertilisation' page 353.) But +in accordance with the law of compensation we might expect that the individuals +which produced such seeds would, if living under severe conditions, tend to +produce less and less pollen, so that their anthers would be reduced in size and +might ultimately become rudimentary. This view occurred to me owing to a +statement by Sir J.E. Smith that there are female and hermaphrodite plants of +Serratula tinctoria, and that the seeds of the former are larger than those of +the hermaphrodite form. (7/2. 'Transactions of the Linnean Society' volume 8 +page 600.) It may also be worth while to recall the case of the mid-styled form +of Lythrum salicaria, which produces a larger number of seeds than the other +forms, and has somewhat smaller pollen-grains which have less fertilising power +than those of the corresponding stamens in the other two forms; but whether the +larger number of seeds is the indirect cause of the diminished power of the +pollen, or vice versa, I know not. As soon as the anthers in a certain number of +individuals became reduced in size in the manner just suggested or from any +other cause, the other individuals would have to produce a larger supply of +pollen; and such increased development would tend to reduce the female organs +through the law of compensation, so as ultimately to leave them in a rudimentary +condition; and the species would then become dioecious. + +Instead of the first change occurring in the female organs we may suppose that +the male ones first varied, so that some individuals produced a larger supply of +pollen. This would be beneficial under certain circumstances, such as a change +in the nature of the insects which visited the flowers, or in their becoming +more anemophilous, for such plants require an enormous quantity of pollen. The +increased action of the male organs would tend to affect through compensation +the female organs of the same flower; and the final result would be that the +species would consist of males and hermaphrodites. But it is of no use +considering this case and other analogous ones, for, as stated in the +Introduction, the coexistence of male and hermaphrodite plants is excessively +rare. + +It is no valid objection to the foregoing views that changes of such a nature +would be effected with extreme slowness, for we shall presently see good reason +to believe that various hermaphrodite plants have become or are becoming +dioecious by many and excessively small steps. In the case of polygamous +species, which exist as males, females and hermaphrodites, the latter would have +to be supplanted before the species could become strictly dioecious; but the +extinction of the hermaphrodite form would probably not be difficult, as a +complete separation of the sexes appears often to be in some way beneficial. The +males and females would also have to be equalised in number, or produced in some +fitting proportion for the effectual fertilisation of the females. + +There are, no doubt, many unknown laws which govern the suppression of the male +or female organs in hermaphrodite plants, quite independently of any tendency in +them to become monoecious, dioecious, or polygamous. We see this in those +hermaphrodites which from the rudiments still present manifestly once possessed +more stamens or pistils than they now do,--even twice as many, as a whole +verticil has often been suppressed. Robert Brown remarks that "the order of +reduction or abortion of the stamina in any natural family may with some +confidence be predicted," by observing in other members of the family, in which +their number is complete, the order of the dehiscence of the anthers (7/3. +'Transactions of the Linnean Society' volume 12 page 98 or 'Miscellaneous Works' +volume 2 pages 278-81.); for the lesser permanence of an organ is generally +connected with its lesser perfection, and he judges of perfection by priority of +development. He also states that whenever there is a separation of the sexes in +an hermaphrodite plant, which bears flowers on a simple spike, it is the females +which expand first; and this he likewise attributes to the female sex being the +more perfect of the two, but why the female should be thus valued he does not +explain. + +Plants under cultivation or changed conditions of life frequently become +sterile; and the male organs are much oftener affected than the female, though +the latter alone are sometimes affected. The sterility of the stamens is +generally accompanied by a reduction in their size; and we may feel sure, from a +wide-spread analogy, that both the male and female organs would become +rudimentary in the course of many generations if they failed altogether to +perform their proper functions. According to Gartner, if the anthers on a plant +are contabescent (and when this occurs it is always at a very early period of +growth) the female organs are sometimes precociously developed. (7/4. 'Beitrage +zur Kenntniss' etc. page 117 et seq. The whole subject of the sterility of +plants from various causes has been discussed in my 'Variation of Animals and +Plants under Domestication' chapter 18 2nd edition volume 2 pages 146-56.) I +mention this case as it appears to be one of compensation. So again is the well- +known fact, that plants which increase largely by stolons or other such means +are often utterly barren, with a large proportion of their pollen-grains in a +worthless condition. + +Hildebrand has shown that with hermaphrodite plants which are strongly +proterandrous, the stamens in the flowers which open first sometimes abort; and +this seems to follow from their being useless, as no pistils are then ready to +be fertilised. Conversely the pistils in the flowers which open last sometimes +abort; as when they are ready for fertilisation all the pollen has been shed. He +further shows by means of a series of gradations amongst the Compositae, that a +tendency from the causes just specified to produce either male or female +florets, sometimes spreads to all the florets on the same head, and sometimes +even to the whole plant (7/5. 'Ueber die Geschlechtsverhaltnisse bei den +Compositen' 1869 page 89.); and in this latter case the species becomes +dioecious. In those rare instances mentioned in the Introduction, in which some +of the individuals of both monoecious and hermaphrodite plants are +proterandrous, others being proterogynous, their conversion into a dioecious +condition would probably be much facilitated, as they already consist of two +bodies of individuals, differing to a certain extent in their reproductive +functions. + +Dimorphic heterostyled plants offer still more strongly marked facilities for +becoming dioecious; for they likewise consist of two bodies of individuals in +approximately equal numbers, and what probably is more important, both the male +and female organs differ in the two forms, not only in structure but in +function, in nearly the same manner as do the reproductive organs of two +distinct species belonging to the same genus. Now if two species are subjected +to changed conditions, though of the same nature, it is notorious that they are +often affected very differently; therefore the male organs, for instance, in one +form of a heterostyled plant might be affected by those unknown causes which +induce abortion, differently from the homologous but functionally different +organs in the other form; and so conversely with the female organs. Thus the +great difficulty before alluded to is much lessened in understanding how any +cause whatever could lead to the simultaneous reduction and ultimate suppression +of the male organs in half the individuals of a species, and of the female +organs in the other half, whilst all were subjected to exactly the same +conditions of life. + +That such reduction or suppression has occurred in some heterostyled plants is +almost certain. The Rubiaceae contain more heterostyled genera than any other +family, and from their wide distribution we may infer that many of them became +heterostyled at a remote period, so that there will have been ample time for +some of the species to have been since rendered dioecious. Asa Gray informs me +that Coprosma is dioecious, and that it is closely allied through Nertera to +Mitchella, which as we know is a heterostyled dimorphic species. In the male +flowers of Coprosma the stamens are exserted, and in the female flowers the +stigmas; so that, judging from the affinities of the above three genera, it +seems probable that an ancient short-styled form bearing long stamens with large +anthers and large pollen-grains (as in the case of several Rubiaceous genera) +has been converted into the male Coprosma; and that an ancient long-styled form +with short stamens, small anthers and small pollen-grains has been converted +into the female form. But according to Mr. Meehan, Mitchella itself is dioecious +in some districts; for he says that one form has small sessile anthers without a +trace of pollen, the pistil being perfect; while in another form the stamens are +perfect and the pistil rudimentary. (7/6. 'Proceedings of the Academy of +Sciences of Philadelphia' July 28, 1868 page 183.) He adds that plants may be +observed in the autumn bearing an abundant crop of berries, and others without a +single one. Should these statements be confirmed, Mitchella will be proved to be +heterostyled in one district and dioecious in another. + +Asperula is likewise a Rubiaceous genus, and from the published description of +the two forms of A. scoparia, an inhabitant of Tasmania, I did not doubt that it +was heterostyled; but on examining some flowers sent me by Dr. Hooker they +proved to be dioecious. The male flowers have large anthers and a very small +ovarium, surmounted by a mere vestige of a stigma without any style; whilst the +female flowers possess a large ovarium, the anthers being rudimentary and +apparently quite destitute of pollen. Considering how many Rubiaceous genera are +heterostyled, it is a reasonable suspicion that this Asperula is descended from +a heterostyled progenitor; but we should be cautious on this head, for there is +no improbability in a homostyled Rubiaceous plant becoming dioecious. Moreover, +in an allied plant, Galium cruciatum, the female organs have been suppressed in +most of the lower flowers, whilst the upper ones remain hermaphrodite; and here +we have a modification of the sexual organs without any connection with +heterostylism. + +Mr. Thwaites informs me that in Ceylon various Rubiaceous plants are +heterostyled; but in the case of Discospermum one of the two forms is always +barren, the ovary containing about two aborted ovules in each loculus; whilst in +the other form each loculus contains several perfect ovules; so that the species +appears to be strictly dioecious. + +Most of the species of the South American genus Aegiphila, a member of the +Verbenaceae, apparently are heterostyled; and both Fritz Muller and myself +thought that this was the case with Ae. obdurata, so closely did its flowers +resemble those of the heterostyled species. But on examining the flowers, the +anthers of the long-styled form were found to be entirely destitute of pollen +and less than half the size of those in the other form, the pistil being +perfectly developed. On the other hand, in the short-styled form the stigmas are +reduced to half their proper length, having also an abnormal appearance; whilst +the stamens are perfect. This plant therefore is dioecious; and we may, I think, +conclude that a short-styled progenitor, bearing long stamens exserted beyond +the corolla, has been converted into the male; and a long-styled progenitor with +fully developed stigmas into the female. + +From the number of bad pollen-grains in the small anthers of the short stamens +of the long-styled form of Pulmonaria angustifolia, we may suspect that this +form is tending to become female; but it does not appear that the other or +short-styled form is becoming more masculine. Certain appearances countenance +the belief that the reproductive system of Phlox subulata is likewise undergoing +a change of some kind. + +I have now given the few cases known to me in which heterostyled plants appear +with some considerable degree of probability to have been rendered dioecious. +Nor ought we to expect to find many such cases, for the number of heterostyled +species is by no means large, at least in Europe, where they could hardly have +escaped notice. Therefore the number of dioecious species which owe their origin +to the transformation of heterostyled plants is probably not so large as might +have been anticipated from the facilities which they offer for such conversion. + +In searching for cases like the foregoing ones, I have been led to examine some +dioecious or sub-dioecious plants, which are worth describing, chiefly as they +show by what fine gradations hermaphrodites may pass into polygamous or +dioecious species. + +POLYGAMOUS, DIOECIOUS, AND SUB-DIOECIOUS PLANTS. + +Euonymus Europaeus (CELASTRINEAE). + +(Figure 7.12. Euonymus Europaeus +Left: Hermaphrodite or male. +Right: Female.) + +The spindle-tree is described in all the botanical works which I have consulted +as an hermaphrodite. Asa Gray speaks of the flowers of the American species as +perfect, whilst those in the allied genus Celastrus are said to be "polygamo- +dioecious." If a number of bushes of our spindle-tree be examined, about half +will be found to have stamens equal in length to the pistil, with well-developed +anthers; the pistil being likewise to all appearance well developed. The other +half have a perfect pistil, with the stamens short, bearing rudimentary anthers +destitute of pollen; so that these bushes are females. All the flowers on the +same plant present the same structure. The female corolla is smaller than that +on the polleniferous bushes. The two forms are shown in Figure 7.12. + +I did not at first doubt that this species existed under an hermaphrodite and +female form; but we shall presently see that some of the bushes which appear to +be hermaphrodites never produce fruit, and these are in fact males. The species, +therefore, is polygamous in the sense in which I use the term, and trioecious. +The flowers are frequented by many Diptera and some small Hymenoptera for the +sake of the nectar secreted by the disc, but I did not see a single bee at work; +nevertheless the other insects sufficed to fertilise effectually female bushes +growing at a distance of even 30 yards from any polleniferous bush. + +The small anthers borne by the short stamens of the female flowers are well +formed and dehisce properly, but I could never find in them a single grain of +pollen. It is somewhat difficult to compare the length of the pistils in the two +forms, as they vary somewhat in this respect and continue to grow after the +anthers are mature. The pistils, therefore, in old flowers on a polleniferous +plant are often of considerably greater length than in young flowers on a female +plant. On this account the pistils from five flowers from so many hermaphrodite +or male bushes were compared with those from five female bushes, before the +anthers had dehisced and whilst the rudimentary ones were of a pink colour and +not at all shrivelled. These two sets of pistils did not differ in length, or if +there was any difference those of the polleniferous flowers were rather the +longest. In one hermaphrodite plant, which produced during three years very few +and poor fruit, the pistil much exceeded in length the stamens bearing perfect +and as yet closed anthers; and I never saw such a case on any female plant. It +is a surprising fact that the pistil in the male and in the semi-sterile +hermaphrodite flowers has not been reduced in length, seeing that it performs +very poorly or not at all its proper function. The stigmas in the two forms are +exactly alike; and in some of the polleniferous plants which never produced any +fruit I found that the surface of the stigma was viscid, so that pollen-grains +adhered to it and had exserted their tubes. The ovules are of equal size in the +two forms. Therefore the most acute botanist, judging only by structure, would +never have suspected that some of the bushes were in function exclusively males. + +Thirteen bushes growing near one another in a hedge consisted of eight females +quite destitute of pollen and of five hermaphrodites with well-developed +anthers. In the autumn the eight females were well covered with fruit, excepting +one, which bore only a moderate number. Of the five hermaphrodites, one bore a +dozen or two fruits, and the remaining four bushes several dozen; but their +number was as nothing compared with those on the female bushes, for a single +branch, between two and three feet in length, from one of the latter, yielded +more than any one of the hermaphrodite bushes. The difference in the amount of +fruit produced by the two sets of bushes is all the more striking, as from the +sketches above given it is obvious that the stigmas of the polleniferous flowers +can hardly fail to receive their own pollen; whilst the fertilisation of the +female flowers depends on pollen being brought to them by flies and the smaller +Hymenoptera, which are far from being such efficient carriers as bees. + +I now determined to observe more carefully during successive seasons some bushes +growing in another place about a mile distant. As the female bushes were so +highly productive, I marked only two of them with the letters A and B, and five +polleniferous bushes with the letters C to G. I may premise that the year 1865 +was highly favourable for the fruiting of all the bushes, especially for the +polleniferous ones, some of which were quite barren except under such favourable +conditions. The season of 1864 was unfavourable. In 1863 the female A produced +"some fruit;" in 1864 only 9; and in 1865, 97 fruit. The female B in 1863 was +"covered with fruit;" in 1864 it bore 28; and in 1865 "innumerable very fine +fruits." I may add, that three other female trees growing close by were +observed, but only during 1863, and they then bore abundantly. With respect to +the polleniferous bushes, the one marked C did not bear a single fruit during +the years 1863 and 1864, but during 1865 it produced no less than 92 fruit, +which, however, were very poor. I selected one of the finest branches with 15 +fruit, and these contained 20 seeds, or on an average 1.33 per fruit. I then +took by hazard 15 fruit from an adjoining female bush, and these contained 43 +seeds; that is, more than twice as many, or on an average 2.86 per fruit. Many +of the fruits from the female bushes included four seeds, and only one had a +single seed; whereas not one fruit from the polleniferous bushes contained four +seeds. Moreover when the two lots of seeds were compared, it was manifest that +those from the female bushes were the larger. The second polleniferous bush, D, +bore in 1863 about two dozen fruit,--in 1864 only 3 very poor fruit, each +containing a single seed,--and in 1865, 20 equally poor fruit. Lastly, the three +polleniferous bushes, E, F, and G, did not produce a single fruit during the +three years 1863, 1864, and 1865. + +We thus see that the female bushes differ somewhat in their degree of fertility, +and the polleniferous ones in the most marked manner. We have a perfect +gradation from the female bush, B, which in 1865 was covered with "innumerable +fruits,"--through the female A, which produced during the same year 97,--through +the polleniferous bush C, which produced this year 92 fruits, these, however, +containing a very low average number of seeds of small size,--through the bush +D, which produced only 20 poor fruit,--to the three bushes, E, F, and G, which +did not this year, or during the two previous years, produce a single fruit. If +these latter bushes and the more fertile female ones were to supplant the +others, the spindle-tree would be as strictly dioecious in function as any plant +in the world. This case appears to me very interesting, as showing how gradually +an hermaphrodite plant may be converted into a dioecious one. (7/7. According to +Fritz Muller 'Botanische Zeitung' 1870 page 151, a Chamissoa (Amaranthaceae) in +Southern Brazil is in nearly the same state as our Euonymus. The ovules are +equally developed in the two forms. In the female the pistil is perfect, whilst +the anthers are entirely destitute of pollen. In the polleniferous form, the +pistil is short and the stigmas never separate from one another, so that, +although their surfaces are covered with fairly well-developed papillae, they +cannot be fertilised, these latter plants do not commonly yield any fruit, and +are therefore in function males. Nevertheless, on one occasion Fritz Muller +found flowers of this kind in which the stigmas had separated, and they produced +some fruit.) + +Seeing how general it is for organs which are almost or quite functionless to be +reduced in size, it is remarkable that the pistils of the polleniferous plants +should equal or even exceed in length those of the highly fertile female plants. +This fact formerly led me to suppose that the spindle-tree had once been +heterostyled; the hermaphrodite and male plants having been originally long- +styled, with the pistils since reduced in length, but with the stamens retaining +their former dimensions; whilst the female plant had been originally short- +styled, with the pistil in its present state, but with the stamens since greatly +reduced and rendered rudimentary. A conversion of this kind is at least +possible, although it is the reverse of that which appears actually to have +occurred with some Rubiaceous genera and Aegiphila; for with these plants the +short-styled form has become the male, and the long-styled the female. It is, +however, a more simple view that sufficient time has not elapsed for the +reduction of the pistil in the male and hermaphrodite flowers of our Euonymus; +though this view does not account for the pistils in the polleniferous flowers +being sometimes longer than those in the female flowers. + +Fragaria vesca, Virginiana, chiloensis, etc. (ROSACEAE). + +A tendency to the separation of the sexes in the cultivated strawberry seems to +be much more strongly marked in the United States than in Europe; and this +appears to be the result of the direct action of climate on the reproductive +organs. In the best account which I have seen, it is stated that many of the +varieties in the United States consist of three forms, namely, females, which +produce a heavy crop of fruit,--of hermaphrodites, which "seldom produce other +than a very scanty crop of inferior and imperfect berries,"--and of males, which +produce none. (7/8. Mr. Leonard Wray 'Gardener's Chronicle' 1861 page 716.) The +most skilful cultivators plant "seven rows of female plants, then one row of +hermaphrodites, and so on throughout the field." The males bear large, the +hermaphrodites mid-sized, and the females small flowers. The latter plants +produce few runners, whilst the two other forms produce many; consequently, as +has been observed both in England and in the United States, the polleniferous +forms increase rapidly and tend to supplant the females. We may therefore infer +that much more vital force is expended in the production of ovules and fruit +than in the production of pollen. Another species, the Hautbois strawberry (F. +elatior), is more strictly dioecious; but Lindley made by selection an +hermaphrodite stock. (7/9. For references and further information on this +subject, see 'Variation under Domestication' chapter 10 2nd edition volume 1 +page 375.) + +Rhamnus catharticus (RHAMNEAE). + +(FIGURE 7.13. Rhamnus catharticus (from Caspary.) +Left: Long-styled male. +Right: Short-styled male.) + +(FIGURE 7.14. Rhamnus catharticus. +Left: Long-styled female. +Right: Short-styled female.) + +This plant is well known to be dioecious. My son William found the two sexes +growing in about equal numbers in the Isle of Wight, and sent me specimens, +together with observations on them. Each sex consists of two sub-forms. The two +forms of the male differ in their pistils: in some plants it is quite small, +without any distinct stigma; in others the pistil is much more developed, with +the papillae on the stigmatic surfaces moderately large. The ovules in both +kinds of males are in an aborted condition. On my mentioning this case to +Professor Caspary, he examined several male plants in the botanic gardens at +Konigsberg, where there were no females, and sent me the drawings in Figure +7.13. + +In the English plants the petals are not so greatly reduced as represented in +this drawing. My son observed that those males which had their pistils +moderately well-developed bore slightly larger flowers, and, what is very +remarkable, their pollen-grains exceeded by a little in diameter those of the +males with greatly reduced pistils. This fact is opposed to the belief that the +present species was once heterostyled; for in this case it might have been +expected that the shorter-styled plants would have had larger pollen-grains. + +In the female plants the stamens are in an extremely rudimentary condition, much +more so than the pistils in the males. The pistil varies considerably in length +in the female plants, so that they may be divided into two sub-forms according +to the length of this organ. Both the petals and sepals are decidedly smaller in +the females than in the males; and the sepals do not turn downwards, as do those +of the male flowers when mature. All the flowers on the same male or same female +bush, though subject to some variability, belong to the same sub-form; and as my +son never experienced any difficulty in deciding under which class a plant ought +to be included, he believes that the two sub-forms of the same sex do not +graduate into one another. I can form no satisfactory theory how the four forms +of this plant originated. + +Rhamnus lanceolatus. + +This plant exists in the United States, as I am informed by Professor Asa Gray, +under two hermaphrodite forms. In the one, which may be called the short-styled, +the flowers are sub-solitary, and include a pistil about two-thirds or only half +as long as that in the other form; it has also shorter stigmas. The stamens are +of equal length in the two forms; but the anthers of the short-styled contain +rather less pollen, as far as I could judge from a few dried flowers. My son +compared the pollen-grains from the two forms, and those from the long-styled +flowers were to those from the short-styled, on an average from ten +measurements, as 10 to 9 in diameter; so that the two hermaphrodite forms of +this species resemble in this respect the two male forms of R. catharticus. The +long-styled form is not so common as the short-styled. The latter is said by Asa +Gray to be the more fruitful of the two, as might have been expected from its +appearing to produce less pollen, and from the grains being of smaller size; it +is therefore the more highly feminine of the two. The long-styled form produces +a greater number of flowers, which are clustered together instead of being sub- +solitary; they yield some fruit, but as just stated are less fruitful than the +other form, so that this form appears to be the more masculine of the two. On +the supposition that we have here an hermaphrodite plant becoming dioecious, +there are two points deserving notice; firstly, the greater length of the pistil +in the incipient male form; and we have met with a nearly similar case in the +male and hermaphrodite forms of Euonymus compared with the females. Secondly, +the larger size of the pollen-grains in the more masculine flowers, which +perhaps may be attributed to their having retained their normal size; whilst +those in the incipient female flowers have been reduced. The long-styled form of +R. lanceolatus seems to correspond with the males of R. catharticus which have a +longer pistil and larger pollen-grains. Light will perhaps be thrown on the +nature of the forms in this genus, as soon as the power of both kinds of pollen +on both stigmas is ascertained. Several other species of Rhamnus are said to be +dioecious or sub-dioecious. (7/10. Lecoq 'Geogr. Bot.' tome 5 1856 pages 420- +26.) On the other hand, R. frangula is an ordinary hermaphrodite, for my son +found a large number of bushes all bearing an equal profusion of fruit. + +Epigaea repens (ERICACEAE). + +This plant appears to be in nearly the same state as Rhamnus catharticus. It is +described by Asa Gray as existing under four forms. (7/11. 'American Journal of +Science' July 1876. Also 'The American Naturalist' 1876 page 490.) (1.) With +long style, perfect stigma, and short abortive stamens. (2.) Shorter style, but +with stigma equally perfect, short abortive stamens. These two female forms +amounted to 20 per cent of the specimens received from one locality in Maine; +but all the fruiting specimens belonged to the first form. (3.) Style long, as +in Number 1, but with stigma imperfect, stamens perfect. (4.) Style shorter than +in the last, stigma imperfect, stamens perfect. These two latter forms are +evidently males. Therefore, as Asa Gray remarks, "the flowers may be classified +into two kinds, each with two modifications; the two main kinds characterised by +the nature and perfection of the stigma, along with more or less abortion of the +stamens; their modifications, by the length of the style." Mr. Meehan has +described the extreme variability of the corolla and calyx in this plant, and +shows that it is dioecious. (7/12. "Variations in Epigaea repens" 'Proc. Acad. +Nat. Soc. of Philadelphia' May 1868 page 153.) It is much to be wished that the +pollen-grains in the two male forms should be compared, and their fertilising +power tried on the two female forms. + +Ilex aquifolium (AQUIFOLIACEAE). + +In the several works which I have consulted, one author alone says that the +holly is dioecious. (7/13. Vaucher 'Hist. Phys. des Plantes d'Europe' 1841 tome +2 page 11.) During several years I have examined many plants, but have never +found one that was really hermaphrodite. I mention this genus because the +stamens in the female flowers, although quite destitute of pollen, are but +slightly and sometimes not at all shorter than the perfect stamens in the male +flowers. In the latter the ovary is small and the pistil is almost aborted. The +filaments of the perfect stamens adhere for a greater length to the petals than +in the female flowers. The corolla of the latter is rather smaller than that of +the male. The male trees produce a greater number of flowers than the females. +Asa Gray informs me that I. opaca, which represents in the United States our +common holly, appears (judging from dried flowers) to be in a similar state; and +so it is, according to Vaucher, with several other but not with all the species +of the genus. + +GYNO-DIOECIOUS PLANTS. + +The plants hitherto described either show a tendency to become dioecious, or +apparently have become so within a recent period. But the species now to be +considered consist of hermaphrodites and females without males, and rarely show +any tendency to be dioecious, as far as can be judged from their present +condition and from the absence of species having separated sexes within the same +groups. Species belonging to the present class, which I have called gyno- +dioecious, are found in various widely distinct families; but are much more +common in the Labiatae (as has long been noticed by botanists) than in any other +group. Such cases have been noticed by myself in Thymus serpyllum and vulgaris, +Satureia hortensis, Origanum vulgare, and Mentha hirsuta; and by others in +Nepeta glechoma, Mentha vulgaris and aquatica, and Prunella vulgaris. In these +two latter species the female form, according to H. Muller, is infrequent. To +these must be added Dracocephalum Moldavicum, Melissa officinalis and +clinopodium, and Hyssopus officinalis. (7/14. H. Muller 'Die Befruchtung der +Blumen' 1873 and 'Nature' 1873 page 161. Vaucher 'Plantes d'Europe' tome 3 page +611. For Dracocephalum Schimper as quoted by Braun 'Annals and Magazine of +Natural History' 2nd series volume 18 1856 page 380. Lecoq 'Geographie Bot. de +l'Europe' tome 8 pages 33, 38, 44, etc. Both Vaucher and Lecoq were mistaken in +thinking that several of the plants named in the text are dioecious. They appear +to have assumed that the hermaphrodite form was a male; perhaps they were +deceived by the pistil not becoming fully developed and of proper length until +some time after the anthers have dehisced.) In the two last-named plants the +female form likewise appears to be rare, for I raised many seedlings of both, +and all were hermaphrodites. It has already been remarked in the Introduction +that andro-dioecious species, as they may be called, or those which consist of +hermaphrodites and males, are extremely rare, or hardly exist. + +Thymus serpyllum. + +The hermaphrodite plants present nothing particular in the state of their +reproductive organs; and so it is in all the following cases. The females of the +present species produce rather fewer flowers and have somewhat smaller corollas +than the hermaphrodites; so that near Torquay, where this plant abounds, I +could, after a little practice, distinguish the two forms whilst walking quickly +past them. According to Vaucher, the smaller size of the corolla is common to +the females of most or all of the above-mentioned Labiatae. The pistil of the +female, though somewhat variable in length, is generally shorter, with the +margins of the stigma broader and formed of more lax tissue, than that of the +hermaphrodite. The stamens in the female vary excessively in length; they are +generally enclosed within the tube of the corolla, and their anthers do not +contain any sound pollen; but after long search I found a single plant with the +stamens moderately exserted, and their anthers contained a very few full-sized +grains, together with a multitude of minute empty ones. In some females the +stamens are extremely short, and their minute anthers, though divided into the +two normal cells or loculi, contained not a trace of pollen: in others again the +anthers did not exceed in diameter the filaments which supported them, and were +not divided into two loculi. Judging from what I have myself seen and from the +descriptions of others, all the plants in Britain, Germany, and near Mentone, +are in the state just described; and I have never found a single flower with an +aborted pistil. It is, therefore, remarkable that, according to Delpino, this +plant near Florence is generally trimorphic, consisting of males with aborted +pistils, females with aborted stamens, and hermaphrodites. (7/15. 'Sull' Opera, +la Distribuzione dei Sessi nelle Piante, etc' 1867 page 7. With respect to +Germany H. Muller 'Die Befruchtung etc.' page 327.) + +I found it very difficult to judge of the proportional number of the two forms +at Torquay. They often grow mingled together, but with large patches consisting +of one form alone. At first I thought that the two were nearly equal in number; +but on examining every plant which grew close to the edge of a little +overhanging dry cliff, about 200 yards in length, I found only 12 females; all +the rest, some hundreds in number, being hermaphrodites. Again, on an extensive +gently sloping bank, which was so thickly covered with this plant that, viewed +from the distance of half a mile it appeared of a pink colour, I could not +discover a single female. Therefore the hermaphrodites must greatly exceed in +number the females, at least in the localities examined by me. A very dry +station apparently favours the presence of the female form. With some of the +other above-named Labiatae the nature of the soil or climate likewise seems to +determine the presence of one or both forms; thus with Nepeta glechoma, Mr. Hart +found in 1873 that all the plants which he examined near Kilkenny in Ireland +were females; whilst all near Bath were hermaphrodites, and near Hertford both +forms were present, but with a preponderance of hermaphrodites. (7/16. 'Nature' +June 1873 page 162.) It would, however, be a mistake to suppose that the nature +of the conditions determines the form independently of inheritance; for I sowed +in the same small bed seeds of T. serpyllum, gathered at Torquay from the female +alone, and these produced an abundance of both forms. There is every reason to +believe, from large patches consisting of the same form, that the same +individual plant, however much it may spread, always retains the same form. In +two distant gardens I found masses of the lemon-thyme (T. citriodorus, a var. of +T. serpyllum, which I was informed had grown there during many years, and every +flower was female. + +With respect to the fertility of the two forms, I marked at Torquay a large +hermaphrodite and a large female plant of nearly equal sizes, and when the seeds +were ripe I gathered all the heads. The two heaps were of very nearly equal +bulk; but the heads from the female plant numbered 160, and their seeds weighed +8.7 grains; whilst those from the hermaphrodite plant numbered 200, and their +seeds weighed only 4.9 grains; so that the seeds from the female plant were to +those from the hermaphrodite as 100 to 56 in weight. If the relative weight of +the seeds from an equal number of flower-heads from the two forms be compared, +the ratio is as 100 for the female to 45 for the hermaphrodite form. + +Thymus vulgaris. + +(FIGURE 7.15. Thymus vulgaris (magnified). +Left: Hermaphrodite. +Right: Two females.) + +The common garden thyme resembles in almost every respect T. serpyllum. The same +slight differences between the stigmas of the two forms could be perceived. In +the females the stamens are not generally quite so much reduced as in the same +form of T. serpyllum. In some specimens sent me from Mentone by Mr. Moggridge, +together with the sketches in Figure 7.15, the anthers of the female, though +small, were well formed, but they contained very little pollen, and not a single +sound grain could be detected. Eighteen seedlings were raised from purchased +seed, sown in the same small bed; and these consisted of seven hermaphrodites +and eleven females. They were left freely exposed to the visits of bees, and no +doubt every female flower was fertilised; for on placing under the microscope a +large number of stigmas from female plants, not one could be found to which +pollen-grains of thyme did not adhere. The seeds were carefully collected from +the eleven female plants, and they weighed 98.7 grains; and those from the seven +hermaphrodites 36.5 grains. This gives for an equal number of plants the ratio +of 100 to 58; and we here see, as in the last case, how much more fertile the +females are than the hermaphrodites. These two lots of seeds were sown +separately in two adjoining beds, and the seedlings from both the hermaphrodite +and female parent-plants consisted of both forms. + +Satureia hortensis. + +Eleven seedlings were raised in separate pots in a hotbed and afterwards kept in +the greenhouse. They consisted of ten females and of a single hermaphrodite. +Whether or not the conditions to which they had been subjected caused the great +excess of females I do not know. In the females the pistil is rather longer than +that of the hermaphrodite, and the stamens are mere rudiments, with minute +colourless anthers destitute of pollen. The windows of the greenhouse were left +open, and the flowers were incessantly visited by humble and hive bees. Although +the ten females did not produce a single grain of pollen, yet they were all +thoroughly well fertilised by the one hermaphrodite plant, and this is an +interesting fact. It should be added that no other plant of this species grew in +my garden. The seeds were collected from the finest female plant, and they +weighed 78 grains; whilst those from the hermaphrodite, which was a rather +larger plant than the female, weighed only 33.2 grains; that is, in the ratio of +100 to 43. The female form, therefore, is very much more fertile than the +hermaphrodite, as in the two last cases; but the hermaphrodite was necessarily +self-fertilised, and this probably diminished its fertility. + +We may now consider the probable means by which so many of the Labiatae have +been separated into two forms, and the advantages thus gained. H. Muller +supposes that originally some individuals varied so as to produce more +conspicuous flowers; and that insects habitually visited these first, and then +dusted with their pollen visited and fertilised the less conspicuous flowers. +(7/17. 'Die Befruchtung der Blumen' pages 319, 326.) The production of pollen by +the latter plants would thus be rendered superfluous, and it would be +advantageous to the species that their stamens should abort, so as to save +useless expenditure. They would thus be converted into females. But another view +may be suggested: as the production of a large supply of seeds evidently is of +high importance to many plants, and as we have seen in the three foregoing cases +that the females produce many more seeds than the hermaphrodites, increased +fertility seems to me the more probable cause of the formation and separation of +the two forms. From the data above given it follows that ten plants of Thymus +serpyllum, if half consisted of hermaphrodites and half of females, would yield +seeds compared with ten hermaphrodite plants in the ratio of 100 to 72. Under +similar circumstances the ratio with Satureia hortensis (subject to the doubt +from the self-fertilisation of the hermaphrodite) would be as 100 to 60. Whether +the two forms originated in certain individuals varying and producing more seed +than usual, and consequently producing less pollen; or in the stamens of certain +individuals tending from some unknown cause to abort, and consequently producing +more seed, it is impossible to decide; but in either case, if the tendency to +the increased production of seed were steadily favoured, the result would be the +complete abortion of the male organs. I shall presently discuss the cause of the +smaller size of the female corolla. + +[Scabiosa arvensis (DIPSACEAE). + +It has been shown by H. Muller that this species exists in Germany under an +hermaphrodite and female form. (7/18. 'Die Befruchtung der Blumen' page 368. The +two forms occur not only in Germany, but in England and France. Lecoq +'Geographie Bot.' 1857 tome 6 pages 473, 477, says that male plants as well as +hermaphrodites and females coexist; it is, however, possible that he may have +been deceived by the flowers being so strongly proterandrous. From what Lecoq +says, S. succisa likewise appears to occur under two forms in France.) In my +neighbourhood (Kent) the female plants do not nearly equal in number the +hermaphrodites. The stamens of the females vary much in their degree of +abortion; in some plants they are quite short and produce no pollen; in others +they reach to the mouth of the corolla, but their anthers are not half the +proper size, never dehisce, and contain but few pollen-grains, these being +colourless and of small diameter. The hermaphrodite flowers are strongly +proterandrous, and H. Muller shows that, whilst all the stigmas on the same +flower-head are mature at nearly the same time, the stamens dehisce one after +the other; so that there is a great excess of pollen, which serves to fertilise +the female plants. As the production of pollen by one set of plants is thus +rendered superfluous, their male organs have become more or less completely +aborted. Should it be hereafter proved that the female plants yield, as is +probable, more seeds than the hermaphrodites, I should be inclined to extend the +same view to this plant as to the Labiatae. I have also observed the existence +of two forms in our endemic S. succisa, and in the exotic S. atro-purpurea. In +the latter plant, differently to what occurs in S. arvensis, the female flowers, +especially the larger circumferential ones, are smaller than those of the +hermaphrodite form. According to Lecoq, the female flower-heads of S. succisa +are likewise smaller than those of what he calls the male plants, but which are +probably hermaphrodites. + +Echium vulgare (BORAGINEAE). + +The ordinary hermaphrodite form appears to be proterandrous, and nothing more +need be said about it. The female differs in having a much smaller corolla and +shorter pistil, but a well-developed stigma. The stamens are short; the anthers +do not contain any sound pollen-grains, but in their place yellow incoherent +cells which do not swell in water. Some plants were in an intermediate +condition; that is, had one or two or three stamens of proper length with +perfect anthers, the other stamens being rudimentary. In one such plant half of +one anther contained green perfect pollen-grains, and the other half yellowish- +green imperfect grains. Both forms produced seed, but I neglected to observe +whether in equal numbers. As I thought that the state of the anthers might be +due to some fungoid growth, I examined them both in the bud and mature state, +but could find no trace of mycelium. In 1862 many female plants were found; and +in 1864, 32 plants were collected in two localities, exactly half of which were +hermaphrodites, fourteen were females, and two in an intermediate condition. In +1866, 15 plants were collected in another locality, and these consisted of four +hermaphrodites and eleven females. I may add that this season was a wet one, +which shows that the abortion of the stamens can hardly be due to the dryness of +the sites where the plants grew, as I at one time thought probable. Seeds from +an hermaphrodite were sown in my garden, and of the 23 seedlings raised, one +belonged to the intermediate form, all the others being hermaphrodites, though +two or three of them had unusually short stamens. I have consulted several +botanical works, but have found no record of this plant varying in the manner +here described. + +Plantago lanceolata (PLANTAGINEAE). + +Delpino states that this plant presents in Italy three forms, which graduate +from an anemophilous into an entomophilous condition. According to H. Muller, +there are only two forms in Germany, neither of which show any special +adaptation for insect fertilisation, and both appear to be hermaphrodites. +(7/19. 'Die Befruchtung' etc. page 342.) But I have found in two localities in +England female and hermaphrodite forms existing together; and the same fact has +been noticed by others. (7/20. Mr. C.W. Crocker 'The Gardener's Chronicle' 1864 +page 294. Mr. W. Marshall writes to me to the same effect from Ely.) The females +are less frequent than the hermaphrodites; their stamens are short, and their +anthers, which are of a brighter green whilst young than those of the other +form, dehisce properly, yet contain either no pollen, or a small amount of +imperfect grains of variable size. All the flower-heads on a plant belong to the +same form. It is well known that this species is strongly proterogynous, and I +found that the protruding stigmas of both the hermaphrodite and female flowers +were penetrated by pollen-tubes, whilst their own anthers were immature and had +not escaped out of the bud. Plantago media does not present two forms; but it +appears from Asa Gray's description, that such is the case with four of the +North American species. (7/21. 'Manual of the Botany of the Northern United +States' 2nd edition 1856 page 269. See also 'American Journal of Science' +November 1862 page 419 and 'Proceedings of the American Academy of Science' +October 14, 1862 page 53.) The corolla does not properly expand in the short- +stamened form of these plants. + +Cnicus, Serratula, Eriophorum. + +In the Compositae, Cnicus palustris and acaulis are said by Sir J.E. Smith to +exist as hermaphrodites and females, the former being the more frequent. With +Serratula tinctoria a regular gradation may be followed from the hermaphrodite +to the female form; in one of the latter plants the stamens were so tall that +the anthers embraced the style as in the hermaphrodites, but they contained only +a few grains of pollen, and these in an aborted condition; in another female, on +the other hand, the anthers were much more reduced in size than is usual. +Lastly, Dr. Dickie has shown that with Eriophorum angustifolium (Cyperaceae) +hermaphrodite and female forms exist in Scotland and the Arctic regions, both of +which yield seed. (7/22. Sir J.E. Smith 'Transactions of the Linnean Society' +volume 13 page 599. Dr. Dickie 'Journal of the Linnean Society Botany' volume 9 +1865 page 161.)] + +It is a curious fact that in all the foregoing polygamous, dioecious, and gyno- +dioecious plants in which any difference has been observed in the size of the +corolla in the two or three forms, it is rather larger in the females, which +have their stamens more or less or quite rudimentary, than in the hermaphrodites +or males. This holds good with Euonymus, Rhamnus catharticus, Ilex, Fragaria, +all or at least most of the before-named Labiatae, Scabiosa atro-purpurea, and +Echium vulgare. So it is, according to Von Mohl, with Cardamine amara, Geranium +sylvaticum, Myosotis, and Salvia. On the other hand, as Von Mohl remarks, when a +plant produces hermaphrodite flowers and others which are males owing to the +more or less complete abortion of the female organs, the corollas of the males +are not at all increased in size, or only exceptionally and in a slight degree, +as in Acer. (7/23. 'Botanische Zeitung' 1863 page 326.) It seems therefore +probable that the decreased size of the female corollas in the foregoing cases +is due to a tendency to abortion spreading from the stamens to the petals. We +see how intimately these organs are related in double flowers, in which the +stamens are readily converted into petals. Indeed some botanists believe that +petals do not consist of leaves directly metamorphosed, but of metamorphosed +stamens. That the lessened size of the corolla in the above case is in some +manner an indirect result of the modification of the reproductive organs is +supported by the fact that in Rhamnus catharticus not only the petals but the +green and inconspicuous sepals of the female have been reduced in size; and in +the strawberry the flowers are largest in the males, mid-sized in the +hermaphrodites, and smallest in the females. These latter cases,--the +variability in the size of the corolla in some of the above species, for +instance in the common thyme,--together with the fact that it never differs +greatly in size in the two forms--make me doubt much whether natural selection +has come into play;--that is whether, in accordance with H. Muller's belief, the +advantage derived from the polleniferous flowers being visited first by insects +has been sufficient to lead to a gradual reduction of the corolla of the female. +We should bear in mind that as the hermaphrodite is the normal form, its corolla +has probably retained its original size. (7/24. It does not appear to me that +Kerner's view 'Die Schutzmittel des Pollens' 1873 page 56, can be accepted in +the present cases, namely that the larger corolla in the hermaphrodites and +males serves to protect their pollen from rain. In the genus Thymus, for +instance, the aborted anthers of the female are much better protected than the +perfect ones of the hermaphrodite.) An objection to the above view should not be +passed over; namely, that the abortion of the stamens in the females ought to +have added through the law of compensation to the size of the corolla; and this +perhaps would have occurred, had not the expenditure saved by the abortion of +the stamens been directed to the female reproductive organs, so as to give to +this form increased fertility. + + +CHAPTER VIII. +CLEISTOGAMIC FLOWERS. + +General character of cleistogamic flowers. +List of the genera producing such flowers, and their distribution in the +vegetable series. +Viola, description of the cleistogamic flowers in the several species; their +fertility compared with that of the perfect flowers. +Oxalis acetosella. +O. sensitiva, three forms of cleistogamic flowers. +Vandellia. +Ononis. +Impatiens. +Drosera. +Miscellaneous observations on various other cleistogamic plants. +Anemophilous species producing cleistogamic flowers. +Leersia, perfect flowers rarely developed. +Summary and concluding remarks on the origin of cleistogamic flowers. +The chief conclusions which may be drawn from the observations in this volume. + +It was known even before the time of Linnaeus that certain plants produced two +kinds of flowers, ordinary open, and minute closed ones; and this fact formerly +gave rise to warm controversies about the sexuality of plants. These closed +flowers have been appropriately named cleistogamic by Dr. Kuhn. (8/1. +'Botanische Zeitung' 1867 page 65.) They are remarkable from their small size +and from never opening, so that they resemble buds; their petals are rudimentary +or quite aborted; their stamens are often reduced in number, with the anthers of +very small size, containing few pollen-grains, which have remarkably thin +transparent coats, and generally emit their tubes whilst still enclosed within +the anther-cells; and, lastly, the pistil is much reduced in size, with the +stigma in some cases hardly at all developed. These flowers do not secrete +nectar or emit any odour; from their small size, as well as from the corolla +being rudimentary, they are singularly inconspicuous. Consequently insects do +not visit them; nor if they did, could they find an entrance. Such flowers are +therefore invariably self-fertilised; yet they produce an abundance of seed. In +several cases the young capsules bury themselves beneath the ground, and the +seeds are there matured. These flowers are developed before, or after, or +simultaneously with the perfect ones. Their development seems to be largely +governed by the conditions to which the plants are exposed, for during certain +seasons or in certain localities only cleistogamic or only perfect flowers are +produced. + +Dr. Kuhn, in the article above referred to, gives a list of 44 genera including +species which bear flowers of this kind. To this list I have added some genera, +and the authorities are appended in a footnote. I have omitted three names, from +reasons likewise given in the footnote. But it is by no means easy to decide in +all cases whether certain flowers ought to be ranked as cleistogamic. For +instance, Mr. Bentham informs me that in the South of France some of the flowers +on the vine do not fully open and yet set fruit; and I hear from two experienced +gardeners that this is the case with the vine in our hothouses; but as the +flowers do not appear to be completely closed it would be imprudent to consider +them as cleistogamic. The flowers of some aquatic and marsh plants, for instance +of Ranunculus aquatalis, Alisma natans, Subularia, Illecebrum, Menyanthes, and +Euryale, remain closely shut as long as they are submerged, and in this +condition fertilise themselves. (8/2. Delpino 'Sull' Opera, la Distribuzione dei +Sessi nelle Piante' etc. 1867 page 30. Subularia, however, sometimes has its +flowers fully expanded beneath the water, see Sir J.E. Smith 'English Flora' +volume 3 1825 page 157. For the behaviour of Menyanthes in Russia see Gillibert +in 'Act. Acad. St. Petersb.' 1777 part 2 page 45.--On Euryale 'Gardener's +Chronicle' 1877 page 280.) They behave in this manner, apparently as a +protection to their pollen, and produce open flowers when exposed to the air; so +that these cases seem rather different from those of true cleistogamic flowers, +and have not been included in the list. Again, the flowers of some plants which +are produced very early or very late in the season do not properly expand; and +these might perhaps be considered as incipiently cleistogamic; but as they do +not present any of the remarkable peculiarities proper to the class, and as I +have not found any full record of such cases, they are not entered in the list. +When, however, it is believed on fairly good evidence that the flowers on a +plant in its native country do not open at any hour of the day or night, and yet +set seeds capable of germination, these may fairly be considered as +cleistogamic, notwithstanding that they present no peculiarities of structure. I +will now give as complete a list of the genera containing cleistogamic species +as I have been able to collect. + +TABLE 8.38. List of genera including cleistogamic species (chiefly after Kuhn). +(8/3. I have omitted Trifolium and Arachis from the list, because Von Mohl says +'Botanische Zeitung' 1863 page 312, that the flower-stems merely draw the +flowers beneath the ground, and that these do not appear to be properly +cleistogamic. Correa de Mello 'Journal of the Linnean Society Botany' volume 11 +1870 page 254, observed plants of Arachis in Brazil, and could never find such +flowers. Plantago has been omitted because as far as I can discover it produces +hermaphrodite and female flower-heads, but not cleistogamic flowers. +Krascheninikowia (vel Stellaria) has been omitted because it seems very doubtful +from Maximowicz' description whether the lower flowers which have no petals or +very small ones, and barren stamens or none, are cleistogamic; the upper +hermaphrodite flowers are said never to produce fruit, and therefore probably +act as males. Moreover in Stellaria graminea, as Babington remarks 'British +Botany' 1851 page 51, "shorter and longer petals accompany an imperfection of +the stamens or germen." + +I have added to the list the following cases: +Several Acanthaceae, for which see J. Scott in 'Journal of Botany' London new +series volume 1 1872 page 161. +With respect to salvia see Dr. Ascherson in 'Botanische Zeitung' 1871 page 555. +For Oxybaphus and Nyctaginia see Asa Gray in 'American Naturalist' November 1873 +page 692. +From Dr. Torrey's account of Hottonia inflata 'Bulletin of the Torrey Botanical +Club' volume 2 June 1871, it is manifest that this plant produces true +cleistogamic flowers. +For Pavonia see Bouche in 'Sitzungsberichte d. Gesellsch. Natur. Freunde' +October 20, 1874 page 90. +I have added Thelymitra, as from the account given by Mr. Fitzgerald in his +magnificent work on 'Australian Orchids' it appears that the flowers of this +plant in its native home never open, but they do not appear to be reduced in +size. Nor is this the case with the flowers of certain species of Epidendron, +Cattleya, etc. see second edition of my 'Fertilisation of Orchids' page 147, +which without expanding produce capsules. It is therefore doubtful whether these +Orchideae ought to have been included in the list. From what Duval-Jouve says +about Cryptostachys in 'Bulletin of the Soc. Bot. de France' tome 10 1863 page +195, this plant appears to produce cleistogamic flowers. +the other additions to the list are noticed in my text.) + +DICOTYLEDONS. + +BORAGINEAE: +Eritrichium. + +CONVOLVULACEAE: +Cuscuta. + +SCROPHULARINEAE: +Scrophularia. +Linaria. +Vandellia. + +ACANTHACEAE: +Cryphiacanthus. +Eranthemum. +Daedalacanthus. +Dipteracanthus. +Aechmanthera. +Ruellia. + +LABIATAE: +Lamium. +Salvia. + +NYCTAGINEAE: +Oxybaphus. +Nyctaginia. + +ASCLEPIADAE: +Stapelia. + +CAMPANULACEAE: +Specularia. +Campanula. + +PRIMULACEAE: +Hottonia. + +COMPOSITAE: +Anandria. + +CRUCIFERAE: +Heterocarpaea. + +VIOLACEAE: +Viola. + +CISTINEAE: +Helianthemum. +Lechea. + +MALVEACEAE: +Pavonia. + +MALPIGHIACEAE: +Gaudichaudia. +Aspicarpa. +Camarea. +Janusia. + +POLYGALEAE: +Polygala. + +BALSAMINEAE: +Impatiens. + +GERANIACAEA: +Oxalis. + +LEGUMINOSAE: +Ononis. +Parochaetus. +Chapmannia. +Stylosanthus. +Lespedeza. +Vicia. +Lathyrus. +Martinsia vel Neurocarpum. +Amphicarpaea. +Glycine. +Galactia. +Voandzeia. + +DROSERACEAE: +Drosera. + +MONOCOTYLEDONS. + +JUNCEAE: +Juncus. + +GRAMINEAE: +Leersia. +Hordeum. +Cryptostachys. + +COMMELINEAE: +Commelina. + +PONTEDERACEAE: +Monochoria. + +ORCHIDEAE: +Schomburgkia. +Cattleya. +Epidendron. +Thelymitra. + +The first point that strikes us in considering this list of 55 genera, is that +they are very widely distributed in the vegetable series. They are more common +in the family of the Leguminosae than in any other, and next in order in that of +the Acanthaceae and Malpighiaceae. A large number, but not all the species, of +certain genera, as of Oxalis and Viola, bear cleistogamic as well as ordinary +flowers. A second point which deserves notice is that a considerable proportion +of the genera produce more or less irregular flowers; this is the case with +about 32 out of the 55 genera, but to this subject I shall recur. + +I formerly made many observations on cleistogamic flowers, but only a few of +them are worth giving, since the appearance of an admirable paper by Hugo Von +Mohl, whose examination was in some respects much more complete than mine. (8/4. +'Botanische Zeitung' 1863 page 309-28.) His paper includes also an interesting +history of our knowledge on the subject. + +Viola canina. + +The calyx of the cleistogamic flowers differs in no respect from that of the +perfect ones. The petals are reduced to five minute scales; the lower one, which +represents the lower lip, is considerably larger than the others, but with no +trace of the spur-like nectary; its margins are smooth, whilst those of the +other four scale-like petals are papillose. D. Muller of Upsala says that in the +specimens which he observed the petals were completely aborted. (8/5. Ibid. 1857 +page 730. This paper contains the first full and satisfactory account of any +cleistogamic flower.) The stamens are very small, and only the two lower ones +are provided with anthers, which do not cohere together as in the perfect +flowers. The anthers are minute, with the two cells or loculi remarkably +distinct; they contain very little pollen in comparison with those of the +perfect flowers. The connective expands into a membranous hood-like shield which +projects above the anther-cells. These two lower stamens have no vestige of the +curious appendages which secrete nectar in the perfect flowers. The three other +stamens are destitute of anthers and have broader filaments, with their terminal +membranous expansions flatter or not so hood-like as those of the two +antheriferous stamens. The pollen-grains have remarkably thin transparent coats; +when exposed to the air they shrivel up quickly; when placed in water they +swell, and are then 8-10/7000 of an inch in diameter, and therefore of smaller +size than the ordinary pollen-grains similarly treated, which have a diameter of +13-14/7000 of an inch. In the cleistogamic flowers, the pollen-grains, as far as +I could see, never naturally fall out of the anther-cells, but emit their tubes +through a pore at the upper end. I was able to trace the tubes from the grains +some way down the stigma. The pistil is very short, with the style hooked, so +that its extremity, which is a little enlarged or funnel-shaped and represents +the stigma, is directed downwards, being covered by the two membranous +expansions of the antheriferous stamens. It is remarkable that there is an open +passage from the enlarged funnel-shaped extremity to within the ovarium; this +was evident, as slight pressure caused a bubble of air, which had been drawn in +by some accident, to travel freely from one end to the other: a similar passage +was observed by Michalet in V. alba. The pistil therefore differs considerably +from that of the perfect flower; for in the latter it is much longer, and +straight with the exception of the rectangularly bent stigma; nor is it +perforated by an open passage. + +The ordinary or perfect flowers have been said by some authors never to produce +capsules; but this is an error, though only a small proportion of them do so. +This appears to depend in some cases on their anthers not containing even a +trace of pollen, but more generally on bees not visiting the flowers. I twice +covered with a net a group of flowers, and marked with threads twelve of them +which had not as yet expanded. This precaution is necessary, for though as a +general rule the perfect flowers appear considerably before the cleistogamic +ones, yet occasionally some of the latter are produced early in the season, and +their capsules might readily be mistaken for those produced by the perfect +flowers. Not one of the twelve marked perfect flowers yielded a capsule, whilst +others under the net which had been artificially fertilised produced five +capsules; and these contained exactly the same average number of seeds as some +capsules from flowers outside the net which had been fertilised by bees. I have +repeatedly seen Bombus hortorum, lapidarius, and a third species, as well as +hive-bees, sucking the flowers of this violet: I marked six which were thus +visited, and four of them produced fine capsules; the two others were gnawed off +by some animal. I watched Bombus hortorum for some time, and whenever it came to +a flower which did not stand in a convenient position to be sucked, it bit a +hole through the spur-like nectary. Such ill-placed flowers would not yield any +seed or leave descendants; and the plants bearing them would thus tend to be +eliminated through natural selection. + +The seeds produced by the cleistogamic and perfect flowers do not differ in +appearance or number. On two occasions I fertilised several perfect flowers with +pollen from other individuals, and afterwards marked some cleistogamic flowers +on the same plants; and the result was that 14 capsules produced by the perfect +flowers contained on an average 9.85 seeds; and 17 capsules from the +cleistogamic ones contained 9.64 seeds,--an amount of difference of no +significance. It is remarkable how much more quickly the capsules from the +cleistogamic flowers are developed than those from the perfect ones; for +instance, several perfect flowers were cross-fertilised on April 14th, 1863, and +a month afterwards (May 15th) eight young cleistogamic flowers were marked with +threads; and when the two sets of capsules thus produced were compared on June +3rd, there was scarcely any difference between them in size. + +Viola odorata (WHITE-FLOWERED, SINGLE, CULTIVATED VARIETY). + +The petals are represented by mere scales as in the last species; but +differently from in the last, all five stamens are provided with diminutive +anthers. Small bundles of pollen-tubes were traced from the five anthers into +the somewhat distant stigma. The capsules produced by these flowers bury +themselves in the soil, if it be loose enough, and there mature themselves. +(8/6. Vaucher says 'Hist. Phys. des Plantes d'Europe' tome 3 1844 page 309, that +V. hirta and collina likewise bury their capsules. See also Lecoq 'Geograph. +Bot.' tome 5 1856 page 180.) Lecoq says that it is only these latter capsules +which possess elastic valves; but I think this must be a misprint, as such +valves would obviously be of no use to the buried capsules, but would serve to +scatter the seeds of the sub-aerial ones, as in the other species of Viola. It +is remarkable that this plant, according to Delpino, does not produce +cleistogamic flowers in one part of Liguria, whilst the perfect flowers are +there abundantly fertile (8/7. 'Sull' Opera, la Distribuzione dei Sessi nelle +Piante' etc. 1867 page 30.); on the other hand, cleistogamic flowers are +produced by it near Turin. Another fact is worth giving as an instance of +correlated development: I found on a purple variety, after it had produced its +perfect double flowers, and whilst the white single variety was bearing its +cleistogamic flowers, many bud-like bodies which from their position on the +plant were certainly of a cleistogamic nature. They consisted, as could be seen +on bisecting them, of a dense mass of minute scales closely folded over one +another, exactly like a cabbage-head in miniature. I could not detect any +stamens, and in the place of the ovarium there was a little central column. The +doubleness of the perfect flowers had thus spread to the cleistogamic ones, +which therefore were rendered quite sterile. + +Viola hirta. + +The five stamens of the cleistogamic flowers are provided, as in the last case, +with small anthers, from all of which pollen-tubes proceed to the stigma. The +petals are not quite so much reduced as in V. canina, and the short pistil +instead of being hooked is merely bent into a rectangle. Of several perfect +flowers which I saw visited by hive-and humble-bees, six were marked, but they +produced only two capsules, some of the others having been accidentally injured. +M. Monnier was therefore mistaken in this case as in that of V. odorata, in +supposing that the perfect flowers always withered away and aborted. He states +that the peduncles of the cleistogamic flowers curve downwards and bury the +ovaries beneath the soil. (8/8. These statements are taken from Professor +Oliver's excellent article in the 'Natural History Review' July 1862 page 238. +With respect to the supposed sterility of the perfect flowers in this genus see +also Timbal-Lagrave 'Botanische Zeitung' 1854 page 772.) I may here add that +Fritz Muller, as I hear from his brother, has found in the highlands of Southern +Brazil a white-flowered species of violet which bears subterranean cleistogamic +flowers. + +Viola nana. + +Mr. Scott sent me seeds of this Indian species from the Sikkim Terai, from which +I raised many plants, and from these other seedlings during several successive +generations. They produced an abundance of cleistogamic flowers during the whole +of each summer, but never a perfect one. When Mr. Scott wrote to me his plants +in Calcutta were behaving similarly, though his collector saw the species in +flower in its native site. This case is valuable as showing that we ought not to +infer, as has sometimes been done, that a species does not bear perfect flowers +when growing naturally, because it produces only cleistogamic flowers under +culture. The calyx of these flowers is sometimes formed of only three sepals; +two being actually suppressed and not merely coherent with the others; this +occurred with five out of thirty flowers which were examined for this purpose. +The petals are represented by extremely minute scales. Of the stamens, two bear +anthers which are in the same state as in the previous species, but, as far as I +could judge, each of the two cells contained only from 20 to 25 delicate +transparent pollen-grains. These emitted their tubes in the usual manner. The +three other stamens bore very minute rudimentary anthers, one of which was +generally larger than the other two, but none of them contained any pollen. In +one instance, however, a single cell of the larger rudimentary anther included a +little pollen. The style consists of a short flattened tube, somewhat expanded +at its upper end, and this forms an open channel leading into the ovarium, as +described under V. canina. It is slightly bent towards the two fertile anthers. + +Viola Roxburghiana. + +This species bore in my hothouse during two years a multitude of cleistogamic +flowers, which resembled in all respects those of the last species; but no +perfect ones were produced. Mr. Scott informs me that in India it bears perfect +flowers only during the cold season, and that these are quite fertile. During +the hot, and more especially during the rainy season, it bears an abundance of +cleistogamic flowers. + +Many other species, besides the five now described, produce cleistogamic +flowers; this is the case, according to D. Muller, Michalet, Von Mohl, and +Hermann Muller, with V. elatior, lancifolia, sylvatica, palustris, mirabilis, +bicolor, ionodium, and biflora. But V. tricolor does not produce them. + +Michalet asserts that V. palustris produces near Paris only perfect flowers, +which are quite fertile; but that when the plant grows on mountains cleistogamic +flowers are produced; and so it is with V. biflora. The same author states that +he has seen in the case of V. alba flowers intermediate in structure between the +perfect and cleistogamic ones. According to M. Boisduval, an Italian species, V. +Ruppii, never bears in France "des fleurs bien apparentes, ce qui ne l'empeche +pas de fructifier." + +It is interesting to observe the gradation in the abortion of the parts in the +cleistogamic flowers of the several foregoing species. It appears from the +statements by D. Muller and Von Mohl that in V. mirabilis the calyx does not +remain quite closed; all five stamens are provided with anthers, and some +pollen-grains probably fall out of the cells on the stigma, instead of +protruding their tubes whilst still enclosed, as in the other species. In V. +hirta all five stamens are likewise antheriferous; the petals are not so much +reduced and the pistil not so much modified as in the following species. In V. +nana and elatior only two of the stamens properly bear anthers, but sometimes +one or even two of the others are thus provided. Lastly, in V. canina never more +than two of the stamens, as far as I have seen, bear anthers; the petals are +much more reduced than in V. hirta, and according to D. Muller are sometimes +quite absent. + +Oxalis acetosella. + +The existence of cleistogamic flowers on this plant was discovered by Michalet. +(8/9. 'Bulletin Soc. Bot. de France' tome 7 1860 page 465.) They have been fully +described by Von Mohl, and I can add hardly anything to his description. In my +specimens the anthers of the five longer stamens were nearly on a level with the +stigmas; whilst the smaller and less plainly bilobed anthers of the five shorter +stamens stood considerably below the stigmas, so that their tubes had to travel +some way upwards. According to Michalet these latter anthers are sometimes quite +aborted. In one case the tubes, which ended in excessively fine points, were +seen by me stretching upwards from the lower anthers towards the stigmas, which +they had not as yet reached. My plants grew in pots, and long after the perfect +flowers had withered they produced not only cleistogamic but a few minute open +flowers, which were in an intermediate condition between the two kinds. In one +of these the pollen-tubes from the lower anthers had reached the stigmas, though +the flower was open. The footstalks of the cleistogamic flowers are much shorter +than those of the perfect flowers, and are so much bowed downwards that they +tend, according to Von Mohl, to bury themselves in the moss and dead leaves on +the ground. Michalet also says that they are often hypogean. In order to +ascertain the number of seeds produced by these flowers, I marked eight of them; +two failed, one cast its seed abroad, and the remaining five contained on an +average 10.0 seeds per capsule. This is rather above the average 9.2, which +eleven capsules from perfect flowers fertilised with their own pollen yielded, +and considerably above the average 7.9, from the capsules of perfect flowers +fertilised with pollen from another plant; but this latter result must, I think, +have been accidental. + +Hildebrand, whilst searching various Herbaria, observed that many other species +of Oxalis besides O. acetosella produce cleistogamic flowers (8/10. +'Monatsbericht der Akad. der Wiss. zu Berlin' 1866 page 369.); and I hear from +him that this is the case with the heterostyled trimorphic O. incarnata from the +Cape of Good Hope. + +Oxalis (Biophytum) sensitiva. + +This plant is ranked by many botanists as a distinct genus, but as a sub-genus +by Bentham and Hooker. Many of the early flowers on a mid-styled plant in my +hothouse did not open properly, and were in an intermediate condition between +cleistogamic and perfect. Their petals varied from a rudiment to about half +their proper size; nevertheless they produced capsules. I attributed their state +to unfavourable conditions, for later in the season fully expanded flowers of +the proper size appeared. But Mr. Thwaites afterwards sent me from Ceylon a +number of long-styled, mid-styled, and short-styled flower-stalks preserved in +spirits; and on the same stalks with the perfect flowers, some of which were +fully expanded and others still in bud, there were small bud-like bodies +containing mature pollen, but with their calyces closed. These cleistogamic +flowers do not differ much in structure from the perfect ones of the +corresponding form, with the exception that their petals are reduced to +extremely minute, barely visible scales, which adhere firmly to the rounded +bases of the shorter stamens. Their stigmas are much less papillose, and smaller +in about the ratio of 13 to 20 divisions of the micrometer, as measured +transversely from apex to apex, than the stigmas of the perfect flowers. The +styles are furrowed longitudinally, and are clothed with simple as well as +glandular hairs, but only in the cleistogamic flowers produced by the long- +styled and mid-styled forms. The anthers of the longer stamens are a little +smaller than the corresponding ones of the perfect flowers, in about the ratio +of 11 to 14. They dehisce properly, but do not appear to contain much pollen. +Many pollen-grains were attached by short tubes to the stigmas; but many others, +still adhering to the anthers, had emitted their tubes to a considerable length, +without having come in contact with the stigmas. Living plants ought to be +examined, as the stigmas, at least of the long-styled form, project beyond the +calyx, and if visited by insects (which, however, is very improbable) might be +fertilised with pollen from a perfect flower. The most singular fact about the +present species is that long-styled cleistogamic flowers are produced by the +long-styled plants, and mid-styled as well as short-styled cleistogamic flowers +by the other two forms; so that there are three kinds of cleistogamic and three +kinds of perfect flowers produced by this one species! Most of the heterostyled +species of Oxalis are more or less sterile, many absolutely so, if +illegitimately fertilised with their own-form pollen. It is therefore probable +that the pollen of the cleistogamic flowers has been modified in power, so as to +act on their own stigmas, for they yield an abundance of seeds. We may perhaps +account for the cleistogamic flowers consisting of the three forms, through the +principle of correlated growth, by which the cleistogamic flowers of the double +violet have been rendered double. + +Vandellia nummularifolia. + +Dr. Kuhn has collected all the notices with respect to cleistogamic flowers in +this genus, and has described from dried specimens those produced by an +Abyssinian species. (8/11. 'Botanische Zeitung' 1867 page 65.) Mr. Scott sent me +from Calcutta seeds of the above common Indian weed, from which many plants were +successively raised during several years. The cleistogamic flowers are very +small, being when fully mature under 1/20 of an inch (1.27 millimetres) in +length. The calyx does not open, and within it the delicate transparent corolla +remains closely folded over the ovarium. There are only two anthers instead of +the normal number of four, and their filaments adhere to the corolla. The cells +of the anthers diverge much at their lower ends and are only 5/700 of an inch +(.181 millimetres) in their longer diameter. They contain but few pollen-grains, +and these emit their tubes whilst still within the anther. The pistil is very +short, and is surmounted by a bilobed stigma. As the ovary grows the two anthers +together with the shrivelled corolla, all attached by the dried pollen-tubes to +the stigma, are torn off and carried upwards in the shape of a little cap. The +perfect flowers generally appear before the cleistogamic, but sometimes +simultaneously with them. During one season a large number of plants produced no +perfect flowers. It has been asserted that the latter never yield capsules; but +this is a mistake, as they do so even when insects are excluded. Fifteen +capsules from cleistogamic flowers on plants growing under favourable conditions +contained on an average 64.2 seeds, with a maximum of 87; whilst 20 capsules +from plants growing much crowded yielded an average of only 48. Sixteen capsules +from perfect flowers artificially crossed with pollen from another plant +contained on an average 93 seeds, with a maximum of 137. Thirteen capsules from +self-fertilised perfect flowers gave an average of 62 seeds, with a maximum of +135. Therefore the capsules from the cleistogamic flowers contained fewer seeds +than those from perfect flowers when cross-fertilised, and slightly more than +those from perfect flowers self-fertilised. + +Dr. Kuhn believes that the Abyssinian V. sessiflora does not differ specifically +from the foregoing species. But its cleistogamic flowers apparently include four +anthers instead of two as above described. The plants, moreover, of V. +sessiflora produce subterranean runners which yield capsules; and I never saw a +trace of such runners in V. nummularifolia, although many plants were +cultivated. + +Linaria spuria. + +Michalet says that short, thin, twisted branches are developed from the buds in +the axils of the lower leaves, and that these bury themselves in the ground. +(8/12. 'Bulletin Soc. Bot. de France' tome 7 1860 page 468.) They there produce +flowers not offering any peculiarity in structure, excepting that their +corollas, though properly coloured, are deformed. These flowers may be ranked as +cleistogamic, as they are developed, and not merely drawn, beneath the ground. + +Ononis columnae. + +Plants were raised from seeds sent me from Northern Italy. The sepals of the +cleistogamic flowers are elongated and closely pressed together; the petals are +much reduced in size, colourless, and folded over the interior organs. The +filaments of the ten stamens are united into a tube, and this is not the case, +according to Von Mohl, with the cleistogamic flowers of other Leguminosae. Five +of the stamens are destitute of anthers, and alternate with the five thus +provided. The two cells of the anthers are minute, rounded and separated from +one another by connective tissue; they contain but few pollen-grains, and these +have extremely delicate coats. The pistil is hook-shaped, with a plainly +enlarged stigma, which is curled down, towards the anthers; it therefore differs +much from that of the perfect flower. During the year 1867 no perfect flowers +were produced, but in the following year there were both perfect and +cleistogamic ones. + +Ononis minutissima. + +My plants produced both perfect and cleistogamic flowers; but I did not examine +the latter. Some of the former were crossed with pollen from a distinct plant, +and six capsules thus obtained yielded on an average 3.66 seeds, with a maximum +of 5 in one. Twelve perfect flowers were marked and allowed to fertilise +themselves spontaneously under a net, and they yielded eight capsules, +containing on an average 2.38 seeds, with a maximum of 3 in one. Fifty-three +capsules produced by the cleistogamic flowers contained on an average 4.1 seeds, +so that these were the most productive of all; and the seeds themselves looked +finer even than those from the crossed perfect flowers. According to Mr. Bentham +O. parviflora likewise bears cleistogamic flowers; and he informs me that these +flowers are produced by all three species early in the spring; whilst the +perfect ones appear afterwards, and therefore in a reversed order compared with +those of Viola and Oxalis. Some of the species, for instance Ononis columnae, +bear a fresh crop of cleistogamic flowers in the autumn. + +Lathyrus nissolia. + +This plant apparently offers a case of the first stage in the production of +cleistogamic flowers, for on plants growing in a state of nature, many of the +flowers never expand and yet produce fine pods. Some of the buds are so large +that they seem on the point of expansion; others are much smaller, but none so +small as the true cleistogamic flowers of the foregoing species. As I marked +these buds with thread and examined them daily, there could be no mistake about +their producing fruit without having expanded. + +Several other Leguminous genera produce cleistogamic flowers, as may be seen in +Table 8.38; but much does not appear to be known about them. Von Mohl says that +their petals are commonly rudimentary, that only a few of their anthers are +developed, their filaments are not united into a tube and their pistils are +hook-shaped. In three of the genera, namely Vicia, Amphicarpaea, and Voandzeia, +the cleistogamic flowers are produced on subterranean stems. The perfect flowers +of Voandzeia, which is a cultivated plant, are said never to produce fruit +(8/13. Correa de Mello 'Journal of the Linnean Society Botany' volume 11 1870 +page 254, particularly attended to the flowering and fruiting of this African +plant, which is sometimes cultivated in Brazil.); but we should remember how +often fertility is affected by cultivation. + +Impatiens fulva. + +Mr. A.W. Bennett has published an excellent description, with figures, of this +plant. (8/14. 'Journal of the Linnean Society Botany' volume 13 1872 page 147.) +He shows that the cleistogamic and perfect flowers differ in structure at a very +early period of growth, so that the existence of the former cannot be due merely +to the arrested development of the latter,--a conclusion which indeed follows +from most of the previous descriptions. Mr. Bennett found on the banks of the +Wey that the plants which bore cleistogamic flowers alone were to those bearing +perfect flowers as 20 to 1; but we should remember that this is a naturalised +species. The perfect flowers are usually barren in England; but Professor Asa +Gray writes to me that after midsummer in the United States some or many of them +produce capsules. + +Impatiens noli-me-tangere. + +I can add nothing of importance to Von Mohl's description, excepting that one of +the rudimentary petals shows a vestige of a nectary, as Mr. Bennett likewise +found to be the case with I. fulva. As in this latter species all five stamens +produce some pollen, though small in amount; a single anther contains, according +to Von Mohl, not more than 50 grains, and these emit their tubes while still +enclosed within it. The pollen-grains of the perfect flowers are tied together +by threads, but not, so far as I could see, those of the cleistogamic flowers; +and a provision of this kind would here have been useless, as the grains can +never be transported by insects. The flowers of I. balsamina are visited by +humble-bees (8/15. H. Muller 'Die Befruchtung' etc. page 170.), and I am almost +sure that this is the case with the perfect flowers of I. noli-me-tangere. From +the perfect flowers of this latter species covered with a net eleven +spontaneously self-fertilised capsules were produced, and these yielded on an +average 3.45 seeds. Some perfect flowers with their anthers still containing an +abundance of pollen were fertilised with pollen from a distinct plant; and the +three capsules thus produced contained, to my surprise, only 2, 2, and 1 seed. +As I. balsamina is proterandrous, so probably is the present species; and if so, +cross-fertilisation was effected by me at too early a period, and this may +account for the capsules yielding so few seeds. + +Drosera rotundifolia. + +The first flower-stems which were thrown up by some plants in my greenhouse bore +only cleistogamic flowers. The petals of small size remained permanently closed +over the reproductive organs, but their white tips could just be seen between +the almost completely closed sepals. The pollen, which was scanty in amount, but +not so scanty as in Viola or Oxalis, remained enclosed within the anthers, +whence the tubes proceeded and penetrated the stigma. As the ovarium swelled the +little withered corolla was carried upwards in the form of a cap. These +cleistogamic flowers produced an abundance of seed. Later in the season perfect +flowers appeared. With plants in a state of nature the flowers open only in the +early morning, as I have been informed by Mr. Wallis, who particularly attended +to the time of their flowering. In the case of D. Anglica, the still folded +petals on some plants in my greenhouse opened just sufficiently to leave a +minute aperture; the anthers dehisced properly, but the pollen-grains adhered in +a mass to them, and thence emitted their tubes, which penetrated the stigmas. +These flowers, therefore, were in an intermediate condition, and could not be +called either perfect or cleistogamic. + +A few miscellaneous observations may be added with respect to some other +species, as throwing light on our subject. Mr. Scott states that Eranthemum +ambiguum bears three kinds of flowers,--large, conspicuous, open ones, which are +quite sterile,--others of intermediate size, which are open and moderately +fertile--and lastly small closed or cleistogamic ones, which are perfectly +fertile. (8/16. 'Journal of Botany' London new series volume 1 1872 pages 161- +4.) Ruellia tuberosa, likewise one of the Acanthaceae, produces both open and +cleistogamic flowers; the latter yield from 18 to 24, whilst the former only +from 8 to 10 seeds; these two kinds of flowers are produced simultaneously, +whereas in several other members of the family the cleistogamic ones appear only +during the hot season. According to Torrey and Gray, the North American species +of Helianthemum, when growing in poor soil, produce only cleistogamic flowers. +The cleistogamic flowers of Specularia perfoliata are highly remarkable, as they +are closed by a tympanum formed by the rudimentary corolla, and without any +trace of an opening. The stamens vary from 3 to 5 in number, as do the sepals. +(8/17. Von Mohl 'Botanische Zeitung' 1863 pages 314 and 323. Dr. Bromfield +'Phytologist' volume 3 page 530, also remarks that the calyx of the cleistogamic +flowers is usually only 3-cleft, while that of the perfect flower is mostly 5- +cleft.) The collecting hairs on the pistil, which play so important a part in +the fertilisation of the perfect flowers, are here quite absent. Drs. Hooker and +Thomson state that some of the Indian species of Campanula produce two kinds of +flowers; the smaller ones being borne on longer peduncles with differently +formed sepals, and producing a more globose ovary. (8/18. 'Journal of the +Linnean Society' volume 2 1857 page 7. See also Professor Oliver in 'Natural +History Review' 1862 page 240.) The flowers are closed by a tympanum like that +in Specularia. Some of the plants produce both kinds of flowers, others only one +kind; both yield an abundance of seeds. Professor Oliver adds that he has seen +flowers on Campanula colorata in an intermediate condition between cleistogamic +and perfect ones. + +The solitary almost sessile cleistogamic flowers produced by Monochoria +vaginalis are differently protected from those in any of the previous cases, +namely, within "a short sack formed of the membranous spathe, without any +opening or fissure." There is only a single fertile stamen; the style is almost +obsolete, with the three stigmatic surfaces directed to one side. Both the +perfect and cleistogamic flowers produce seeds. (8/19. Dr. Kirk 'Journal of the +Linnean Society' volume 8 1864 page 147.) + +The cleistogamic flowers on some of the Malpighiaceae seem to be more profoundly +modified than those in any of the foregoing genera. According to A. de Jussieu +they are differently situated from the perfect flowers; they contain only a +single stamen, instead of 5 or 6; and it is a strange fact that this particular +stamen is not developed in the perfect flowers of the same species. (8/20. +'Archives du Museum' tome 3 1843 pages 35-38, 82-86, 589, 598.) The style is +absent or rudimentary; and there are only two ovaries instead of three. Thus +these degraded flowers, as Jussieu remarks, "laugh at our classifications, for +the greater number of the characters proper to the species, to the genus, to the +family, to the class disappear." I may add that their calyces are not glandular, +and as, according to Kerner, the fluid secreted by such glands generally serves +to protect the flowers from crawling insects, which steal the nectar without +aiding in their cross-fertilisation (8/21. 'Die Schutzmittel der Bluthen gegen +unberufene Gaste' 1876 page 25.), the deficiency of the glands in the +cleistogamic flowers of these plants may perhaps be accounted for by their not +requiring any such protection. + +As the Asclepiadous genus Stapelia is said to produce cleistogamic flowers, the +following case may be worth giving. I have never heard of the perfect flowers of +Hoya carnosa setting seeds in this country, but some capsules were produced in +Mr. Farrer's hothouse; and the gardener detected that they were the product of +minute bud-like bodies, three or four of which could sometimes be found on the +same umbel with the perfect flowers. They were quite closed and hardly thicker +than their peduncles. The sepals presented nothing particular, but internally +and alternating with them, there were five small flattened heart-shaped +papillae, like rudiments of petals; but the homological nature of which appeared +doubtful to Mr. Bentham and Dr. Hooker. No trace of anthers or of stamens could +be detected; and I knew from having examined many cleistogamic flowers what to +look for. There were two ovaries, full of ovules, quite open at their upper +ends, with their edges festooned, but with no trace of a proper stigma. In all +these flowers one of the two ovaries withered and blackened long before the +other. The one perfect capsule, 3 1/2 inches in length, which was sent me, had +likewise been developed from a single carpel. This capsule contained an +abundance of plumose seeds, many of which appeared quite sound, but they did not +germinate when sown at Kew. Therefore the little bud-like flower which produced +this capsule probably was as destitute of pollen as were those which I examined. + +Juncus bufonius and Hordeum. + +All the species hitherto mentioned which produce cleistogamic flowers are +entomophilous; but four genera, Juncus, Hordeum, Cryptostachys, and Leersia are +anemophilous. Juncus bufonius is remarkable by bearing in parts of Russia only +cleistogamic flowers, which contain three instead of the six anthers found in +the perfect flowers. (8/22. See Dr. Ascherson's interesting paper in 'Botanische +Zeitung' 1871 page 551.) In the genus Hordeum it has been shown by Delpino that +the majority of the flowers are cleistogamic, some of the others expanding and +apparently allowing of cross-fertilisation. (8/23. 'Bollettini del Comizio +agrario Parmense.' Marzo e Aprile 1871. An abstract of this valuable paper is +given in 'Botanische Zeitung' 1871 page 537. See also Hildebrand on Hordeum in +'Monatsbericht d. K. Akad Berlin' October 1872 page 760.) I hear from Fritz +Muller that there is a grass in Southern Brazil, in which the sheath of the +uppermost leaf, half a metre in length, envelopes the whole panicle; and this +sheath never opens until the self-fertilised seeds are ripe. On the roadside +some plants had been cut down, whilst the cleistogamic panicles were developing, +and these plants afterwards produced free or unenclosed panicles of small size, +bearing perfect flowers. + +Leersia oryzoides. + +It has long been known that this plant produces cleistogamic flowers, but these +were first described with care by M. Duval-Jouve. (8/24. 'Bulletin Bot. Soc. de +France' tome 10 1863 page 194.) I procured plants from a stream near Reigate, +and cultivated them for several years in my greenhouse. The cleistogamic flowers +are very small, and usually mature their seeds within the sheaths of the leaves. +These flowers are said by Duval-Jouve to be filled by slightly viscid fluid; but +this was not the case with several that I opened; but there was a thin film of +fluid between the coats of the glumes, and when these were pressed the fluid +moved about, giving a similarly deceptive appearance of the whole inside of the +flower being thus filled. The stigma is very small and the filaments extremely +short; the anthers are less than 1/50 of an inch in length or about one-third of +the length of those in the perfect flowers. One of the three anthers dehisces +before the two others. Can this have any relation with the fact that in some +other species of Leersia only two stamens are fully developed? (8/25. Asa Gray +'Manual of Botany of the United States' 1856 page 540.) The anthers shed their +pollen on the stigma; at least in one instance this was clearly the case, and by +tearing open the anthers under water the grains were easily detached. Towards +the apex of the anther the grains are arranged in a single row and lower down in +two or three rows, so that they could be counted; and there were about 35 in +each cell, or 70 in the whole anther; and this is an astonishingly small number +for an anemophilous plant. The grains have very delicate coats, are spherical +and about 5/7000 of an inch (.0181 millimetres), whilst those of the perfect +flowers are about 7/7000 of an inch (.0254 millimetres) in diameter. + +M. Duval-Jouve states that the panicles very rarely protrude from their sheaths, +but that when this does happen the flowers expand and exhibit well-developed +ovaries and stigmas, together with full-sized anthers containing apparently +sound pollen; nevertheless such flowers are invariably quite sterile. Schreiber +had previously observed that if a panicle is only half protruded, this half is +sterile, whilst the still included half is fertile. Some plants which grew in a +large tub of water in my greenhouse behaved on one occasion in a very different +manner. They protruded two very large much-branched panicles; but the florets +never opened, though these included fully developed stigmas, and stamens +supported on long filaments with large anthers that dehisced properly. If these +florets had opened for a short time unperceived by me and had then closed again, +the empty anthers would have been left dangling outside. Nevertheless they +yielded on August 17th an abundance of fine ripe seeds. Here then we have a near +approach to the single case as yet known of this grass producing in a state of +nature (in Germany) perfect flowers which yielded a copious supply of fruit. +(8/26. Dr. Ascherson 'Botanische Zeitung' 1864 page 350.) Seeds from the +cleistogamic flowers were sent by me to Mr. Scott in Calcutta, who there +cultivated the plants in various ways, but they never produced perfect flowers. + +In Europe Leersia oryzoides is the sole representative of its genus, and Duval- +Jouve, after examining several exotic species, found that it apparently is the +sole one which bears cleistogamic flowers. It ranges from Persia to North +America, and specimens from Pennsylvania resembled the European ones in their +concealed manner of fructification. There can therefore be little doubt that +this plant generally propagates itself throughout an immense area by +cleistogamic seeds, and that it can hardly ever be invigorated by cross- +fertilisation. It resembles in this respect those plants which are now widely +spread, though they increase solely by asexual generation. (8/27. I have +collected several such cases in my 'Variation under Domestication' chapter 18 +2nd edition volume 2 page 153.) + +CONCLUDING REMARKS ON CLEISTOGAMIC FLOWERS. + +That these flowers owe their structure primarily to the arrested development of +perfect ones, we may infer from such cases as that of the lower rudimentary +petal in Viola being larger than the others, like the lower lip of the perfect +flower,--from a vestige of a spur in the cleistogamic flowers of Impatiens,-- +from the ten stamens of Ononis being united into a tube,--and other such +structures. The same inference may be drawn from the occurrence, in some +instances, on the same plant of a series of gradations between the cleistogamic +and perfect flowers. But that the former owe their origin wholly to arrested +development is by no means the case; for various parts have been specially +modified, so as to aid in the self-fertilisation of the flowers, and as a +protection to the pollen; for instance, the hook-shaped pistil in Viola and in +some other genera, by which the stigma is brought close to the fertile anthers,- +-the rudimentary corolla of Specularia modified into a perfectly closed +tympanum, and the sheath of Monochoria modified into a closed sack,--the +excessively thin coats of the pollen-grains,--the anthers not being all equally +aborted, and other such cases. Moreover Mr. Bennett has shown that the buds of +the cleistogamic and perfect flowers of Impatiens differ at a very early period +of growth. + +The degree to which many of the most important organs in these degraded flowers +have been reduced or even wholly obliterated, is one of their most remarkable +peculiarities, reminding us of many parasitic animals. In some cases only a +single anther is left, and this contains but few pollen-grains of diminished +size; in other cases the stigma has disappeared, leaving a simple open passage +into the ovarium. It is also interesting to note the complete loss of trifling +points in the structure or functions of certain parts, which though of service +to the perfect flowers, are of none to the cleistogamic; for instance the +collecting hairs on the pistil of Specularia, the glands on the calyx of the +Malpighiaceae, the nectar-secreting appendages to the lower stamens of Viola, +the secretion of nectar by other parts, the emission of a sweet odour, and +apparently the elasticity of the valves in the buried capsules of Viola odorata. +We here see, as throughout nature, that as soon as any part or character becomes +superfluous it tends sooner or later to disappear. + +Another peculiarity in these flowers is that the pollen-grains generally emit +their tubes whilst still enclosed within the anthers; but this is not so +remarkable a fact as was formerly thought, when the case of Asclepias was alone +known. (8/28. The case of Asclepias was described by R. Brown. Baillon asserts +'Adansonia' tome 2 1862 page 58, that with many plants the tubes are emitted +from pollen-grains which have not come into contact with the stigma; and that +they may be seen advancing horizontally through the air towards the stigma. I +have observed the emission of the tubes from the pollen-masses whilst still +within the anthers, in three widely distinct Orchidean genera namely Aceras, +Malaxis, and Neottia: see 'The Various Contrivances by which Orchids are +Fertilised' 2nd edition page 258.) It is, however, a wonderful sight to behold +the tubes directing themselves in a straight line to the stigma, when this is at +some little distance from the anthers. As soon as they reach the stigma or the +open passage leading into the ovarium, no doubt they penetrate it, guided by the +same means, whatever these may be, as in the case of ordinary flowers. I thought +that they might be guided by the avoidance of light: some pollen-grains of a +willow were therefore immersed in an extremely weak solution of honey, and the +vessel was placed so that the light entered only in one direction, laterally or +from below or from above, but the long tubes were in each case protruded in +every possible direction. + +As cleistogamic flowers are completely closed they are necessarily self- +fertilised, not to mention the absence of any attraction to insects; and they +thus differ widely from the great majority of ordinary flowers. Delpino believes +that cleistogamic flowers have been developed in order to ensure the production +of seeds under climatic or other conditions which tend to prevent the +fertilisation of the perfect flowers. (8/29. 'Sull' Opera la Distribuzione dei +Sessi nelle Piante' 1867 page 30.) I do not doubt that this holds good to a +certain limited extent, but the production of a large supply of seeds with +little consumption of nutrient matter or expenditure of vital force is probably +a far more efficient motive power. The whole flower is much reduced in size; but +what is much more important, an extremely small quantity of pollen has to be +formed, as none is lost through the action of insects or the weather; and pollen +contains much nitrogen and phosphorus. Von Mohl estimated that a single +cleistogamic anther-cell of Oxalis acetosella contained from one to two dozen +pollen-grains; we will say 20, and if so the whole flower can have produced at +most 400 grains; with Impatiens the whole number may be estimated in the same +manner at 250; with Leersia at 210; and with Viola nana at only 100. These +figures are wonderfully low compared with the 243,600 pollen-grains produced by +a flower of Leontodon, the 4,863 by an Hibiscus, or the 3,654,000 by a Paeony. +(8/30. The authorities for these statements are given in my 'Effects of Cross +and Self-Fertilisation' page 376.) We thus see that cleistogamic flowers produce +seeds with a wonderfully small expenditure of pollen; and they produce as a +general rule quite as many seeds as the perfect flowers. + +That the production of a large number of seeds is necessary or beneficial to +many plants needs no evidence. So of course is their preservation before they +are ready for germination; and it is one of the many remarkable peculiarities of +the plants which bear cleistogamic flowers, that an incomparably larger +proportion of them than of ordinary plants bury their young ovaries in the +ground;--an action which it may be presumed serves to protect them from being +devoured by birds or other enemies. But this advantage is accompanied by the +loss of the power of wide dissemination. No less than eight of the genera in the +list at the beginning of this chapter include species which act in this manner, +namely, several kinds of Viola, Oxalis, Vandellia, Linaria, Commelina, and at +least three genera of Leguminosae. The seeds also of Leersia, though not buried, +are concealed in the most perfect manner within the sheaths of the leaves. +Cleistogamic flowers possess great facilities for burying their young ovaries or +capsules, owing to their small size, pointed shape, closed condition and the +absence of a corolla; and we can thus understand how it is that so many of them +have acquired this curious habit. + +It has already been shown that in about 32 out of the 55 genera in the list just +referred to, the perfect flowers are irregular; and this implies that they have +been specially adapted for fertilisation by insects. Moreover three of the +genera with regular flowers are adapted by other means for the same end. Flowers +thus constructed are liable during certain seasons to be imperfectly fertilised, +namely, when the proper insects are scarce; and it is difficult to avoid the +belief that the production of cleistogamic flowers, which ensures under all +circumstances a full supply of seed, has been in part determined by the perfect +flowers being liable to fail in their fertilisation. But if this determining +cause be a real one, it must be of subordinate importance, as four of the genera +in the list are fertilised by the wind; and there seems no reason why their +perfect flowers should fail to be fertilised more frequently than those in any +other anemophilous genus. In contrast with what we here see with respect to the +large proportion of the perfect flowers being irregular, one genus alone out of +the 38 heterostyled genera described in the previous chapters bears such +flowers; yet all these genera are absolutely dependent on insects for their +legitimate fertilisation. I know not how to account for this difference in the +proportion of the plants bearing regular and irregular flowers in the two +classes, unless it be that the heterostyled flowers are already so well adapted +for cross-fertilisation, through the position of their stamens and pistils and +the difference in power of their two or three kinds of pollen, that any +additional adaptation, namely, through the flowers being made irregular, has +been rendered superfluous. + +Although cleistogamic flowers never fail to yield a large number of seeds, yet +the plants bearing them usually produce perfect flowers, either simultaneously +or more commonly at a different period; and these are adapted for or admit of +cross-fertilisation. From the cases given of the two Indian species of Viola, +which produced in this country during several years only cleistogamic flowers, +and of the numerous plants of Vandellia and of some plants of Ononis which +behaved during one whole season in the same manner, it appears rash to infer +from such cases as that of Salvia cleistogama not having produced perfect +flowers during five years in Germany (8/31. Dr. Ascherson 'Botanische Zeitung' +1871 page 555.), and of an Aspicarpa not having done so during several years in +Paris, that these plants would not bear perfect flowers in their native homes. +Von Mohl and several other botanists have repeatedly insisted that as a general +rule the perfect flowers produced by cleistogamic plants are sterile; but it has +been shown under the head of the several species that this is not the case. The +perfect flowers Viola are indeed sterile unless they are visited by bees; but +when thus visited they yield the full number of seeds. As far as I have been +able to discover there is only one absolute exception to the rule that the +perfect flowers are fertile, namely, that of Voandzeia; and in this case we +should remember that cultivation often affects injuriously the reproductive +organs. Although the perfect flowers of Leersia sometimes yield seeds, yet this +occurs so rarely, as far as hitherto observed, that it practically forms a +second exception to the rule. + +As cleistogamic flowers are invariably fertilised, and as they are produced in +large numbers, they yield altogether a much larger supply of seeds than do the +perfect flowers on the same plant. But the latter flowers will occasionally be +cross-fertilised, and their offspring will thus be invigorated, as we may infer +from a wide-spread analogy. But of such invigoration I have only a small amount +of direct evidence: two crossed seedlings of Ononis minutissima were put into +competition with two seedlings raised from cleistogamic flowers; they were at +first all of equal height; the crossed were then slightly beaten; but on the +following year they showed the usual superiority of their class, and were to the +self-fertilised plants of cleistogamic origin as 100 to 88 in mean height. With +Vandellia twenty crossed plants exceeded in height twenty plants raised from +cleistogamic seeds only by a little, namely, in the ratio of 100 to 94. + +It is a natural inquiry how so many plants belonging to various very distinct +families first came to have the development of their flowers arrested, so as +ultimately to become cleistogamic. That a passage from the one state to the +other is far from difficult is shown by the many recorded cases of gradations +between the two states on the same plant, in Viola, Oxalis, Biophytum, +Campanula, etc. In the several species of Viola the various parts of the flowers +have also been modified in very different degrees. Those plants which in their +own country produce flowers of full or nearly full size, but never expand (as +with Thelymitra), and yet set fruit, might easily be rendered cleistogamic. +Lathyrus nissolia seems to be in an incipient transitional state, as does +Drosera Anglica, the flowers of which are not perfectly closed. There is good +evidence that flowers sometimes fail to expand and are somewhat reduced in size, +owing to exposure to unfavourable conditions, but still retain their fertility +unimpaired. Linnaeus observed in 1753 that the flowers on several plants brought +from Spain and grown at Upsala did not show any corolla and yet produced seeds. +Asa Gray has seen flowers on exotic plants in the Northern United States which +never expanded and yet fruited. With certain English plants, which bear flowers +during nearly the whole year, Mr. Bennett found that those produced during the +winter season were fertilised in the bud; whilst with other species having fixed +times for flowering, but "which had been tempted by a mild January to put forth +a few wretched flowers," no pollen was discharged from the anthers, and no seed +was formed. The flowers of Lysimachia vulgaris if fully exposed to the sun +expand properly, while those growing in shady ditches have smaller corollas +which open only slightly; and these two forms graduate into one another in +intermediate stations. Herr Bouche's observations are of especial interest, for +he shows that both temperature and the amount of light affect the size of the +corolla; and he gives measurements proving that with some plants the corolla is +diminished by the increasing cold and darkness of the changing season, whilst +with others it is diminished by the increasing heat and light. (8/32. For the +statement by Linnaeus see Mohl in 'Botanische Zeitung' 1863 page 327. Asa Gray +'American Journal of Science' 2nd series volume 39 1865 page 105. Bennett in +'Nature' November 1869 page 11. The Reverend G. Henslow also says 'Gardener's +Chronicle' 1877 page 271, also 'Nature' October 19, 1876 page 543, "that when +the autumn draws on, and habitually in winter for such of our wild flowers as +blossom at that season" the flowers are self-fertilised. On Lysimachia H. Muller +'Nature' September 1873 page 433. Bouche 'Sitzungsbericht der Gesell. +Naturforsch. Freunde' October 1874 page 90.) + +The belief that the first step towards flowers being rendered cleistogamic was +due to the conditions to which they were exposed, is supported by the fact of +various plants belonging to this class either not producing their cleistogamic +flowers under certain conditions, or, on the other hand, producing them to the +complete exclusion of the perfect ones. Thus some species of Viola do not bear +cleistogamic flowers when growing on the lowlands or in certain districts. Other +plants when cultivated have failed to produce perfect flowers during several +successive years; and this is the case with Juncus bufonius in its native land +of Russia. Cleistogamic flowers are produced by some species late and by others +early in the season; and this agrees with the view that the first step towards +their development was due to climate; though the periods at which the two sorts +of flowers now appear must since have become much more distinctly defined. We do +not know whether too low are too high a temperature or the amount of light acts +in a direct manner on the size of the corolla, or indirectly through the male +organs being first affected. However this may be, if a plant were prevented +either early or late in the season from fully expanding its corolla, with some +reduction in its size, but with no loss of the power of self-fertilisation, then +natural selection might well complete the work and render it strictly +cleistogamic. The various organs would also, it is probable, be modified by the +peculiar conditions to which they are subjected within a completely closed +flower; also by the principle of correlated growth, and by the tendency in all +reduced organs finally to disappear. The result would be the production of +cleistogamic flowers such as we now see them; and these are admirably fitted to +yield a copious supply of seed at a wonderfully small cost to the plant. + +I will now sum up very briefly the chief conclusions which seem to follow from +the observations given in this volume. Cleistogamic flowers afford, as just +stated, an abundant supply of seeds with little expenditure; and we can hardly +doubt that they have had their structure modified and degraded for this special +purpose; perfect flowers being still almost always produced so as to allow of +occasional cross-fertilisation. Hermaphrodite plants have often been rendered +monoecious, dioecious or polygamous; but as the separation of the sexes would +have been injurious, had not pollen been already transported habitually by +insects or by the wind from flower to flower, we may assume that the process of +separation did not commence and was not completed for the sake of the advantages +to be gained from cross-fertilisation. The sole motive for the separation of the +sexes which occurs to me, is that the production of a great number of seeds +might become superfluous to a plant under changed conditions of life; and it +might then be highly beneficial to it that the same flower or the same +individual should not have its vital powers taxed, under the struggle for life +to which all organisms are subjected, by producing both pollen and seeds. With +respect to the plants belonging to the gyno-dioecious sub-class, or those which +co-exist as hermaphrodites and females, it has been proved that they yield a +much larger supply of seed than they would have done if they had all remained +hermaphrodites; and we may feel sure from the large number of seeds produced by +many plants that such production is often necessary or advantageous. It is +therefore probable that the two forms in this sub-class have been separated or +developed for this special end. + +Various hermaphrodite plants have become heterostyled, and now exist under two +or three forms; and we may confidently believe that this has been effected in +order that cross-fertilisation should be assured. For the full and legitimate +fertilisation of these plants pollen from the one form must be applied to the +stigma of another. If the sexual elements belonging to the same form are united +the union is an illegitimate one and more or less sterile. With dimorphic +species two illegitimate unions, and with trimorphic species twelve are +possible. There is reason to believe that the sterility of these unions has not +been specially acquired, but follows as an incidental result from the sexual +elements of the two or three forms having been adapted to act on one another in +a particular manner, so that any other kind of union is inefficient, like that +between distinct species. Another and still more remarkable incidental result is +that the seedlings from an illegitimate union are often dwarfed and more or less +or completely barren, like hybrids from the union of two widely distinct +species. + + +INDEX. + +Acanthaceae. + +Acer campestre. + +Adoxa. + +Aegiphila elata. +--mollis. +--obdurata. + +Alefeld, Dr., on Linum. + +Alisma natans. + +Amphicarpaea. + +Amsinckia spectabilis. +Variability in length of stamens and pistil. + +Anchusa arvensis. + +Androsace vitalliana. + +Anthers, size of, in different forms. +contabescent. + +Arachis. + +Arnebia hispidissima. + +Ascherson, Dr., on Salvia cleistogama. +Juncus bufonius. +Leersia oryzoides. + +Asclepias. + +Ash, the common. + +Asperula scoparia. + +Axell on Primula stricta. + +Babington, Professor, on Primula elatior. +Stellaria graminea. + +Baillon, emission of the tubes from pollen-grains. + +Belhomme, M., on ray-florets. + +Bennett, A.W., on Impatiens fulva. +flowers fertilised whilst in the bud state. + +Bentham, Mr., on the differentiation of the sexes. +on the cleistogamic flowers of Ononis. + +Boragineae. + +Boreau on cowslip and primrose. + +Borreria. + +Bouche on Pavonia. +effect of temperature and light on corolla. + +Bouvardia leiantha. + +Braun on Dracocephalum. + +Breitenbach, W., on Primula elatior. + +Bromfield, Dr., on primrose and cowslip. +Primula elatior. +Specularia perfoliata. + +Brown, Robert, on sexual changes. + +Buckwheat, the common. + +Caltha palustris. + +Campanula colorata. + +Cardamine amara. + +Caspary, Professor, on Rhamnus catharticus. + +Cattleya. + +Chamissoa. + +Cinchona micrantha. + +Cleistogamic flowers. +list of genera. +on their origin. + +Cnicus acaulis. +-- palustris. + +Coccocypselum. +pollen-grains of. + +Coprosma. + +Cordia. +pistil of. + +Corolla, difference in size in the sexes of the same species. + +Corydalis. + +Corylus avellana. + +Cowslip, the common. +short- and long-styled. + +Cratoxylon formosum. + +Crocker, C.W., on Plantago lanceolata. + +Cryptostachys. + +Cuphea purpurea. + +Darwin, Charles, on reproductive organs under cultivation. +intercrossed plants. +prepotency of pollen. +insects fertilising flowers. +Cephalanthera grandiflora. +Epidendron and Cattleya. +number of pollen-grains. + +Darwin, W., on Pulmonaria angustifolia. + +Datura arborea. + +Delpino, plants fertilised by the wind. +on the walnut. +Polygonaceae. +pollen-grains. +Thymus serpyllum. +closed or cleistogamic flowers. +Viola odorata. + +Dianthus barbatus. + +Dickie, Dr., on Eriophorum angustifolium. + +Dictamnus fraxinella. + +Diodia. + +Dioecious and sub-dioecious plants. + +Discospermum. + +Doubleday, H., on Primula elatior. + +Dracocephalum Moldavicum. + +Drosera Anglica. +-- rotundifolia. + +Duval-Jouve, M., on Cryptostachys. +Leersia oryzoides. + +Dyer, Thiselton, on Salvia Horminum. +Cratoxylon formosum. + +Echium vulgare. + +Epidendron. + +Epigaea repens. + +Eranthemum ambiguum. + +Eriophorum angustifolium. + +Erythroxylum. +pollen-grains of. + +Euonymus Europaeus. + +Euphrasia officinalis. + +Euryale. + +Faramea. +pollen-grains of. + +Fitzgerald, Mr., on Thelymitra. + +Forsythia suspensa. +stamens. +-- viridissima. + +Fragaria Chiloensis. +-- elatior. +-- vesca. +-- Virginiana. + +Fraxinus excelsior. + +Galium cruciatum. + +Gartner on the sterility of unions between distinct species. +Primula vulgaris and veris. +hybrid Verbascums. +prepotency of pollen. +variation in the sexual powers of plants. +contabescent anthers. + +Gentianeae. + +Geraniaceae. + +Geranium sylvaticum. + +Gesneria pendulina. + +Gilia aggregata. +-- coronopifolia. +-- micrantha. +-- nudicaulis. +-- pulchella. + +Gillibert on Menyanthes. + +Gloriosa Lily, the. + +Godron on hybrid Primulas. + +Gray, Professor Asa, proposes the term heterogone or heterogonous. +on Linum. +Leucosmia Burnettiana and acuminata. +Forsythia suspensa. +Gilia pulchella. +G. coronopifolia. +Phlox subulata. +Mitchella repens. +heterostyled plants. +Coprosma. +Euonymus. +Rhamnus lanceolatus. +Epigaea repens. +Ilex opaca. +Plantago media. +Oxybaphus and Nyctaginia. +Impatiens fulva. +Leersia. +cleistogamic flowers. + +Gyno-dioecious plants. + +Hart, Mr., on Nepeta glechoma. + +Hautbois Strawberry, the. + +Hedyotis. + +Henslow, Reverend Professor, on hybrid Primulae. + +Henslow, Reverend G., on flowers self-fertilised during the winter. + +Herbert, Dr., on hybrid Primulae. + +Heterostyled plants, illegitimate offspring of. +essential character of. +summary of the differences of fertility between legitimately and illegitimately +fertilised plants. +diameter of pollen-grains. +size of anthers, structure of stigma. +list of genera. +advantages derived from Heterostylism. +means by which plants became heterostyled. +transmission of form. +equal-styled varieties. +final remarks. +-- dimorphic plants. +-- trimorphic plants. + +Hibiscus, pollen-grains. + +Hildebrand, Professor, introduces the word "heterostyled." +on the ray-florets of the Compositae. +Primula Sinensis. +Linum grandiflorum. +L. perenne. +Pulmonaria officinalis. +P. azurea. +Polygonum fagopyrum. +Oxalis. +hermaphrodite plants becoming uni-sexual. +Hordeum. + +Homostyled species of Primula. + +Hooker Dr., on Campanula. + +Hordeum. + +Hottonia inflata. +-- palustris. +relative fertility. +anthers of. +papillae on stigma. + +Houstonia coerulea. + +Hoya carnosa. + +Hybrid Primulas. + +Hydrangea. + +Hypericineae. +Hyssopus officinalis. + +Ilex aquifolium +-- opaca. + +Illegitimate offspring of heterostyled plants. +Lythrum salicaria, dwarfed stature and sterility. +Oxalis, transmission of form to seedlings. +Primula Sinensis, in some degree dwarfed. +equal-styled varieties. +Primula vulgaris. +transmission of form and colour. +seedlings. +P. veris. +dwarfed stature and sterility. +equal-styled varieties. +parallelism between illegitimate fertilisation and hybridism. + +Illecebrum. + +Impatiens, pollen-grains of. +-- balsamina. +-- fulva. +-- noli-me-tangere. + +Juglans regia. + +Juncus bufonius. + +Jussieu, A. de, on Malpighiaceae. + +Kerner, Professor, on ray-florets. +Auricula. +hybrid forms of Primula. +on use of hairs within the corolla. +size of corolla in male flowers. +use of glands as a protection to flowers. + +Kirk, Dr., on Monochoria vaginalis. + +Knoxia. + +Koch on Primula longiflora. + +Krascheninikowia. + +Kuhn, Dr., on cleistogamic flowers. +list of plants producing differently formed seeds. +heterostyled plants. +Vandellia nummularifolia. +V. sessiflora. + +Lagerstroemia Indica. +-- parviflora. +-- reginae. + +Lathyrus nissolia. + +Lecoq, H., on the common maple. +cowslips and primroses. +Primula elatior. +Linum Austriacum. +Lythrum hyssopifolia. +Rhamnus. +gyno-dioecious plants. +Scabiosa succisa. +Viola odorata. + +Leersia oryzoides. +pollen-grains of. + +Leggett, Mr., Pontederia cordata. + +Legitimate unions, summary on the fertility of the two, compared with that of +the two illegitimate in Primula. +fertility of, compared with illegitimate. + +Leighton, Reverend W.A., on the cowslip and primrose. +Verbascum virgatum. + +Leontodon, pollen-grains. + +Leptosiphon. + +Leucosmia acuminata. +-- Burnettiana. +stigma. + +Lily, the Gloriosa. + +Limnanthemum Indicum. +pollen-grains. +anthers. + +Linaria spuria. + +Lindley on Fragaria elatior. + +Linnaeus on Primula veris, vulgaris, and elatior. + +Linum angustifolium. +-- Austriacum. +-- catharticum +-- corymbiferum. +-- flavum. + stamens. +-- grandiflorum. + various experiments. + pistils and stamens. + sterile with its own-form pollen. +-- Lewisii. +-- perenne. + torsion of the styles. + long-styled form. + stigma. +-- salsoloides. +-- trigynum. +-- usitatissimum. + +Lipostoma. + +Lysimachia vulgaris. + +Lythrum Graefferi. +-- hyssopifolia. +-- salicaria. + power of mutual fertilisation between the three forms. + summary of results. + illegitimate offspring from the three forms. + concluding remarks on. + mid-styled form. + seeds. +-- thymifolia. + +Malpighiaceae. + +Manettia bicolor. + +Maple, the common. + +Marshall, W., on Primula elatior. +Plantago lanceolata. + +Masters, Dr. Maxwell, on cleistogamic flowers. + +Maximowicz on Krascheninikowia. + +Meehan, Mr., on Mitchella. +Epigaea repens. + +Melissa clinopodium +-- officinalis. + +Mello, Correa de, on Arachis. +Voandzeia. + +Mentha aquatica. +-- hirsuta. +-- vulgaris. + +Menyanthes. +-- trifoliata. + +Michalet on Oxalis acetosella. +Linaria spuria. + +Mitchella. +-- repens. + +Mohl, H. Von, on the common cowslip. +size of corolla in the sexes of the same species. +Trifolium and Arachis. +cleistogamic flowers. +Oxalis acetosella. +Impatiens noli-me-tangere. +Specularia perfoliata. + +Mollia lepidota. +-- speciosa. + +Monnier, M., on Viola. + +Monochoria vaginalis. + +Mulberry, the. + +Muller, D., on Viola canina. + +Muller, Fritz, on pollen of the Villarsia. +Faramea. +Posoqueria fragrans. +Nesaea. +Oxalis. +Pontederia. +Oxalis Regnelli. +Chamissoa. + +Muller, H., on the frequency of visits by insects to the Umbelliferae and +Compositae. +on dichogamy. +on Anthophora and Bombylius sucking the cowslip. +Primula elatior. +-- villosa. +Hottonia palustris. +table of relative fertility of. +Linum catharticum. +Polygonum fagopyrum. +Lythrum salicaria. +on the origin of heterostylism. +on the Labiatae. +Thymus serpyllum. +Scabiosa arvensis. +Plantago lanceolata. +size of corolla in the two sexes of the same species. +Impatiens balsamina. +Lysimachia. + +Myosotis. + +Nepeta glechoma. + +Nertera. + +Nesaea verticillata. + +Nolana prostrata, variability in length of stamens and pistil. + +Nyctaginia. + +Oldenlandia. + +Oleaceae. + +Oliver, Professor, on ovules of Primula veris. +Viola. +Campanula colorata. + +Ononis columnae. +-- minutissima. +-- parviflora. + +Origanum vulgare. + +Oxalis acetosella. +pisil of. +cleistogamic flowers. +pollen-grains. +-- Bowii. +-- compressa. +-- corniculata. +-- Deppei. +-- hedysaroides. +-- homostyled species. +-- incarnata. +-- Regnelli. +-- rosea. +-- (Biophytum) sensitiva. + stigma. +-- speciosa. +-- stricta. +-- tropaeoloides. +-- Valdiviana. + +Oxlip, the Bardfield. +--, the common. + differences in structure and function between the two parent-species. + effects of crossing. + a hybrid between the cowslip and primrose. + +Oxybaphus. + +Paeony, pollen-grains of. + +Parallelism between illegitimate and hybrid fertilisation. + +Pavonia. + +Phlox Hentzii. +-- nivalis. +-- subulata. + +Planchon on Linum salsoloides. +L. Lewisii. +on Hugonia. + +Plantago lanceolata. +-- media. + +Polemoniaceae. + +Pollen-grains, relative diameter of. + +Polyanthus. + +Polygonaceae. + +Polygonum bistorta. +-- fagopyrum. +pollen-grains. + +Pontederia. +pollen-grains. +size of anthers. +-- cordata. + +Posoqueria fragrans. + +Primrose, the common. + +Primula, the, heterostyled species of. +summary on. +homostyled species. +-- auricula. +-- equal-styled varieties. +-- cortusoides. +-- elata. +-- elatior, Jacq. + relative fertility of the two forms. + not a hybrid. + equal-styled var. of. +-- farinosa. + equal-styled var. +-- hirsuta. +-- involucrata. +-- longiflora. +-- mollis. +-- Scotica. +-- Sibirica. +-- Sikkimensis. +-- Sinensis. + relative fertility. + long-styled. + short-styled. + transmission of form, constitution and fertility. + equal-styled variety. +-- stricta. +-- veris. + difference in structure between the two forms. + degrees of fertility when legitimately or illegitimately united. + fertility possessed by illegitimate plants. + equal-styled red variety. + long-styled. + length of pistil. +-- verticillata. +-- villosa. +-- vulgaris (var. acaulis Linn.). + pollen-grains. + relative fertility of the two forms. + length of pistil + +Primula vulgaris, var. rubra. + +Prunella vulgaris. + +Psychotria. + +Pulmonaria angustifolia. +anthers. +-- azurea. +-- officinalis. + number of flowers. + pistil. + +Ranunculus aquatilis. + +Ray-florets, their use. + +Rhamnus catharticus. +size of corolla. +-- frangula. +-- lanceolatus. + +Rhinanthus crista-galli. + +Rubiaceae. +size of anthers. +stigmas. +number of heterostyled genera. + +Rudgea eriantha. + +Rue, the common. + +Ruellia tuberosa. + +Salvia. +-- cleistogama. +-- Horminum. + +Satureia hortensis. + +Scabiosa arvensis. +-- atro-purpurea. +-- succisa. + +Scott, J., on Primula auricula. +on Primula vulgaris. +on Primula var. rubra. +on Primula Sikkimensis. +on Primula farinosa. +homostyled Primulae. +hybrids. +length of pistil. +Hottonia palustris. +Androsace vitalliana. +Polyanthus. +Mitchella repens. +Acanthaceae. +Eranthemum ambiguum bearing three kinds of flowers. + +Scrophularia aquatica. + +Serratula tinctoria. + +Sethia acuminata. +-- obtusifolia. + +Smith, Sir J.E., on the carrot. +hybrid Verbascums. +Serratula tinctoria. +Cnicus. +Subularia. + +Soldanella alpina. + +Specularia perfoliata. + +Spence, Mr., on Mollia. + +Spermacoce. + +Sprengel on Hottonia palustris. + +Stellaria graminea. + +Strawberry, the Hautbois. + +Subularia. + +Suteria. + +Thelymitra. + +Thomson, Dr., on Campanula. + +Thrum-eyed, origin of term. + +Thwaites, Mr., on ovules of Limnanthemum Indicum. +Sethia acuminata. +Discospermum. + +Thymelia. + +Thymus citriodorus. +-- serpyllum +-- vulgaris. + +Timbal-Lagrave, M., on hybrids in genus Cistus. + +Torrey, Dr., on Hottonia inflata. + +Transmission of the two forms of heterostyled plants. + +Treviranus on Androsace vitalliana. +Linum. + +Vandellia nummularifolia. +-- sessifloria. + +Vaucher on the carrot. +Soldanella alpina. +Lythrum salicaria. +-- thymifolia. +Ilex aquifolium. +on Labiatae. +Viola hirta and collina. + +Verbascum, wild hybrids of. +-- lychnitis. +-- phoeniceum. +-- thapsus. +-- virgatum. + +Viburnum. + +Vicia. + +Villarsia. +anthers. + +Viola alba. +-- bicolor. +-- biflora. +-- canina. +-- collina. +-- elatior. +-- hirta. +-- ionodium. +-- lancifolia. +-- mirabilis. +-- nana. + pollen-grains of. +-- odorata. +-- palustris. +-- Roxburghiana. +-- Ruppii. +-- sylvatica. +-- tricolor. + +Voandzeia. + +Walnut, the. + +Watson, H.C., on cowslips, primroses, and Oxlips. +Primula elatior. + +Weddell, Dr., on hybrids between Aceras and Orchis. + +Wetterhan, Mr., on Corylus. + +Wichura, Max, on hybrid willows. +sterile hybrids. + +Wirtgen on Lythrum salicaria. + +Wooler, W., on Polyanthus. + +Wray, Leonard, on Fragaria. + + + + + +End of this Project Gutenberg Etext of The Different Forms of Flowers on Plants +of the Same Species by Charles Darwin. + diff --git a/old/3807.zip b/old/3807.zip Binary files differnew file mode 100644 index 0000000..28665ab --- /dev/null +++ b/old/3807.zip |