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+The Project Gutenberg EBook of On Germinal Selection as a Source of
+Definite Variation, by August Weismann
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: On Germinal Selection as a Source of Definite Variation
+
+Author: August Weismann
+
+Translator: Thomas McCormack
+
+Release Date: October 15, 2010 [EBook #34077]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK ON GERMINAL SELECTION ***
+
+
+
+
+Produced by Bryan Ness, Keith Edkins and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive/American Libraries.)
+
+
+
+
+
+ BIOLOGICAL PUBLICATIONS.
+
+ THE PRIMARY FACTORS OF ORGANIC EVOLUTION.
+ By _Prof. E. D. Cope_. Cuts, 121. Pp., xvi, 547. Cl., $2.00 (10s.).
+
+ DARWIN AND AFTER DARWIN. An Exposition of the Darwinian
+ Theory and a Discussion of Post-Darwinian Questions.
+ By _George John Romanes, LL. D., F. R. S., etc._
+
+ 1. THE DARWINIAN THEORY. With portrait of Darwin.
+ Pp., 460. Cuts, 125. Second edition. Cloth, $2.00.
+
+ 2. POST-DARWINIAN QUESTIONS. Heredity and Utility.
+ With portrait of Romanes. Pp., 338. Cloth, $1.50.
+
+ 3. POST-DARWINIAN QUESTIONS. Isolation and Physiological
+ Selection. With portrait of Mr. J. T. Gulick. Pp.,
+ 181. 8vo. Cloth, $1.00.
+
+ (_The three volumes supplied to one order for $4.00._)
+
+ A FIRST BOOK IN ORGANIC EVOLUTION. An Introduction
+ to the Study of the Development Theory by _D. Kerfoot_
+ _Shute, M. D._ Pages, xvi, 285, 39 illustrations--9 in natural
+ colors. Cloth, $2.00 net (7s. 6d. net).
+
+ AN EXAMINATION OF WEISMANNISM. By _George John_
+ _Romanes_. Pp., ix, 221. Cloth, $1.00. Paper, 40c.
+
+ THE PSYCHIC LIFE OF MICRO-ORGANISMS. By _Dr._
+ _Alfred Binet_. Pp., xii, 120. Cloth, 75c (3s. 6d.). Paper, 30c
+ (1s. 6d.).
+
+ ON GERMINAL SELECTION. By _August Weismann_. Pp.,
+ xii, 61. Paper, 30c (1s. 6d.).
+
+ ON MEMORY, AND THE SPECIFIC ENERGIES OF THE
+ NERVOUS SYSTEM. By _E. Hering_. Pp., 50. Paper, 20c.
+
+ A MECHANICO-PHYSIOLOGICAL THEORY OF ORGANIC
+ EVOLUTION. Summary. By _Carl von Nägeli_.
+ Pp., 52. Paper, 20c (9d.).
+
+ ON ORTHOGENESIS. By _Th. Eimer_. Pp., 56. Paper, 30c.
+ (1s. 6d.).
+
+ THE PRINCIPLES OF BACTERIOLOGY. By _Dr. Ferdinand_
+ _Hueppe_. Woodcuts, 28. Pp., 467. $1.75 (7s. 6d.).
+
+ THE OPEN COURT PUB. CO., CHICAGO.
+
+ * * * * *
+
+
+ON
+
+GERMINAL SELECTION
+
+AS A
+
+SOURCE OF DEFINITE VARIATION
+
+BY
+
+AUGUST WEISMANN
+
+TRANSLATED FROM THE GERMAN BY
+THOMAS J. McCORMACK
+
+ * * * * *
+
+SECOND EDITION
+
+ * * * * *
+
+CHICAGO
+
+THE OPEN COURT PUBLISHING COMPANY.
+
+LONDON AGENTS:
+KEGAN PAUL, TRENCH, TRÜBNER & CO., LTD.
+1902.
+
+ * * * * *
+
+COPYRIGHT BY
+THE OPEN COURT PUBLISHING CO.
+1896
+
+ * * * * *
+
+
+{3}
+
+PREFACE.
+
+The present paper was read in the first general meeting of the
+International Congress of Zoölogists at Leyden on September 16, 1895.
+Several points, which for reasons of brevity were omitted when the paper
+was read, have been re-embodied in the text, and an Appendix has been added
+where a number of topics receive fuller treatment than could well be
+accorded to them in a lecture. The address was first printed in _The
+Monist_ for January, 1896, and afterwards in a German pamphlet.
+
+The basal idea of the essay--the existence of Germinal Selection--was
+propounded by me some time since,[1] but it is here for the first time
+fully set forth and tentatively shown to be the necessary complement of the
+process of selection. Knowing this factor, we remove, it seems to me, the
+patent contradiction of the assumption that the general fitness of
+organisms, or the adaptations _necessary_ to their existence, are produced
+by _accidental_ variations--a contradiction which formed a serious
+stumbling-block to the theory of selection. Though still assuming that the
+_primary_ variations are "accidental," I yet hope to have demonstrated that
+an interior mechanism exists which compels them to go on increasing in a
+definite direction, the moment selection intervenes. _Definitely directed
+{4} variation exists_, but not predestined variation, running on
+independently of the life-conditions of the organism, as Naegeli, to
+mention the most extreme advocate of this doctrine, has assumed; on the
+contrary, the variation is such as is elicited and controlled by those
+conditions themselves, though indirectly.
+
+In basing my proof of the doctrine of Germinal Selection on the fundamental
+conceptions of my theory of heredity, a few words of justification are
+necessary, owing to the fact that the last-mentioned theory has been widely
+and severely assailed since its first emergence into light and even
+repudiated as absolutely futile and erroneous.
+
+In the first place, many critics have characterised it as a "pure creation
+of the imagination." And to a certain extent it is such, as every theory
+is. But is it on that account necessarily wrong? Can not its fundamental
+ideas still be quite correct, and it itself therefore perfectly justified
+as a means of further progress?
+
+Surely my critics cannot be ignorant of the prominent part which
+imagination has recently played in the exactest of all natural
+sciences--physics? Are they unaware that the English physicist Maxwell
+"constructed from liquid vortices and friction-pulleys enclosed in cells
+with elastic walls, a wonderful mechanism, which served as a mechanical
+model for electromagnetism"?[2] He hoped "that further research in the
+domain of theoretical electricity would be promoted rather than hindered by
+such mechanical {5} fictions." And so it actually happened, for Maxwell
+found by means of them "the very equations, whose singular and almost
+incomprehensible power Hertz has so beautifully portrayed in his lecture on
+the relations between light and electricity." "Maxwell's formulæ were the
+direct outcome of his mechanical models." "These ideal mechanisms"--so
+relates Boltzmann in the same interesting essay--"were at first widely
+ridiculed, but gradually the new ideas worked their way into all fields.
+They were themselves more convenient than the old hypotheses. For the
+latter could be maintained only in the event of everything's proceeding
+smoothly; whereas now little inconsistencies were fraught with no peril,
+for no one can take amiss a slight hitch in a mere analogy.--Ultimately
+Maxwell's ideas were philosophically generalised as the theory that all
+knowledge consists in the disclosure of analogies."
+
+But not only does it seem that there is little appreciation among
+biologists for the scientific import of imagination, they also appear to
+have little sense for the significance of theory. It is a favorite attitude
+nowadays to look upon theory as a sort of superfluous ballast, as a
+worthless survival from the epoch of decrepit "nature-philosophies." People
+pronounce with pride the miscomprehended utterance of Newton, _Hypotheses
+non fingo_, and place the value of the slightest new fact infinitely higher
+than that of "the most beautiful theory."[3] And yet theory originally {6}
+fashions science out of facts and is the indispensable precondition of
+every important scientific advance.
+
+Heinrich Hertz,[4] the discoverer of electric undulations, had the same
+thought in mind when he said: "We form inward representations or constructs
+of outward objects, so constituted that the results that follow logically
+and necessarily from the constructs are in turn always constructs of the
+results flowing naturally and necessarily from the objects." "These
+constructs or mental images copied after familiar objects possessed of
+familiar properties, so constituted that from their manipulation effects
+result similar to those which we observe in the objects to be explained.
+Experience teaches us that the requirements here made can be fulfilled and
+that consequently such 'correspondences' between reality and the supposed
+images [or, as Hertz says, between nature and mind] actually exist. Having
+succeeded in extracting from the accumulated experience of the past,
+representative images or constructs fulfilling all these necessary
+requirements, we can then reproduce by them in a short space of time, as we
+might by models, results that in the outward world require a long space of
+time for their actualisation or can be produced only through our personal
+intervention," etc.
+
+{7}
+
+Such representative models, or constructs, now, in my theory of heredity,
+are the _determinants_, which may be conceived as indefinitely fashioned
+packages of units (biophores) which are set into activity by definite
+impressions and put a distinctive stamp upon some small part of the
+organism, on some cell or group of cells, evoking definite phenomena
+somewhat as a piece of fireworks when lighted produces a brilliant sun, a
+shower of sparks, or the glowing characters of a name.
+
+The _ids_, also, are such representative models, and may be compared to a
+definitely ordered but variously compounded aggregate of fireworks, in
+which the single pieces are so connected as to go off in fixed succession
+and to produce a definite resultant phenomenon like a complete inscription
+surrounded by a hail of fire and glowing spheres.
+
+Owing to the greater complexity of the phenomena in biology we can never
+hope to reach the same distinctness in our constructs and models as in
+physics, and the attempt to derive from them mathematical formulæ by the
+independent development of which research could be continued, would at
+present be utterly fruitless. In the meantime it seems preferable to have
+some sort of adequate model to which the imagination can always resort and
+with which it can easily operate, rather than to have to revert, in
+considering every special problem of heredity, to the mutual actions of the
+molecules of living substance and outward agents--processes which we know
+only in their roughest outlines. Or is any one presumptuous enough to
+believe we can infer from our slight knowledge of the chemical and physical
+constitution of the germs of a trout and a salmon the real cause {8} of the
+one's becoming a trout and of the other's becoming a salmon?
+
+The fact is, we can make no show of accounting for the complex phenomena of
+heredity with mere _material_ units; we can never reach these phenomena
+from below, but must begin farther up and make the assumption of _vital_
+units and _hereditary_ units, if there is to be any advance in this field.
+
+It is undoubtedly a splendid aim which the newly founded science of
+developmental mechanics has set itself of laying bare the entire causal
+line leading from the egg to the finished organism; yet, however much we
+may wish to see the success of this plan realised, we cannot disguise the
+fact that little or nothing is to be accomplished by it in the settlement
+of the problems of heredity. It is impossible to suspend the study of
+heredity until this mechanics is completed, and even if we could it would
+help us little, for the riddles of heredity are not concealed in the
+ontogenesis of types, or, to give an example, in the developmental history
+of man _as a race_, but in the ontogenesis of _individuals_, in that of a
+_definite and particular_ man. This last ontogenesis exhibits the phenomena
+of variation, of reversion, of the predominance of the one or the other
+parent, etc., and no one is likely to believe that inductive evolutional
+inquiry alone will ever afford us knowledge of these minute and delicate
+processes, which, in their bearing on the total resultant development,
+phylogenesis, are after all the most important of all.
+
+There is, accordingly, no choice left. If we are really bent on
+scientifically investigating the question of heredity, we are obliged
+perforce to form from the observed facts of heredity a highly detailed and
+{9} elaborate theory, on the basis of which we can propound new questions,
+which will give rise in turn to new facts, and thus will exercise a
+retroactive influence on the theory, improving and transforming it.
+
+This is precisely what I have sought to accomplish by my theory of
+Germ-plasm, as I stated in the Preface to the book bearing that name. It
+was never intended as a theory of life, nor, indeed, primarily, as a theory
+of evolution, but first and above all as a theory of heredity. I cannot
+understand, therefore, the animadversion, that my theory in no way furthers
+our insight into the mechanics of development. That is not its purpose; in
+fact, it takes the ultimate physical and chemical processes which make up
+the vital processes for granted; and inevitably it is constrained to do so.
+Its aim is to put into our hands a serviceable formula by means of which we
+can go on working in the field of heredity at any rate, and, if I am not
+mistaken, also in that of evolution. To me, at least, the newest results of
+developmental mechanics do not seem so widely at variance with the theory
+of determinants as might appear at first sight; so far as I can see, they
+can be quite readily made to harmonise with the theory, provided only the
+initial stage of the disintegration of the germ-plasm in the determinant
+groups be not invariably placed at the beginning of the process of
+segmentation, but be transferred according to circumstances to a subsequent
+period. The exact state of things cannot as yet be determined, so long as
+the mass of facts is still in constant flux.
+
+In any event I still hold fast to the hope which I expressed in the Preface
+to my _Germ-plasm_, that despite the unavoidable uncertainties in its
+foundation my theory would yet prove more than a mere work {10} of
+imagination, and that the future would find in it some durable points which
+would outlive the mutations of opinion. It is possible that one of these
+durable gains is my much impugned idea of determinants, and in fact not
+only will the present essay be made to rest on this idea, but it will also
+defend it on new grounds, although primarily only as a representation of
+something which we do not as yet exactly know, but which still exists and
+on which we can reckon, leaving it to the future to decide the greater or
+less resemblance of our hypothetical construct to nature.
+
+The real aim of the present essay is to rehabilitate the principle of
+selection. If I should succeed in reinstating this principle in its
+emperilled rights, it would be a source of extreme satisfaction to me; for
+I am so thoroughly convinced of its indispensability as to believe that its
+demolition would be synonymous with the renunciation of all inquiry
+concerning the causal relation of vital phenomena. If we could understand
+the adaptations of nature, whose number is infinite, only upon the
+assumption of a teleological principle, then, I think, there would be
+little inducement to trouble ourselves about the causal connexion of the
+stages of ontogenesis, for no good reason would exist for excluding
+teleological principles from this field. Their introduction, however, means
+the ruin of science.
+
+ AUGUST WEISMANN.
+
+ FREIBURG, Nov. 18, 1895.
+
+ * * * * *
+
+
+{11}
+
+GERMINAL SELECTION.
+
+ * * * * *
+
+Numerous and varied are the objections that have been advanced against the
+theory of selection since it was first enunciated by Darwin and
+Wallace--from the unreasoning strictures of Richard Owen and the acute and
+thoughtful criticisms of Albert Wigand and Nägeli to the opposition of our
+own day, which contends that selection cannot create but only reject, and
+which fails to see that precisely through this rejection its creative
+efficacy is asserted. The champions of this view are for discovering the
+motive forces of evolution in the _laws_ that govern organisms--as if the
+norm according to which an event happens were the event itself, as if the
+rails which determine the direction of a train could supplant the
+locomotive. Of course, from every form of life there proceeds only a
+definite, though extremely large, number of tracks, _the possible
+variations_, whilst between them lie stretches without tracks, _the
+impossible variations_, on which locomotion is impossible. But the actual
+travelling of a track is not performed by the track, but by the locomotive,
+and on the other hand, the choice of a track, the decision whether the
+destination of the train shall be Berlin or Paris, is not made by the
+locomotive, the cause of the variation, but by the driver of the
+locomotive, who directs the engine on the right track. In the theory of
+selection the engine-driver is represented by utility, for with utility
+rests the decision {12} as to what particular variational track shall be
+travelled. The cogency, the irresistible cogency, as I take it, of the
+principle of selection is precisely its capacity of explaining why fit
+structures always arise, and that certainly is the great problem of life.
+Not the fact of change, but the _manner_ of the change, whereby all things
+are maintained capable of life and existence, is the pressing question.
+
+It is, therefore, a very remarkable fact, and one deserving of
+consideration, that to-day (1895), after science has been in possession of
+this principle for something over thirty years and during this time has
+steadily and zealously busied itself with its critical elaboration and with
+the exact determination of its scope, that now the estimation in which it
+is held should apparently be on the decrease. It would be easy to enumerate
+a long list of living writers who assign to it a subordinate part only in
+evolution, or none at all. One of our youngest biologists speaks without
+ado of the "pretensions of the refuted Darwinian theory, so called,"[5] and
+one of the oldest and most talented inquirers of our time, a pioneer in the
+theory of evolution, who, unfortunately, is now gone to his rest, Thomas
+Huxley, implicitly yet distinctly intimated a doubt regarding the principle
+of selection when he said: "Even if the Darwinian hypothesis were swept
+away, evolution would still stand where it is." Therefore, he, too,
+regarded it as not impossible that this hypothesis should disappear from
+among {13} the great explanatory principles by which we seek to approach
+nearer to the secrets of nature.
+
+I am not of that opinion. I see in the growth of doubts regarding the
+principle of selection and in the pronounced and frequently bitter
+opposition which it encounters, a transient depression only of the wave of
+opinion, in which every scientific theory must descend after having been
+exalted, here perhaps with undue swiftness, to the highest pitch of
+recognition. It is the natural reaction from its overestimation, which is
+now followed by an equally exaggerated underestimation. The principle of
+selection was not overrated in the sense of ascribing to it too much
+explanatory efficacy, or of extending too far its sphere of operation, but
+in the sense that naturalists imagined that they perfectly understood its
+ways of working and had a distinct comprehension of its factors, which was
+not so. On the contrary, the deeper they penetrated into its workings the
+clearer it appeared that something was lacking, that the action of the
+principle, though upon the whole clear and representable, yet when
+carefully looked into encountered numerous difficulties, which were
+formidable, for the reason that we were unsuccessful in tracing out the
+actual details of the individual process, and, therefore, in _fixing_ the
+phenomenon as it actually occurred. We can state in no single case how
+great a variation must be to have selective value, nor how frequently it
+must occur to acquire stability. We do not know when and whether a desired
+useful variation really occurs, nor on what its appearance depends; and we
+have no means of ascertaining the space of time required for the fulfilment
+of the selective processes of nature, and hence cannot calculate the exact
+number of such {14} processes that do and can take place at the same time
+in the same species. Yet all this is necessary if we wish to follow out the
+precise details of a given case.
+
+But perhaps the most discouraging circumstance of all is, that in scarcely
+a single actual instance in nature can we assert whether an observed
+variation is useful or not--a drawback that I distinctly pointed out some
+time ago.[6] Nor is there much hope of betterment in this respect, for
+think how impossible it would be for us to observe all the individuals of a
+species in all their acts of life, be their habitat ever so limited--and to
+observe all this with a precision enabling us to say that this or that
+variation possessed selective value, that is, was a decisive factor in
+determining the existence of the species.
+
+In many cases we can reach at least a probable inference, and say, for
+example, that the great fecundity of the frog is a property having
+selective value, basing our inference on the observation that in spite of
+this fertility the frogs of a given district do not increase.
+
+But even such inferences offer only a modicum of certainty. For who can say
+precisely how large this number is? Or whether it is on the increase or on
+the decrease? And besides, the exact degree of the fecundity of these
+animals is far from being known. Rigorously viewed, we can only say that
+great fecundity must be advantageous to a much-persecuted animal.
+
+And thus it is everywhere. Even in the most indubitable cases of
+adaptation, as, for instance, in that of the striking protective coloring
+of many butterflies, {15} the sole ground of inference that the species
+upon the whole is adequately adapted to its conditions of life, is the
+simple fact that the species is, to all appearances, preserved
+undiminished, and the inference is not at all permissible that just this
+protective coloring has selective value for the species, that is, that if
+it were lacking, the species would necessarily have perished.
+
+It is not inconceivable that in many species today these colorings are
+actually unnecessary for the preservation of the species, that they
+formerly were, but that now the enemies which preyed on the resting
+butterflies have grown scarce or have died out entirely, and that the
+protective coloring will continue to exist by the law of inertia[7] only
+for a short while till panmixia or new adaptations shall modify it.
+
+Discouraging, therefore, as it may be, that the control of nature in her
+minutest details is here gainsaid us, yet it were equivalent to sacrificing
+the gold to the dross, if simply from our inability to follow out the
+details of the individual case we should renounce altogether the principle
+of selection, or should proclaim it as only subsidiary, on the ground that
+we believe the protective coloring of the butterfly is not a protective
+coloring, but a combination of colors inevitably resulting from internal
+causes. The protective coloring remains a protective coloring whether at
+the time in question it is or is not necessary for the species; and it
+arose as protective coloring--arose not because it was a constitutional
+necessity of the animal's organism that here a red and there a white,
+black, or yellow spot should be produced, but because it was {16}
+advantageous, because it was necessary for the animal. There is only one
+explanation possible for such patent adaptations and that is selection.
+What is more, no other natural way of their originating is conceivable, for
+we have no right to assume teleological forces in the domain of natural
+phenomena.
+
+I have selected the example of the butterfly's wing, not solely because it
+is so widely known, but because it is so exceedingly instructive, because
+we are still able to learn so much from it. It has been frequently asserted
+that the color-patterns of the butterfly's wings have originated from
+internal causes, independently of selection and conformably to inward laws
+of evolution. Eimer has attempted to prove this assertion by establishing
+in a division of the genus Papilio the fact that the species there admit of
+arrangement in series according to affinity of design. But is a proof that
+the markings are modified in definite directions during the course of the
+species's development equivalent to a definite statement as to the _causes_
+that have produced these gradual transformations? Or, is our present
+inability to determine with exactness the biological significance of these
+markings and their modifications, a proof that the same have no
+significance whatever? On the contrary, I believe it can be clearly proved
+that the wing of the butterfly is a tablet on which nature has inscribed
+everything she has deemed advantageous to the preservation and welfare of
+her creatures, and nothing else; or, to abandon the simile, that these
+color-patterns have not proceeded from inward evolutional forces, but are
+the result of selection. At least in all places where we do understand
+their biological significance these patterns are constituted and
+distributed over the wing exactly as utility would require. {17}
+
+I do not pledge myself, of course, to give an explanation of every spot and
+every line on a wing. The inscription is often a very complicated one,
+dating from remote and widely separated ages; for every single existing
+species has inherited the patterns of its ancestral species and that again
+the patterns of a still older species. Even at its origin, therefore, the
+wing was far from being a _tabula rasa_, but was a closely written and
+fully covered sheet, on which there was no room for new writing until a
+portion of the old had been effaced. But other parts were preserved, or
+only slightly modified, and thus in many cases gradually arose designs of
+almost undecipherable complexity.
+
+I should be far from maintaining that the markings arose unconformably to
+law. Here, as elsewhere, the dominance of law is certain. But I take it,
+that the laws involved here, that is, the physiological conditions of the
+variation, are without exception subservient to the ends of a higher
+power--utility; and that it is utility primarily that determines the kind
+of colors, spots, streaks and bands that shall originate, as also their
+place and mode of disposition. The laws come into consideration only to the
+extent of conditioning the quality of the constructive materials--the
+variations, out of which selection fashions the designs in question. And
+this also is subject to important restrictions, as will appear in the
+sequel.
+
+The meaning of formative laws here is that definite spots on the surfaces
+of the wings are linked together in such a manner by inner, invisible
+bonds, as to represent the same spots or streaks, so that we can predict
+from the appearance of a point at one spot the appearance of another
+similar point at another, and {18} so on. It is an undoubted fact that such
+relations exist, that the markings frequently exhibit a certain symmetry,
+that--to use the words of the most recent observer on this subject,
+Bateson[8]--a meristic representation of equivalent design-elements occurs.
+But I believe we should be very cautious in deducing laws from these facts,
+because all the rules traceable in the markings apply only to small groups
+of forms and are never comprehensive nor decisive for the entire class or
+even for the single sub-class of diurnal butterflies, in fact, often not so
+for a whole genus. All this points to special causes operative only within
+this group.
+
+If internal laws controlled the marking on butterflies' wings, we should
+expect that some general rule could be established, requiring that the
+upper and under surfaces of the wings should be alike, or that they should
+be different, or that the fore wings should be colored the same as or
+differently from the hind wings, etc. But in reality all possible kinds of
+combinations occur simultaneously, and no rule holds throughout. Or, it
+might be supposed that bright colors should occur only on the upper surface
+or only on the under surface, or on the fore wings or only on the hind
+wings. But the fact is, they occur indiscriminately, now here, now there,
+and no one method of appearance is uniform throughout all the species. But
+the fitness of the various distributions of colors is apparent, and the
+moment we apply the principle of utility we know why in the diurnal
+butterflies the upper surface alone is usually variegated and the under
+surface protectively colored, or why in the nocturnal {19} butterflies the
+fore wings have the appearance of bark, of old wood, or of a leaf, whilst
+the hind wings, which are covered while resting, alone are brilliantly
+colored. On this theory we also understand the exceptions to these rules.
+We comprehend why Danaids, Heliconids, Euploids, and Acracids, in fact all
+diurnal butterflies, offensive to the taste and smell, are mostly brightly
+marked and equally so on both surfaces, whilst all species not thus exempt
+from persecution have the protective coloring on the under surface and are
+frequently quite differently colored there from what they are on the upper.
+
+In any event, the supposed formative laws are not obligatory. Dispensations
+from them can be issued and are issued _whenever utility requires it_.
+Indeed, so far may these transgressions of the law extend, that in the very
+midst of the diurnal butterflies is found a genus, the South American
+Ageronia, which, like the nocturnal butterfly, shows on the entire _upper_
+surface of both wings a pronounced bark-coloration, and concerning which we
+also know (and in this respect it is an isolated genus and differs from
+almost all other diurnal butterflies), that it spreads out its wings when
+at rest like the nocturnal butterfly, and does not close them above it as
+its relatives do. Therefore, entirely apart from cases of mimicry, which
+after all constitute the strongest proof, the facts here cited are alone
+sufficient to remove all doubt that not inner necessities or so-called
+formative laws have painted the surface of the butterflies' wings, but that
+the conditions of life have wielded the brush.
+
+This becomes more apparent on considering the details. I have remarked that
+the usually striking colorations of exempt butterflies, as of the
+Heliconids, {20} are the same on both the upper and the lower surfaces of
+the wings. Possibly the expression of a law might be seen in this fact, and
+it might be said, the coloration of the Heliconids _runs through_ from the
+upper to the under surface. But among numerous imitators of the Heliconids
+is the genus Protogonius, which has the coloration of the Heliconids on its
+upper surface, but on its lower exhibits a magnificent leaf-design. During
+flight it appears to be a Heliconid and at rest a leaf. How is it possible
+that two such totally different types of coloration should be combined in a
+single species, if any sort of _inner_ rigorous necessity existed,
+regulating the coloration of the two wing-surfaces? Now, although we are
+unable to prove that the Protogonius species would have perished unless
+they possessed this duplex coloration, yet it would be nothing less than
+intellectual blindness to deny that the butterflies in question are
+effectively protected, both at rest and during flight, _that their
+colorations are adaptive_. We do not know their primitive history, but we
+shall hardly go astray if we assume that the ancestors of the Protogonius
+species were forest-butterflies and already possessed an under surface
+resembling a leaf. By this device they were protected when at rest.
+Afterwards, when this protection was no longer sufficient, they acquired on
+their upper surface the coloration of the exempt species with which they
+most harmonised in abode, habits of life, and outward appearance.
+
+At the same time it is explained why these butterflies did not acquire the
+coloration of the Heliconids on the under surface. The reason is, that in
+the attitude of repose they were already protected, and that in an
+admirable manner. {21}
+
+That _exempt_ diurnal butterflies should be colored on the upper and under
+surfaces alike, and should never resemble in the attitude of repose their
+ordinary surroundings, is intelligible when we reflect that it is a much
+greater protection to be despised when discovered than to be well, or very
+well, but never absolutely, protected from discovery.
+
+It has been so often reiterated that diurnal butterflies, as a rule, are
+protectively colored on the under surfaces, that one has some misgivings in
+stating the fact again. And yet the least of those who hold this to be a
+trivial commonplace know how strongly its implications militate against the
+inner motive and formative forces of the organism, which are ever and anon
+appealed to. No less than sixty-two genera are counted today in the family
+of diurnal butterflies known as the Nymphalidæ. Of these by far the largest
+majority are sympathetically colored underneath, that is, they show in the
+posture of rest the colorings of their usual environment. In a large number
+of the species belonging to this group the entire surface of the hind wings
+possesses such a sympathetic coloration, as does also the distant apex of
+the fore wings. Why? The reason is obvious. This part only of the fore wing
+is visible in the attitude of repose. Here, then,--as a zealous opponent of
+the theory of selection once exclaimed,--there is undoubted "correlation"
+between the coloring of the surface of the hind wing and of the apex of the
+fore wing. Correlation is unquestionably a fine word, but in the present
+instance it contributes nothing to the understanding of the problem, for
+there are near relatives and often species of the same genera in which this
+correlation is not restricted to the apex of the {22} fore wings, but
+extends to a third or even more of their wings, and these species are also
+in the habit of drawing back their wings less completely in the state of
+rest, thus rendering a larger portion of them visible. There are species,
+too, like the forest-butterflies of South America just mentioned, the
+Protogonius, Anæa, Kallima species, etc., which have nearly the _whole_ of
+the under surfaces of their fore wings marked according to the same pattern
+with their hind wings, and these butterflies when at rest hold their fore
+wings free and uncovered by their hind wings. Where are the formative laws
+in such cases?
+
+Or, perhaps some one will say: "The covering by the hind wings hinders the
+formation of scales on the wing, or impedes the formation of the colors in
+the scales." Such a person should examine one of these species. He will
+find that the scales are just as dense on the covered as on the uncovered
+surface of the wing, and in many species, for example, in Katagramma, the
+scales of the covered surface are colored most brilliantly of all.
+
+But the facts are still more irresistible, when we consider _special
+adaptations_; for example, the imitation of leaves, which is so often
+cited. It is to be noted, first, that this sort of imitation is by no means
+restricted to a few genera, still less to a few species. All the numerous
+species of the genus Anæa, which are distributed over the forests of
+tropical South America, exhibit this imitation in pronounced and varied
+forms, as do likewise the American genera Hypna and Siderone, the Asiatic
+Symphaedra, the African Salamis, Eurypheme, etc. I have observed
+fifty-three genera in which it is present in one, several, or in many
+species, but there are many others. {23}
+
+These genera, now, are by no means all so nearly allied that they could
+have inherited the leaf-markings from a common ancestral form. They belong
+to different continents and have probably for the most part acquired their
+protective colorings themselves. But one resemblance they have in
+common--they are all _forest-butterflies_. Now what is it that has put so
+many genera of forest-butterflies and no others into positions where they
+could acquire this resemblance to leaves? Was it directive formative laws?
+If we closely examine the markings by which the similarity of the leaf is
+determined, we shall find, for example, in Kallima Inachis, and Parallecta,
+the Indian leaf-butterflies, that the leaf-markings are executed _in
+absolute independence of the other uniformities governing the wing_.
+
+From the tail of the wing to the apex of the fore wings runs with a
+beautiful curvature a thick, doubly-contoured dark line accompanied by a
+brighter one, representing the midrib of the leaf. This line cuts the
+"veins" and the "cells" of the wing in the most disregardful fashion, here
+in acute and here in obtuse angles, and in absolute independence of the
+regular system of divisions of the wing, which should assuredly be the
+expression of the "formative law of the wing," if that were the product of
+an internal directive principle. But leaving this last question aside, this
+much is certain with regard to the markings, that they are dependent, not
+on an _internal_, but on an _external_ directive power.
+
+Should any one be still unconvinced by the evidence we have adduced, let
+him give the leaf-markings a closer inspection. He will find that the
+midrib is composed of two pieces of which the one belongs to the {24} hind
+wing and the other to the fore wing, and that the two fit each other
+exactly when the butterfly is in the attitude of repose, but not otherwise.
+Now these two pieces of the leaf-rib do not begin on corresponding spots of
+the two wings, but on absolutely non-identical spots. And the same is also
+true of the lines which represent the lateral ribs of the leaf. These lines
+proceed in acute angles from the rib; to the right and to the left in the
+same angle, those of the same side parallel with each other. Here, too, no
+relation is noticeable between the parts of the wings over which the lines
+pass. The venation of the wing is utterly ignored by the leaf-markings, and
+its surface is treated as a _tabula rasa_ upon which anything conceivable
+can be drawn. In other words, we are presented here with a _bilaterally
+symmetrical_ figure engraved on a surface which is essentially _radially
+symmetrical_ in its divisions.
+
+I lay unusual stress upon this point because it shows that we are dealing
+here with one of those cases which cannot be explained by mechanical, that
+is, by natural means, unless natural selection actually exists and is
+actually competent to create new properties; for the Lamarckian principle
+is excluded here _ab initio_, seeing that we are dealing with a formation
+which is only passive in its effects; the leaf-markings are effectual
+simply by their existence and not by any function which they perform; they
+are present in flight as well as at rest, during the absence of danger, as
+well as during the approach of an enemy.
+
+Nor are we helped here by the assumption of _purely internal motive
+forces_, which Nägeli, Askenasy, and others have put forward as supplying a
+_mechanical_ force of evolution. It is impossible to regard the {25}
+coincidence of an Indian butterfly with the leaf of a tree now growing in
+an Indian forest as fortuitous, as a _lusus naturæ_. Assuming this
+seemingly mechanical force, therefore, we should be led back inevitably to
+a teleological principle which produces adaptive characters and which must
+have deposited the directive principle in the very first germ of
+terrestrial organisms, so that after untold ages at a definite time and
+place the illusive leaf-markings should be developed. The assumption of
+pre-established harmony between the evolution of the ancestral line of the
+tree with its pre-figurative leaf, and that of the butterfly with its
+imitating wing, is absolutely necessary here--a fact which I pointed out
+many years ago,[9] but which is constantly forgotten by the promulgators of
+the theory of internal evolutionary forces.
+
+For the present I leave out of consideration altogether the question as to
+the conceivable extent of the sphere of operation of natural selection; I
+am primarily concerned only with elucidating the process of selection
+itself, wholly irrespective of the comprehensiveness or limitedness of its
+sphere of action. For this purpose it is sufficient to show, as I have just
+done, _that cases exist wherein all natural explanations except that of
+selection fail us_. But let us now see how far the principle of selection
+will carry us in the explanation of such cases--natural selection, I mean,
+as it was formulated by Darwin and Wallace.
+
+There can be no doubt but the leaf-markings readily admit of production in
+this manner, slowly and with a gradual but constant increase of fidelity,
+provided a single condition is fulfilled: _the occurrence of the {26} right
+variations at the right place_. But just here, it would seem, is the
+insurmountable barrier to the explanatory power of our principle, for who,
+or what, is to be our guarantee that dark scales shall appear at the exact
+spots on the wing where the midrib of the leaf must grow? And that later
+dark scales shall appear at the exact spots to which the midrib must be
+prolonged? And that still later such dark spots shall appear at the places
+whence the lateral ribs start, and that here also a definite acute angle
+shall be accurately preserved, and the mutual distances of the lateral ribs
+shall be alike and their courses parallel? And that the prolongation of the
+median rib from the hind wing to the fore wing shall be extended exactly to
+that spot where the fore wing is not covered by the hind wing in the
+attitude of repose? And so on.
+
+If I could go more minutely into this matter, I should attempt to prove
+that the markings, as I have just assumed, have not arisen suddenly, but
+were perfected very, very gradually; that in one species they began on the
+fore wing and in another on the hind wing; and that in many they never
+until recently proceeded beyond one wing, in other species they went only a
+little way, and in only a few did they spread over the entire surface of
+both wings.
+
+That these markings advanced slowly and gradually, but with marvelous
+accuracy, is no mere conjecture. But it follows that the right variations
+at the right places must never have been wanting, or, as I expressed it
+before: _the useful variations were always present_. But how is that
+possible in such long extensive lines of dissimilar variations as have
+gradually come to constitute markings of the complexity here presented?
+Suppose that the useful colors had not {27} appeared at all, or had not
+appeared at the right places? It is a fact that in constant species, that
+is, in such as are not in process of transformation, the variations of the
+markings are by no means frequent or abundant. Or, suppose that they had
+really appeared, but occurred only in individuals, or in a small percentage
+of individuals?
+
+Such are the objections raised against the theory of selection by its
+opponents, and put forward as insurmountable obstacles to the process. Nor
+are such objections relevant only in the case of protective colorings; they
+are applicable in all cases where the process of selection is concerned.
+Take the case of instincts that are called into action only once in life,
+as, for example, the pupal performances of insects, the artificial
+fabrication of cocoons, etc. How is it that the useful variations were
+always present here? And yet they must have been present, if such
+complicated spinning instincts could have taken their rise as are
+observable in the silk-worm, or in the emperor-moth. And they have been
+developed, and that in whole families, in forms varying in all species, and
+in every case adapted to the special wants of the species.
+
+Particularly striking is the proof afforded of this constant presence of
+the useful variations by cases where we meet with the development of highly
+special adaptations that are uncommon even for the group of organisms
+concerned. Such a case, for example, is the apparatus designed for the
+capture of small animals and their digestion, found in widely different
+plants and widely separated families. On the other hand, very common
+adaptations, such as the eyes of animals, show distinctly that in all cases
+where it was necessary, the useful variations for the formation of {28} an
+eye were presented, and were presented further exactly at spots at which
+organs of vision could perform their best work: thus, in Turbellaria and
+many other worms that live in the light, at the anterior extremity of the
+body and on the dorsal surface; in certain mussels, on the edge of the
+mantle; in terrestrial snails, on the antennæ; in certain tropical marine
+snails inhabiting shallow waters, on the back; and in the chitons even on
+the dorsal surface of the shell!
+
+But even taking the very simplest cases of selection, it is impossible to
+do without this assumption, that the useful variations are always present,
+or that _they always exist in a sufficiently large number of individuals
+for the selective process_. You know the thickness and power of resistance
+of the egg-shells of round-worms. The eggs of the round-worms of horses
+have been known to continue their course of development undisturbed even
+after they had been thrown into strong alcohol and all other kinds of
+injurious liquids--much to the vexation of the embryologists, who wished to
+preserve a definite stage of development and sought to kill the embryo at
+that stage. Indeed, think of the result, if in the course of their
+phylogenesis stout and resistant variations of egg-shells had not been
+presented in these worms, or had not always been presented, or had not been
+presented in every generation and not in sufficient quantities.
+
+The cogency of the facts is absolutely overpowering when we consider that
+practically no modification occurs _alone_, that every primary modification
+brings in its train secondary ones, and that these induce forced
+modifications in many parts of the body, frequently of the most
+diversified, or even self-contradictory, forms. Recently Herbert Spencer
+has drawn {29} fresh attention to these secondary modifications, which must
+always occur in harmony with the primary one, and has, as he thinks,
+advanced in this set of facts, a convincing disproof of the contention that
+such coadaptive modifications of numerous cofunctioning parts can rest on
+natural selection. Now, although I deem his conclusion precipitate, yet the
+very fact of a simultaneous, functionally concordant, yet essentially
+diversified modification of numerous parts, points conclusively to the
+circumstance that _something is still wanting to the selection of Darwin
+and Wallace, which it is obligatory on us to discover, if we possibly can_,
+and without which selection as yet offers no complete explanation of the
+phyletic processes of transformation. There is a hidden secret to be
+unriddled here before we can obtain a satisfactory insight into the
+phenomena in question. _We must seek to discover why it happens that the
+useful variations are always present._
+
+Herbert Spencer appealed to Lamarck's principle for the explanation of
+coadaptation, and it is certain that functional adaptation is operative
+during the individual life, and that it compensates in a certain measure
+the inequalities of the inherited constitutions. I shall not repeat what I
+have said before on this subject, nor maintain, in refutation of Spencer's
+contention, that functional adaptation is itself nothing more than the
+efflux of _intra-biontic_ selective processes, as Spencer himself once
+suggested in a prophetic moment, but which it was left for Wilhelm Roux to
+introduce into science as "the struggle of the parts" of organisms.[10] I
+shall only remark that if functional adaptations were themselves
+inheritable, this would still be insufficient {30} for the explanation of
+coadaptation, for the reason that precisely similar coadaptive
+modifications occur in _purely passively_ functioning parts, in which,
+consequently, modification _by_ function is excluded. This is the case with
+the skeletal parts of Articulata; e. g., it is true of their articular
+surfaces with their complex adaptations to the most varied forms of
+locomotion. In all these cases the ready-made, hard, unalterable, chitinous
+part is _first_ set into activity; consequently its adaptation to the
+function must have been _previously_ effected, independently of that
+function. These joints, and divers other parts, accordingly, have been
+developed in the precisest manner for the function, and the latter could
+have had no direct share in their formation. When we consider, now, that it
+is impossible that every one of the numerous surfaces, ridges, furrows, and
+corners found in a single such articulation, let alone in all the
+articulations of the body, should hold in its hands the power of life and
+death over individuals for untold successions of generations, the fact is
+again unmistakably impressed upon our attention that the conception of the
+selective processes which has hitherto obtained is insufficient, that the
+root of the process in fact lies deeper, that it is to be found in the
+place where it is determined what variations of the parts of the organism
+shall appear--namely _in the germ_.
+
+The phenomena observed in the _stunting_, or _degeneration_, _of parts
+rendered useless_, point to the same conclusion. They show distinctly that
+ordinary selection which operates by the removal of entire persons,
+_personal selection_, as I prefer to call it, cannot be the only cause of
+degeneration; for in most cases of degeneration it cannot be assumed that
+slight individual {31} vacillations in the size of the organ in question
+have possessed selective value. On the contrary, we see such retrogressions
+affected apparently _in the shape of a continuous evolutionary process
+determined by internal causes_, in the case of which there can be no
+question whatever of selection of persons or of a survival of the fittest,
+that is, of individuals with the smallest rudiments.
+
+It is this consideration principally that has won so many adherents for the
+Lamarckian principle in recent times, particularly among the
+paleontologists. They see the outer toes of hoofed animals constantly and
+steadily degenerating through long successions of generations and species,
+concurrently with the re-enforcement of one or two middle toes, which are
+preferred or are afterwards used exclusively for stepping, and they believe
+correctly enough that these results should not be ascribed to the effects
+of personal selection alone. They demand a principle which shall effect the
+degeneration by internal forces, and believe that they have found it in
+functional adaptation.[11] {32} On this last point, now, I believe, they
+are mistaken, be they ever so strongly convinced of the correctness of
+their view and ever so aggressive and embittered in their defence of it.
+
+Recently, an inquirer of great caution and calmness of judgment, Prof. C.
+Lloyd Morgan, has expressed the opinion that the Lamarckian principle must
+at least be admitted as a working hypothesis. But with this I cannot agree,
+at least as things stand at present. A working hypothesis may be false, and
+yet lead to further progress; that is, it may constitute an advance to the
+extent of being useful in formulating the problem and in illuminating paths
+that are likely to lead to results. But it seems to me that a hypothesis of
+this kind has performed its services and must be discarded the moment it is
+found to be at hopeless variance with the facts. If it can be proved that
+precisely the same degenerative processes also take place in such
+superfluous parts as have only _passive_ and not active functions, as is
+the case with the _chitinous parts of the skeleton of Arthropoda_, then it
+is a demonstrated fact, that the cessation of functional action is not the
+efficient cause of the process of degeneration. At once your legitimate
+working hypothesis is transformed into an illegitimate dogma--illegitimate
+because it no longer serves as a guide on the path to knowledge but {33}
+blocks that path. For the person who is convinced he has found the right
+explanation is not going to seek for it.
+
+I can understand perfectly well the hesitation that has prevailed on this
+point in many minds, from their having seen _one_ aspect of the facts more
+distinctly than the other. From this sceptical point of view Osborn has
+drawn the following perfectly correct conclusion: "If acquired variations
+are transmitted, there must be some unknown principle in heredity; if they
+are not transmitted, there must be some unknown factor in evolution."[12]
+
+Such in fact is the case and I shall attempt to point out to you what this
+factor is. My inference is a very simple one: if we are forced by the facts
+on all hands to the assumption that the useful variations which render
+selection possible are always present, then _some profound connection must
+exist between the utility of a variation and its actual appearance_, or, in
+other words, _the direction of the variation of a part must be determined
+by utility_, and we shall have to see whether facts exist that confirm our
+conjecture.
+
+The facts do indeed exist and lie before our very eyes, despite their not
+having been recognised as such before. All _artificial selection_ practised
+by man rests on the fact that by means of the selection of individuals
+having a given character slightly more pronounced than usual, there is
+gradually produced a general augmentation of this character, which
+subsequently reaches a point never before attained by any individual {34}
+of this species. I shall choose an example which seems to me especially
+clear and simple because only one character has been substantially modified
+here. The long-tailed variety of domestic cock, now bred in Japan and
+Corea, owes its existence to skilful selection and not at all to the
+circumstance that at some period of the race's history a cock with
+tail-feathers six feet in length suddenly and spasmodically appeared. At
+the present day even, as Professor Ishikawa of Tokio writes me, the
+breeders still make extraordinary efforts to increase the length of the
+tail, and every inch gained adds considerably to the value of the bird. Now
+nothing has been done here whatever except always to select for purposes of
+breeding the cocks with the longest feathers; and in this way alone were
+these feathers, after the lapse of many generations, prolonged to a length
+far exceeding every previous variation.
+
+I once asked a famous dove-fancier, Mr. W. B. Tegetmeier of London, whether
+it was his opinion that by artificial selection alone a character could be
+augmented. He thought a long time and finally said: "It is without our
+power to do anything if the variation which we seek is not presented, but
+once that variation is given, then I think the augmentation can be
+effected." And that in fact is the case. If cocks had never existed whose
+tail-feathers were a little longer than usual the Japanese breed could
+never have originated; but as the facts are, always the cocks with the
+longest feathers were chosen from each generation, and these only were
+bred, and thus a hereditary augmentation of the character in question was
+effected, which would hardly have been deemed possible.
+
+Now what does this mean? Simply that the {35} hereditary diathesis, the
+constitutional predisposition (_Anlage_) of the breed was changed in the
+respect in question, and our conclusion from this and numerous similar
+facts of artificial selection runs as follows: _by the selection alone of
+the plus or minus variations of a character is the constant modification of
+that character in the plus or minus direction determined._ Obviously the
+hereditary _diminution_ of a part is also effected by the simple selection
+of the individuals in each generation possessing the smallest parts, as is
+proved, for example, by the tiny bills and feet of numerous breeds of
+doves. We may assert, therefore, in general terms: a definitely directed
+progressive variation of a given part is produced by continued selection in
+that definite direction. This is no hypothesis, but a direct inference from
+the facts and may also be expressed as follows: _By a selection of the kind
+referred to the germ is progressively modified in a manner corresponding
+with the production of a definitely directed progressive variation of the
+part._
+
+In this general form the proposition is not likely to encounter opposition,
+as certainly no one is prepared to uphold the view that the germ remains
+unchanged whilst the products proceeding from it, its descendants, are
+modified. On the contrary, all will agree when I say that the germ in this
+case must have undergone modifications, and that their character must
+correspond with the modifications undergone by its products. Thus far,
+then, we find ourselves, not on the ground of the hypothesis that has been
+lately so much maligned, but on the ground of facts and of direct
+inferences from facts. But if we attempt to pierce deeper into the problem,
+we are in need of the hypothesis. {36}
+
+The first and most natural explanation will be this--that through selection
+the zero-point, about which, figuratively speaking, the organ may be said
+to oscillate in its plus and minus variations, is displaced upwards or
+downwards. Darwin himself assumed that the variations oscillated about a
+mean point, and the statistical researches of Galton, Weldon, and others
+have furnished a proof of the assumption. If selection, now, always picks
+out the plus variations for imitation, perforce, then, the mean or
+zero-point will be displaced in the upward direction, and the variations of
+the following generation will oscillate about a higher mean than before.
+This elevation of the zero-point of a variation would be continued in this
+manner until the total equilibrium of the organism was in danger of being
+disturbed.
+
+There is involved here, however, an assumption which is by no means
+self-evident, that every advancement gained by the variation in question
+constitutes a new centre for the variations occurring in the following
+generation. _That this is a fact_, is proved by such actual results of
+selection as are obtained in the case of the Japanese cock. But the
+question remains, Why is this the fact?
+
+Now here, I think, my theory of determinants gives a satisfactory answer.
+According to that theory every independently and hereditarily variable part
+is represented in the germ by a _determinant_, that is by a determinative
+group of vital units, whose size and power of assimilation correspond to
+the size and vigor of the part. These determinants multiply, as do all
+vital units, by growth and division, and necessarily they increase rapidly
+in every individual, and the more rapidly the greater the quantity of the
+germinal cells {37} the individual produces. And since there is no more
+reason for excluding irregularities of passive nutrition, and of the supply
+of nutriment in these minute, microscopically invisible parts, than there
+is in the larger visible parts of the cells, tissues, and organs,
+consequently the descendants of a determinant can never all be exactly
+alike in size and capacity of assimilation, but they will oscillate in this
+respect to and fro about the maternal determinant as about their
+zero-point, and will be partly greater, partly smaller, and partly of the
+same size as that. In these oscillations, now, the material for further
+selection is presented, and in the inevitable fluctuations of the nutrient
+supply I see the reason why every stage attained becomes immediately the
+zero-point of new fluctuations, and consequently why the size of a part can
+be augmented or diminished by selection without limit, solely by the
+displacement of the zero-point of variation as the result of selection.
+
+We should err, however, if we believed that we had penetrated to the root
+of the phenomenon by this insight. There is certainly some other and
+mightier factor involved here than the simple selection of persons and the
+consequent displacement of the zero-point of variation. It would seem,
+indeed, as if in one case, _videlicet_, in that of the Japanese cock, the
+augmentation of the character in question were completely explained by this
+factor _alone_. In fact, in this and similar cases we cannot penetrate
+deeper into the processes of variation, and therefore cannot say _a priori_
+whether other factors have or have not been involved in the augmentation of
+the character in question--other characters, that is, than the simple
+displacement of the zero-point. There is, however, another class of
+phyletic modifications, which point {38} unmistakably to the conclusion
+that the displacement of the zero-point of variation by personal selection
+is not and cannot be the only factor in the determination and
+accomplishment of the direction of variation. I refer to _retrogressive
+development_, the gradual degeneration of parts or characters that have
+grown useless, the gradual disappearance of the eye in cave-animals, of the
+legs in snakes and whales, of the wings in certain female butterflies, in
+short, to that entire enormous mass of facts comprehended under the
+designation of "rudimentary organs."
+
+I have endeavored on a previous occasion to point out the significance of
+the part played in the great process of animate evolution by these
+retrogressive growths, and I made at the time the statement that "the
+phenomena of retrogressive growth enabled us in a greater measure almost
+than those of progressive growth to penetrate to the causes which produce
+the transformations of animate nature." Although at that time[13] I had no
+inkling of certain processes which today I shall seek to prove the
+existence of, yet my statement receives a fresh confirmation from these
+facts.
+
+For, in most retrogressive processes _active_ selection in Darwin's sense
+plays no part, and advocates of the Lamarckian principle, as above
+remarked, have rightly denied that active selection, that is, the selection
+of individuals possessing the useless organ in its most reduced state, is
+sufficient to explain the process of degeneration. I, for my part, have
+never assumed this, {39} and I enunciated precisely on this account the
+_principle of panmixia_. Now, although this, as I still have no reason for
+doubting, is a perfectly correct principle, which really does have an
+essential and indispensable share in the process of retrogression, still it
+is not _alone_ sufficient for a full explanation of the phenomena. My
+opponents, in advancing this objection, were right, to the extent indicated
+and as I expressly acknowledge, although they were unable to substitute
+anything positive in its stead or to render my explanation complete. The
+very fact of the cessation of control over the organ is sufficient to
+explain its _degeneration_, that is, its deterioration, the disharmony of
+its parts, but not the fact which actually and always occurs where an organ
+has become useless--viz., _its gradual and unceasing diminution continuing
+for thousands and thousands of years culminating in its final and absolute
+effacement._
+
+If, now, neither the selection of persons nor the cessation of personal
+selection can explain this phenomenon, assuredly some other principle must
+be the efficient cause here, and this cause I believe I have indicated in
+an essay written at the close of last year and only recently published.[14]
+I call it _germinal selection_.
+
+The principle in question reposes on the application, made some fifteen
+years ago by Wilhelm Roux, of the principle of selection to the _parts_ of
+organisms--on the _struggle of the parts_, as he called it. If such a
+struggle obtains among organs, tissues, and cells, it must also obtain
+between the smallest and for us invisible vital particles, not only between
+those of the body-cells, strictly so called, but also between those of the
+{40} germinal cells. Roux himself spoke of the struggle of the molecules,
+by which he presumably understood the smallest ultimate units of vital
+phenomena--elements which De Vries designated pangenes, Wiesner plasomes,
+and I _biophores_, after Brücke's ingenious conception[15] of these
+invisible entities had been almost totally forgotten, or at least had lain
+unnoticed for thirty years. No struggle, as that is understood in the
+theory of selection, could take place between real {41} molecules, for
+molecules are neither nourished, subject to growth, nor propagated.
+
+The gradual degeneration of organs grown useless may be explained, now, by
+the theory of determinants very simply and without any co-operation on the
+part of active personal selection, as follows.
+
+Nutrition, it is known, is not merely a passive process. A part is not only
+_nourished_ but also actively _nourishes_ itself, and the more vigorously,
+the more powerful and capable of assimilation it is. Hence powerful
+determinants in the germ will absorb nutriment more rapidly than weaker
+determinants. The latter, accordingly, will grow more slowly and will
+produce weaker descendants than the former.
+
+Let us assume, now, that a part of the body, say the hinder extremities of
+the quadruped ancestors of {42} our common whales, are rendered useless.
+Panmixia steps in, _i. e._, selection ceases to influence these organs.
+Individuals with large and individuals with small hind legs are equally
+favored in the struggle for existence.
+
+From this fact alone would result a degradation of the organ, but of course
+it would not be very marked in extent, seeing that the minus variations
+which occur are no longer removed. According to our assumption, however,
+such minus variations repose on the weaker determinants of the germ, that
+is, on such as absorb nutriment less powerfully than the rest. And since
+every determinant battles stoutly with its neighbors for food, that is,
+takes to itself as much of it as it can, consonantly with its power of
+assimilation and proportionately to the nutrient supply, therefore the
+unimpoverished neighbors of this minus determinant will deprive it of its
+nutriment more rapidly than was the case with its more robust ancestors;
+hence, it will be unable to obtain the full quantum of food corresponding
+even to its weakened capacity of assimilation, and the result will be that
+its ancestors will be weakened still more. Inasmuch, now, as no weeding out
+of the weaker determinants of the hind leg by personal selection takes
+place on our hypothesis, inevitably the average strength of this
+determinant must slowly but constantly diminish, that is, the leg must grow
+smaller and smaller until finally it disappears altogether. The
+determinants[16] of the useless organ are constantly at {43} a disadvantage
+as compared with the determinants of their environment in the germinal
+tenement, because no assistance is offered to them by personal selection
+after they have once been weakened by a decrease of the passive nutrient
+influx. Nor is the degeneration stopped by the uninterrupted crossing of
+individuals in sexual propagation, but only slightly retarded. The number
+of individuals with weaker determinants must, despite this fact, go on
+increasing from generation to generation, so that soon every determinant
+that still happens to be endowed with exceptional vigor will be confronted
+by a decided overplus of weaker determinants, and by continued crossing
+therefore will become more and more impoverished. Panmixia is the
+indispensable precondition of the whole process; for owing to the fact that
+persons with weak determinants are just as capable of life as those with
+strong, owing to the fact that they cannot now, as formerly, when the organ
+was still useful, be removed by personal selection, solely by this means is
+a further weakening effected in the following generations--in short, only
+by this means are the determinants of the useless organ brought upon the
+inclined plane, down which they are destined slowly but incessantly to
+slide towards their completed extinction.
+
+The foregoing explanation will be probably accepted as satisfactory _in a
+purely formal regard_, but it will be objected that, even granting this, it
+has not yet been proved to be the correct one. In answer I can of course
+adduce nothing except that it is at present the only one that can be given.
+It may be that the actual state of things in nature is different, but if it
+can be shown that a self-direction of variation merely from the need of it
+is at all conceivable by mechanical means, {44} that in itself, it seems to
+me, is a decided gain. It must also not be forgotten that some process or
+other _must_ take place in the germ-plasm when an organ becomes
+rudimentary, and that as the result of it this organ, and only this organ,
+must disappear. Now in what shall this process consist, if not in a
+modification of the constitution of the germ? And how could the effect of
+such a modification be limited only to _one_ organ which was becoming
+rudimentary if the modification itself were not a local one? These are
+questions which it is incumbent on those to answer who conceive the
+germinal substance to be composed of like units.
+
+Applying, now, the explanation derived from the disappearance of organs to
+the opposed transformation, namely, to the _enlargement_ of a part, the
+presumption lies close at hand that the production of the long
+tail-feathers of the Japanese cock does not repose solely on the
+displacement directly effected by personal selection, of the zero-point of
+variation upwards, but that _it is also fostered and strengthened by
+germinal selection_. Were that not so, the phenomena of the transmutation
+of species, in so far as fresh growth and the enlargement and complication
+of organs already present are concerned, _would not be a whit more
+intelligible than they were before_. We should know probably how it comes
+to pass that the constitutional predisposition (group of determinants) of a
+_single_ organ is intensified by selection, but the flood of objections
+against the theory of selection touching its inability to modify _many_
+parts at once would not be repressed by such knowledge. The initial impulse
+conditioning the independent maintenance of the useful direction of
+variation in the germ-plasm must rather be sought {45} in the utility of
+the modification itself, and this also seems to me intelligible from the
+side of the theory. For as soon as personal selection favors the more
+powerful variations of a determinant, the moment that these come to
+predominate in the germ-plasm of the species, at once the tendency must
+arise for them to vary _still more strongly_ in the plus direction, not
+solely because the zero-point has been pushed farther upwards, but because
+they themselves now oppose a relatively more powerful front to their
+neighbors, that is, actively absorb more nutriment, and upon the whole
+increase in vigor and produce more robust descendants. From the relative
+vigor or dynamic status of the particles of the germ-plasm, thus, will
+issue spontaneously an ascending line of variation, precisely as the facts
+of evolution require. For, as I have already said, it is not sufficient
+that the augmentation of a character should be brought about by
+uninterrupted personal selection, even supposing that the displacement of
+the zero-point were possible without germinal selection.
+
+Thus, I think, may be explained how personal selection imparts the initial
+impulse to processes in the germ-plasm, which, when they are once set
+agoing, persist of themselves in the same direction, and are, therefore, in
+no need of the continued supplementary help of personal selection, _as
+directed exclusively to a definite part_. If but from time to time, that
+is, if upon the average the poorest individuals, the bearers of the weakest
+determinants, are eliminated, the variational direction of the part in
+question, now reposing on germinal selection, must persist, and it will
+very slowly but very surely increase until further development is impeded
+by its inutility and personal selection {46} arrests the process, that is,
+ceases to eliminate the weaker individuals.
+
+In this manner it becomes intelligible how a large number of modifications
+varying in kind and far more so in degree can be guided _simultaneously_ by
+personal selection; how in strict conformity with its adaptive wants every
+part is modified, or preserved unmodified; how a given articulation can
+undergo modifications, causing it to disappear on one side, to grow in
+volume on another, and to continue unaltered on a third. For every part
+that is perfectly adapted, although it can fluctuate slightly, yet can
+never undergo a permanent alteration in the ascending or descending
+direction because every plus and every minus variation which has attained
+selective value would be eliminated by personal selection in the course of
+time. Therefore, a definite direction of variation cannot arise in such
+cases and we have also reached, as it seems to me, a satisfactory
+explanation of the _constancy_ of well-adapted species and characters.
+
+Hitherto I have spoken only of plus and minus variation. But there exist,
+as we know, not only variations of size but also variations of _kind_; and
+the coloration of the wings of butterflies, which we chose above as our
+example, would fall, according to the ordinary usage of speech, under just
+this head of variations of quality. The question arises, therefore, Have
+the principles just developed any claim to validity in the explanation of
+_qualitative_ modifications?
+
+In considering this question it should be carefully borne in mind that by
+far the largest part of the qualitative modifications falling under this
+head rest on _quantitative_ changes. Of course, chemical transformations,
+which usually also involve quantitative {47} alterations, cannot be reduced
+to the processes of augmentation described, inasmuch as these, by their
+very nature, can be effected only in living elements capable of increase by
+propagation; but the interference of selection does not begin originally
+with the constitutional predisposition (_Anlagen_) of the germ, i. e. with
+the determinants, but with the ultimate units of life, the _biophores_.
+
+A determinant must be composed of heterogeneous biophores, and on their
+numerical proportion reposes, according to our hypothesis, their specific
+nature. If that proportion is altered, so also is the character of the
+determinant. But disturbances of this numerical proportion must result at
+once on proof of their usefulness, or as soon as the modifications
+determined thereby in the inward character of the determinant turn out to
+be of utility. For fluctuations of nutriment and the struggle for
+nutriment, with its sequent preference of the strongest, must take place
+between the various species of the biophores as well as between the species
+of the determinants. But changes in the quantitative ratios of the
+biophores appear to us qualitative changes in the corresponding
+determinants, somewhat as a simple augmentation of a determinant, for
+example, that of a hair, may on its development appear to us as a
+qualitative change, a spot on the skin where previously only isolated hairs
+stood being now densely crowded with them, and assuming thus the character
+of a downy piece of fur. The single hair need not have changed in this
+process, and yet the spot has virtually undergone a qualitative
+modification. The majority of the changes that appear to us qualitative
+rest on invisible _quantitative_ changes, and such can be produced at all
+times and _at all stages_ {48} _of the vital units_ by germinal selection.
+In a similar manner are induced the most varied qualitative changes of the
+corresponding determinants and of the characters conditioned thereby, just
+as changes in the numerical proportions of atoms produce essential changes
+in the properties of a chemical molecule.
+
+In this way we acquire an approximate conception of the possible mechanical
+_modus operandi_ of actual events--namely, of the manner in which the
+useful variations required by the conditions of life _can_ always, that is,
+very frequently, make their appearance. This possibility is the sole
+condition of our being able to understand how different parts of the body,
+absolutely undefined in extent, can appear as variational units and vary in
+the same or in different directions, according to the special needs of the
+case, or as the conditions of life prescribe. Thus, for example, in the
+case of the butterfly's wings it rests entirely with utility to decide the
+size and the shape of the spots that shall vary simultaneously in the same
+direction. At one time the whole under surface of the wing appears as the
+variational unit and has the same color; at another the inside half, which
+is dark, is contrasted with the outside half which is bright; or the same
+contrast will exist between the anterior and posterior halves; or, finally,
+narrow stripes or line-shaped streaks will behave as variational units and
+form contrasts with manifold kinds of spots or with the broader intervals
+between them, with the result that the picture of a leaf or of another
+protected species is produced.
+
+I must refrain from entering into the details of such cases and shall
+illustrate my views regarding the color-transformations of butterflies'
+wings by the simplest {49} conceivable example--viz. that of the uniform
+change of color on the entire under surface of the wing.
+
+Suppose, for example, that the ancestral species of a certain
+forest-butterfly habitually reposed on branches which hung near the ground
+and were covered with dry or rotten leaves; such a species would assume on
+its under surface a protective coloring which by its dark, brown, yellow,
+or red tints would tend toward similarity with such leaves. If, however,
+the descendants of this species should be subsequently compelled, no matter
+from what cause, to adopt the habit of resting on the green-leafed branches
+higher up, then from that period on the brown coloring would act less
+protectively than the shades verging towards green. And a process of
+selection will have set in which consisted first in giving preference only
+to such persons whose brown and yellow tints showed a tendency to green.
+Only on the assumption that such shades were possible by a displacement in
+the quantitative proportions of the different kinds of biophores composing
+the determinants of the scales affected, was a further development in the
+direction of green possible. Such being the case, however, that development
+_had to_ result; because fluctuations in the numerical proportions of the
+biophores are always taking place, and consequently the material for
+germinal selection is always at hand. At present it is impossible to
+determine exactly the magnitude of the initial stages of the deviations
+thus brought about and promoted by the sexual blending of characters; but
+it may perhaps be ascertained in the future, with exceptionally favorable
+material. Pending such special observations, however, it can only be said
+_a priori_ that slight changes in the composition of a determinant do not
+necessarily {50} condition similar slight deviations of the corresponding
+character,--in this case the color,--just as slight changes in the atomic
+composition of a molecule may result in bestowing upon the latter widely
+different properties. As soon, however, as the beginning has been made and
+a definite direction has been imparted to the variation, as the result of
+this or that primary variation's being preferred, the selective process
+must continue until the highest degree of faithfulness required by the
+species in the imitation of fresh leaves has been attained.
+
+That the foregoing process has actually taken place is evidenced not only
+by the presence of the beginnings of such transformations, as found for
+example in some greenish-tinted specimens of Kallima, but mainly by certain
+species of the South American genus Catonephele, all of which are
+forest-butterflies, and which, with many species having dark-brown under
+surfaces, present some also with bright green under surfaces--a green that
+is not like the fresh green of our beech and oak trees, but resembles the
+bright under surface of the cherry-laurel leaf, and is the color of the
+under surfaces of the thick, leathery leaves, colored dark-green above,
+borne by many trees in the tropics.
+
+The difference between this and the old conception of the selection-process
+consists not only in the fact that a large number of individuals with the
+initial stages of the desired variation is present from the beginning, for
+always innumerable plus and minus variations exist, but principally in the
+circumstance that the constant uninterrupted progress of the process after
+it is once begun is assured, that there can never be a lack of
+progressively advantageous variations in a large number of individuals.
+Selection, {51} therefore, is now not compelled to wait for accidental
+variations but produces such itself, whenever the required elements for the
+purpose are present. Now, where it is a question simply of the enlargement
+or diminution of a part, or of a part of a part, these variations are
+always present, and in modifications of quality they are at least present
+in many cases.
+
+This is the only way in which I can see a possibility of explaining
+phenomena of _mimicry_--the imitation of one species by another. The useful
+variations must be produced in the germ itself by internal
+selection-processes if this class of facts is to be rendered intelligible.
+I refer to the mimicry of an exempt species by two or three other species,
+or, the aping of _different_ exempt patterns by _one_ species in need of
+protection. It must be conceded to Darwin and Wallace that some degree of
+similarity between the copy and the imitation was present from the start,
+at least in very many cases;[17] but in no case would this have been
+sufficient had not slight shades of coloring afforded some hold for
+personal selection, and in this way furnished a basis for independent
+germinal selection acting only in the direction indicated. It would have
+been impossible for such a minute similarity in the design, and
+particularly in the shades of the coloration, ever to have arisen, if the
+process of adaptation rested entirely {52} on personal selection. Were this
+so, a complete scale of the most varied shades of color must have been
+continually presented as variations in every species, which certainly is
+not the case. For example, when the exempt species _Acræa Egina_, whose
+coloration is a brick-red, a color common only in the genus Acræa, is
+mimicked by two other butterflies, a Papilio and a Pseudacræa, so
+deceptively that not only the cut of the wings and the pattern of their
+markings, but also that precise shade of brick-red, which is scarcely ever
+met with in diurnal butterflies, are produced, assuredly such a result
+cannot rest on accidental, but must be the outcome of a _definitely
+directed_, variation, produced by utility. We cannot assume that such a
+coloration has appeared as an _accidental_ variation in just and in only
+these two species, which fly together with the _Acræa_ in the same
+localities of the same country and same part of the world--the Gold Coast
+of Africa. It is conceivable, indeed, that non-directed variation should
+have accidentally produced this brick-red _in a single case_, but that it
+should have done so three times and in three species, which live together
+but are otherwise not related, is a far more violent and improbable
+assumption than that of a causal connexion of this coincidence. Now
+hundreds of cases of such mimicry exist in which the color-tints of the
+copy are met with again in more or less precise and sometimes in
+exceedingly exact imitations, and there are thousands of cases in which the
+color-tint of a bark, of a definite leaf, of a definite blossom, is
+repeated _exactly_ in the protectively colored insect. In such cases there
+can be no question of accident, but _the variations presented to personal
+selection must themselves have been produced by the principle of the
+survival of the_ {53} _fit!_ And this is effected, as I am inclined to
+believe, through such profound processes of selection in the interior of
+the germ-plasm as I have endeavored to sketch to you to-day under the title
+of germinal selection.
+
+I am perfectly well aware how schematic my presentation of this process is,
+and must be at present, owing mainly to our inability to gain exact
+knowledge concerning the fundamental germinal constituents here assumed.
+But I regard its existence as assured, although I by no means underrate the
+fact that eminent thinkers, like Herbert Spencer, contest its validity and
+believe they are warranted in assuming a germ which is composed of _similar
+units_. I strongly doubt whether even so much as a _formal_ explanation of
+the phenomena can be arrived at in this manner. So far as direct
+observation is concerned, the two theories stand on an equal footing, for
+neither my dissimilar, nor Spencer's similar, units of germinal substance
+can be _seen_ directly.
+
+The attempt has been recently made to discredit my _Anlagen_, or
+constitutional germ-elements, on the ground that they are simply a
+subtilised reproduction of Bonnet's old theory of preformation.[18] This
+{54} impression is very likely based upon ignorance of the real character
+of Bonnet's theory. I will not go into further details here, particularly
+as Whitman, in several excellently written and finely conceived essays, has
+recently afforded opportunity for every one to inform himself on the
+subject. My determinants and groups of determinants have nothing to do with
+the preformations of Bonnet; in a sense they are the exact opposites of
+them; they are simply _those living parts of the germ whose presence
+determines the appearance of a definite organ of a definite character in
+{55} the course of normal evolution_. In this form they appear to me to be
+an absolutely necessary and unavoidable inference from the facts. There
+_must_ be contained in the germ parts that correspond to definite parts of
+the complete organism, that is, parts that constitute the reason why such
+other parts are formed.
+
+It is conceded even by my opponents that the reason why one egg produces a
+chicken and another a duck is not to be sought in external conditions, but
+lies in a difference of the germinal substance. Nor can they deny that a
+difference of germinal substance must also constitute the reason why a
+slight _hereditary_ difference should exist between two filial organisms.
+Should there now, in a possible instance, be present between them a second,
+a third, a fourth, or a hundredth difference of hereditary character, each
+of which could vary from the germ, then, certainly, some second, third,
+fourth, or hundredth part of the germ must have been different; for whence,
+otherwise, should the heredity of the differences be derived, seeing that
+external influences affecting the organism in the course of evolution
+induce only non-transmissible and transient deviations? But the fact that
+every complex organism is actually composed of a very large number of parts
+independently alterable from the germ, follows not only from the comparison
+of allied species, but also and principally from the experiments long
+conducted by man in artificial selection, and by the consequent and not
+infrequent change of only a single part which happens to claim his
+interest; for example, the tail-feathers of the cock, the fruit of the
+gooseberry, the color of a single feather or group of feathers, and so on.
+But a still more cogent proof is furnished by the degeneration of parts
+grown {56} useless, for this process can be carried on to almost any extent
+without the rest of the body necessarily becoming involved in sympathetic
+alteration. Whole members may become rudimentary, like the hind limbs of
+the whale, or it may be only single toes or parts of toes; the whole wing
+may degenerate in the females of a butterfly species, or only a small
+circular group of wing-scales, in the place of which a so-called "window"
+arises. A single vein of the wing also may degenerate and disappear, or the
+process may affect only a part of it, and this may happen in one sex only
+of a species. In such cases the rest of the body may remain absolutely
+unaltered; only a stone is taken out of the mosaic.
+
+The assumption, thus, appears to me irresistible, that every such
+hereditary and likewise independent and very slight change of the body
+rests on some alteration of a _single_ definite particle of the germinal
+substance, and not as Spencer and his followers would have it, on a change
+of _all_ the units of the germ. If the germinal substance consisted wholly
+of like units, then in every change, were it only of a single character,
+_each_ of these units would have to undergo exactly the same modification.
+Now I do not see how this is possible.
+
+But it may be that Spencer's assumption is the _simpler_ one? Quite the
+contrary, its simplicity is merely apparent. Whilst my theory needs for
+each modification only a modification of _one_ constitutional element of
+the germ, that is, of _one_ particle of the germinal substance, according
+to Spencer _every_ particle of that substance must change, for they are all
+supposed to be and to remain alike. But seeing that all hereditary
+differences, be they of individuals, races, {57} or species, must be
+contained in the germ, the obligation rests on these similar units, or
+rather the capacity is required of them, to produce in themselves a truly
+enormous number of differences. But this is possible only provided their
+composition is an exceedingly complex one, or only on the condition that in
+every one of them are contained as many alterable particles as according to
+my view there are contained determinants in the whole germ. _The
+differences that I put into the whole germ, Spencer and his followers are
+obliged to put into every single unit of the germinal substance._ My
+position on this point appears to me incontrovertible so long as it is
+certain that the single characters can vary hereditarily; for, if a thing
+can vary independently, that is, _of its own accord_, and _from the germ_,
+then that thing must be represented in the germ by some particle of the
+substance, _and be represented there in such wise that a change of the
+representative particle produces no other change in the organism developing
+from the germ than such as are connected with the part which depends on
+it_. I conceive that even on the assumption of my constitutional elements
+(_Anlagen_) the germ-plasm is complex enough, and that there is no need of
+increasing its complexity to a fabulous extent. Be that as it may, the
+person who fancies he can produce a complex organism from a _really_ simple
+germinal substance is mistaken: he has not yet thoroughly pondered the
+problem. The so-called "epigenetic" theory with its _similar_ germinal
+units is therefore naught else than an evolution-theory where the primary
+constitutional elements are reduced to the molecules and atoms--a view
+which in my judgment is inadmissible. A _real_ {58} epigenesis from
+absolutely _homogeneous_ and not merely _like_ units is not thinkable.
+
+All value has been denied my doctrine of determinants[19] on the ground
+that it only shifts the riddles of evolution to an invisible terrain where
+it is impossible for research to gain a foothold.
+
+Now I have indeed to admit that no information can be gained concerning my
+determinants, either with the aided or with the unaided eye. But
+fortunately there exists in man another organ which may be of use in
+fathoming the riddles of nature and this organ which is called the brain
+has in times past often borne him out in the assumption of invisible
+entities--entities that have not always proved unfruitful for science by
+reason of that defect, in proof whereof we may instance the familiar
+assumptions of atoms and molecules. Probably the biophores also will be
+included under that head if the determinants should be adjudged utterly
+unproductive. But so far I have always held that assumptions of this kind
+_are_ really productive, if they are only capable of being used, so to
+speak, as a _formula_, whereby to perform our computations, unconcerned for
+the time being as to what shall be its subsequent fate. Now, as I take it,
+the determinants have had fruitful results, as their application to various
+biological problems shows. Is it no advance that we are able to reduce the
+scission of a form of life into two or several forms subject to separately
+continued but recurrent changes,--I refer to dimorphism and
+polymorphism,--that we are able to reduce such phenomena to the formula of
+male, female, and worker determinants? It has been, I think, {59} rendered
+conceivable how these diverse and extremely minute adaptations could have
+developed side by side in the same germ-plasm, under the guidance of
+selection; how sterile forms could be _hereditarily_ established and
+transformed in just that manner which best suits with their special duties;
+and how they themselves under the right circumstances could subsequently
+split up into two or even into three new forms. Surely at least the unclear
+conception of an _adaptively_ transformative influence of food must be
+discarded. It is true, we cannot penetrate by this hypothesis to the last
+root of the phenomena. The hotspurs of biology, who clamor to know
+forthwith how the molecules behave, will scarcely repress their
+dissatisfaction[20] with such provisional knowledge--forgetful that _all
+our knowledge is and remains throughout provisional_.
+
+But I shall not enter more minutely into the question whether epigenesis or
+evolution is the right foundation of the theory of development, but shall
+content myself with having shown, first, that it is illusory to imagine
+that epigenesis admits of a simpler structure of the germ, (the precise
+opposite is true,) and secondly, that there are phenomena that can be
+understood only by an evolution-theory. Such a phenomenon is {60} the
+_guidance of variation by utility_, which we have considered to-day. For
+without primary constituents of the germ, whether they are called as I call
+them, determinants, or something else, _germinal selection_, or guidance of
+variation by personal selection, is impossible; for where all units are
+alike there can be no struggle, no preference of the best. And yet such a
+guidance of variation exists and demands its explanation, and the early
+assumptions of a "definitely directed variation" such as Nägeli and
+Askenasy made are insufficient, for the reason that they posit only
+_internal_ forces as the foundations thereof, and because, as I have
+attempted to show, the harmony of the direction of variation with the
+requirements of the conditions of life subsists and represents the riddle
+to be solved. _The degree of adaptiveness which a part possesses itself
+evokes the direction of variation of that part._
+
+This proposition seems to me to round off the whole theory of selection and
+to give to it that degree of inner perfection and completeness which is
+necessary to protect it against the many doubts which have gathered around
+it on all sides like so many lowering thunder-clouds. The moment variation
+is determined substantially though not exclusively by the adaptiveness
+itself, all these doubts fall to the ground, with _one_ exception, that of
+the utility of the initial steps. But just this objection is the least
+weighty. Without doubt the theory requires that the initial steps of a
+variation should also have selective value; otherwise personal selection
+and hence germinal selection could not set in. Since, however, as I have
+before pointed out, _in no case can we pretend to a judgment regarding the
+selective value of a modification, or have any_ {61} _experience thereof_,
+therefore the assumption that in a given case where a character is
+transformed the original initial steps of the variation did have selective
+value, is not only as probable as the opposed assumption that they had
+none, but is _infinitely more probable_, for with this we can give an
+intelligible explanation of the mysterious fact of adaptation, while with
+that we cannot. Consequently, unless we are resolved to give up all
+attempts whatsoever at explanation, we are forced to the assumption that
+the initial steps of all actually affected adaptations possessed selective
+value.
+
+The principal and fundamental objection that selection is unable to create
+the variations with which it works, is removed by the apprehension that a
+germinal selection exists. Natural selection is not compelled to wait until
+"chance" presents the favorable variations, but supposing merely that the
+groundwork for favorable variations is present in the transforming species,
+that is, supposing merely that in the constitutional basis of the part to
+be changed are contained components which render favorable variations
+possible by a change of their numerical ratio, then those variations _must_
+occur, for the reason that quantitative fluctuations are always happening,
+and they must also be augmented as soon as personal selection intervenes
+and permanently holds over them her protecting hand. Not only is the
+marvelous _certainty and exactitude_ with which adaptation has operated in
+so many individual cases, rendered intelligible in this manner, but what is
+more difficult, we are able to understand the _simultaneity_ of numerous
+and totally different modifications of the most diverse parts co-operant
+towards some collective end, such as we see so frequently occur, {62} for
+example, in the simultaneous rise of instincts and protective similarities,
+or in the harmonious and simultaneous augmentation of two co-operant but
+independent organs, as of the eye and of the centre of vision, or of the
+nerve and its muscle, etc.
+
+The "secret law," of which Wolff prophetically speaks in his criticism of
+selection, is in all likelihood naught else than germinal selection. This
+it is that brings it about that the necessary variations are always
+present, that symmetrical parts, for example, the two eyes, usually vary
+alike, but under circumstances may vary differently, for example, the two
+visual halves of soles; that homodynamic parts, (for instance, the
+member-pairs of Arthropoda,) have frequently varied alike, and not
+infrequently and in conformity with the needs of the animal, have varied
+differently. It brings it about also that conversely species of quite
+different fundamental constitutions occasionally vary alike, as instances
+of mimicry and numerous other cases of convergence show us. As soon as
+utility itself is supposed to exercise a determinative influence on the
+direction of variation, we get an insight into the entire process and into
+much else besides that has hitherto been regarded as a stumbling-block to
+the theory of selection, and which did indeed present difficulties that for
+the moment were insuperable--as, for example, the like-directed variation
+of a large number of already existing similar parts, seen in the origin of
+feathers from the scales of reptiles. The utility in the last-mentioned
+instance consisted, not in the transformation of one or two, but of _all_
+the scales; consequently the line of variation of _all_ the scales must
+have been started simultaneously in the same direction. A large part of the
+objections to the theory of selection {63} that have been recently brought
+forward by the acutest critics, as for example by Wigand, but particularly
+by Wolff,[21] find, as I believe, their refutation in this doctrine of
+germinal selection. The principle extends precisely as far as utility
+extends, inasmuch as it creates, not only the direction of variation for
+every increase or diminution demanded by the circumstances, but also every
+qualitative direction of variation attainable by changes of quantity, so
+far as that is at all possible for the organism in question.
+
+Considering also the contrary process, the degeneration of useless parts by
+the cessation of selection in regard to the normal size of that part, a
+clear light is shed on that whole complex system of ascending and
+descending modifications which makes up most of the transformations of a
+living form, and we are led to understand how the fore extremity of a
+mammal can change into a fin at the same time that the _hinder_ extremity
+is growing rudimentary, or how one or two toes of a hoofed animal can
+continue to develop more and more powerfully, whilst the others in the same
+degree grow weaker and weaker until finally they have disappeared entirely
+from the germ of most of the individuals of the species.
+
+Possibly some of that large body of inquirers, mostly paleontologists, who
+till now have considered the Lamarckian principle indispensable for the
+explanation of these phenomena--perhaps some, I say, will not utterly close
+their eyes to the insight that germinal selection performs the same
+services for the understanding of observed transformations, particularly of
+{64} the degeneration of superfluous parts, that a heredity of acquired
+characters would perform, without rendering necessary so violent an
+assumption. I have always conceded that many transformations actually do
+run parallel to the use and disuse of the parts,[22] that therefore it does
+really look as if functional acquisitions of the individual life were
+hereditary. But if it be found that _passively functioning parts_, that is,
+parts which are not alterable during the individual life by function, obey
+the same laws and also degenerate when they become useless, then we shall
+scarcely be able to refuse our assent to a view which explains both cases.
+It certainly cannot be the physiological function which provokes
+modifications in the individual, which are then subsequently transmitted to
+the germ and in this way made hereditary, if _functionless parts also
+change_ when they become useless. It is precisely this _uselessness_, then,
+from which the initial impulse emanates, and the primary modification is
+not in the soma but in the germ.
+
+The Lamarckians were right when they maintained that the factor for which
+hitherto the name of natural selection had been exclusively reserved, viz.,
+_personal_ selection, was insufficient for the explanation of the
+phenomena. They were also right when they declared that panmixia in the
+form in which until recently I held the theory was also insufficient to
+explain the degeneration of parts that had grown useless, but they {65}
+erred when they ascribed hereditary effects to the selection-processes
+which are enacted among the parts of the body (Wilhelm Roux) and which are
+rightly regarded as the results of functioning. And they did this,
+moreover, as they themselves admit, not because the facts of heredity
+directly and unmistakably required it, but because they saw no other
+possibility of explaining many phenomena of transformation. I am fain to
+relinquish myself to the hope that now after another explanation has been
+found, a reconciliation and unification of the hostile views is not so very
+distant, and that then, we can continue our work together on the newly laid
+foundations.
+
+That the application of the Malthusian principle was thoroughly justified
+is now clear. _The entire process of the development of living forms is
+guided by this principle._ The struggle for existence, _videlicet_, for
+food and propagation, takes place at all the stages of life between all
+orders of living units from the biophores recently disclosed upwards to the
+elements that are accessible to direct observation, to the cells, and still
+higher up, to individuals and colonies. Consequently, in all the divers
+orders of biological units lying between the two extremes of biophores and
+colonies, the modifications must be controlled by selective processes;
+therefore, these govern every change of living forms no matter what its
+significance, and bring it about that the latter fit their conditions of
+life as wax does the mould; and the various stages of these processes, as
+enacted between the divers orders of biological units, in all organisms not
+absolutely simple, are involved in incessant and mutual interaction. The
+three principal stages of selection, that of {66} _personal_ selection[23]
+as it was enunciated by Darwin and Wallace, that of _histonal_ selection as
+it was established by Wilhelm Roux in the form of a "struggle of the
+parts," and finally that of _germinal selection_ whose existence and
+efficacy I have endeavored to substantiate in this article--these are the
+factors that have co-operated to maintain the forms of life in a constant
+state of viability and to adapt them to their conditions of life, now
+modifying them _pari passu_ with their environment, and now maintaining
+them on the stage attained, when that environment is not altered.
+
+Everything is adapted in animate nature[24] and has been from the first
+beginnings of life; for adaptiveness of organisation is here equivalent to
+the power to exist, and they alone have had the power to exist who have
+permanently existed. _We know of only one natural principle of explanation
+for this fact--that of selection {67} of the picking out of those having
+the power to exist from those having the power to originate._ If there is
+any solution possible to the riddle of adaptiveness to ends,--a riddle held
+by former generations to be insoluble,--it can be obtained only through the
+assistance of this principle of the self-regulation of the originating
+organisms, and we should not turn our faces and flee at the sight of the
+first difficulties that meet its application, but should look to it whether
+the apparent effects of this single principle of explanation are not
+founded in the imperfect application that is made of it.
+
+If I am not mistaken the situation is as follows: We had remained standing
+half way. We had applied the principle, but only to a portion of the
+natural units engaged in struggle. If we apply the principle throughout we
+reach a satisfactory explanation. Selection of _persons_ alone is _not
+sufficient_ to explain the phenomena; _germinal_ selection must be added.
+Germinal selection is the last consequence of the application of the
+principle of Malthus to living nature. It is true it leads us into a
+terrain which cannot be submitted directly to observation by means of our
+organs of touch and by our eyes, but it shares this disadvantage in common
+with all other ultimate inferences in natural science, even in the domain
+of inorganic {68} nature: in the end all of them lead us into hypothetical
+regions. If we are not disposed to follow here, nothing remains but to
+abandon utterly the hope of explaining the adaptive character of life--a
+renunciation which is not likely to gain our approval when we reflect that
+by the other method is actually offered at least in principle, not only a
+broad insight into the adaptation of the single forms of life to their
+conditions, but also into the mode of formation of the living world as a
+whole. The variety of the organised world, its transformation by adaptation
+to new, and by reversed adaptation to old conditions, the inequality of the
+systematic groups, the attainment of the same ends by different means, that
+is, by different organisations, and a thousand and one other things assume
+on this hypothesis in a certain measure an intelligible form, whilst
+without it they remain lifeless facts.
+
+And so in this case, I may say, that again doubt is the parent of all
+progress. For the idea of germinal selection has its roots in the necessity
+of putting something else in the place of the Lamarckian principle, after
+that had been recognised as inadequate. That principle did, indeed, seem to
+offer an easy explanation of many phenomena, but others stood in open
+contradiction to it, and consequently that was the point at which the lever
+had to be applied if we were to penetrate deeper into the phenomena in
+question. For it is at the places where previous views are at variance with
+facts that the divining rod of the well-seekers must thrice nod. There lie
+the hidden waters of knowledge, and they will leap forth as from an
+artesian well if he who bores will only drive undaunted his drill into
+their depths.
+
+ * * * * *
+
+
+{69}
+
+APPENDIX.
+
+ * * * * *
+
+I. THE REJECTION OF SELECTION.
+
+Many years ago Semper[25] denied the power of selection to create an organ,
+declaring that the organ must have previously existed before selection
+could have increased and developed it. More recently Wolff[26] has
+distinguished himself by the vigor with which he has attacked the "task" of
+"setting aside the dogma of selection." Henry B. Orr[27] is also of opinion
+that selection is not the real cause of improved organic states; he regards
+it as a factor checking growth in certain directions, but not as a cause
+producing growth. Likewise Yves Delâge,[28] in his recent voluminous but in
+many respects excellent work, regards natural selection solely as a
+subordinate principle which is devoid of all power to create species (p.
+391), although he grants to it certain functions, and even characterises it
+{70} as "an admirable and perfectly legitimate principle" (p. 371). A more
+pronounced opponent of selection, of any kind, as a principle creating
+species, is the Rev. Mr. Henslow,[29] whose views we shall discuss later,
+in Division VII. of this Appendix.
+
+Finally, must be mentioned the name of Th. Eimer, as that of a pronounced
+and bitter enemy of the theory of selection. I shall leave it to others to
+decide whether he can properly be called an "opponent" of the principle, in
+the scientific acceptance of the word. I can see in the blind railings of
+the Tübingen Professor nothing but a reiteration of the same unproved
+assertions, mingled with loud praises of his own doughty performances and
+captious onslaughts on every one who does not value them as highly as their
+originator.[30]
+
+The lack of confidence latterly placed in the theory of selection even by
+professed adherents of the doctrine, is well shown by such remarks as the
+following {71} from Emery,[31] who says: "Some pupils of Darwin have gone
+beyond their master and discovered in natural selection the sole and
+universal factor controlling variations. Thus there has arisen in the
+natural course of things a reaction, especially on the part of those who,
+while they accept evolution, will have naught to do with natural selection
+or Darwinism as they call it." Emery then professes himself a Darwinian,
+although not in the sense of Wallace and "other co-workers and pupils of
+Darwin." For him "natural selection is a very important factor in
+evolution, and in determining the direction of variation plays the highest
+part; but it is far from being the only factor and is probably also not the
+most efficient factor." Not the most efficient factor but plays the highest
+part!
+
+ * * * * *
+
+II. CHEMICAL SELECTION.
+
+If we refer adaptation to selection, we have also to trace back to this
+source the origin of the organic combinations which make up the various
+tissues of the body and which go by the collective name of muscular,
+nervous, glandular substance, etc. Lloyd Morgan has prettily likened the
+vital processes to the periodic formation and discharge of explosive
+substances.[32] Unstable combinations are upon the application of a {72}
+stimulus suddenly disintegrated into simpler and more stable compounds;
+through this disintegration they evoke what is called the function of the
+disintegrating part--for example, certain changes of form (muscular
+contractions) or the excretion of the disintegrated products, etc.
+
+Now how is it possible that such unstable chemical combinations, answering
+exactly to the needs of life, could have arisen in such marvellous
+perfection if the _useful_ variations had not always been presented to the
+ceaselessly working processes of selection? or, if the constantly
+increasing adaptation to the constantly augmenting delicacy of operation of
+physiological substances had depended in its last resort on _accidental_
+variations? Hence, not only with regard to the "form" of organs, but also
+with regard to the chemical and physiological composition of their
+materials, we are referred to the constant presence of appropriate
+variations.
+
+ * * * * *
+
+III. VARIATION AND MUTATION.
+
+I have still to add a few remarks on the subject touched on in the footnote
+at page 31. The view there referred to was discussed by Professor Scott
+before in an article published in the _American Journal of Science_, Vol.
+XLVIII., for November, 1894, entitled "On Variations and Mutations."
+Following the precedent of Waagen and Neumayr, Scott sharply discriminates
+between the inconstant vacillating variations which it is supposed [?]
+produce simultaneously occurring "varieties," and "mutations," or the
+successively evolved _time_-variations of a phylum, which constitute the
+stages of phyletic development. The facts on which this view is based are
+those already {73} adduced in the text--the _Zielstrebigkeit_ (to use K. E.
+von Bär's phraseology) displayed in the visible paleontological
+development, the directness of advance of the modifications to a final
+"goal." "The direct, unswerving way in which development proceeds, however
+slowly, is not suggestive of many trials and failures in all directions
+save one." And again, "The march of transformation is the resultant of
+forces both internal and external which operate in a _definite manner_ upon
+a changeable organism and similarly affect _large numbers of individuals_."
+
+The two points which I have here italicised are actually the facts which
+separate phylogenetic from common individual variation: the definite
+_manner_ of the change, repeated again and again without modification, and
+its occurrence in a _large number of individuals_.
+
+Still the two are not solely a result of observation, deduced from
+paleontological data; they are also _a consequence of the theory of
+selection_, as was shown in the text. If the theory in its previous form
+was unable to fulfil this requirement, it is certainly now able to do so
+after germinal selection has been added, and it is not in any sense
+necessary to assume a difference of _character_ between phylogenetic and
+ontogenetic variations. Bateson and Scott are wrong in imagining that I ask
+them "to abrogate reason" in pronouncing the "omnipotence of natural
+selection." On the contrary, the theory seems to me to accord so perfectly
+with the facts that we might, by reversing the process, actually construct
+the facts from the theory. What other than the actual conditions could be
+expected, if it is a fact that selection favors only the useful variations
+and singles them out from the rest by producing them in {74} increasing
+distinctness and volume with every generation, and also in an increasing
+number of individuals? The mere displacement of the zero-point of useful
+variations alone must produce this effect, especially when it is supported
+by germinal selection. It is impossible, indeed, to see how considerable,
+that is perceptible, deviations could arise at all on the path of phyletic
+development if in each generation a large number of individuals always
+possessed the useful, that is, the phyletic variations? In fact, by the
+assumption itself, the difference between useful and less useful variations
+is merely one of degree, and that a slight one.
+
+Hence, as I before remarked at page 31, I see no reason for assuming two
+kinds of hereditary variations, _distinct as to their origin_, such as
+Scott and the other palæontologists mentioned have been led to adopt,
+although with the utmost caution. I believe there is only one kind of
+variation proceeding from the germ, and that these germinal variations play
+quite different rôles according as they lie or do not lie on the path of
+adaptive transformation of the species, and consequently are or are not
+favored by germinal selection. To repeat what I have said in the footnote
+to page 31 only a relatively small portion of the numberless individual
+variations lie on the path of phyletic advancement and so mark out under
+the _guidance_ of germinal selection the way of further development; and
+hence it would be quite possible to distinguish continuous, _definitely
+directed_ variations from such as fluctuate hither and thither with no
+uniformity in the course of generations. The origin of the two is the same;
+they bear in them nothing that distinguishes the one from the other, and
+their success alone, that {75} is, the actual resultant phyletic
+modification, permits their being known as phyletic or as vacillating
+variations. Uncertain fluctuations along the path of evolution are what the
+geologists would be naturally led to expect from the theory of selection,
+but which they were unable to discover in the facts; it is evident,
+however, that these fluctuations are not a logical consequence of the
+theory of selection as that is perfected by germinal selection, and there
+seems to me to be no reason now for attributing "variations" to the union
+of changing hereditary tendencies, while "mutations" are ascribed to the
+effect "of dynamical agencies acting long in a uniform way, and the results
+controlled by natural selection."
+
+The idea which the Grecian philosophers evolved of the thousands of
+non-adaptive formations that nature brings forth by the side of adaptive
+ones, and which must subsequently all perish as being unfit to live, is
+certainly correct in its ultimate foundations. But it is in need of far
+more radical refinement than it underwent in the hands of Empedocles, or
+than it seems likely to undergo at the hands of many contemporary
+inquirers. We know now that nature did not produce isolated eyes, ears,
+arms, legs, and trunks, and afterwards permit them to be joined together
+just as the play of the fundamental forces of love and hatred directed,
+leaving the monsters to perish and granting permanent existence only to
+harmonious products. Yet there is a weak echo of this conception, although
+infinitely far removed from its prototype, in the question as to where all
+the non-adaptive individuals are preserved that have perished in the
+struggle for existence and been eliminated from development by selection?
+Where, for example, are the fossil remains {76} of the rejected individuals
+in the line of the Horses? Certainly they should be forthcoming in far
+larger numbers than the individuals lying directly in the path of
+development, for by our very assumption the latter were greatly in the
+minority in every generation. Doubtless the question would be a proper one
+if our eyes were sufficiently keen-sighted to assign the life-value of the
+various minute differences that distinguish the "better" from the "worse"
+individuals of every generation. But this is a task which we can accomplish
+at best only with selective processes which are artificially directed by
+ourselves, as in the case of doves and chickens, and even there only with
+the utmost difficulty and only with reference to a single characteristic
+and not with any species which to-day exists in the state of nature.
+Picture, then, the difficulties attending such a task as applied to the
+meagre fossilic bones of prehistoric species, touching which the richest
+discoveries never so much as remotely approach to the actual number of
+individuals that have lived together for a _single_ generation in the same
+habitat. If the differences between good and bad in a single generation
+were striking enough to be immediately remarked _as such_ in fossil bones,
+the development of species would take place so rapidly that we could
+directly witness it in living species.
+
+ * * * * *
+
+IV. REMARKS ON THE HISTORY OF DEFINITELY DIRECTED VARIATIONS.
+
+As to the attempt here made to apply the selective process to the elements
+of the germinal substance (the idioplasm) and thus to acquire a foothold
+for definitely directed variation not blind in its tendency but {77}
+proceeding in the direction of adaptive growth, it is remarkable that the
+same was not made long ago by some one or other of the many who have
+thought and written on selection and evolution.
+
+Allusions to a connexion between the direction of variation and the
+selective processes are to be found, but they remained unnoticed or
+undeveloped. I have been able to find at least two such observations, but
+would not wish to assert that there are not more of them hidden somewhere
+in the literature of the subject. One of them is old and comes from Fritz
+Müller. It was appended by his brother Hermann as a "Supplementary Remark"
+to his book _Die Befruchtung der Blumen durch Insecten_ (1873) and is dated
+November 24, 1872. We read there: "My brother Fritz Müller communicates to
+me in a letter which reached my hands only after the bulk of the present
+work had passed through the press, the following law discovered by him,
+which materially facilitates the explanation by natural selection of the
+pronounced characters of sharply distinguished species: 'The moment a
+choice in a definite direction is made in a variable species, progressive
+modification from generation to generation in the same direction will set
+in as the result of this choice, wholly apart from the influence of
+external conditions. Transformation into new forms is thus greatly
+facilitated and accelerated.'"
+
+The facts on which F. Müller based the enunciation of his law, are the
+results of several experiments with plants, the numbers of whose grains
+(maize), or styles, or flowering leaves, were, by the exercise of choice in
+the cultivation, made to change in definite directions. Accurately viewed
+their significance is the same as that of numerous other cases of
+artificial selection, for {78} example, that of the long-tailed Japanese
+cock which was laid at the foundation of the theory in the text, although
+the numerical form of the observation gives more precision and distinctness
+to the reasoning based on them, than is to be observed in cases where we
+speak of characters as being simply "longer" or "shorter."
+
+F. Müller's opinion regarding the increase of characters by selection is
+expressed as follows: "The simplest explanation of these facts appears to
+be that every species possesses the faculty of varying within certain
+limits; the crossing of different individuals, so long as no choice is
+effected in a definite direction, maintains the mean round which the
+oscillations take place at the same points, and consequently the extremes
+also remain unaltered. If, however, one side is preferred by natural or
+artificial selection, the mean is shifted in the direction of this side and
+accordingly the extreme forms are also displaced towards that side, going
+now beyond the original limit. However, this explanation does not satisfy
+me in all cases."
+
+It is not known to me that F. Müller ever returned to this conception
+subsequently to the year 1872 or gave further developments of the same, nor
+have I been able to discover that it has been mentioned by other writers or
+incorporated in previous notions regarding selection.
+
+The second naturalist who has approached the fundamental idea of my
+doctrine of germinal selection, is a more recent writer. I refer to the
+English botanist Thiselton-Dyer, a scientist whose occasional utterances on
+the general questions of biology have more than once evoked my sympathetic
+approval. In an article, "Variation and Specific Stability," which appeared
+in {79} _Nature_ for March 14, 1895, this author enunciates twenty theses
+touching this subject, many of which appear to me apposite and correct,
+particularly the following: In every species there is a mean specific form
+round which the variations are symmetrically grouped like shots around the
+bull's eye of a target. As soon as natural selection comes into play and
+favors one of these variations it must shift the centre of density.
+Variations arise by a change in the outward conditions of life and can be
+useful or indifferent; only in the first case will natural selection obtain
+control of them and "the new variation will get the upper hand and the
+centre of density will be shifted."
+
+This is not germinal selection, but it is the same as what I have referred
+to in this and in the preceding essay as displacement of the zero-point of
+variation. Thiselton-Dyer did not draw the conclusion that a definitely
+directed variation answering to utility resulted from this process, which
+variation alone must cause the disappearance of useless parts, for the
+reason that he never attempted to penetrate to the causes of the shifting
+of the zero-point of variation. Neither Fritz Müller, whose utterances
+Thiselton-Dyer was obviously ignorant of, nor Thiselton-Dyer himself pushed
+his inquiries beyond the thought that the shifting in question resulted
+entirely in consequence of personal selection. There is no gainsaying that
+the degeneration of useless organs cannot be explained by personal
+selection alone, seeing that though the minus variations may possibly have
+a selective value at the beginning of a degenerative process, they
+certainly cannot have such in the subsequent course of the same, when the
+organ has dwindled down to a really minimal mass of substance as compared
+with the whole {80} body. Of what advantage would it be to the whale if his
+hinder leg, now concealed in a mass of flesh and no longer protruding
+beyond the skin, should still be reduced one or several centimetres in
+size? (Spencer.) If the minus variations have no selective value, how can
+the upper limit of the variational field be constantly displaced downwards,
+as actually happens? It is unquestionable but something different from
+personal selection must come here co-determinatively into play.
+
+ * * * * *
+
+V. HISTORICAL REMARKS CONCERNING THE ULTIMATE VITAL UNITS.
+
+(For this Appendix which is marked "Appendix V." in the German edition of
+_Germinal Selection_ see the footnote at page 40.)
+
+ * * * * *
+
+VI. THE INITIAL STAGES OF USEFUL MODIFICATIONS.
+
+In characterising as "least" weighty the old objection that the variations
+are too small at the start to be useful and to be selected, I find myself
+diametrically opposed to many writers of the present day, who have taken up
+with renewed vigor this old stumbling block to the principle of selection.
+Bateson[33] regards the deficient proof of the utility of initial stages as
+the most serious objection that can be made to natural selection. New
+organs must in the necessity of the case have first been imperfect; how,
+then, could they have been selected since imperfect organs cannot be
+useful? Answers from various quarters have already been {81} made to this
+and to similar objections, and Darwin himself has referred to the fact that
+even the smallest variations may have selective value; Dohrn, too, has
+urged his principle of change of functions, which with regard to this
+question of the utility of initial stages has certainly a wide
+significance. Still, every transformation and new structure in the narrow
+sense of the word does not rest on change of function, and neither Darwin
+nor Wallace, nor any other more recent champion of the principle of
+selection, can ever succeed in demonstrating in _every_ case the selective
+value of an initial stage. One reason why this cannot be done is because
+_in no case of morphological variation do we really know what these initial
+stages are_. To say that "new organs were at first necessarily imperfect"
+appears obvious enough, but it is at bottom a meaningless assertion, for it
+is not only possible but certain, that "imperfect" organs may still have
+selective value, and in by far the most cases have had selective value. The
+fact that we see to-day a long graduated line of forest-butterflies which
+possess resemblance to leaves and by this means are able in a measure to
+conceal themselves from prying eyes, yet that this resemblance in many
+species is very imperfect, in others more perfect, and in a very small
+number very perfect, simply proves that even "imperfect" formations may be
+of utility. The word "imperfect" in this connexion is itself very
+imperfect, for it is utterly anthropomorphic and estimates the biological
+value of a structure by our own peculiar artistic notions of its
+faithfulness to a leaf-copy, whilst we are really concerned here only with
+its protective value for the species in question, which is by no means
+dependent merely on the faithfulness of the copying, on the {82}
+faithfulness of the imitation, but on numerous other factors, such as the
+frequency and sharp-sightedness of the enemies of the species, the
+fertility of the species, their frequency and persecution in earlier
+developmental stages, and so forth, in brief, on their need of protection
+on the one hand and on their other means of protection on the other.
+
+Now all this cannot be exactly calculated in any given case, and it will be
+better, instead of haggling about individual cases concerning which we can
+never judge with certainty, to take the position adopted in the text and
+say: Since the utility of the initial stages _must_ be assumed unless we
+are to renounce forever the explanation of adaptation, let us then take it
+for granted. No contradiction of facts is involved in this assumption; in
+fact, even individual variations exist whose eventual utility can be
+demonstrated, for example, the invisible differences enabling Europeans of
+certain constitutions to resist the attacks of tropical malarial
+fevers,--or the differences of structure, likewise not directly visible,
+which enable palms from the summits of the Cordilleras to withstand our
+winter climate better than palms of the same species from along the
+base-line of the mountains; and so on.
+
+ * * * * *
+
+VII. THE ASSUMPTION OF INTERNAL EVOLUTIONARY FORCES
+
+Definite variation was not only postulated in the last decade by Nägeli and
+Askenasy, but has also been repeatedly set up in recent years by various
+other authors. The Rev. George Henslow, in his book _The Origin of Species
+Without the Aid of Natural Selection_, 1894, regards the variations
+occurring in the state {83} of nature as always definite and not with
+Darwin as indefinite, and meets the objection that modification but not
+adaptation to outward conditions of life can be inferred from this fact, by
+the bold assumption that it is precisely the outward conditions of life or
+the environment which "induces the best fitted to arise." He further
+concludes that natural selection has nothing to do with the origin of
+species. At the basis of his conviction lies the naturally correct view
+that the summation of _accidental_ variations is insufficient for
+transforming the species, but that definitely directed variation is
+necessary to this end. But concerning the way in which external conditions
+are always able to produce the fit variations, he can give us no
+information--if I am not mistaken, for the simple reason that such is not
+the fact, that the outward conditions only apparently determine the
+direction of variations whilst in truth it is the adaptive requirement
+itself that produces the useful direction of variation by means of
+selectional processes within the germ.
+
+C. Lloyd Morgan also has recently expressed himself in favor of the
+necessity of definite variation, though likewise without assigning a basis
+for its action, and without being able to show how its efficacy is
+compatible with the plain fact of adaptation to the conditions of life. He
+seeks to find the origin of variation in "mechanical stresses and chemical
+or physical influences," but this conception is too general to be of much
+help. He has, in fact, not been able to abandon completely the heredity of
+acquired characters.
+
+Emery[34] likewise sees only the alternative of a {84} "definitely directed
+variation" from internal causes and of a summation of "accidental"
+variations. He says: "A summation of entirely accidental variations in a
+given direction is extremely difficult," because "natural selection thus
+always awaits its fortune at the hands of accident whereby it is possible
+that the little good thereby produced will be swept away by other accidents
+(disadvantages of position) or obliterated in the following generations by
+unfortunate crossings." We can, therefore, continues Emery, well conceive
+"how many scientists look upon the whole theory of selection as a fable, or
+else throw themselves into the arms of Lamarckism." Unquestionably Emery
+has here singled out the insufficient points in the assumption of a
+selection of "accidental" variations; he has recognised the necessity of
+operating, not with single variations, but with "directions of variation."
+He has not, however, attempted the derivation of directed tendencies of
+variation from known factors; he apparently thinks of them as of something
+which has sprung from unknown constitutional factors and consequently
+ascribes to them the capacity of shooting beyond their mark, so to speak,
+that is, of acting beyond and ahead of utility, and so of producing
+modifications which may lead to the destruction of the species.
+
+ * * * * *
+
+
+{85}
+
+INDEX.
+
+ Accidental variations, 3, 83.
+ Acquired variations, 33.
+ Acracids, 19.
+ Acræa, 52.
+ Active selection, 38.
+ Adaptations, 3, 10, 22, 61, 82.
+ Adaptiveness, 66 footnote, 67, 74 et seq.
+ Ageronia, 19.
+ Anæa, 22.
+ _Anlagen_, 35, 47, 53.
+ Arthropoda, 32, 62.
+ Articulata, 30.
+ Artificial selection, 33.
+ Askenasy, 24, 60, 82.
+ Atoms, 57, 58.
+
+ Bär, K. E. von, 73.
+ Bateson, 18, 73, 80.
+ "Better" individuals, 76.
+ Biology, character of research in, 7.
+ Biophores, 40, 47, 58.
+ Boltzmann, 4, 5.
+ Bonnet, 53.
+ Bourne, footnote, 54.
+ Brücke, 40.
+ Butterflies, 14 et seq., 18 et seq., 81.
+
+ Catonephele, 50.
+ Chance, 61.
+ Chemical selection, 71.
+ Chitons, 28.
+ Coadaptation, 30.
+ Colorings, protective, 14 et seq.
+ Constancy of species, 46.
+ Constructs, 8.
+ Cormi, 66 footnote.
+ Correlation, 21.
+
+ Danaids, 19.
+ Darwin, 11, 25, 29, 36, 38, 66, 81, 83.
+ Definite variation, 3, 4, 60, 76-79, 82.
+ Degeneration, 30 et seq., 39 et seq. 55, 63, 64, 79.
+ Delâge, Yves, 40, 69.
+ Determinants, 6 et seq., 10, 36 et seq. 42, 54, 58.
+ Developmental mechanics, 8, 9.
+ De Vries, 40.
+ Dimorphism, 58.
+ Directions of variations, 83.
+ Directive forces, 23, 24.
+ Dixey, 51 footnote.
+ Dohrn, 81.
+ Driesch, Hans, 12.
+ Dyer, Thiselton, 78-79.
+
+ Eimer, 16, 70.
+ Emery, 71, 83-84.
+ Empedocles, 75.
+ Epigenesis, 53 footnote, 58, 59.
+ Euploids, 19.
+ Europeans, exempt from malarial fevers, 82.
+ Eurypheme, 22.
+ Evolution, 53 footnote, 59.
+
+ Fireworks, determinants and ids compared to, 7.
+ "Fits," 6 footnote.
+ Fluctuations of development, 74-75.
+ Formative laws, 17 et seq., 23.
+ Frog, 14.
+ Functional adaptation, 29.
+ Functionless parts, 64.
+
+ Galton, 36.
+ Germs, 7 et seq., 40 et seq.
+ {86}
+ Germinal selection, 3, 39, 44, 50-53, 59, 63, 66-68.
+ Germinal substance, 55 et seq.
+ Germ-plasm, 9, 44, 57.
+
+ Haase, Eric, 70.
+ Heliconids, 19, 20, 51 footnote.
+ Henslow, G., 70, 82.
+ Heredity, 4 et seq.
+ Hertwig, O., 54 footnote, 58, 59.
+ Hertz, 5, 6.
+ Histonal selection, 66.
+ Huxley, Thomas, 12.
+ Hypna, 22.
+ Hypotheses, nature of, 5 et seq.
+
+ Ids, their theoretical character, 7.
+ Imagination, its function in science, 4.
+ "Imperfect" formations, 81.
+ Individual variations, 73 et seq.
+ Inertia, law of organic, 15.
+ Internal forces of evolution, 16, 23, 24, 31, 60, 82-4.
+ Intrabiontic selection, 29.
+ Ishikawa, Professor, 34.
+
+ Japanese cocks, long-tailed, 34, 44, 78.
+
+ Kallima, 22, 23, 50.
+ Katagramma, 22.
+ Knowledge, its character, 5.
+
+ Lamarckian principles, 24, 29 et seq., 31 et seq., 38, 63-64, 68, 84.
+ Leaves, imitated by butterflies, 20 et seq.
+ Locomotive, simile of, 11.
+
+ Malthusian principle, 65, 67.
+ Markings, butterflies', 16 et seq.
+ Maxwell, 4, 5.
+ Mean of variation, 78-79.
+ Meristic, 18.
+ Mimicry, 19, 51 et seq.
+ Minot, S., 54 footnote.
+ Models, mental, 4 et seq.
+ Molecules, 58.
+ Morgan, Prof. C. Lloyd, 32, 71, 83.
+ Müller, Fritz, 77-79.
+ Müller, Hermann, 77.
+ Mussels, 28.
+ Mutations, 31 footnote, 72-76.
+
+ Nägeli, 4, 11, 24, 60, 82.
+ Neumayr, 72.
+ Newton, 5.
+ Nutrition of determinants, 36, 37, 41, 47.
+ Nymphalidæ, 21.
+
+ Ontogenesis, 8.
+ Orr, Henry B., 69.
+ Osborn, Prof. H. F., 33.
+ Owen, Richard, 11.
+
+ Paleontology, 31, 73, 75, 76.
+ Palms from Cordilleras, 82.
+ Pangenes, 40.
+ Panmixia, 15, 39, 42, 43, 64.
+ Papilio, 16, 52.
+ Parallecta, 23.
+ Parts, struggling of the, 29, 39, 66-67.
+ Passively functioning parts, 30 et seq., 64.
+ Personal selection, 30, 41, 42, 45, 52, 64-86, 80.
+ Phyletic variation, 31-32 footnote.
+ Phylogenesis, 8.
+ Phylogenetic variations, 31-32, 73.
+ Plasomes, 40.
+ Plus and minus variations, 35, 42, 46, 50, 79-80.
+ Polymorphism, 58.
+ Poulton, 64 footnote.
+ Predestined variation, 4.
+ Pre-established harmony, 25.
+ Preformation, 53.
+ Protective colorings, 14 et seq.
+ Protogonius, 22.
+ Pseudocræa, 52.
+
+ Qualitative modifications, 46.
+ Quantitative changes, 46-47.
+
+ Retrogressive development, 38.
+ Round-worms, eggs of, 28.
+ Roux, Wilhelm, 29, 39, 65, 66.
+
+ Salamis, 22.
+ Scott, Prof. W. B., 31 footnote, 72-74.
+ Segmentation, 10.
+ {87}
+ Selection, natural, 10, 25 et seq., 50, 51, 67, 69-73, 81, 82.
+ Selective value of variations, 60.
+ Semper, 69.
+ Siderone, 22.
+ Snails, 28.
+ Spencer, 14, 28, 29, 40, 53, 56, 80.
+ Struggle for existence, 65.
+ Survival of the fit, 52.
+ Symphædra, 22.
+
+ _Tabula rasa_, 27, 24.
+ Tegetmeier, W. B., 34.
+ Teleological principles, 10, 16, 25.
+ Theories, nature of, 5 et seq.
+ Turbellaria, 28.
+
+ Units, vital, biological, physiological, etc., 8, 40, 41, 53, 56, 65, 80.
+ Useful modifications, value of initial stages of, 80-82.
+ Utility, 11, 18, 33, 45, 48, 62, 63, 82.
+
+ Variations, necessary, their constant presence, 26 et seq., 31 et seq.,
+ 61;
+ generally, 3, 11-14, 61, 71 et seq.
+
+ Waagen, 72.
+ Wallace, 11, 25, 29, 51, 66, 81.
+ Weldon, 36.
+ Whale, hind leg of, 42, 56, 80.
+ Whitman, C. O., 53.
+ Wiesner, 40.
+ Wigand, Albert, 11, 63.
+ Wings of butterflies, 14 et seq., 47-52, 56.
+ Wolff, K. F., 53, 62, 63, 69.
+ "Worse" individuals, 76.
+
+ Zero-point of variation, 36 et seq., 45, 74, 79.
+
+ * * * * *
+
+
+Notes
+
+[1] _Neue Gedanken zur Vererbungsfrage, eine Antwort an Herbert Spencer._
+Jena. 1895.
+
+[2] See Boltzmann, _Methoden der theor. Physik_, Munich, 1892. (In the
+Catalogue of the Mathematical Exhibit.)
+
+[3] Of late this saying of Newton's is frequently quoted as if Newton were
+a downright contemner of scientific hypotheses. But if we read the passage
+in question in its original context, we shall discover that his
+renunciation of hypotheses referred solely to a definite case, viz., to
+that of universal gravitation, of whose character Newton could form no
+conception and hence was unwilling to construct hypotheses concerning it.
+Indeed, such a wholesale repudiation of hypotheses is antecedently
+incredible on the part of the inventor of the emission-theory of light, in
+which, to speak of only one daring conjecture, "fits" were ascribed to the
+luminous particles. Compare Newton, _Philosophiae Naturalis Principia
+Mathematica_, second edition, 1714, page 484.
+
+[4] H. Hertz, _Die Principien der Mechanik_.
+
+[5] Hans Driesch, _Die Biologie als selbstständige Grundwissenschaft_,
+Leipsic, 1893, p. 31, footnote. The sentence reads: "An examination of the
+pretensions of the refuted Darwinian theory, so called, would be an affront
+to our readers."
+
+[6] _Die Allmacht der Naturzüchtung._ A Reply to Herbert Spencer. Jena,
+1893, p. 27 et seq. [Also in the _Contemporary Review_ for September,
+1893.]
+
+[7] That is, by the law of exceedingly slow retrogression of superfluous
+characters, which may be designated the law of organic inertia.
+
+[8] _Materials for the Study of Variation with Especial Regard to
+Discontinuity in the Origin of Species._ London, 1895.
+
+[9] _Studien zur Descendenztheorie_, Leipsic, 1876. Vol. II. pp. 295 and
+322.
+
+[10] Compare my essay, _Neue Gedanken zur Vererbungsfrage_, Jena, 1895, p.
+10, second footnote.
+
+[11] On the same day on which the present address was delivered at the
+International Congress of Zoölogists in Leyden, and on the same occasion,
+Dr. W. B. Scott, Professor of Geology in Princeton College, New Jersey,
+read a very interesting paper on the tertiary mammalian fauna of North
+America, in which, without a knowledge of my paper, he took his stand
+precisely on this argument and arrived at the opinion that it could not
+possibly be the ordinary individual variations which accomplished phyletic
+evolution, but that it was necessary to assume in addition phyletic
+variations. I believe our views are not as widely remote as might be
+supposed. Of course, I see no reason for assuming two kinds of hereditary
+variations, different _in origin_. Still it is likely that only a
+relatively small portion of the numberless individual variations lie on the
+path of phyletic advancement and so under the _guidance_ of germinal
+selection mark out the way of further development; and hence it would be
+quite possible in this sense to distinguish continuous, _definitely
+directed_ individual variations from such as fluctuate hither and thither
+with no uniformity in the course of generations. The root of the two is of
+course the same, and they admit of being distinguished from each other only
+by their success, phyletic modification, or by their failure.
+
+[12] H. F. Osborn, "The Hereditary Mechanism and the Search for the Unknown
+Factors of Evolution," in _Biological Lectures delivered at the Marine
+Biolog. Lab. at Wood's Holl in the Summer Session of 1894_. Boston, 1895.
+
+[13] In 1886. See my paper on "Retrogression in Nature," published in
+English in Nos. 105, 107, 108, and 109 of _The Open Court_, and also in my
+essays on _Heredity_, Jena, 1892.
+
+[14] _Neue Gedanken zur Vererbungsfrage_, Jena, 1895.
+
+[15] Delâge, in _La structure du protoplasma et les théories sur
+l'hérédité_, etc., Paris, 1895, is mistaken in attributing to Herbert
+Spencer the merit of having first pointed out the necessity of the
+assumption of biological units ranking between the molecule and the cell.
+Brücke set forth this idea three years previously to Spencer and
+established it exhaustively in a paper which in Germany at least is famous
+("Elementarorganismen," _Wiener Sitzungsberichte_, October 10, 1861, Vol.
+XLIV., II., p. 381). Spencer's _Principles of Biology_ appeared between
+1864 and 1868; consequently there can be no dispute touching the priority
+of the idea. Strangely enough Delâge cites Brücke's essay in the
+Bibliographical Index at the end of his book correctly, although Brücke's
+name and views are nowhere mentioned in the book itself. It is to be
+observed, however, that the elementary organisms of Brücke are not merely
+the precursors of Spencer's "physiological units," but repose on much
+firmer foundations than the latter, which, as Delâge himself remarks, are
+at bottom nothing more than magnified molecules and not combinations of
+different molecules of such character as to produce necessarily phenomena
+of life. He aptly remarks on this point: "the physiological units of
+Spencer are only chemical molecules of greater complexity than the rest,
+and as he defines them they would be regarded as such by every chemist. He
+attributes to them no property _essentially_ different from those of
+chemical molecules." Assimilation, growth, propagation, in short the
+attributes of life, are not attributed by Spencer to his units, while
+Brücke by his very designation "elementary organisms" expresses the idea of
+"ultimate living units," to use Wiesner's phrase. Of course this particular
+aspect of the vital units was not emphasised by Brücke with the same
+distinctness and sharpness as by recent inquirers, who took up Brücke's
+ideas thirty years after. I refer to the conception that the union of a
+definite combination of heterogeneous molecules into an invisibly small
+unit, forms the cradle or focus of the vital phenomena. This was first done
+and apparently on independent considerations by De Vries, and soon after by
+Wiesner, and subsequently by myself (De Vries, _Intracelluläre Pangenesis_,
+Jena, 1889; Wiesner, _Die Elementarstructur and das Wachsthum der lebenden
+Substanz_, Vienna, 1892; Weismann, _Das Keimplasma_, Jena, 1892). Let me
+say at the close of this note that it is not my intention in thus defending
+the rights of a great physiologist, to censure in the least the
+distinguished author of _L'hérédité_ who has set himself a remarkably high
+standard of exactitude in such matters. Certainly, when we consider the
+enormous extent of the literature that had to be mastered to produce his
+book, embracing as it did all the various theories of recent times, such an
+oversight is quite excusable.
+
+[16] I speak here of determinants, not of groups of determinants, which is
+the more correct expression, merely for the sake of brevity. It is a matter
+of course that a whole extremity, such as we have here chosen, cannot be
+represented in the germ by a single determinant only, but requires a large
+group of determinants.
+
+[17] That this is not so in all cases has recently been shown by Dixey from
+observations on certain white butterflies of South America which mimic the
+Heliconids and in which a small, yellowish red streak on the under surface
+of the hind wing has served as the point of departure and groundwork of the
+development of a protective resemblance to quite differently colored
+Heliconids. "On the Relation of Mimetic Characters to the Original Form,"
+in the _Report of the British Association for 1894_.
+
+[18] Oscar Hertwig, _Zeit-und Streitfragen der Biologie_, Jena, 1894. It is
+customary now to look upon the preformation-theory of Bonnet as a discarded
+monstrosity, and on the epigenesis of K. F. Wolff as the only legitimate
+view, and to draw a parallel between these two and what might be called
+to-day "evolution" [i. e. unfoldment] and epigenesis. The evolution, or
+unfoldment, of Bonnet and Harvey, however, was something totally different
+from modern doctrines of evolution, and Whitman is quite right when he says
+that even my theory of determinants would have appeared to the inquirers of
+the last century as "extravagant epigenesis." Biologists in that day were
+concerned with quite different questions from what they are at present, and
+although now we probably all share the conviction of Wolff that new
+characters do arise in the course of evolution, yet the acceptance of this
+view is far from settling the question _as to how these new characters are
+established in the germ-substance_--for in this substance they certainly
+must have their foundation. When, therefore, O. Hertwig laments over my
+regarding evolution and not epigenesis as the correct foundation of the
+theory of development, his sorrow is almost as naïve as is the statement of
+Bourne that epigenesis is a fact and not a theory "a statement of
+morphological fact," _Science Progress_, April, 1894, page 108), or, as is
+the latter's unconsciousness that facts originally receive their scientific
+significance from thought, i. e. from their interpretation and combination,
+and that thought is theory. And when S. Minot, as the leader of the
+embryologists, carries his zeal to the pitch of issuing a general
+pronunciamento against me as a corruptor of youth, in which he declares it
+to be a "scientific duty to protest in the most positive manner against
+Weismann's theory," I wonder greatly that he does not suggest the casting
+of a general ballot in the matter. (See the _Biologisches Centralblatt_ of
+August 1, 1895.) We see how with these gentlemen the wisdom of the
+recitation-room regarding the infallibility of epigenesis has grown into a
+dogma, and whoever ventures to disturb its foundations must be burnt as a
+heretic.
+
+[19] Oscar Hertwig, _Zeit- und Streitfragen der Biologie_, Jena, 1894.
+
+[20] Nor will those, who demand a demonstration of "how the biophores and
+determinants are constituted in every case, and must be arranged in the
+architecture of the germ-plasm." (O. Hertwig, _loc. cit._, p. 137). As if
+any living being could have the temerity even so much as to guess at the
+actual ultimate phenomena in evolution and heredity! The whole question is
+a matter of symbols only, just as it is in the matter of "forces," "atoms,"
+"ether undulations," etc., the only difference being that in biology we
+stumble much earlier upon the unknown than in physics.
+
+[21] "Beiträge zur Kritik der Darwin'schen Lehre," _Biologisches
+Centralblatt_, Vol. X., p. 449. 1890.
+
+[22] Poulton has adverted to the fact that this is nevertheless not always
+the case; for example, it is not so with the teeth, whose shape it had also
+been sought to reduce to the mechanical effects of pressure and friction.
+See "The Theory of Selection" in _The Proceedings of the Boston Society of
+Natural History_, Vol. XX., page 389. 1894.
+
+[23] As the highest stage of selective processes must be regarded that
+between the highest biological units, the colonies or cormi--a stage,
+however, which is not essentially different from personal selection. In
+this stage the persons enact the part that the organs play in personal
+selection. Like their prototypes they also battle with one another for food
+and in this way maintain harmony in the colony. But the result of the
+struggle endures only during the life of the individual colony and can be
+transmitted through the germ-cells to the following generation as little as
+can histological changes provoked by use in the individual person. Only
+that which issues from the germ has duration.
+
+[24] This statement has often been declared extravagant, and it is so if it
+is taken in its strict literalness. On the other hand, it would also seem,
+by a more liberal interpretation, as if there existed non-adaptive
+characters, for example, rudimentary organs. Adaptiveness, however, is
+never absolute but always conditioned, that is, is never greater than
+outward and inward circumstances permit. Moreover, an organ can only
+disappear gradually and slowly when it has become superfluous; yet this
+does not prevent our recognising every stage of its degeneration as adapted
+when compared with its precursor. Further, it does not militate against the
+correctness of the above proposition that there are also characters whose
+fitness consists in their being the necessary accompaniments of other
+directly adapted features, as, for instance, the red color of the blood.
+
+[25] Semper, _Die natürlichen Existenzbedingungen der Thiere_, Leipsic,
+1880, pp. 218-219.
+
+[26] Wolff, "Beiträge zur Kritik der Darwin'schen Lehre," _Biolog.
+Centralblatt_, Vol. X., Sept. 15, 1890, and "Bemerkungen zum Darwinismus
+mit einem experimentellen Beitrag zur Physiologie der Entwicklung,"
+_Biolog. Centralblatt_, Vol. XIV., Sept. 1, 1894.
+
+[27] Henry B. Orr, _A Theory of Development and Heredity_, New York, 1893.
+
+[28] Yves Delâge, _La structure du protoplasma et les théories sur
+l'hérédité et les grands problèmes de la biologie générale_, Paris, 1895.
+
+[29] Henslow, _The Origin of Species Without the Aid of Natural Selection,
+A Reply to Wallace_. 1894.
+
+[30] If any one should deem these words too severe, let him read the
+sarcastic passages in which Eimer has dispatched the late unfortunate Eric
+Haase who had been presumptuous enough to oppose the Tübingen Professor's
+deliverances on certain points. Haase, as we all know, fell a victim to the
+climate of the tropics, shortly after resigning the post of Director of the
+natural science collections in Bangkok, in order to return to Germany and
+to work out the fruits of his tropical sojourn. The unfortunate end of this
+accomplished man who had rendered important services to science had no
+effect in mollifying the resentment of Herr Eimer at the opposition which
+his views had encountered; and in twenty printed pages he takes him to task
+in the most personal and rancorous manner for this affront, remarking at
+the close: "In the meantime Herr Haase has died. Nevertheless I owe it to
+myself, in spite of this occurrence, to make public the foregoing facts, in
+order," etc. Any one who is interested in knowing the motives of Herr
+Eimer's excuse may find them in his book _Artbildung and Verwandtschaft bei
+den Schmetterlingen_, Part II., p. 66.
+
+[31] "Gedanken zur Descendenz- und Vererbungstheorie." _Biolog.
+Centralblatt_, July 15, 1893.
+
+[32] C. Lloyd Morgan, _Animal Life and Intelligence_, London, 1890-1891, p.
+30-33.
+
+[33] _Materials for the Study of Variation with Especial Regard to
+Discontinuity in the Origin of Species_, London, 1895, p. 16.
+
+[34] "Gedanken zur Descendenz- and Vererbungstheorie," _Biolog.
+Centralblatt_, 1893, Vol. XIII., p. 397.
+
+
+
+
+
+
+End of the Project Gutenberg EBook of On Germinal Selection as a Source of
+Definite Variation, by August Weismann
+
+*** END OF THIS PROJECT GUTENBERG EBOOK ON GERMINAL SELECTION ***
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+
+<pre>
+
+The Project Gutenberg EBook of On Germinal Selection as a Source of
+Definite Variation, by August Weismann
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: On Germinal Selection as a Source of Definite Variation
+
+Author: August Weismann
+
+Translator: Thomas McCormack
+
+Release Date: October 15, 2010 [EBook #34077]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK ON GERMINAL SELECTION ***
+
+
+
+
+Produced by Bryan Ness, Keith Edkins and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
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+
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+</pre>
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+ <p><i>Romanes</i>. Pp., ix, 221. Cloth, $1.00. Paper, 40c.</p>
+ </div>
+
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+ <p><i>Alfred Binet</i>. Pp., xii, 120. Cloth, 75c (3s. 6d.). Paper, 30c</p>
+ <p>(1s. 6d.).</p>
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+ <p>xii, 61. Paper, 30c (1s. 6d.).</p>
+ </div>
+
+ <div class="stanza">
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+ </div>
+
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+ <p>Pp., 52. Paper, 20c (9d.).</p>
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+ <p>(1s. 6d.).</p>
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+ <p>THE OPEN COURT PUB. CO., CHICAGO.</p>
+ </div>
+ </div>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<h3>ON</h3>
+
+<h1>GERMINAL SELECTION</h1>
+
+<p class="cenhead">AS A</p>
+
+<h3>SOURCE OF DEFINITE VARIATION</h3>
+
+<p class="cenhead">BY</p>
+
+<h3>AUGUST WEISMANN</h3>
+
+<p class="cenhead">TRANSLATED FROM THE GERMAN BY<br />
+THOMAS J. McCORMACK</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<h3>SECOND EDITION</h3>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<h3>CHICAGO</h3>
+
+<p class="cenhead">THE OPEN COURT PUBLISHING COMPANY.</p>
+
+<p class="cenhead"><span class="scac">LONDON AGENTS:</span><br />
+<span class="sc">Kegan Paul, Trench, Trübner &amp; Co., Ltd.</span><br />
+<span class="scac">1902.</span></p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead"><span class="sc">Copyright by</span><br />
+<span class="sc">The Open Court Publishing Co.</span><br />
+<span class="scac">1896</span></p>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<p><!-- Page 3 --><span class="pagenum"><a name="page3"></a>{3}</span></p>
+
+<h3>PREFACE.</h3>
+
+ <p>The present paper was read in the first general meeting of the
+ International Congress of Zoölogists at Leyden on September 16, 1895.
+ Several points, which for reasons of brevity were omitted when the paper
+ was read, have been re-embodied in the text, and an Appendix has been
+ added where a number of topics receive fuller treatment than could well
+ be accorded to them in a lecture. The address was first printed in <i>The
+ Monist</i> for January, 1896, and afterwards in a German pamphlet.</p>
+
+ <p>The basal idea of the essay&mdash;the existence of Germinal
+ Selection&mdash;was propounded by me some time since,<a name="NtA1"
+ href="#Nt1"><sup>[1]</sup></a> but it is here for the first time fully
+ set forth and tentatively shown to be the necessary complement of the
+ process of selection. Knowing this factor, we remove, it seems to me, the
+ patent contradiction of the assumption that the general fitness of
+ organisms, or the adaptations <i>necessary</i> to their existence, are
+ produced by <i>accidental</i> variations&mdash;a contradiction which
+ formed a serious stumbling-block to the theory of selection. Though still
+ assuming that the <i>primary</i> variations are "accidental," I yet hope
+ to have demonstrated that an interior mechanism exists which compels them
+ to go on increasing in a definite direction, the moment selection
+ intervenes. <i>Definitely directed <!-- Page 4 --><span
+ class="pagenum"><a name="page4"></a>{4}</span>variation exists</i>, but
+ not predestined variation, running on independently of the
+ life-conditions of the organism, as Naegeli, to mention the most extreme
+ advocate of this doctrine, has assumed; on the contrary, the variation is
+ such as is elicited and controlled by those conditions themselves, though
+ indirectly.</p>
+
+ <p>In basing my proof of the doctrine of Germinal Selection on the
+ fundamental conceptions of my theory of heredity, a few words of
+ justification are necessary, owing to the fact that the last-mentioned
+ theory has been widely and severely assailed since its first emergence
+ into light and even repudiated as absolutely futile and erroneous.</p>
+
+ <p>In the first place, many critics have characterised it as a "pure
+ creation of the imagination." And to a certain extent it is such, as
+ every theory is. But is it on that account necessarily wrong? Can not its
+ fundamental ideas still be quite correct, and it itself therefore
+ perfectly justified as a means of further progress?</p>
+
+ <p>Surely my critics cannot be ignorant of the prominent part which
+ imagination has recently played in the exactest of all natural
+ sciences&mdash;physics? Are they unaware that the English physicist
+ Maxwell "constructed from liquid vortices and friction-pulleys enclosed
+ in cells with elastic walls, a wonderful mechanism, which served as a
+ mechanical model for electromagnetism"?<a name="NtA2"
+ href="#Nt2"><sup>[2]</sup></a> He hoped "that further research in the
+ domain of theoretical electricity would be promoted rather than hindered
+ by such mechanical <!-- Page 5 --><span class="pagenum"><a
+ name="page5"></a>{5}</span>fictions." And so it actually happened, for
+ Maxwell found by means of them "the very equations, whose singular and
+ almost incomprehensible power Hertz has so beautifully portrayed in his
+ lecture on the relations between light and electricity." "Maxwell's
+ formulæ were the direct outcome of his mechanical models." "These ideal
+ mechanisms"&mdash;so relates Boltzmann in the same interesting
+ essay&mdash;"were at first widely ridiculed, but gradually the new ideas
+ worked their way into all fields. They were themselves more convenient
+ than the old hypotheses. For the latter could be maintained only in the
+ event of everything's proceeding smoothly; whereas now little
+ inconsistencies were fraught with no peril, for no one can take amiss a
+ slight hitch in a mere analogy.&mdash;Ultimately Maxwell's ideas were
+ philosophically generalised as the theory that all knowledge consists in
+ the disclosure of analogies."</p>
+
+ <p>But not only does it seem that there is little appreciation among
+ biologists for the scientific import of imagination, they also appear to
+ have little sense for the significance of theory. It is a favorite
+ attitude nowadays to look upon theory as a sort of superfluous ballast,
+ as a worthless survival from the epoch of decrepit "nature-philosophies."
+ People pronounce with pride the miscomprehended utterance of Newton,
+ <i>Hypotheses non fingo</i>, and place the value of the slightest new
+ fact infinitely higher than that of "the most beautiful theory."<a
+ name="NtA3" href="#Nt3"><sup>[3]</sup></a> And yet theory originally <!--
+ Page 6 --><span class="pagenum"><a name="page6"></a>{6}</span>fashions
+ science out of facts and is the indispensable precondition of every
+ important scientific advance.</p>
+
+ <p>Heinrich Hertz,<a name="NtA4" href="#Nt4"><sup>[4]</sup></a> the
+ discoverer of electric undulations, had the same thought in mind when he
+ said: "We form inward representations or constructs of outward objects,
+ so constituted that the results that follow logically and necessarily
+ from the constructs are in turn always constructs of the results flowing
+ naturally and necessarily from the objects." "These constructs or mental
+ images copied after familiar objects possessed of familiar properties, so
+ constituted that from their manipulation effects result similar to those
+ which we observe in the objects to be explained. Experience teaches us
+ that the requirements here made can be fulfilled and that consequently
+ such 'correspondences' between reality and the supposed images [or, as
+ Hertz says, between nature and mind] actually exist. Having succeeded in
+ extracting from the accumulated experience of the past, representative
+ images or constructs fulfilling all these necessary requirements, we can
+ then reproduce by them in a short space of time, as we might by models,
+ results that in the outward world require a long space of time for their
+ actualisation or can be produced only through our personal intervention,"
+ etc.</p>
+
+<p><!-- Page 7 --><span class="pagenum"><a name="page7"></a>{7}</span></p>
+
+ <p>Such representative models, or constructs, now, in my theory of
+ heredity, are the <i>determinants</i>, which may be conceived as
+ indefinitely fashioned packages of units (biophores) which are set into
+ activity by definite impressions and put a distinctive stamp upon some
+ small part of the organism, on some cell or group of cells, evoking
+ definite phenomena somewhat as a piece of fireworks when lighted produces
+ a brilliant sun, a shower of sparks, or the glowing characters of a
+ name.</p>
+
+ <p>The <i>ids</i>, also, are such representative models, and may be
+ compared to a definitely ordered but variously compounded aggregate of
+ fireworks, in which the single pieces are so connected as to go off in
+ fixed succession and to produce a definite resultant phenomenon like a
+ complete inscription surrounded by a hail of fire and glowing
+ spheres.</p>
+
+ <p>Owing to the greater complexity of the phenomena in biology we can
+ never hope to reach the same distinctness in our constructs and models as
+ in physics, and the attempt to derive from them mathematical formulæ by
+ the independent development of which research could be continued, would
+ at present be utterly fruitless. In the meantime it seems preferable to
+ have some sort of adequate model to which the imagination can always
+ resort and with which it can easily operate, rather than to have to
+ revert, in considering every special problem of heredity, to the mutual
+ actions of the molecules of living substance and outward
+ agents&mdash;processes which we know only in their roughest outlines. Or
+ is any one presumptuous enough to believe we can infer from our slight
+ knowledge of the chemical and physical constitution of the germs of a
+ trout and a salmon the real cause <!-- Page 8 --><span class="pagenum"><a
+ name="page8"></a>{8}</span>of the one's becoming a trout and of the
+ other's becoming a salmon?</p>
+
+ <p>The fact is, we can make no show of accounting for the complex
+ phenomena of heredity with mere <i>material</i> units; we can never reach
+ these phenomena from below, but must begin farther up and make the
+ assumption of <i>vital</i> units and <i>hereditary</i> units, if there is
+ to be any advance in this field.</p>
+
+ <p>It is undoubtedly a splendid aim which the newly founded science of
+ developmental mechanics has set itself of laying bare the entire causal
+ line leading from the egg to the finished organism; yet, however much we
+ may wish to see the success of this plan realised, we cannot disguise the
+ fact that little or nothing is to be accomplished by it in the settlement
+ of the problems of heredity. It is impossible to suspend the study of
+ heredity until this mechanics is completed, and even if we could it would
+ help us little, for the riddles of heredity are not concealed in the
+ ontogenesis of types, or, to give an example, in the developmental
+ history of man <i>as a race</i>, but in the ontogenesis of
+ <i>individuals</i>, in that of a <i>definite and particular</i> man. This
+ last ontogenesis exhibits the phenomena of variation, of reversion, of
+ the predominance of the one or the other parent, etc., and no one is
+ likely to believe that inductive evolutional inquiry alone will ever
+ afford us knowledge of these minute and delicate processes, which, in
+ their bearing on the total resultant development, phylogenesis, are after
+ all the most important of all.</p>
+
+ <p>There is, accordingly, no choice left. If we are really bent on
+ scientifically investigating the question of heredity, we are obliged
+ perforce to form from the observed facts of heredity a highly detailed
+ and <!-- Page 9 --><span class="pagenum"><a
+ name="page9"></a>{9}</span>elaborate theory, on the basis of which we can
+ propound new questions, which will give rise in turn to new facts, and
+ thus will exercise a retroactive influence on the theory, improving and
+ transforming it.</p>
+
+ <p>This is precisely what I have sought to accomplish by my theory of
+ Germ-plasm, as I stated in the Preface to the book bearing that name. It
+ was never intended as a theory of life, nor, indeed, primarily, as a
+ theory of evolution, but first and above all as a theory of heredity. I
+ cannot understand, therefore, the animadversion, that my theory in no way
+ furthers our insight into the mechanics of development. That is not its
+ purpose; in fact, it takes the ultimate physical and chemical processes
+ which make up the vital processes for granted; and inevitably it is
+ constrained to do so. Its aim is to put into our hands a serviceable
+ formula by means of which we can go on working in the field of heredity
+ at any rate, and, if I am not mistaken, also in that of evolution. To me,
+ at least, the newest results of developmental mechanics do not seem so
+ widely at variance with the theory of determinants as might appear at
+ first sight; so far as I can see, they can be quite readily made to
+ harmonise with the theory, provided only the initial stage of the
+ disintegration of the germ-plasm in the determinant groups be not
+ invariably placed at the beginning of the process of segmentation, but be
+ transferred according to circumstances to a subsequent period. The exact
+ state of things cannot as yet be determined, so long as the mass of facts
+ is still in constant flux.</p>
+
+ <p>In any event I still hold fast to the hope which I expressed in the
+ Preface to my <i>Germ-plasm</i>, that despite the unavoidable
+ uncertainties in its foundation my theory would yet prove more than a
+ mere work <!-- Page 10 --><span class="pagenum"><a
+ name="page10"></a>{10}</span>of imagination, and that the future would
+ find in it some durable points which would outlive the mutations of
+ opinion. It is possible that one of these durable gains is my much
+ impugned idea of determinants, and in fact not only will the present
+ essay be made to rest on this idea, but it will also defend it on new
+ grounds, although primarily only as a representation of something which
+ we do not as yet exactly know, but which still exists and on which we can
+ reckon, leaving it to the future to decide the greater or less
+ resemblance of our hypothetical construct to nature.</p>
+
+ <p>The real aim of the present essay is to rehabilitate the principle of
+ selection. If I should succeed in reinstating this principle in its
+ emperilled rights, it would be a source of extreme satisfaction to me;
+ for I am so thoroughly convinced of its indispensability as to believe
+ that its demolition would be synonymous with the renunciation of all
+ inquiry concerning the causal relation of vital phenomena. If we could
+ understand the adaptations of nature, whose number is infinite, only upon
+ the assumption of a teleological principle, then, I think, there would be
+ little inducement to trouble ourselves about the causal connexion of the
+ stages of ontogenesis, for no good reason would exist for excluding
+ teleological principles from this field. Their introduction, however,
+ means the ruin of science.</p>
+
+ <div class="poem">
+ <div class="stanza">
+ <p><span class="sc">August Weismann.</span></p>
+ </div>
+
+ <div class="stanza">
+ <p><span class="sc">Freiburg</span>, Nov. 18, 1895.</p>
+ </div>
+ </div>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<p><!-- Page 11 --><span class="pagenum"><a name="page11"></a>{11}</span></p>
+
+<h2>GERMINAL SELECTION.</h2>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+ <p>Numerous and varied are the objections that have been advanced against
+ the theory of selection since it was first enunciated by Darwin and
+ Wallace&mdash;from the unreasoning strictures of Richard Owen and the
+ acute and thoughtful criticisms of Albert Wigand and Nägeli to the
+ opposition of our own day, which contends that selection cannot create
+ but only reject, and which fails to see that precisely through this
+ rejection its creative efficacy is asserted. The champions of this view
+ are for discovering the motive forces of evolution in the <i>laws</i>
+ that govern organisms&mdash;as if the norm according to which an event
+ happens were the event itself, as if the rails which determine the
+ direction of a train could supplant the locomotive. Of course, from every
+ form of life there proceeds only a definite, though extremely large,
+ number of tracks, <i>the possible variations</i>, whilst between them lie
+ stretches without tracks, <i>the impossible variations</i>, on which
+ locomotion is impossible. But the actual travelling of a track is not
+ performed by the track, but by the locomotive, and on the other hand, the
+ choice of a track, the decision whether the destination of the train
+ shall be Berlin or Paris, is not made by the locomotive, the cause of the
+ variation, but by the driver of the locomotive, who directs the engine on
+ the right track. In the theory of selection the engine-driver is
+ represented by utility, for with utility rests the decision <!-- Page 12
+ --><span class="pagenum"><a name="page12"></a>{12}</span>as to what
+ particular variational track shall be travelled. The cogency, the
+ irresistible cogency, as I take it, of the principle of selection is
+ precisely its capacity of explaining why fit structures always arise, and
+ that certainly is the great problem of life. Not the fact of change, but
+ the <i>manner</i> of the change, whereby all things are maintained
+ capable of life and existence, is the pressing question.</p>
+
+ <p>It is, therefore, a very remarkable fact, and one deserving of
+ consideration, that to-day (1895), after science has been in possession
+ of this principle for something over thirty years and during this time
+ has steadily and zealously busied itself with its critical elaboration
+ and with the exact determination of its scope, that now the estimation in
+ which it is held should apparently be on the decrease. It would be easy
+ to enumerate a long list of living writers who assign to it a subordinate
+ part only in evolution, or none at all. One of our youngest biologists
+ speaks without ado of the "pretensions of the refuted Darwinian theory,
+ so called,"<a name="NtA5" href="#Nt5"><sup>[5]</sup></a> and one of the
+ oldest and most talented inquirers of our time, a pioneer in the theory
+ of evolution, who, unfortunately, is now gone to his rest, Thomas Huxley,
+ implicitly yet distinctly intimated a doubt regarding the principle of
+ selection when he said: "Even if the Darwinian hypothesis were swept
+ away, evolution would still stand where it is." Therefore, he, too,
+ regarded it as not impossible that this hypothesis should disappear from
+ among <!-- Page 13 --><span class="pagenum"><a
+ name="page13"></a>{13}</span>the great explanatory principles by which we
+ seek to approach nearer to the secrets of nature.</p>
+
+ <p>I am not of that opinion. I see in the growth of doubts regarding the
+ principle of selection and in the pronounced and frequently bitter
+ opposition which it encounters, a transient depression only of the wave
+ of opinion, in which every scientific theory must descend after having
+ been exalted, here perhaps with undue swiftness, to the highest pitch of
+ recognition. It is the natural reaction from its overestimation, which is
+ now followed by an equally exaggerated underestimation. The principle of
+ selection was not overrated in the sense of ascribing to it too much
+ explanatory efficacy, or of extending too far its sphere of operation,
+ but in the sense that naturalists imagined that they perfectly understood
+ its ways of working and had a distinct comprehension of its factors,
+ which was not so. On the contrary, the deeper they penetrated into its
+ workings the clearer it appeared that something was lacking, that the
+ action of the principle, though upon the whole clear and representable,
+ yet when carefully looked into encountered numerous difficulties, which
+ were formidable, for the reason that we were unsuccessful in tracing out
+ the actual details of the individual process, and, therefore, in
+ <i>fixing</i> the phenomenon as it actually occurred. We can state in no
+ single case how great a variation must be to have selective value, nor
+ how frequently it must occur to acquire stability. We do not know when
+ and whether a desired useful variation really occurs, nor on what its
+ appearance depends; and we have no means of ascertaining the space of
+ time required for the fulfilment of the selective processes of nature,
+ and hence cannot calculate the exact number of such <!-- Page 14 --><span
+ class="pagenum"><a name="page14"></a>{14}</span>processes that do and can
+ take place at the same time in the same species. Yet all this is
+ necessary if we wish to follow out the precise details of a given
+ case.</p>
+
+ <p>But perhaps the most discouraging circumstance of all is, that in
+ scarcely a single actual instance in nature can we assert whether an
+ observed variation is useful or not&mdash;a drawback that I distinctly
+ pointed out some time ago.<a name="NtA6" href="#Nt6"><sup>[6]</sup></a>
+ Nor is there much hope of betterment in this respect, for think how
+ impossible it would be for us to observe all the individuals of a species
+ in all their acts of life, be their habitat ever so limited&mdash;and to
+ observe all this with a precision enabling us to say that this or that
+ variation possessed selective value, that is, was a decisive factor in
+ determining the existence of the species.</p>
+
+ <p>In many cases we can reach at least a probable inference, and say, for
+ example, that the great fecundity of the frog is a property having
+ selective value, basing our inference on the observation that in spite of
+ this fertility the frogs of a given district do not increase.</p>
+
+ <p>But even such inferences offer only a modicum of certainty. For who
+ can say precisely how large this number is? Or whether it is on the
+ increase or on the decrease? And besides, the exact degree of the
+ fecundity of these animals is far from being known. Rigorously viewed, we
+ can only say that great fecundity must be advantageous to a
+ much-persecuted animal.</p>
+
+ <p>And thus it is everywhere. Even in the most indubitable cases of
+ adaptation, as, for instance, in that of the striking protective coloring
+ of many butterflies, <!-- Page 15 --><span class="pagenum"><a
+ name="page15"></a>{15}</span>the sole ground of inference that the
+ species upon the whole is adequately adapted to its conditions of life,
+ is the simple fact that the species is, to all appearances, preserved
+ undiminished, and the inference is not at all permissible that just this
+ protective coloring has selective value for the species, that is, that if
+ it were lacking, the species would necessarily have perished.</p>
+
+ <p>It is not inconceivable that in many species today these colorings are
+ actually unnecessary for the preservation of the species, that they
+ formerly were, but that now the enemies which preyed on the resting
+ butterflies have grown scarce or have died out entirely, and that the
+ protective coloring will continue to exist by the law of inertia<a
+ name="NtA7" href="#Nt7"><sup>[7]</sup></a> only for a short while till
+ panmixia or new adaptations shall modify it.</p>
+
+ <p>Discouraging, therefore, as it may be, that the control of nature in
+ her minutest details is here gainsaid us, yet it were equivalent to
+ sacrificing the gold to the dross, if simply from our inability to follow
+ out the details of the individual case we should renounce altogether the
+ principle of selection, or should proclaim it as only subsidiary, on the
+ ground that we believe the protective coloring of the butterfly is not a
+ protective coloring, but a combination of colors inevitably resulting
+ from internal causes. The protective coloring remains a protective
+ coloring whether at the time in question it is or is not necessary for
+ the species; and it arose as protective coloring&mdash;arose not because
+ it was a constitutional necessity of the animal's organism that here a
+ red and there a white, black, or yellow spot should be produced, but
+ because it was <!-- Page 16 --><span class="pagenum"><a
+ name="page16"></a>{16}</span>advantageous, because it was necessary for
+ the animal. There is only one explanation possible for such patent
+ adaptations and that is selection. What is more, no other natural way of
+ their originating is conceivable, for we have no right to assume
+ teleological forces in the domain of natural phenomena.</p>
+
+ <p>I have selected the example of the butterfly's wing, not solely
+ because it is so widely known, but because it is so exceedingly
+ instructive, because we are still able to learn so much from it. It has
+ been frequently asserted that the color-patterns of the butterfly's wings
+ have originated from internal causes, independently of selection and
+ conformably to inward laws of evolution. Eimer has attempted to prove
+ this assertion by establishing in a division of the genus Papilio the
+ fact that the species there admit of arrangement in series according to
+ affinity of design. But is a proof that the markings are modified in
+ definite directions during the course of the species's development
+ equivalent to a definite statement as to the <i>causes</i> that have
+ produced these gradual transformations? Or, is our present inability to
+ determine with exactness the biological significance of these markings
+ and their modifications, a proof that the same have no significance
+ whatever? On the contrary, I believe it can be clearly proved that the
+ wing of the butterfly is a tablet on which nature has inscribed
+ everything she has deemed advantageous to the preservation and welfare of
+ her creatures, and nothing else; or, to abandon the simile, that these
+ color-patterns have not proceeded from inward evolutional forces, but are
+ the result of selection. At least in all places where we do understand
+ their biological significance these patterns are constituted and
+ distributed over the wing exactly as utility would require. <!-- Page 17
+ --><span class="pagenum"><a name="page17"></a>{17}</span></p>
+
+ <p>I do not pledge myself, of course, to give an explanation of every
+ spot and every line on a wing. The inscription is often a very
+ complicated one, dating from remote and widely separated ages; for every
+ single existing species has inherited the patterns of its ancestral
+ species and that again the patterns of a still older species. Even at its
+ origin, therefore, the wing was far from being a <i>tabula rasa</i>, but
+ was a closely written and fully covered sheet, on which there was no room
+ for new writing until a portion of the old had been effaced. But other
+ parts were preserved, or only slightly modified, and thus in many cases
+ gradually arose designs of almost undecipherable complexity.</p>
+
+ <p>I should be far from maintaining that the markings arose unconformably
+ to law. Here, as elsewhere, the dominance of law is certain. But I take
+ it, that the laws involved here, that is, the physiological conditions of
+ the variation, are without exception subservient to the ends of a higher
+ power&mdash;utility; and that it is utility primarily that determines the
+ kind of colors, spots, streaks and bands that shall originate, as also
+ their place and mode of disposition. The laws come into consideration
+ only to the extent of conditioning the quality of the constructive
+ materials&mdash;the variations, out of which selection fashions the
+ designs in question. And this also is subject to important restrictions,
+ as will appear in the sequel.</p>
+
+ <p>The meaning of formative laws here is that definite spots on the
+ surfaces of the wings are linked together in such a manner by inner,
+ invisible bonds, as to represent the same spots or streaks, so that we
+ can predict from the appearance of a point at one spot the appearance of
+ another similar point at another, and <!-- Page 18 --><span
+ class="pagenum"><a name="page18"></a>{18}</span>so on. It is an undoubted
+ fact that such relations exist, that the markings frequently exhibit a
+ certain symmetry, that&mdash;to use the words of the most recent observer
+ on this subject, Bateson<a name="NtA8"
+ href="#Nt8"><sup>[8]</sup></a>&mdash;a meristic representation of
+ equivalent design-elements occurs. But I believe we should be very
+ cautious in deducing laws from these facts, because all the rules
+ traceable in the markings apply only to small groups of forms and are
+ never comprehensive nor decisive for the entire class or even for the
+ single sub-class of diurnal butterflies, in fact, often not so for a
+ whole genus. All this points to special causes operative only within this
+ group.</p>
+
+ <p>If internal laws controlled the marking on butterflies' wings, we
+ should expect that some general rule could be established, requiring that
+ the upper and under surfaces of the wings should be alike, or that they
+ should be different, or that the fore wings should be colored the same as
+ or differently from the hind wings, etc. But in reality all possible
+ kinds of combinations occur simultaneously, and no rule holds throughout.
+ Or, it might be supposed that bright colors should occur only on the
+ upper surface or only on the under surface, or on the fore wings or only
+ on the hind wings. But the fact is, they occur indiscriminately, now
+ here, now there, and no one method of appearance is uniform throughout
+ all the species. But the fitness of the various distributions of colors
+ is apparent, and the moment we apply the principle of utility we know why
+ in the diurnal butterflies the upper surface alone is usually variegated
+ and the under surface protectively colored, or why in the nocturnal <!--
+ Page 19 --><span class="pagenum"><a
+ name="page19"></a>{19}</span>butterflies the fore wings have the
+ appearance of bark, of old wood, or of a leaf, whilst the hind wings,
+ which are covered while resting, alone are brilliantly colored. On this
+ theory we also understand the exceptions to these rules. We comprehend
+ why Danaids, Heliconids, Euploids, and Acracids, in fact all diurnal
+ butterflies, offensive to the taste and smell, are mostly brightly marked
+ and equally so on both surfaces, whilst all species not thus exempt from
+ persecution have the protective coloring on the under surface and are
+ frequently quite differently colored there from what they are on the
+ upper.</p>
+
+ <p>In any event, the supposed formative laws are not obligatory.
+ Dispensations from them can be issued and are issued <i>whenever utility
+ requires it</i>. Indeed, so far may these transgressions of the law
+ extend, that in the very midst of the diurnal butterflies is found a
+ genus, the South American Ageronia, which, like the nocturnal butterfly,
+ shows on the entire <i>upper</i> surface of both wings a pronounced
+ bark-coloration, and concerning which we also know (and in this respect
+ it is an isolated genus and differs from almost all other diurnal
+ butterflies), that it spreads out its wings when at rest like the
+ nocturnal butterfly, and does not close them above it as its relatives
+ do. Therefore, entirely apart from cases of mimicry, which after all
+ constitute the strongest proof, the facts here cited are alone sufficient
+ to remove all doubt that not inner necessities or so-called formative
+ laws have painted the surface of the butterflies' wings, but that the
+ conditions of life have wielded the brush.</p>
+
+ <p>This becomes more apparent on considering the details. I have remarked
+ that the usually striking colorations of exempt butterflies, as of the
+ Heliconids, <!-- Page 20 --><span class="pagenum"><a
+ name="page20"></a>{20}</span>are the same on both the upper and the lower
+ surfaces of the wings. Possibly the expression of a law might be seen in
+ this fact, and it might be said, the coloration of the Heliconids <i>runs
+ through</i> from the upper to the under surface. But among numerous
+ imitators of the Heliconids is the genus Protogonius, which has the
+ coloration of the Heliconids on its upper surface, but on its lower
+ exhibits a magnificent leaf-design. During flight it appears to be a
+ Heliconid and at rest a leaf. How is it possible that two such totally
+ different types of coloration should be combined in a single species, if
+ any sort of <i>inner</i> rigorous necessity existed, regulating the
+ coloration of the two wing-surfaces? Now, although we are unable to prove
+ that the Protogonius species would have perished unless they possessed
+ this duplex coloration, yet it would be nothing less than intellectual
+ blindness to deny that the butterflies in question are effectively
+ protected, both at rest and during flight, <i>that their colorations are
+ adaptive</i>. We do not know their primitive history, but we shall hardly
+ go astray if we assume that the ancestors of the Protogonius species were
+ forest-butterflies and already possessed an under surface resembling a
+ leaf. By this device they were protected when at rest. Afterwards, when
+ this protection was no longer sufficient, they acquired on their upper
+ surface the coloration of the exempt species with which they most
+ harmonised in abode, habits of life, and outward appearance.</p>
+
+ <p>At the same time it is explained why these butterflies did not acquire
+ the coloration of the Heliconids on the under surface. The reason is,
+ that in the attitude of repose they were already protected, and that in
+ an admirable manner. <!-- Page 21 --><span class="pagenum"><a
+ name="page21"></a>{21}</span></p>
+
+ <p>That <i>exempt</i> diurnal butterflies should be colored on the upper
+ and under surfaces alike, and should never resemble in the attitude of
+ repose their ordinary surroundings, is intelligible when we reflect that
+ it is a much greater protection to be despised when discovered than to be
+ well, or very well, but never absolutely, protected from discovery.</p>
+
+ <p>It has been so often reiterated that diurnal butterflies, as a rule,
+ are protectively colored on the under surfaces, that one has some
+ misgivings in stating the fact again. And yet the least of those who hold
+ this to be a trivial commonplace know how strongly its implications
+ militate against the inner motive and formative forces of the organism,
+ which are ever and anon appealed to. No less than sixty-two genera are
+ counted today in the family of diurnal butterflies known as the
+ Nymphalidæ. Of these by far the largest majority are sympathetically
+ colored underneath, that is, they show in the posture of rest the
+ colorings of their usual environment. In a large number of the species
+ belonging to this group the entire surface of the hind wings possesses
+ such a sympathetic coloration, as does also the distant apex of the fore
+ wings. Why? The reason is obvious. This part only of the fore wing is
+ visible in the attitude of repose. Here, then,&mdash;as a zealous
+ opponent of the theory of selection once exclaimed,&mdash;there is
+ undoubted "correlation" between the coloring of the surface of the hind
+ wing and of the apex of the fore wing. Correlation is unquestionably a
+ fine word, but in the present instance it contributes nothing to the
+ understanding of the problem, for there are near relatives and often
+ species of the same genera in which this correlation is not restricted to
+ the apex of the <!-- Page 22 --><span class="pagenum"><a
+ name="page22"></a>{22}</span>fore wings, but extends to a third or even
+ more of their wings, and these species are also in the habit of drawing
+ back their wings less completely in the state of rest, thus rendering a
+ larger portion of them visible. There are species, too, like the
+ forest-butterflies of South America just mentioned, the Protogonius,
+ Anæa, Kallima species, etc., which have nearly the <i>whole</i> of the
+ under surfaces of their fore wings marked according to the same pattern
+ with their hind wings, and these butterflies when at rest hold their fore
+ wings free and uncovered by their hind wings. Where are the formative
+ laws in such cases?</p>
+
+ <p>Or, perhaps some one will say: "The covering by the hind wings hinders
+ the formation of scales on the wing, or impedes the formation of the
+ colors in the scales." Such a person should examine one of these species.
+ He will find that the scales are just as dense on the covered as on the
+ uncovered surface of the wing, and in many species, for example, in
+ Katagramma, the scales of the covered surface are colored most
+ brilliantly of all.</p>
+
+ <p>But the facts are still more irresistible, when we consider <i>special
+ adaptations</i>; for example, the imitation of leaves, which is so often
+ cited. It is to be noted, first, that this sort of imitation is by no
+ means restricted to a few genera, still less to a few species. All the
+ numerous species of the genus Anæa, which are distributed over the
+ forests of tropical South America, exhibit this imitation in pronounced
+ and varied forms, as do likewise the American genera Hypna and Siderone,
+ the Asiatic Symphaedra, the African Salamis, Eurypheme, etc. I have
+ observed fifty-three genera in which it is present in one, several, or in
+ many species, but there are many others. <!-- Page 23 --><span
+ class="pagenum"><a name="page23"></a>{23}</span></p>
+
+ <p>These genera, now, are by no means all so nearly allied that they
+ could have inherited the leaf-markings from a common ancestral form. They
+ belong to different continents and have probably for the most part
+ acquired their protective colorings themselves. But one resemblance they
+ have in common&mdash;they are all <i>forest-butterflies</i>. Now what is
+ it that has put so many genera of forest-butterflies and no others into
+ positions where they could acquire this resemblance to leaves? Was it
+ directive formative laws? If we closely examine the markings by which the
+ similarity of the leaf is determined, we shall find, for example, in
+ Kallima Inachis, and Parallecta, the Indian leaf-butterflies, that the
+ leaf-markings are executed <i>in absolute independence of the other
+ uniformities governing the wing</i>.</p>
+
+ <p>From the tail of the wing to the apex of the fore wings runs with a
+ beautiful curvature a thick, doubly-contoured dark line accompanied by a
+ brighter one, representing the midrib of the leaf. This line cuts the
+ "veins" and the "cells" of the wing in the most disregardful fashion,
+ here in acute and here in obtuse angles, and in absolute independence of
+ the regular system of divisions of the wing, which should assuredly be
+ the expression of the "formative law of the wing," if that were the
+ product of an internal directive principle. But leaving this last
+ question aside, this much is certain with regard to the markings, that
+ they are dependent, not on an <i>internal</i>, but on an <i>external</i>
+ directive power.</p>
+
+ <p>Should any one be still unconvinced by the evidence we have adduced,
+ let him give the leaf-markings a closer inspection. He will find that the
+ midrib is composed of two pieces of which the one belongs to the <!--
+ Page 24 --><span class="pagenum"><a name="page24"></a>{24}</span>hind
+ wing and the other to the fore wing, and that the two fit each other
+ exactly when the butterfly is in the attitude of repose, but not
+ otherwise. Now these two pieces of the leaf-rib do not begin on
+ corresponding spots of the two wings, but on absolutely non-identical
+ spots. And the same is also true of the lines which represent the lateral
+ ribs of the leaf. These lines proceed in acute angles from the rib; to
+ the right and to the left in the same angle, those of the same side
+ parallel with each other. Here, too, no relation is noticeable between
+ the parts of the wings over which the lines pass. The venation of the
+ wing is utterly ignored by the leaf-markings, and its surface is treated
+ as a <i>tabula rasa</i> upon which anything conceivable can be drawn. In
+ other words, we are presented here with a <i>bilaterally symmetrical</i>
+ figure engraved on a surface which is essentially <i>radially
+ symmetrical</i> in its divisions.</p>
+
+ <p>I lay unusual stress upon this point because it shows that we are
+ dealing here with one of those cases which cannot be explained by
+ mechanical, that is, by natural means, unless natural selection actually
+ exists and is actually competent to create new properties; for the
+ Lamarckian principle is excluded here <i>ab initio</i>, seeing that we
+ are dealing with a formation which is only passive in its effects; the
+ leaf-markings are effectual simply by their existence and not by any
+ function which they perform; they are present in flight as well as at
+ rest, during the absence of danger, as well as during the approach of an
+ enemy.</p>
+
+ <p>Nor are we helped here by the assumption of <i>purely internal motive
+ forces</i>, which Nägeli, Askenasy, and others have put forward as
+ supplying a <i>mechanical</i> force of evolution. It is impossible to
+ regard the <!-- Page 25 --><span class="pagenum"><a
+ name="page25"></a>{25}</span>coincidence of an Indian butterfly with the
+ leaf of a tree now growing in an Indian forest as fortuitous, as a
+ <i>lusus naturæ</i>. Assuming this seemingly mechanical force, therefore,
+ we should be led back inevitably to a teleological principle which
+ produces adaptive characters and which must have deposited the directive
+ principle in the very first germ of terrestrial organisms, so that after
+ untold ages at a definite time and place the illusive leaf-markings
+ should be developed. The assumption of pre-established harmony between
+ the evolution of the ancestral line of the tree with its pre-figurative
+ leaf, and that of the butterfly with its imitating wing, is absolutely
+ necessary here&mdash;a fact which I pointed out many years ago,<a
+ name="NtA9" href="#Nt9"><sup>[9]</sup></a> but which is constantly
+ forgotten by the promulgators of the theory of internal evolutionary
+ forces.</p>
+
+ <p>For the present I leave out of consideration altogether the question
+ as to the conceivable extent of the sphere of operation of natural
+ selection; I am primarily concerned only with elucidating the process of
+ selection itself, wholly irrespective of the comprehensiveness or
+ limitedness of its sphere of action. For this purpose it is sufficient to
+ show, as I have just done, <i>that cases exist wherein all natural
+ explanations except that of selection fail us</i>. But let us now see how
+ far the principle of selection will carry us in the explanation of such
+ cases&mdash;natural selection, I mean, as it was formulated by Darwin and
+ Wallace.</p>
+
+ <p>There can be no doubt but the leaf-markings readily admit of
+ production in this manner, slowly and with a gradual but constant
+ increase of fidelity, provided a single condition is fulfilled: <i>the
+ occurrence of the <!-- Page 26 --><span class="pagenum"><a
+ name="page26"></a>{26}</span>right variations at the right place</i>. But
+ just here, it would seem, is the insurmountable barrier to the
+ explanatory power of our principle, for who, or what, is to be our
+ guarantee that dark scales shall appear at the exact spots on the wing
+ where the midrib of the leaf must grow? And that later dark scales shall
+ appear at the exact spots to which the midrib must be prolonged? And that
+ still later such dark spots shall appear at the places whence the lateral
+ ribs start, and that here also a definite acute angle shall be accurately
+ preserved, and the mutual distances of the lateral ribs shall be alike
+ and their courses parallel? And that the prolongation of the median rib
+ from the hind wing to the fore wing shall be extended exactly to that
+ spot where the fore wing is not covered by the hind wing in the attitude
+ of repose? And so on.</p>
+
+ <p>If I could go more minutely into this matter, I should attempt to
+ prove that the markings, as I have just assumed, have not arisen
+ suddenly, but were perfected very, very gradually; that in one species
+ they began on the fore wing and in another on the hind wing; and that in
+ many they never until recently proceeded beyond one wing, in other
+ species they went only a little way, and in only a few did they spread
+ over the entire surface of both wings.</p>
+
+ <p>That these markings advanced slowly and gradually, but with marvelous
+ accuracy, is no mere conjecture. But it follows that the right variations
+ at the right places must never have been wanting, or, as I expressed it
+ before: <i>the useful variations were always present</i>. But how is that
+ possible in such long extensive lines of dissimilar variations as have
+ gradually come to constitute markings of the complexity here presented?
+ Suppose that the useful colors had not <!-- Page 27 --><span
+ class="pagenum"><a name="page27"></a>{27}</span>appeared at all, or had
+ not appeared at the right places? It is a fact that in constant species,
+ that is, in such as are not in process of transformation, the variations
+ of the markings are by no means frequent or abundant. Or, suppose that
+ they had really appeared, but occurred only in individuals, or in a small
+ percentage of individuals?</p>
+
+ <p>Such are the objections raised against the theory of selection by its
+ opponents, and put forward as insurmountable obstacles to the process.
+ Nor are such objections relevant only in the case of protective
+ colorings; they are applicable in all cases where the process of
+ selection is concerned. Take the case of instincts that are called into
+ action only once in life, as, for example, the pupal performances of
+ insects, the artificial fabrication of cocoons, etc. How is it that the
+ useful variations were always present here? And yet they must have been
+ present, if such complicated spinning instincts could have taken their
+ rise as are observable in the silk-worm, or in the emperor-moth. And they
+ have been developed, and that in whole families, in forms varying in all
+ species, and in every case adapted to the special wants of the
+ species.</p>
+
+ <p>Particularly striking is the proof afforded of this constant presence
+ of the useful variations by cases where we meet with the development of
+ highly special adaptations that are uncommon even for the group of
+ organisms concerned. Such a case, for example, is the apparatus designed
+ for the capture of small animals and their digestion, found in widely
+ different plants and widely separated families. On the other hand, very
+ common adaptations, such as the eyes of animals, show distinctly that in
+ all cases where it was necessary, the useful variations for the formation
+ of <!-- Page 28 --><span class="pagenum"><a
+ name="page28"></a>{28}</span>an eye were presented, and were presented
+ further exactly at spots at which organs of vision could perform their
+ best work: thus, in Turbellaria and many other worms that live in the
+ light, at the anterior extremity of the body and on the dorsal surface;
+ in certain mussels, on the edge of the mantle; in terrestrial snails, on
+ the antennæ; in certain tropical marine snails inhabiting shallow waters,
+ on the back; and in the chitons even on the dorsal surface of the
+ shell!</p>
+
+ <p>But even taking the very simplest cases of selection, it is impossible
+ to do without this assumption, that the useful variations are always
+ present, or that <i>they always exist in a sufficiently large number of
+ individuals for the selective process</i>. You know the thickness and
+ power of resistance of the egg-shells of round-worms. The eggs of the
+ round-worms of horses have been known to continue their course of
+ development undisturbed even after they had been thrown into strong
+ alcohol and all other kinds of injurious liquids&mdash;much to the
+ vexation of the embryologists, who wished to preserve a definite stage of
+ development and sought to kill the embryo at that stage. Indeed, think of
+ the result, if in the course of their phylogenesis stout and resistant
+ variations of egg-shells had not been presented in these worms, or had
+ not always been presented, or had not been presented in every generation
+ and not in sufficient quantities.</p>
+
+ <p>The cogency of the facts is absolutely overpowering when we consider
+ that practically no modification occurs <i>alone</i>, that every primary
+ modification brings in its train secondary ones, and that these induce
+ forced modifications in many parts of the body, frequently of the most
+ diversified, or even self-contradictory, forms. Recently Herbert Spencer
+ has drawn <!-- Page 29 --><span class="pagenum"><a
+ name="page29"></a>{29}</span>fresh attention to these secondary
+ modifications, which must always occur in harmony with the primary one,
+ and has, as he thinks, advanced in this set of facts, a convincing
+ disproof of the contention that such coadaptive modifications of numerous
+ cofunctioning parts can rest on natural selection. Now, although I deem
+ his conclusion precipitate, yet the very fact of a simultaneous,
+ functionally concordant, yet essentially diversified modification of
+ numerous parts, points conclusively to the circumstance that <i>something
+ is still wanting to the selection of Darwin and Wallace, which it is
+ obligatory on us to discover, if we possibly can</i>, and without which
+ selection as yet offers no complete explanation of the phyletic processes
+ of transformation. There is a hidden secret to be unriddled here before
+ we can obtain a satisfactory insight into the phenomena in question.
+ <i>We must seek to discover why it happens that the useful variations are
+ always present.</i></p>
+
+ <p>Herbert Spencer appealed to Lamarck's principle for the explanation of
+ coadaptation, and it is certain that functional adaptation is operative
+ during the individual life, and that it compensates in a certain measure
+ the inequalities of the inherited constitutions. I shall not repeat what
+ I have said before on this subject, nor maintain, in refutation of
+ Spencer's contention, that functional adaptation is itself nothing more
+ than the efflux of <i>intra-biontic</i> selective processes, as Spencer
+ himself once suggested in a prophetic moment, but which it was left for
+ Wilhelm Roux to introduce into science as "the struggle of the parts" of
+ organisms.<a name="NtA10" href="#Nt10"><sup>[10]</sup></a> I shall only
+ remark that if functional adaptations were themselves inheritable, this
+ would still be insufficient <!-- Page 30 --><span class="pagenum"><a
+ name="page30"></a>{30}</span>for the explanation of coadaptation, for the
+ reason that precisely similar coadaptive modifications occur in <i>purely
+ passively</i> functioning parts, in which, consequently, modification
+ <i>by</i> function is excluded. This is the case with the skeletal parts
+ of Articulata; e. g., it is true of their articular surfaces with their
+ complex adaptations to the most varied forms of locomotion. In all these
+ cases the ready-made, hard, unalterable, chitinous part is <i>first</i>
+ set into activity; consequently its adaptation to the function must have
+ been <i>previously</i> effected, independently of that function. These
+ joints, and divers other parts, accordingly, have been developed in the
+ precisest manner for the function, and the latter could have had no
+ direct share in their formation. When we consider, now, that it is
+ impossible that every one of the numerous surfaces, ridges, furrows, and
+ corners found in a single such articulation, let alone in all the
+ articulations of the body, should hold in its hands the power of life and
+ death over individuals for untold successions of generations, the fact is
+ again unmistakably impressed upon our attention that the conception of
+ the selective processes which has hitherto obtained is insufficient, that
+ the root of the process in fact lies deeper, that it is to be found in
+ the place where it is determined what variations of the parts of the
+ organism shall appear&mdash;namely <i>in the germ</i>.</p>
+
+ <p>The phenomena observed in the <i>stunting</i>, or <i>degeneration</i>,
+ <i>of parts rendered useless</i>, point to the same conclusion. They show
+ distinctly that ordinary selection which operates by the removal of
+ entire persons, <i>personal selection</i>, as I prefer to call it, cannot
+ be the only cause of degeneration; for in most cases of degeneration it
+ cannot be assumed that slight individual <!-- Page 31 --><span
+ class="pagenum"><a name="page31"></a>{31}</span>vacillations in the size
+ of the organ in question have possessed selective value. On the contrary,
+ we see such retrogressions affected apparently <i>in the shape of a
+ continuous evolutionary process determined by internal causes</i>, in the
+ case of which there can be no question whatever of selection of persons
+ or of a survival of the fittest, that is, of individuals with the
+ smallest rudiments.</p>
+
+ <p>It is this consideration principally that has won so many adherents
+ for the Lamarckian principle in recent times, particularly among the
+ paleontologists. They see the outer toes of hoofed animals constantly and
+ steadily degenerating through long successions of generations and
+ species, concurrently with the re-enforcement of one or two middle toes,
+ which are preferred or are afterwards used exclusively for stepping, and
+ they believe correctly enough that these results should not be ascribed
+ to the effects of personal selection alone. They demand a principle which
+ shall effect the degeneration by internal forces, and believe that they
+ have found it in functional adaptation.<a name="NtA11"
+ href="#Nt11"><sup>[11]</sup></a> <!-- Page 32 --><span class="pagenum"><a
+ name="page32"></a>{32}</span>On this last point, now, I believe, they are
+ mistaken, be they ever so strongly convinced of the correctness of their
+ view and ever so aggressive and embittered in their defence of it.</p>
+
+ <p>Recently, an inquirer of great caution and calmness of judgment, Prof.
+ C. Lloyd Morgan, has expressed the opinion that the Lamarckian principle
+ must at least be admitted as a working hypothesis. But with this I cannot
+ agree, at least as things stand at present. A working hypothesis may be
+ false, and yet lead to further progress; that is, it may constitute an
+ advance to the extent of being useful in formulating the problem and in
+ illuminating paths that are likely to lead to results. But it seems to me
+ that a hypothesis of this kind has performed its services and must be
+ discarded the moment it is found to be at hopeless variance with the
+ facts. If it can be proved that precisely the same degenerative processes
+ also take place in such superfluous parts as have only <i>passive</i> and
+ not active functions, as is the case with the <i>chitinous parts of the
+ skeleton of Arthropoda</i>, then it is a demonstrated fact, that the
+ cessation of functional action is not the efficient cause of the process
+ of degeneration. At once your legitimate working hypothesis is
+ transformed into an illegitimate dogma&mdash;illegitimate because it no
+ longer serves as a guide on the path to knowledge but <!-- Page 33
+ --><span class="pagenum"><a name="page33"></a>{33}</span>blocks that
+ path. For the person who is convinced he has found the right explanation
+ is not going to seek for it.</p>
+
+ <p>I can understand perfectly well the hesitation that has prevailed on
+ this point in many minds, from their having seen <i>one</i> aspect of the
+ facts more distinctly than the other. From this sceptical point of view
+ Osborn has drawn the following perfectly correct conclusion: "If acquired
+ variations are transmitted, there must be some unknown principle in
+ heredity; if they are not transmitted, there must be some unknown factor
+ in evolution."<a name="NtA12" href="#Nt12"><sup>[12]</sup></a></p>
+
+ <p>Such in fact is the case and I shall attempt to point out to you what
+ this factor is. My inference is a very simple one: if we are forced by
+ the facts on all hands to the assumption that the useful variations which
+ render selection possible are always present, then <i>some profound
+ connection must exist between the utility of a variation and its actual
+ appearance</i>, or, in other words, <i>the direction of the variation of
+ a part must be determined by utility</i>, and we shall have to see
+ whether facts exist that confirm our conjecture.</p>
+
+ <p>The facts do indeed exist and lie before our very eyes, despite their
+ not having been recognised as such before. All <i>artificial
+ selection</i> practised by man rests on the fact that by means of the
+ selection of individuals having a given character slightly more
+ pronounced than usual, there is gradually produced a general augmentation
+ of this character, which subsequently reaches a point never before
+ attained by any individual <!-- Page 34 --><span class="pagenum"><a
+ name="page34"></a>{34}</span>of this species. I shall choose an example
+ which seems to me especially clear and simple because only one character
+ has been substantially modified here. The long-tailed variety of domestic
+ cock, now bred in Japan and Corea, owes its existence to skilful
+ selection and not at all to the circumstance that at some period of the
+ race's history a cock with tail-feathers six feet in length suddenly and
+ spasmodically appeared. At the present day even, as Professor Ishikawa of
+ Tokio writes me, the breeders still make extraordinary efforts to
+ increase the length of the tail, and every inch gained adds considerably
+ to the value of the bird. Now nothing has been done here whatever except
+ always to select for purposes of breeding the cocks with the longest
+ feathers; and in this way alone were these feathers, after the lapse of
+ many generations, prolonged to a length far exceeding every previous
+ variation.</p>
+
+ <p>I once asked a famous dove-fancier, Mr. W. B. Tegetmeier of London,
+ whether it was his opinion that by artificial selection alone a character
+ could be augmented. He thought a long time and finally said: "It is
+ without our power to do anything if the variation which we seek is not
+ presented, but once that variation is given, then I think the
+ augmentation can be effected." And that in fact is the case. If cocks had
+ never existed whose tail-feathers were a little longer than usual the
+ Japanese breed could never have originated; but as the facts are, always
+ the cocks with the longest feathers were chosen from each generation, and
+ these only were bred, and thus a hereditary augmentation of the character
+ in question was effected, which would hardly have been deemed
+ possible.</p>
+
+ <p>Now what does this mean? Simply that the <!-- Page 35 --><span
+ class="pagenum"><a name="page35"></a>{35}</span>hereditary diathesis, the
+ constitutional predisposition (<i>Anlage</i>) of the breed was changed in
+ the respect in question, and our conclusion from this and numerous
+ similar facts of artificial selection runs as follows: <i>by the
+ selection alone of the plus or minus variations of a character is the
+ constant modification of that character in the plus or minus direction
+ determined.</i> Obviously the hereditary <i>diminution</i> of a part is
+ also effected by the simple selection of the individuals in each
+ generation possessing the smallest parts, as is proved, for example, by
+ the tiny bills and feet of numerous breeds of doves. We may assert,
+ therefore, in general terms: a definitely directed progressive variation
+ of a given part is produced by continued selection in that definite
+ direction. This is no hypothesis, but a direct inference from the facts
+ and may also be expressed as follows: <i>By a selection of the kind
+ referred to the germ is progressively modified in a manner corresponding
+ with the production of a definitely directed progressive variation of the
+ part.</i></p>
+
+ <p>In this general form the proposition is not likely to encounter
+ opposition, as certainly no one is prepared to uphold the view that the
+ germ remains unchanged whilst the products proceeding from it, its
+ descendants, are modified. On the contrary, all will agree when I say
+ that the germ in this case must have undergone modifications, and that
+ their character must correspond with the modifications undergone by its
+ products. Thus far, then, we find ourselves, not on the ground of the
+ hypothesis that has been lately so much maligned, but on the ground of
+ facts and of direct inferences from facts. But if we attempt to pierce
+ deeper into the problem, we are in need of the hypothesis. <!-- Page 36
+ --><span class="pagenum"><a name="page36"></a>{36}</span></p>
+
+ <p>The first and most natural explanation will be this&mdash;that through
+ selection the zero-point, about which, figuratively speaking, the organ
+ may be said to oscillate in its plus and minus variations, is displaced
+ upwards or downwards. Darwin himself assumed that the variations
+ oscillated about a mean point, and the statistical researches of Galton,
+ Weldon, and others have furnished a proof of the assumption. If
+ selection, now, always picks out the plus variations for imitation,
+ perforce, then, the mean or zero-point will be displaced in the upward
+ direction, and the variations of the following generation will oscillate
+ about a higher mean than before. This elevation of the zero-point of a
+ variation would be continued in this manner until the total equilibrium
+ of the organism was in danger of being disturbed.</p>
+
+ <p>There is involved here, however, an assumption which is by no means
+ self-evident, that every advancement gained by the variation in question
+ constitutes a new centre for the variations occurring in the following
+ generation. <i>That this is a fact</i>, is proved by such actual results
+ of selection as are obtained in the case of the Japanese cock. But the
+ question remains, Why is this the fact?</p>
+
+ <p>Now here, I think, my theory of determinants gives a satisfactory
+ answer. According to that theory every independently and hereditarily
+ variable part is represented in the germ by a <i>determinant</i>, that is
+ by a determinative group of vital units, whose size and power of
+ assimilation correspond to the size and vigor of the part. These
+ determinants multiply, as do all vital units, by growth and division, and
+ necessarily they increase rapidly in every individual, and the more
+ rapidly the greater the quantity of the germinal cells <!-- Page 37
+ --><span class="pagenum"><a name="page37"></a>{37}</span>the individual
+ produces. And since there is no more reason for excluding irregularities
+ of passive nutrition, and of the supply of nutriment in these minute,
+ microscopically invisible parts, than there is in the larger visible
+ parts of the cells, tissues, and organs, consequently the descendants of
+ a determinant can never all be exactly alike in size and capacity of
+ assimilation, but they will oscillate in this respect to and fro about
+ the maternal determinant as about their zero-point, and will be partly
+ greater, partly smaller, and partly of the same size as that. In these
+ oscillations, now, the material for further selection is presented, and
+ in the inevitable fluctuations of the nutrient supply I see the reason
+ why every stage attained becomes immediately the zero-point of new
+ fluctuations, and consequently why the size of a part can be augmented or
+ diminished by selection without limit, solely by the displacement of the
+ zero-point of variation as the result of selection.</p>
+
+ <p>We should err, however, if we believed that we had penetrated to the
+ root of the phenomenon by this insight. There is certainly some other and
+ mightier factor involved here than the simple selection of persons and
+ the consequent displacement of the zero-point of variation. It would
+ seem, indeed, as if in one case, <i>videlicet</i>, in that of the
+ Japanese cock, the augmentation of the character in question were
+ completely explained by this factor <i>alone</i>. In fact, in this and
+ similar cases we cannot penetrate deeper into the processes of variation,
+ and therefore cannot say <i>a priori</i> whether other factors have or
+ have not been involved in the augmentation of the character in
+ question&mdash;other characters, that is, than the simple displacement of
+ the zero-point. There is, however, another class of phyletic
+ modifications, which point <!-- Page 38 --><span class="pagenum"><a
+ name="page38"></a>{38}</span>unmistakably to the conclusion that the
+ displacement of the zero-point of variation by personal selection is not
+ and cannot be the only factor in the determination and accomplishment of
+ the direction of variation. I refer to <i>retrogressive development</i>,
+ the gradual degeneration of parts or characters that have grown useless,
+ the gradual disappearance of the eye in cave-animals, of the legs in
+ snakes and whales, of the wings in certain female butterflies, in short,
+ to that entire enormous mass of facts comprehended under the designation
+ of "rudimentary organs."</p>
+
+ <p>I have endeavored on a previous occasion to point out the significance
+ of the part played in the great process of animate evolution by these
+ retrogressive growths, and I made at the time the statement that "the
+ phenomena of retrogressive growth enabled us in a greater measure almost
+ than those of progressive growth to penetrate to the causes which produce
+ the transformations of animate nature." Although at that time<a
+ name="NtA13" href="#Nt13"><sup>[13]</sup></a> I had no inkling of certain
+ processes which today I shall seek to prove the existence of, yet my
+ statement receives a fresh confirmation from these facts.</p>
+
+ <p>For, in most retrogressive processes <i>active</i> selection in
+ Darwin's sense plays no part, and advocates of the Lamarckian principle,
+ as above remarked, have rightly denied that active selection, that is,
+ the selection of individuals possessing the useless organ in its most
+ reduced state, is sufficient to explain the process of degeneration. I,
+ for my part, have never assumed this, <!-- Page 39 --><span
+ class="pagenum"><a name="page39"></a>{39}</span>and I enunciated
+ precisely on this account the <i>principle of panmixia</i>. Now, although
+ this, as I still have no reason for doubting, is a perfectly correct
+ principle, which really does have an essential and indispensable share in
+ the process of retrogression, still it is not <i>alone</i> sufficient for
+ a full explanation of the phenomena. My opponents, in advancing this
+ objection, were right, to the extent indicated and as I expressly
+ acknowledge, although they were unable to substitute anything positive in
+ its stead or to render my explanation complete. The very fact of the
+ cessation of control over the organ is sufficient to explain its
+ <i>degeneration</i>, that is, its deterioration, the disharmony of its
+ parts, but not the fact which actually and always occurs where an organ
+ has become useless&mdash;viz., <i>its gradual and unceasing diminution
+ continuing for thousands and thousands of years culminating in its final
+ and absolute effacement.</i></p>
+
+ <p>If, now, neither the selection of persons nor the cessation of
+ personal selection can explain this phenomenon, assuredly some other
+ principle must be the efficient cause here, and this cause I believe I
+ have indicated in an essay written at the close of last year and only
+ recently published.<a name="NtA14" href="#Nt14"><sup>[14]</sup></a> I
+ call it <i>germinal selection</i>.</p>
+
+ <p>The principle in question reposes on the application, made some
+ fifteen years ago by Wilhelm Roux, of the principle of selection to the
+ <i>parts</i> of organisms&mdash;on the <i>struggle of the parts</i>, as
+ he called it. If such a struggle obtains among organs, tissues, and
+ cells, it must also obtain between the smallest and for us invisible
+ vital particles, not only between those of the body-cells, strictly so
+ called, but also between those of the <!-- Page 40 --><span
+ class="pagenum"><a name="page40"></a>{40}</span>germinal cells. Roux
+ himself spoke of the struggle of the molecules, by which he presumably
+ understood the smallest ultimate units of vital phenomena&mdash;elements
+ which De Vries designated pangenes, Wiesner plasomes, and I
+ <i>biophores</i>, after Brücke's ingenious conception<a name="NtA15"
+ href="#Nt15"><sup>[15]</sup></a> of these invisible entities had been
+ almost totally forgotten, or at least had lain unnoticed for thirty
+ years. No struggle, as that is understood in the theory of selection,
+ could take place between real <!-- Page 41 --><span class="pagenum"><a
+ name="page41"></a>{41}</span>molecules, for molecules are neither
+ nourished, subject to growth, nor propagated.</p>
+
+ <p>The gradual degeneration of organs grown useless may be explained,
+ now, by the theory of determinants very simply and without any
+ co-operation on the part of active personal selection, as follows.</p>
+
+ <p>Nutrition, it is known, is not merely a passive process. A part is not
+ only <i>nourished</i> but also actively <i>nourishes</i> itself, and the
+ more vigorously, the more powerful and capable of assimilation it is.
+ Hence powerful determinants in the germ will absorb nutriment more
+ rapidly than weaker determinants. The latter, accordingly, will grow more
+ slowly and will produce weaker descendants than the former.</p>
+
+ <p>Let us assume, now, that a part of the body, say the hinder
+ extremities of the quadruped ancestors of <!-- Page 42 --><span
+ class="pagenum"><a name="page42"></a>{42}</span>our common whales, are
+ rendered useless. Panmixia steps in, <i>i. e.</i>, selection ceases to
+ influence these organs. Individuals with large and individuals with small
+ hind legs are equally favored in the struggle for existence.</p>
+
+ <p>From this fact alone would result a degradation of the organ, but of
+ course it would not be very marked in extent, seeing that the minus
+ variations which occur are no longer removed. According to our
+ assumption, however, such minus variations repose on the weaker
+ determinants of the germ, that is, on such as absorb nutriment less
+ powerfully than the rest. And since every determinant battles stoutly
+ with its neighbors for food, that is, takes to itself as much of it as it
+ can, consonantly with its power of assimilation and proportionately to
+ the nutrient supply, therefore the unimpoverished neighbors of this minus
+ determinant will deprive it of its nutriment more rapidly than was the
+ case with its more robust ancestors; hence, it will be unable to obtain
+ the full quantum of food corresponding even to its weakened capacity of
+ assimilation, and the result will be that its ancestors will be weakened
+ still more. Inasmuch, now, as no weeding out of the weaker determinants
+ of the hind leg by personal selection takes place on our hypothesis,
+ inevitably the average strength of this determinant must slowly but
+ constantly diminish, that is, the leg must grow smaller and smaller until
+ finally it disappears altogether. The determinants<a name="NtA16"
+ href="#Nt16"><sup>[16]</sup></a> of the useless organ are constantly at
+ <!-- Page 43 --><span class="pagenum"><a name="page43"></a>{43}</span>a
+ disadvantage as compared with the determinants of their environment in
+ the germinal tenement, because no assistance is offered to them by
+ personal selection after they have once been weakened by a decrease of
+ the passive nutrient influx. Nor is the degeneration stopped by the
+ uninterrupted crossing of individuals in sexual propagation, but only
+ slightly retarded. The number of individuals with weaker determinants
+ must, despite this fact, go on increasing from generation to generation,
+ so that soon every determinant that still happens to be endowed with
+ exceptional vigor will be confronted by a decided overplus of weaker
+ determinants, and by continued crossing therefore will become more and
+ more impoverished. Panmixia is the indispensable precondition of the
+ whole process; for owing to the fact that persons with weak determinants
+ are just as capable of life as those with strong, owing to the fact that
+ they cannot now, as formerly, when the organ was still useful, be removed
+ by personal selection, solely by this means is a further weakening
+ effected in the following generations&mdash;in short, only by this means
+ are the determinants of the useless organ brought upon the inclined
+ plane, down which they are destined slowly but incessantly to slide
+ towards their completed extinction.</p>
+
+ <p>The foregoing explanation will be probably accepted as satisfactory
+ <i>in a purely formal regard</i>, but it will be objected that, even
+ granting this, it has not yet been proved to be the correct one. In
+ answer I can of course adduce nothing except that it is at present the
+ only one that can be given. It may be that the actual state of things in
+ nature is different, but if it can be shown that a self-direction of
+ variation merely from the need of it is at all conceivable by mechanical
+ means, <!-- Page 44 --><span class="pagenum"><a
+ name="page44"></a>{44}</span>that in itself, it seems to me, is a decided
+ gain. It must also not be forgotten that some process or other
+ <i>must</i> take place in the germ-plasm when an organ becomes
+ rudimentary, and that as the result of it this organ, and only this
+ organ, must disappear. Now in what shall this process consist, if not in
+ a modification of the constitution of the germ? And how could the effect
+ of such a modification be limited only to <i>one</i> organ which was
+ becoming rudimentary if the modification itself were not a local one?
+ These are questions which it is incumbent on those to answer who conceive
+ the germinal substance to be composed of like units.</p>
+
+ <p>Applying, now, the explanation derived from the disappearance of
+ organs to the opposed transformation, namely, to the <i>enlargement</i>
+ of a part, the presumption lies close at hand that the production of the
+ long tail-feathers of the Japanese cock does not repose solely on the
+ displacement directly effected by personal selection, of the zero-point
+ of variation upwards, but that <i>it is also fostered and strengthened by
+ germinal selection</i>. Were that not so, the phenomena of the
+ transmutation of species, in so far as fresh growth and the enlargement
+ and complication of organs already present are concerned, <i>would not be
+ a whit more intelligible than they were before</i>. We should know
+ probably how it comes to pass that the constitutional predisposition
+ (group of determinants) of a <i>single</i> organ is intensified by
+ selection, but the flood of objections against the theory of selection
+ touching its inability to modify <i>many</i> parts at once would not be
+ repressed by such knowledge. The initial impulse conditioning the
+ independent maintenance of the useful direction of variation in the
+ germ-plasm must rather be sought <!-- Page 45 --><span class="pagenum"><a
+ name="page45"></a>{45}</span>in the utility of the modification itself,
+ and this also seems to me intelligible from the side of the theory. For
+ as soon as personal selection favors the more powerful variations of a
+ determinant, the moment that these come to predominate in the germ-plasm
+ of the species, at once the tendency must arise for them to vary <i>still
+ more strongly</i> in the plus direction, not solely because the
+ zero-point has been pushed farther upwards, but because they themselves
+ now oppose a relatively more powerful front to their neighbors, that is,
+ actively absorb more nutriment, and upon the whole increase in vigor and
+ produce more robust descendants. From the relative vigor or dynamic
+ status of the particles of the germ-plasm, thus, will issue spontaneously
+ an ascending line of variation, precisely as the facts of evolution
+ require. For, as I have already said, it is not sufficient that the
+ augmentation of a character should be brought about by uninterrupted
+ personal selection, even supposing that the displacement of the
+ zero-point were possible without germinal selection.</p>
+
+ <p>Thus, I think, may be explained how personal selection imparts the
+ initial impulse to processes in the germ-plasm, which, when they are once
+ set agoing, persist of themselves in the same direction, and are,
+ therefore, in no need of the continued supplementary help of personal
+ selection, <i>as directed exclusively to a definite part</i>. If but from
+ time to time, that is, if upon the average the poorest individuals, the
+ bearers of the weakest determinants, are eliminated, the variational
+ direction of the part in question, now reposing on germinal selection,
+ must persist, and it will very slowly but very surely increase until
+ further development is impeded by its inutility and personal selection
+ <!-- Page 46 --><span class="pagenum"><a
+ name="page46"></a>{46}</span>arrests the process, that is, ceases to
+ eliminate the weaker individuals.</p>
+
+ <p>In this manner it becomes intelligible how a large number of
+ modifications varying in kind and far more so in degree can be guided
+ <i>simultaneously</i> by personal selection; how in strict conformity
+ with its adaptive wants every part is modified, or preserved unmodified;
+ how a given articulation can undergo modifications, causing it to
+ disappear on one side, to grow in volume on another, and to continue
+ unaltered on a third. For every part that is perfectly adapted, although
+ it can fluctuate slightly, yet can never undergo a permanent alteration
+ in the ascending or descending direction because every plus and every
+ minus variation which has attained selective value would be eliminated by
+ personal selection in the course of time. Therefore, a definite direction
+ of variation cannot arise in such cases and we have also reached, as it
+ seems to me, a satisfactory explanation of the <i>constancy</i> of
+ well-adapted species and characters.</p>
+
+ <p>Hitherto I have spoken only of plus and minus variation. But there
+ exist, as we know, not only variations of size but also variations of
+ <i>kind</i>; and the coloration of the wings of butterflies, which we
+ chose above as our example, would fall, according to the ordinary usage
+ of speech, under just this head of variations of quality. The question
+ arises, therefore, Have the principles just developed any claim to
+ validity in the explanation of <i>qualitative</i> modifications?</p>
+
+ <p>In considering this question it should be carefully borne in mind that
+ by far the largest part of the qualitative modifications falling under
+ this head rest on <i>quantitative</i> changes. Of course, chemical
+ transformations, which usually also involve quantitative <!-- Page 47
+ --><span class="pagenum"><a name="page47"></a>{47}</span>alterations,
+ cannot be reduced to the processes of augmentation described, inasmuch as
+ these, by their very nature, can be effected only in living elements
+ capable of increase by propagation; but the interference of selection
+ does not begin originally with the constitutional predisposition
+ (<i>Anlagen</i>) of the germ, i. e. with the determinants, but with the
+ ultimate units of life, the <i>biophores</i>.</p>
+
+ <p>A determinant must be composed of heterogeneous biophores, and on
+ their numerical proportion reposes, according to our hypothesis, their
+ specific nature. If that proportion is altered, so also is the character
+ of the determinant. But disturbances of this numerical proportion must
+ result at once on proof of their usefulness, or as soon as the
+ modifications determined thereby in the inward character of the
+ determinant turn out to be of utility. For fluctuations of nutriment and
+ the struggle for nutriment, with its sequent preference of the strongest,
+ must take place between the various species of the biophores as well as
+ between the species of the determinants. But changes in the quantitative
+ ratios of the biophores appear to us qualitative changes in the
+ corresponding determinants, somewhat as a simple augmentation of a
+ determinant, for example, that of a hair, may on its development appear
+ to us as a qualitative change, a spot on the skin where previously only
+ isolated hairs stood being now densely crowded with them, and assuming
+ thus the character of a downy piece of fur. The single hair need not have
+ changed in this process, and yet the spot has virtually undergone a
+ qualitative modification. The majority of the changes that appear to us
+ qualitative rest on invisible <i>quantitative</i> changes, and such can
+ be produced at all times and <i>at all stages</i> <!-- Page 48 --><span
+ class="pagenum"><a name="page48"></a>{48}</span><i>of the vital units</i>
+ by germinal selection. In a similar manner are induced the most varied
+ qualitative changes of the corresponding determinants and of the
+ characters conditioned thereby, just as changes in the numerical
+ proportions of atoms produce essential changes in the properties of a
+ chemical molecule.</p>
+
+ <p>In this way we acquire an approximate conception of the possible
+ mechanical <i>modus operandi</i> of actual events&mdash;namely, of the
+ manner in which the useful variations required by the conditions of life
+ <i>can</i> always, that is, very frequently, make their appearance. This
+ possibility is the sole condition of our being able to understand how
+ different parts of the body, absolutely undefined in extent, can appear
+ as variational units and vary in the same or in different directions,
+ according to the special needs of the case, or as the conditions of life
+ prescribe. Thus, for example, in the case of the butterfly's wings it
+ rests entirely with utility to decide the size and the shape of the spots
+ that shall vary simultaneously in the same direction. At one time the
+ whole under surface of the wing appears as the variational unit and has
+ the same color; at another the inside half, which is dark, is contrasted
+ with the outside half which is bright; or the same contrast will exist
+ between the anterior and posterior halves; or, finally, narrow stripes or
+ line-shaped streaks will behave as variational units and form contrasts
+ with manifold kinds of spots or with the broader intervals between them,
+ with the result that the picture of a leaf or of another protected
+ species is produced.</p>
+
+ <p>I must refrain from entering into the details of such cases and shall
+ illustrate my views regarding the color-transformations of butterflies'
+ wings by the simplest <!-- Page 49 --><span class="pagenum"><a
+ name="page49"></a>{49}</span>conceivable example&mdash;viz. that of the
+ uniform change of color on the entire under surface of the wing.</p>
+
+ <p>Suppose, for example, that the ancestral species of a certain
+ forest-butterfly habitually reposed on branches which hung near the
+ ground and were covered with dry or rotten leaves; such a species would
+ assume on its under surface a protective coloring which by its dark,
+ brown, yellow, or red tints would tend toward similarity with such
+ leaves. If, however, the descendants of this species should be
+ subsequently compelled, no matter from what cause, to adopt the habit of
+ resting on the green-leafed branches higher up, then from that period on
+ the brown coloring would act less protectively than the shades verging
+ towards green. And a process of selection will have set in which
+ consisted first in giving preference only to such persons whose brown and
+ yellow tints showed a tendency to green. Only on the assumption that such
+ shades were possible by a displacement in the quantitative proportions of
+ the different kinds of biophores composing the determinants of the scales
+ affected, was a further development in the direction of green possible.
+ Such being the case, however, that development <i>had to</i> result;
+ because fluctuations in the numerical proportions of the biophores are
+ always taking place, and consequently the material for germinal selection
+ is always at hand. At present it is impossible to determine exactly the
+ magnitude of the initial stages of the deviations thus brought about and
+ promoted by the sexual blending of characters; but it may perhaps be
+ ascertained in the future, with exceptionally favorable material. Pending
+ such special observations, however, it can only be said <i>a priori</i>
+ that slight changes in the composition of a determinant do not
+ necessarily <!-- Page 50 --><span class="pagenum"><a
+ name="page50"></a>{50}</span>condition similar slight deviations of the
+ corresponding character,&mdash;in this case the color,&mdash;just as
+ slight changes in the atomic composition of a molecule may result in
+ bestowing upon the latter widely different properties. As soon, however,
+ as the beginning has been made and a definite direction has been imparted
+ to the variation, as the result of this or that primary variation's being
+ preferred, the selective process must continue until the highest degree
+ of faithfulness required by the species in the imitation of fresh leaves
+ has been attained.</p>
+
+ <p>That the foregoing process has actually taken place is evidenced not
+ only by the presence of the beginnings of such transformations, as found
+ for example in some greenish-tinted specimens of Kallima, but mainly by
+ certain species of the South American genus Catonephele, all of which are
+ forest-butterflies, and which, with many species having dark-brown under
+ surfaces, present some also with bright green under surfaces&mdash;a
+ green that is not like the fresh green of our beech and oak trees, but
+ resembles the bright under surface of the cherry-laurel leaf, and is the
+ color of the under surfaces of the thick, leathery leaves, colored
+ dark-green above, borne by many trees in the tropics.</p>
+
+ <p>The difference between this and the old conception of the
+ selection-process consists not only in the fact that a large number of
+ individuals with the initial stages of the desired variation is present
+ from the beginning, for always innumerable plus and minus variations
+ exist, but principally in the circumstance that the constant
+ uninterrupted progress of the process after it is once begun is assured,
+ that there can never be a lack of progressively advantageous variations
+ in a large number of individuals. Selection, <!-- Page 51 --><span
+ class="pagenum"><a name="page51"></a>{51}</span>therefore, is now not
+ compelled to wait for accidental variations but produces such itself,
+ whenever the required elements for the purpose are present. Now, where it
+ is a question simply of the enlargement or diminution of a part, or of a
+ part of a part, these variations are always present, and in modifications
+ of quality they are at least present in many cases.</p>
+
+ <p>This is the only way in which I can see a possibility of explaining
+ phenomena of <i>mimicry</i>&mdash;the imitation of one species by
+ another. The useful variations must be produced in the germ itself by
+ internal selection-processes if this class of facts is to be rendered
+ intelligible. I refer to the mimicry of an exempt species by two or three
+ other species, or, the aping of <i>different</i> exempt patterns by
+ <i>one</i> species in need of protection. It must be conceded to Darwin
+ and Wallace that some degree of similarity between the copy and the
+ imitation was present from the start, at least in very many cases;<a
+ name="NtA17" href="#Nt17"><sup>[17]</sup></a> but in no case would this
+ have been sufficient had not slight shades of coloring afforded some hold
+ for personal selection, and in this way furnished a basis for independent
+ germinal selection acting only in the direction indicated. It would have
+ been impossible for such a minute similarity in the design, and
+ particularly in the shades of the coloration, ever to have arisen, if the
+ process of adaptation rested entirely <!-- Page 52 --><span
+ class="pagenum"><a name="page52"></a>{52}</span>on personal selection.
+ Were this so, a complete scale of the most varied shades of color must
+ have been continually presented as variations in every species, which
+ certainly is not the case. For example, when the exempt species <i>Acræa
+ Egina</i>, whose coloration is a brick-red, a color common only in the
+ genus Acræa, is mimicked by two other butterflies, a Papilio and a
+ Pseudacræa, so deceptively that not only the cut of the wings and the
+ pattern of their markings, but also that precise shade of brick-red,
+ which is scarcely ever met with in diurnal butterflies, are produced,
+ assuredly such a result cannot rest on accidental, but must be the
+ outcome of a <i>definitely directed</i>, variation, produced by utility.
+ We cannot assume that such a coloration has appeared as an
+ <i>accidental</i> variation in just and in only these two species, which
+ fly together with the <i>Acræa</i> in the same localities of the same
+ country and same part of the world&mdash;the Gold Coast of Africa. It is
+ conceivable, indeed, that non-directed variation should have accidentally
+ produced this brick-red <i>in a single case</i>, but that it should have
+ done so three times and in three species, which live together but are
+ otherwise not related, is a far more violent and improbable assumption
+ than that of a causal connexion of this coincidence. Now hundreds of
+ cases of such mimicry exist in which the color-tints of the copy are met
+ with again in more or less precise and sometimes in exceedingly exact
+ imitations, and there are thousands of cases in which the color-tint of a
+ bark, of a definite leaf, of a definite blossom, is repeated
+ <i>exactly</i> in the protectively colored insect. In such cases there
+ can be no question of accident, but <i>the variations presented to
+ personal selection must themselves have been produced by the principle of
+ the survival of the</i> <!-- Page 53 --><span class="pagenum"><a
+ name="page53"></a>{53}</span><i>fit!</i> And this is effected, as I am
+ inclined to believe, through such profound processes of selection in the
+ interior of the germ-plasm as I have endeavored to sketch to you to-day
+ under the title of germinal selection.</p>
+
+ <p>I am perfectly well aware how schematic my presentation of this
+ process is, and must be at present, owing mainly to our inability to gain
+ exact knowledge concerning the fundamental germinal constituents here
+ assumed. But I regard its existence as assured, although I by no means
+ underrate the fact that eminent thinkers, like Herbert Spencer, contest
+ its validity and believe they are warranted in assuming a germ which is
+ composed of <i>similar units</i>. I strongly doubt whether even so much
+ as a <i>formal</i> explanation of the phenomena can be arrived at in this
+ manner. So far as direct observation is concerned, the two theories stand
+ on an equal footing, for neither my dissimilar, nor Spencer's similar,
+ units of germinal substance can be <i>seen</i> directly.</p>
+
+ <p>The attempt has been recently made to discredit my <i>Anlagen</i>, or
+ constitutional germ-elements, on the ground that they are simply a
+ subtilised reproduction of Bonnet's old theory of preformation.<a
+ name="NtA18" href="#Nt18"><sup>[18]</sup></a> This <!-- Page 54 --><span
+ class="pagenum"><a name="page54"></a>{54}</span>impression is very likely
+ based upon ignorance of the real character of Bonnet's theory. I will not
+ go into further details here, particularly as Whitman, in several
+ excellently written and finely conceived essays, has recently afforded
+ opportunity for every one to inform himself on the subject. My
+ determinants and groups of determinants have nothing to do with the
+ preformations of Bonnet; in a sense they are the exact opposites of them;
+ they are simply <i>those living parts of the germ whose presence
+ determines the appearance of a definite organ of a definite character in
+ <!-- Page 55 --><span class="pagenum"><a name="page55"></a>{55}</span>the
+ course of normal evolution</i>. In this form they appear to me to be an
+ absolutely necessary and unavoidable inference from the facts. There
+ <i>must</i> be contained in the germ parts that correspond to definite
+ parts of the complete organism, that is, parts that constitute the reason
+ why such other parts are formed.</p>
+
+ <p>It is conceded even by my opponents that the reason why one egg
+ produces a chicken and another a duck is not to be sought in external
+ conditions, but lies in a difference of the germinal substance. Nor can
+ they deny that a difference of germinal substance must also constitute
+ the reason why a slight <i>hereditary</i> difference should exist between
+ two filial organisms. Should there now, in a possible instance, be
+ present between them a second, a third, a fourth, or a hundredth
+ difference of hereditary character, each of which could vary from the
+ germ, then, certainly, some second, third, fourth, or hundredth part of
+ the germ must have been different; for whence, otherwise, should the
+ heredity of the differences be derived, seeing that external influences
+ affecting the organism in the course of evolution induce only
+ non-transmissible and transient deviations? But the fact that every
+ complex organism is actually composed of a very large number of parts
+ independently alterable from the germ, follows not only from the
+ comparison of allied species, but also and principally from the
+ experiments long conducted by man in artificial selection, and by the
+ consequent and not infrequent change of only a single part which happens
+ to claim his interest; for example, the tail-feathers of the cock, the
+ fruit of the gooseberry, the color of a single feather or group of
+ feathers, and so on. But a still more cogent proof is furnished by the
+ degeneration of parts grown <!-- Page 56 --><span class="pagenum"><a
+ name="page56"></a>{56}</span>useless, for this process can be carried on
+ to almost any extent without the rest of the body necessarily becoming
+ involved in sympathetic alteration. Whole members may become rudimentary,
+ like the hind limbs of the whale, or it may be only single toes or parts
+ of toes; the whole wing may degenerate in the females of a butterfly
+ species, or only a small circular group of wing-scales, in the place of
+ which a so-called "window" arises. A single vein of the wing also may
+ degenerate and disappear, or the process may affect only a part of it,
+ and this may happen in one sex only of a species. In such cases the rest
+ of the body may remain absolutely unaltered; only a stone is taken out of
+ the mosaic.</p>
+
+ <p>The assumption, thus, appears to me irresistible, that every such
+ hereditary and likewise independent and very slight change of the body
+ rests on some alteration of a <i>single</i> definite particle of the
+ germinal substance, and not as Spencer and his followers would have it,
+ on a change of <i>all</i> the units of the germ. If the germinal
+ substance consisted wholly of like units, then in every change, were it
+ only of a single character, <i>each</i> of these units would have to
+ undergo exactly the same modification. Now I do not see how this is
+ possible.</p>
+
+ <p>But it may be that Spencer's assumption is the <i>simpler</i> one?
+ Quite the contrary, its simplicity is merely apparent. Whilst my theory
+ needs for each modification only a modification of <i>one</i>
+ constitutional element of the germ, that is, of <i>one</i> particle of
+ the germinal substance, according to Spencer <i>every</i> particle of
+ that substance must change, for they are all supposed to be and to remain
+ alike. But seeing that all hereditary differences, be they of
+ individuals, races, <!-- Page 57 --><span class="pagenum"><a
+ name="page57"></a>{57}</span>or species, must be contained in the germ,
+ the obligation rests on these similar units, or rather the capacity is
+ required of them, to produce in themselves a truly enormous number of
+ differences. But this is possible only provided their composition is an
+ exceedingly complex one, or only on the condition that in every one of
+ them are contained as many alterable particles as according to my view
+ there are contained determinants in the whole germ. <i>The differences
+ that I put into the whole germ, Spencer and his followers are obliged to
+ put into every single unit of the germinal substance.</i> My position on
+ this point appears to me incontrovertible so long as it is certain that
+ the single characters can vary hereditarily; for, if a thing can vary
+ independently, that is, <i>of its own accord</i>, and <i>from the
+ germ</i>, then that thing must be represented in the germ by some
+ particle of the substance, <i>and be represented there in such wise that
+ a change of the representative particle produces no other change in the
+ organism developing from the germ than such as are connected with the
+ part which depends on it</i>. I conceive that even on the assumption of
+ my constitutional elements (<i>Anlagen</i>) the germ-plasm is complex
+ enough, and that there is no need of increasing its complexity to a
+ fabulous extent. Be that as it may, the person who fancies he can produce
+ a complex organism from a <i>really</i> simple germinal substance is
+ mistaken: he has not yet thoroughly pondered the problem. The so-called
+ "epigenetic" theory with its <i>similar</i> germinal units is therefore
+ naught else than an evolution-theory where the primary constitutional
+ elements are reduced to the molecules and atoms&mdash;a view which in my
+ judgment is inadmissible. A <i>real</i> <!-- Page 58 --><span
+ class="pagenum"><a name="page58"></a>{58}</span>epigenesis from
+ absolutely <i>homogeneous</i> and not merely <i>like</i> units is not
+ thinkable.</p>
+
+ <p>All value has been denied my doctrine of determinants<a name="NtA19"
+ href="#Nt19"><sup>[19]</sup></a> on the ground that it only shifts the
+ riddles of evolution to an invisible terrain where it is impossible for
+ research to gain a foothold.</p>
+
+ <p>Now I have indeed to admit that no information can be gained
+ concerning my determinants, either with the aided or with the unaided
+ eye. But fortunately there exists in man another organ which may be of
+ use in fathoming the riddles of nature and this organ which is called the
+ brain has in times past often borne him out in the assumption of
+ invisible entities&mdash;entities that have not always proved unfruitful
+ for science by reason of that defect, in proof whereof we may instance
+ the familiar assumptions of atoms and molecules. Probably the biophores
+ also will be included under that head if the determinants should be
+ adjudged utterly unproductive. But so far I have always held that
+ assumptions of this kind <i>are</i> really productive, if they are only
+ capable of being used, so to speak, as a <i>formula</i>, whereby to
+ perform our computations, unconcerned for the time being as to what shall
+ be its subsequent fate. Now, as I take it, the determinants have had
+ fruitful results, as their application to various biological problems
+ shows. Is it no advance that we are able to reduce the scission of a form
+ of life into two or several forms subject to separately continued but
+ recurrent changes,&mdash;I refer to dimorphism and
+ polymorphism,&mdash;that we are able to reduce such phenomena to the
+ formula of male, female, and worker determinants? It has been, I think,
+ <!-- Page 59 --><span class="pagenum"><a
+ name="page59"></a>{59}</span>rendered conceivable how these diverse and
+ extremely minute adaptations could have developed side by side in the
+ same germ-plasm, under the guidance of selection; how sterile forms could
+ be <i>hereditarily</i> established and transformed in just that manner
+ which best suits with their special duties; and how they themselves under
+ the right circumstances could subsequently split up into two or even into
+ three new forms. Surely at least the unclear conception of an
+ <i>adaptively</i> transformative influence of food must be discarded. It
+ is true, we cannot penetrate by this hypothesis to the last root of the
+ phenomena. The hotspurs of biology, who clamor to know forthwith how the
+ molecules behave, will scarcely repress their dissatisfaction<a
+ name="NtA20" href="#Nt20"><sup>[20]</sup></a> with such provisional
+ knowledge&mdash;forgetful that <i>all our knowledge is and remains
+ throughout provisional</i>.</p>
+
+ <p>But I shall not enter more minutely into the question whether
+ epigenesis or evolution is the right foundation of the theory of
+ development, but shall content myself with having shown, first, that it
+ is illusory to imagine that epigenesis admits of a simpler structure of
+ the germ, (the precise opposite is true,) and secondly, that there are
+ phenomena that can be understood only by an evolution-theory. Such a
+ phenomenon is <!-- Page 60 --><span class="pagenum"><a
+ name="page60"></a>{60}</span>the <i>guidance of variation by utility</i>,
+ which we have considered to-day. For without primary constituents of the
+ germ, whether they are called as I call them, determinants, or something
+ else, <i>germinal selection</i>, or guidance of variation by personal
+ selection, is impossible; for where all units are alike there can be no
+ struggle, no preference of the best. And yet such a guidance of variation
+ exists and demands its explanation, and the early assumptions of a
+ "definitely directed variation" such as Nägeli and Askenasy made are
+ insufficient, for the reason that they posit only <i>internal</i> forces
+ as the foundations thereof, and because, as I have attempted to show, the
+ harmony of the direction of variation with the requirements of the
+ conditions of life subsists and represents the riddle to be solved.
+ <i>The degree of adaptiveness which a part possesses itself evokes the
+ direction of variation of that part.</i></p>
+
+ <p>This proposition seems to me to round off the whole theory of
+ selection and to give to it that degree of inner perfection and
+ completeness which is necessary to protect it against the many doubts
+ which have gathered around it on all sides like so many lowering
+ thunder-clouds. The moment variation is determined substantially though
+ not exclusively by the adaptiveness itself, all these doubts fall to the
+ ground, with <i>one</i> exception, that of the utility of the initial
+ steps. But just this objection is the least weighty. Without doubt the
+ theory requires that the initial steps of a variation should also have
+ selective value; otherwise personal selection and hence germinal
+ selection could not set in. Since, however, as I have before pointed out,
+ <i>in no case can we pretend to a judgment regarding the selective value
+ of a modification, or have any</i> <!-- Page 61 --><span
+ class="pagenum"><a name="page61"></a>{61}</span><i>experience
+ thereof</i>, therefore the assumption that in a given case where a
+ character is transformed the original initial steps of the variation did
+ have selective value, is not only as probable as the opposed assumption
+ that they had none, but is <i>infinitely more probable</i>, for with this
+ we can give an intelligible explanation of the mysterious fact of
+ adaptation, while with that we cannot. Consequently, unless we are
+ resolved to give up all attempts whatsoever at explanation, we are forced
+ to the assumption that the initial steps of all actually affected
+ adaptations possessed selective value.</p>
+
+ <p>The principal and fundamental objection that selection is unable to
+ create the variations with which it works, is removed by the apprehension
+ that a germinal selection exists. Natural selection is not compelled to
+ wait until "chance" presents the favorable variations, but supposing
+ merely that the groundwork for favorable variations is present in the
+ transforming species, that is, supposing merely that in the
+ constitutional basis of the part to be changed are contained components
+ which render favorable variations possible by a change of their numerical
+ ratio, then those variations <i>must</i> occur, for the reason that
+ quantitative fluctuations are always happening, and they must also be
+ augmented as soon as personal selection intervenes and permanently holds
+ over them her protecting hand. Not only is the marvelous <i>certainty and
+ exactitude</i> with which adaptation has operated in so many individual
+ cases, rendered intelligible in this manner, but what is more difficult,
+ we are able to understand the <i>simultaneity</i> of numerous and totally
+ different modifications of the most diverse parts co-operant towards some
+ collective end, such as we see so frequently occur, <!-- Page 62 --><span
+ class="pagenum"><a name="page62"></a>{62}</span>for example, in the
+ simultaneous rise of instincts and protective similarities, or in the
+ harmonious and simultaneous augmentation of two co-operant but
+ independent organs, as of the eye and of the centre of vision, or of the
+ nerve and its muscle, etc.</p>
+
+ <p>The "secret law," of which Wolff prophetically speaks in his criticism
+ of selection, is in all likelihood naught else than germinal selection.
+ This it is that brings it about that the necessary variations are always
+ present, that symmetrical parts, for example, the two eyes, usually vary
+ alike, but under circumstances may vary differently, for example, the two
+ visual halves of soles; that homodynamic parts, (for instance, the
+ member-pairs of Arthropoda,) have frequently varied alike, and not
+ infrequently and in conformity with the needs of the animal, have varied
+ differently. It brings it about also that conversely species of quite
+ different fundamental constitutions occasionally vary alike, as instances
+ of mimicry and numerous other cases of convergence show us. As soon as
+ utility itself is supposed to exercise a determinative influence on the
+ direction of variation, we get an insight into the entire process and
+ into much else besides that has hitherto been regarded as a
+ stumbling-block to the theory of selection, and which did indeed present
+ difficulties that for the moment were insuperable&mdash;as, for example,
+ the like-directed variation of a large number of already existing similar
+ parts, seen in the origin of feathers from the scales of reptiles. The
+ utility in the last-mentioned instance consisted, not in the
+ transformation of one or two, but of <i>all</i> the scales; consequently
+ the line of variation of <i>all</i> the scales must have been started
+ simultaneously in the same direction. A large part of the objections to
+ the theory of selection <!-- Page 63 --><span class="pagenum"><a
+ name="page63"></a>{63}</span>that have been recently brought forward by
+ the acutest critics, as for example by Wigand, but particularly by
+ Wolff,<a name="NtA21" href="#Nt21"><sup>[21]</sup></a> find, as I
+ believe, their refutation in this doctrine of germinal selection. The
+ principle extends precisely as far as utility extends, inasmuch as it
+ creates, not only the direction of variation for every increase or
+ diminution demanded by the circumstances, but also every qualitative
+ direction of variation attainable by changes of quantity, so far as that
+ is at all possible for the organism in question.</p>
+
+ <p>Considering also the contrary process, the degeneration of useless
+ parts by the cessation of selection in regard to the normal size of that
+ part, a clear light is shed on that whole complex system of ascending and
+ descending modifications which makes up most of the transformations of a
+ living form, and we are led to understand how the fore extremity of a
+ mammal can change into a fin at the same time that the <i>hinder</i>
+ extremity is growing rudimentary, or how one or two toes of a hoofed
+ animal can continue to develop more and more powerfully, whilst the
+ others in the same degree grow weaker and weaker until finally they have
+ disappeared entirely from the germ of most of the individuals of the
+ species.</p>
+
+ <p>Possibly some of that large body of inquirers, mostly paleontologists,
+ who till now have considered the Lamarckian principle indispensable for
+ the explanation of these phenomena&mdash;perhaps some, I say, will not
+ utterly close their eyes to the insight that germinal selection performs
+ the same services for the understanding of observed transformations,
+ particularly of <!-- Page 64 --><span class="pagenum"><a
+ name="page64"></a>{64}</span>the degeneration of superfluous parts, that
+ a heredity of acquired characters would perform, without rendering
+ necessary so violent an assumption. I have always conceded that many
+ transformations actually do run parallel to the use and disuse of the
+ parts,<a name="NtA22" href="#Nt22"><sup>[22]</sup></a> that therefore it
+ does really look as if functional acquisitions of the individual life
+ were hereditary. But if it be found that <i>passively functioning
+ parts</i>, that is, parts which are not alterable during the individual
+ life by function, obey the same laws and also degenerate when they become
+ useless, then we shall scarcely be able to refuse our assent to a view
+ which explains both cases. It certainly cannot be the physiological
+ function which provokes modifications in the individual, which are then
+ subsequently transmitted to the germ and in this way made hereditary, if
+ <i>functionless parts also change</i> when they become useless. It is
+ precisely this <i>uselessness</i>, then, from which the initial impulse
+ emanates, and the primary modification is not in the soma but in the
+ germ.</p>
+
+ <p>The Lamarckians were right when they maintained that the factor for
+ which hitherto the name of natural selection had been exclusively
+ reserved, viz., <i>personal</i> selection, was insufficient for the
+ explanation of the phenomena. They were also right when they declared
+ that panmixia in the form in which until recently I held the theory was
+ also insufficient to explain the degeneration of parts that had grown
+ useless, but they <!-- Page 65 --><span class="pagenum"><a
+ name="page65"></a>{65}</span>erred when they ascribed hereditary effects
+ to the selection-processes which are enacted among the parts of the body
+ (Wilhelm Roux) and which are rightly regarded as the results of
+ functioning. And they did this, moreover, as they themselves admit, not
+ because the facts of heredity directly and unmistakably required it, but
+ because they saw no other possibility of explaining many phenomena of
+ transformation. I am fain to relinquish myself to the hope that now after
+ another explanation has been found, a reconciliation and unification of
+ the hostile views is not so very distant, and that then, we can continue
+ our work together on the newly laid foundations.</p>
+
+ <p>That the application of the Malthusian principle was thoroughly
+ justified is now clear. <i>The entire process of the development of
+ living forms is guided by this principle.</i> The struggle for existence,
+ <i>videlicet</i>, for food and propagation, takes place at all the stages
+ of life between all orders of living units from the biophores recently
+ disclosed upwards to the elements that are accessible to direct
+ observation, to the cells, and still higher up, to individuals and
+ colonies. Consequently, in all the divers orders of biological units
+ lying between the two extremes of biophores and colonies, the
+ modifications must be controlled by selective processes; therefore, these
+ govern every change of living forms no matter what its significance, and
+ bring it about that the latter fit their conditions of life as wax does
+ the mould; and the various stages of these processes, as enacted between
+ the divers orders of biological units, in all organisms not absolutely
+ simple, are involved in incessant and mutual interaction. The three
+ principal stages of selection, that of <!-- Page 66 --><span
+ class="pagenum"><a name="page66"></a>{66}</span><i>personal</i>
+ selection<a name="NtA23" href="#Nt23"><sup>[23]</sup></a> as it was
+ enunciated by Darwin and Wallace, that of <i>histonal</i> selection as it
+ was established by Wilhelm Roux in the form of a "struggle of the parts,"
+ and finally that of <i>germinal selection</i> whose existence and
+ efficacy I have endeavored to substantiate in this article&mdash;these
+ are the factors that have co-operated to maintain the forms of life in a
+ constant state of viability and to adapt them to their conditions of
+ life, now modifying them <i>pari passu</i> with their environment, and
+ now maintaining them on the stage attained, when that environment is not
+ altered.</p>
+
+ <p>Everything is adapted in animate nature<a name="NtA24"
+ href="#Nt24"><sup>[24]</sup></a> and has been from the first beginnings
+ of life; for adaptiveness of organisation is here equivalent to the power
+ to exist, and they alone have had the power to exist who have permanently
+ existed. <i>We know of only one natural principle of explanation for this
+ fact&mdash;that of selection <!-- Page 67 --><span class="pagenum"><a
+ name="page67"></a>{67}</span>of the picking out of those having the power
+ to exist from those having the power to originate.</i> If there is any
+ solution possible to the riddle of adaptiveness to ends,&mdash;a riddle
+ held by former generations to be insoluble,&mdash;it can be obtained only
+ through the assistance of this principle of the self-regulation of the
+ originating organisms, and we should not turn our faces and flee at the
+ sight of the first difficulties that meet its application, but should
+ look to it whether the apparent effects of this single principle of
+ explanation are not founded in the imperfect application that is made of
+ it.</p>
+
+ <p>If I am not mistaken the situation is as follows: We had remained
+ standing half way. We had applied the principle, but only to a portion of
+ the natural units engaged in struggle. If we apply the principle
+ throughout we reach a satisfactory explanation. Selection of
+ <i>persons</i> alone is <i>not sufficient</i> to explain the phenomena;
+ <i>germinal</i> selection must be added. Germinal selection is the last
+ consequence of the application of the principle of Malthus to living
+ nature. It is true it leads us into a terrain which cannot be submitted
+ directly to observation by means of our organs of touch and by our eyes,
+ but it shares this disadvantage in common with all other ultimate
+ inferences in natural science, even in the domain of inorganic <!-- Page
+ 68 --><span class="pagenum"><a name="page68"></a>{68}</span>nature: in
+ the end all of them lead us into hypothetical regions. If we are not
+ disposed to follow here, nothing remains but to abandon utterly the hope
+ of explaining the adaptive character of life&mdash;a renunciation which
+ is not likely to gain our approval when we reflect that by the other
+ method is actually offered at least in principle, not only a broad
+ insight into the adaptation of the single forms of life to their
+ conditions, but also into the mode of formation of the living world as a
+ whole. The variety of the organised world, its transformation by
+ adaptation to new, and by reversed adaptation to old conditions, the
+ inequality of the systematic groups, the attainment of the same ends by
+ different means, that is, by different organisations, and a thousand and
+ one other things assume on this hypothesis in a certain measure an
+ intelligible form, whilst without it they remain lifeless facts.</p>
+
+ <p>And so in this case, I may say, that again doubt is the parent of all
+ progress. For the idea of germinal selection has its roots in the
+ necessity of putting something else in the place of the Lamarckian
+ principle, after that had been recognised as inadequate. That principle
+ did, indeed, seem to offer an easy explanation of many phenomena, but
+ others stood in open contradiction to it, and consequently that was the
+ point at which the lever had to be applied if we were to penetrate deeper
+ into the phenomena in question. For it is at the places where previous
+ views are at variance with facts that the divining rod of the
+ well-seekers must thrice nod. There lie the hidden waters of knowledge,
+ and they will leap forth as from an artesian well if he who bores will
+ only drive undaunted his drill into their depths.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<p><!-- Page 69 --><span class="pagenum"><a name="page69"></a>{69}</span></p>
+
+<h2>APPENDIX.</h2>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">I. THE REJECTION OF SELECTION.</p>
+
+ <p>Many years ago Semper<a name="NtA25" href="#Nt25"><sup>[25]</sup></a>
+ denied the power of selection to create an organ, declaring that the
+ organ must have previously existed before selection could have increased
+ and developed it. More recently Wolff<a name="NtA26"
+ href="#Nt26"><sup>[26]</sup></a> has distinguished himself by the vigor
+ with which he has attacked the "task" of "setting aside the dogma of
+ selection." Henry B. Orr<a name="NtA27" href="#Nt27"><sup>[27]</sup></a>
+ is also of opinion that selection is not the real cause of improved
+ organic states; he regards it as a factor checking growth in certain
+ directions, but not as a cause producing growth. Likewise Yves Delâge,<a
+ name="NtA28" href="#Nt28"><sup>[28]</sup></a> in his recent voluminous
+ but in many respects excellent work, regards natural selection solely as
+ a subordinate principle which is devoid of all power to create species
+ (p. 391), although he grants to it certain functions, and even
+ characterises it <!-- Page 70 --><span class="pagenum"><a
+ name="page70"></a>{70}</span>as "an admirable and perfectly legitimate
+ principle" (p. 371). A more pronounced opponent of selection, of any
+ kind, as a principle creating species, is the Rev. Mr. Henslow,<a
+ name="NtA29" href="#Nt29"><sup>[29]</sup></a> whose views we shall
+ discuss later, in Division VII. of this Appendix.</p>
+
+ <p>Finally, must be mentioned the name of Th. Eimer, as that of a
+ pronounced and bitter enemy of the theory of selection. I shall leave it
+ to others to decide whether he can properly be called an "opponent" of
+ the principle, in the scientific acceptance of the word. I can see in the
+ blind railings of the Tübingen Professor nothing but a reiteration of the
+ same unproved assertions, mingled with loud praises of his own doughty
+ performances and captious onslaughts on every one who does not value them
+ as highly as their originator.<a name="NtA30"
+ href="#Nt30"><sup>[30]</sup></a></p>
+
+ <p>The lack of confidence latterly placed in the theory of selection even
+ by professed adherents of the doctrine, is well shown by such remarks as
+ the following <!-- Page 71 --><span class="pagenum"><a
+ name="page71"></a>{71}</span>from Emery,<a name="NtA31"
+ href="#Nt31"><sup>[31]</sup></a> who says: "Some pupils of Darwin have
+ gone beyond their master and discovered in natural selection the sole and
+ universal factor controlling variations. Thus there has arisen in the
+ natural course of things a reaction, especially on the part of those who,
+ while they accept evolution, will have naught to do with natural
+ selection or Darwinism as they call it." Emery then professes himself a
+ Darwinian, although not in the sense of Wallace and "other co-workers and
+ pupils of Darwin." For him "natural selection is a very important factor
+ in evolution, and in determining the direction of variation plays the
+ highest part; but it is far from being the only factor and is probably
+ also not the most efficient factor." Not the most efficient factor but
+ plays the highest part!</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">II. CHEMICAL SELECTION.</p>
+
+ <p>If we refer adaptation to selection, we have also to trace back to
+ this source the origin of the organic combinations which make up the
+ various tissues of the body and which go by the collective name of
+ muscular, nervous, glandular substance, etc. Lloyd Morgan has prettily
+ likened the vital processes to the periodic formation and discharge of
+ explosive substances.<a name="NtA32" href="#Nt32"><sup>[32]</sup></a>
+ Unstable combinations are upon the application of a <!-- Page 72 --><span
+ class="pagenum"><a name="page72"></a>{72}</span>stimulus suddenly
+ disintegrated into simpler and more stable compounds; through this
+ disintegration they evoke what is called the function of the
+ disintegrating part&mdash;for example, certain changes of form (muscular
+ contractions) or the excretion of the disintegrated products, etc.</p>
+
+ <p>Now how is it possible that such unstable chemical combinations,
+ answering exactly to the needs of life, could have arisen in such
+ marvellous perfection if the <i>useful</i> variations had not always been
+ presented to the ceaselessly working processes of selection? or, if the
+ constantly increasing adaptation to the constantly augmenting delicacy of
+ operation of physiological substances had depended in its last resort on
+ <i>accidental</i> variations? Hence, not only with regard to the "form"
+ of organs, but also with regard to the chemical and physiological
+ composition of their materials, we are referred to the constant presence
+ of appropriate variations.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">III. VARIATION AND MUTATION.</p>
+
+ <p>I have still to add a few remarks on the subject touched on in the <a
+ href="#Nt11">footnote</a> at page <a href="#page31">31</a>. The view
+ there referred to was discussed by Professor Scott before in an article
+ published in the <i>American Journal of Science</i>, Vol. XLVIII., for
+ November, 1894, entitled "On Variations and Mutations." Following the
+ precedent of Waagen and Neumayr, Scott sharply discriminates between the
+ inconstant vacillating variations which it is supposed [?] produce
+ simultaneously occurring "varieties," and "mutations," or the
+ successively evolved <i>time</i>-variations of a phylum, which constitute
+ the stages of phyletic development. The facts on which this view is based
+ are those already <!-- Page 73 --><span class="pagenum"><a
+ name="page73"></a>{73}</span>adduced in the text&mdash;the
+ <i>Zielstrebigkeit</i> (to use K. E. von Bär's phraseology) displayed in
+ the visible paleontological development, the directness of advance of the
+ modifications to a final "goal." "The direct, unswerving way in which
+ development proceeds, however slowly, is not suggestive of many trials
+ and failures in all directions save one." And again, "The march of
+ transformation is the resultant of forces both internal and external
+ which operate in a <i>definite manner</i> upon a changeable organism and
+ similarly affect <i>large numbers of individuals</i>."</p>
+
+ <p>The two points which I have here italicised are actually the facts
+ which separate phylogenetic from common individual variation: the
+ definite <i>manner</i> of the change, repeated again and again without
+ modification, and its occurrence in a <i>large number of
+ individuals</i>.</p>
+
+ <p>Still the two are not solely a result of observation, deduced from
+ paleontological data; they are also <i>a consequence of the theory of
+ selection</i>, as was shown in the text. If the theory in its previous
+ form was unable to fulfil this requirement, it is certainly now able to
+ do so after germinal selection has been added, and it is not in any sense
+ necessary to assume a difference of <i>character</i> between phylogenetic
+ and ontogenetic variations. Bateson and Scott are wrong in imagining that
+ I ask them "to abrogate reason" in pronouncing the "omnipotence of
+ natural selection." On the contrary, the theory seems to me to accord so
+ perfectly with the facts that we might, by reversing the process,
+ actually construct the facts from the theory. What other than the actual
+ conditions could be expected, if it is a fact that selection favors only
+ the useful variations and singles them out from the rest by producing
+ them in <!-- Page 74 --><span class="pagenum"><a
+ name="page74"></a>{74}</span>increasing distinctness and volume with
+ every generation, and also in an increasing number of individuals? The
+ mere displacement of the zero-point of useful variations alone must
+ produce this effect, especially when it is supported by germinal
+ selection. It is impossible, indeed, to see how considerable, that is
+ perceptible, deviations could arise at all on the path of phyletic
+ development if in each generation a large number of individuals always
+ possessed the useful, that is, the phyletic variations? In fact, by the
+ assumption itself, the difference between useful and less useful
+ variations is merely one of degree, and that a slight one.</p>
+
+ <p>Hence, as I before remarked at page 31, I see no reason for assuming
+ two kinds of hereditary variations, <i>distinct as to their origin</i>,
+ such as Scott and the other palæontologists mentioned have been led to
+ adopt, although with the utmost caution. I believe there is only one kind
+ of variation proceeding from the germ, and that these germinal variations
+ play quite different rôles according as they lie or do not lie on the
+ path of adaptive transformation of the species, and consequently are or
+ are not favored by germinal selection. To repeat what I have said in the
+ footnote to page 31 only a relatively small portion of the numberless
+ individual variations lie on the path of phyletic advancement and so mark
+ out under the <i>guidance</i> of germinal selection the way of further
+ development; and hence it would be quite possible to distinguish
+ continuous, <i>definitely directed</i> variations from such as fluctuate
+ hither and thither with no uniformity in the course of generations. The
+ origin of the two is the same; they bear in them nothing that
+ distinguishes the one from the other, and their success alone, that <!--
+ Page 75 --><span class="pagenum"><a name="page75"></a>{75}</span>is, the
+ actual resultant phyletic modification, permits their being known as
+ phyletic or as vacillating variations. Uncertain fluctuations along the
+ path of evolution are what the geologists would be naturally led to
+ expect from the theory of selection, but which they were unable to
+ discover in the facts; it is evident, however, that these fluctuations
+ are not a logical consequence of the theory of selection as that is
+ perfected by germinal selection, and there seems to me to be no reason
+ now for attributing "variations" to the union of changing hereditary
+ tendencies, while "mutations" are ascribed to the effect "of dynamical
+ agencies acting long in a uniform way, and the results controlled by
+ natural selection."</p>
+
+ <p>The idea which the Grecian philosophers evolved of the thousands of
+ non-adaptive formations that nature brings forth by the side of adaptive
+ ones, and which must subsequently all perish as being unfit to live, is
+ certainly correct in its ultimate foundations. But it is in need of far
+ more radical refinement than it underwent in the hands of Empedocles, or
+ than it seems likely to undergo at the hands of many contemporary
+ inquirers. We know now that nature did not produce isolated eyes, ears,
+ arms, legs, and trunks, and afterwards permit them to be joined together
+ just as the play of the fundamental forces of love and hatred directed,
+ leaving the monsters to perish and granting permanent existence only to
+ harmonious products. Yet there is a weak echo of this conception,
+ although infinitely far removed from its prototype, in the question as to
+ where all the non-adaptive individuals are preserved that have perished
+ in the struggle for existence and been eliminated from development by
+ selection? Where, for example, are the fossil remains <!-- Page 76
+ --><span class="pagenum"><a name="page76"></a>{76}</span>of the rejected
+ individuals in the line of the Horses? Certainly they should be
+ forthcoming in far larger numbers than the individuals lying directly in
+ the path of development, for by our very assumption the latter were
+ greatly in the minority in every generation. Doubtless the question would
+ be a proper one if our eyes were sufficiently keen-sighted to assign the
+ life-value of the various minute differences that distinguish the
+ "better" from the "worse" individuals of every generation. But this is a
+ task which we can accomplish at best only with selective processes which
+ are artificially directed by ourselves, as in the case of doves and
+ chickens, and even there only with the utmost difficulty and only with
+ reference to a single characteristic and not with any species which
+ to-day exists in the state of nature. Picture, then, the difficulties
+ attending such a task as applied to the meagre fossilic bones of
+ prehistoric species, touching which the richest discoveries never so much
+ as remotely approach to the actual number of individuals that have lived
+ together for a <i>single</i> generation in the same habitat. If the
+ differences between good and bad in a single generation were striking
+ enough to be immediately remarked <i>as such</i> in fossil bones, the
+ development of species would take place so rapidly that we could directly
+ witness it in living species.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">IV. REMARKS ON THE HISTORY OF DEFINITELY DIRECTED
+VARIATIONS.</p>
+
+ <p>As to the attempt here made to apply the selective process to the
+ elements of the germinal substance (the idioplasm) and thus to acquire a
+ foothold for definitely directed variation not blind in its tendency but
+ <!-- Page 77 --><span class="pagenum"><a
+ name="page77"></a>{77}</span>proceeding in the direction of adaptive
+ growth, it is remarkable that the same was not made long ago by some one
+ or other of the many who have thought and written on selection and
+ evolution.</p>
+
+ <p>Allusions to a connexion between the direction of variation and the
+ selective processes are to be found, but they remained unnoticed or
+ undeveloped. I have been able to find at least two such observations, but
+ would not wish to assert that there are not more of them hidden somewhere
+ in the literature of the subject. One of them is old and comes from Fritz
+ Müller. It was appended by his brother Hermann as a "Supplementary
+ Remark" to his book <i>Die Befruchtung der Blumen durch Insecten</i>
+ (1873) and is dated November 24, 1872. We read there: "My brother Fritz
+ Müller communicates to me in a letter which reached my hands only after
+ the bulk of the present work had passed through the press, the following
+ law discovered by him, which materially facilitates the explanation by
+ natural selection of the pronounced characters of sharply distinguished
+ species: 'The moment a choice in a definite direction is made in a
+ variable species, progressive modification from generation to generation
+ in the same direction will set in as the result of this choice, wholly
+ apart from the influence of external conditions. Transformation into new
+ forms is thus greatly facilitated and accelerated.'"</p>
+
+ <p>The facts on which F. Müller based the enunciation of his law, are the
+ results of several experiments with plants, the numbers of whose grains
+ (maize), or styles, or flowering leaves, were, by the exercise of choice
+ in the cultivation, made to change in definite directions. Accurately
+ viewed their significance is the same as that of numerous other cases of
+ artificial selection, for <!-- Page 78 --><span class="pagenum"><a
+ name="page78"></a>{78}</span>example, that of the long-tailed Japanese
+ cock which was laid at the foundation of the theory in the text, although
+ the numerical form of the observation gives more precision and
+ distinctness to the reasoning based on them, than is to be observed in
+ cases where we speak of characters as being simply "longer" or
+ "shorter."</p>
+
+ <p>F. Müller's opinion regarding the increase of characters by selection
+ is expressed as follows: "The simplest explanation of these facts appears
+ to be that every species possesses the faculty of varying within certain
+ limits; the crossing of different individuals, so long as no choice is
+ effected in a definite direction, maintains the mean round which the
+ oscillations take place at the same points, and consequently the extremes
+ also remain unaltered. If, however, one side is preferred by natural or
+ artificial selection, the mean is shifted in the direction of this side
+ and accordingly the extreme forms are also displaced towards that side,
+ going now beyond the original limit. However, this explanation does not
+ satisfy me in all cases."</p>
+
+ <p>It is not known to me that F. Müller ever returned to this conception
+ subsequently to the year 1872 or gave further developments of the same,
+ nor have I been able to discover that it has been mentioned by other
+ writers or incorporated in previous notions regarding selection.</p>
+
+ <p>The second naturalist who has approached the fundamental idea of my
+ doctrine of germinal selection, is a more recent writer. I refer to the
+ English botanist Thiselton-Dyer, a scientist whose occasional utterances
+ on the general questions of biology have more than once evoked my
+ sympathetic approval. In an article, "Variation and Specific Stability,"
+ which appeared in <!-- Page 79 --><span class="pagenum"><a
+ name="page79"></a>{79}</span><i>Nature</i> for March 14, 1895, this
+ author enunciates twenty theses touching this subject, many of which
+ appear to me apposite and correct, particularly the following: In every
+ species there is a mean specific form round which the variations are
+ symmetrically grouped like shots around the bull's eye of a target. As
+ soon as natural selection comes into play and favors one of these
+ variations it must shift the centre of density. Variations arise by a
+ change in the outward conditions of life and can be useful or
+ indifferent; only in the first case will natural selection obtain control
+ of them and "the new variation will get the upper hand and the centre of
+ density will be shifted."</p>
+
+ <p>This is not germinal selection, but it is the same as what I have
+ referred to in this and in the preceding essay as displacement of the
+ zero-point of variation. Thiselton-Dyer did not draw the conclusion that
+ a definitely directed variation answering to utility resulted from this
+ process, which variation alone must cause the disappearance of useless
+ parts, for the reason that he never attempted to penetrate to the causes
+ of the shifting of the zero-point of variation. Neither Fritz Müller,
+ whose utterances Thiselton-Dyer was obviously ignorant of, nor
+ Thiselton-Dyer himself pushed his inquiries beyond the thought that the
+ shifting in question resulted entirely in consequence of personal
+ selection. There is no gainsaying that the degeneration of useless organs
+ cannot be explained by personal selection alone, seeing that though the
+ minus variations may possibly have a selective value at the beginning of
+ a degenerative process, they certainly cannot have such in the subsequent
+ course of the same, when the organ has dwindled down to a really minimal
+ mass of substance as compared with the whole <!-- Page 80 --><span
+ class="pagenum"><a name="page80"></a>{80}</span>body. Of what advantage
+ would it be to the whale if his hinder leg, now concealed in a mass of
+ flesh and no longer protruding beyond the skin, should still be reduced
+ one or several centimetres in size? (Spencer.) If the minus variations
+ have no selective value, how can the upper limit of the variational field
+ be constantly displaced downwards, as actually happens? It is
+ unquestionable but something different from personal selection must come
+ here co-determinatively into play.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">V. HISTORICAL REMARKS CONCERNING THE ULTIMATE
+VITAL UNITS.</p>
+
+ <p>(For this Appendix which is marked "Appendix V." in the German edition
+ of <i>Germinal Selection</i> see the <a href="#Nt15">footnote</a> at page
+ <a href="#page40">40</a>.)</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">VI. THE INITIAL STAGES OF USEFUL MODIFICATIONS.</p>
+
+ <p>In characterising as "least" weighty the old objection that the
+ variations are too small at the start to be useful and to be selected, I
+ find myself diametrically opposed to many writers of the present day, who
+ have taken up with renewed vigor this old stumbling block to the
+ principle of selection. Bateson<a name="NtA33"
+ href="#Nt33"><sup>[33]</sup></a> regards the deficient proof of the
+ utility of initial stages as the most serious objection that can be made
+ to natural selection. New organs must in the necessity of the case have
+ first been imperfect; how, then, could they have been selected since
+ imperfect organs cannot be useful? Answers from various quarters have
+ already been <!-- Page 81 --><span class="pagenum"><a
+ name="page81"></a>{81}</span>made to this and to similar objections, and
+ Darwin himself has referred to the fact that even the smallest variations
+ may have selective value; Dohrn, too, has urged his principle of change
+ of functions, which with regard to this question of the utility of
+ initial stages has certainly a wide significance. Still, every
+ transformation and new structure in the narrow sense of the word does not
+ rest on change of function, and neither Darwin nor Wallace, nor any other
+ more recent champion of the principle of selection, can ever succeed in
+ demonstrating in <i>every</i> case the selective value of an initial
+ stage. One reason why this cannot be done is because <i>in no case of
+ morphological variation do we really know what these initial stages
+ are</i>. To say that "new organs were at first necessarily imperfect"
+ appears obvious enough, but it is at bottom a meaningless assertion, for
+ it is not only possible but certain, that "imperfect" organs may still
+ have selective value, and in by far the most cases have had selective
+ value. The fact that we see to-day a long graduated line of
+ forest-butterflies which possess resemblance to leaves and by this means
+ are able in a measure to conceal themselves from prying eyes, yet that
+ this resemblance in many species is very imperfect, in others more
+ perfect, and in a very small number very perfect, simply proves that even
+ "imperfect" formations may be of utility. The word "imperfect" in this
+ connexion is itself very imperfect, for it is utterly anthropomorphic and
+ estimates the biological value of a structure by our own peculiar
+ artistic notions of its faithfulness to a leaf-copy, whilst we are really
+ concerned here only with its protective value for the species in
+ question, which is by no means dependent merely on the faithfulness of
+ the copying, on the <!-- Page 82 --><span class="pagenum"><a
+ name="page82"></a>{82}</span>faithfulness of the imitation, but on
+ numerous other factors, such as the frequency and sharp-sightedness of
+ the enemies of the species, the fertility of the species, their frequency
+ and persecution in earlier developmental stages, and so forth, in brief,
+ on their need of protection on the one hand and on their other means of
+ protection on the other.</p>
+
+ <p>Now all this cannot be exactly calculated in any given case, and it
+ will be better, instead of haggling about individual cases concerning
+ which we can never judge with certainty, to take the position adopted in
+ the text and say: Since the utility of the initial stages <i>must</i> be
+ assumed unless we are to renounce forever the explanation of adaptation,
+ let us then take it for granted. No contradiction of facts is involved in
+ this assumption; in fact, even individual variations exist whose eventual
+ utility can be demonstrated, for example, the invisible differences
+ enabling Europeans of certain constitutions to resist the attacks of
+ tropical malarial fevers,&mdash;or the differences of structure, likewise
+ not directly visible, which enable palms from the summits of the
+ Cordilleras to withstand our winter climate better than palms of the same
+ species from along the base-line of the mountains; and so on.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="short" />
+
+<p class="cenhead">VII. THE ASSUMPTION OF INTERNAL EVOLUTIONARY
+FORCES</p>
+
+ <p>Definite variation was not only postulated in the last decade by
+ Nägeli and Askenasy, but has also been repeatedly set up in recent years
+ by various other authors. The Rev. George Henslow, in his book <i>The
+ Origin of Species Without the Aid of Natural Selection</i>, 1894, regards
+ the variations occurring in the state <!-- Page 83 --><span
+ class="pagenum"><a name="page83"></a>{83}</span>of nature as always
+ definite and not with Darwin as indefinite, and meets the objection that
+ modification but not adaptation to outward conditions of life can be
+ inferred from this fact, by the bold assumption that it is precisely the
+ outward conditions of life or the environment which "induces the best
+ fitted to arise." He further concludes that natural selection has nothing
+ to do with the origin of species. At the basis of his conviction lies the
+ naturally correct view that the summation of <i>accidental</i> variations
+ is insufficient for transforming the species, but that definitely
+ directed variation is necessary to this end. But concerning the way in
+ which external conditions are always able to produce the fit variations,
+ he can give us no information&mdash;if I am not mistaken, for the simple
+ reason that such is not the fact, that the outward conditions only
+ apparently determine the direction of variations whilst in truth it is
+ the adaptive requirement itself that produces the useful direction of
+ variation by means of selectional processes within the germ.</p>
+
+ <p>C. Lloyd Morgan also has recently expressed himself in favor of the
+ necessity of definite variation, though likewise without assigning a
+ basis for its action, and without being able to show how its efficacy is
+ compatible with the plain fact of adaptation to the conditions of life.
+ He seeks to find the origin of variation in "mechanical stresses and
+ chemical or physical influences," but this conception is too general to
+ be of much help. He has, in fact, not been able to abandon completely the
+ heredity of acquired characters.</p>
+
+ <p>Emery<a name="NtA34" href="#Nt34"><sup>[34]</sup></a> likewise sees
+ only the alternative of a <!-- Page 84 --><span class="pagenum"><a
+ name="page84"></a>{84}</span>"definitely directed variation" from
+ internal causes and of a summation of "accidental" variations. He says:
+ "A summation of entirely accidental variations in a given direction is
+ extremely difficult," because "natural selection thus always awaits its
+ fortune at the hands of accident whereby it is possible that the little
+ good thereby produced will be swept away by other accidents
+ (disadvantages of position) or obliterated in the following generations
+ by unfortunate crossings." We can, therefore, continues Emery, well
+ conceive "how many scientists look upon the whole theory of selection as
+ a fable, or else throw themselves into the arms of Lamarckism."
+ Unquestionably Emery has here singled out the insufficient points in the
+ assumption of a selection of "accidental" variations; he has recognised
+ the necessity of operating, not with single variations, but with
+ "directions of variation." He has not, however, attempted the derivation
+ of directed tendencies of variation from known factors; he apparently
+ thinks of them as of something which has sprung from unknown
+ constitutional factors and consequently ascribes to them the capacity of
+ shooting beyond their mark, so to speak, that is, of acting beyond and
+ ahead of utility, and so of producing modifications which may lead to the
+ destruction of the species.</p>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<p><!-- Page 85 --><span class="pagenum"><a name="page85"></a>{85}</span></p>
+
+<h3>INDEX.</h3>
+
+ <div class="poem">
+ <div class="stanza">
+ <p>Accidental variations, <a href="#page3">3</a>, <a href="#page83">83</a>.</p>
+ <p>Acquired variations, <a href="#page33">33</a>.</p>
+ <p>Acracids, <a href="#page19">19</a>.</p>
+ <p>Acræa, <a href="#page52">52</a>.</p>
+ <p>Active selection, <a href="#page38">38</a>.</p>
+ <p>Adaptations, <a href="#page3">3</a>, <a href="#page10">10</a>, <a href="#page22">22</a>, <a href="#page61">61</a>, <a href="#page82">82</a>.</p>
+ <p>Adaptiveness, <a href="#page66">66</a> footnote, <a href="#page67">67</a>, <a href="#page74">74</a> et seq.</p>
+ <p>Ageronia, <a href="#page19">19</a>.</p>
+ <p>Anæa, <a href="#page22">22</a>.</p>
+ <p><i>Anlagen</i>, <a href="#page35">35</a>, <a href="#page47">47</a>, <a href="#page53">53</a>.</p>
+ <p>Arthropoda, <a href="#page32">32</a>, <a href="#page62">62</a>.</p>
+ <p>Articulata, <a href="#page30">30</a>.</p>
+ <p>Artificial selection, <a href="#page33">33</a>.</p>
+ <p>Askenasy, <a href="#page24">24</a>, <a href="#page60">60</a>, <a href="#page82">82</a>.</p>
+ <p>Atoms, <a href="#page57">57</a>, <a href="#page58">58</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Bär, K. E. von, <a href="#page73">73</a>.</p>
+ <p>Bateson, <a href="#page18">18</a>, <a href="#page73">73</a>, <a href="#page80">80</a>.</p>
+ <p>"Better" individuals, <a href="#page76">76</a>.</p>
+ <p>Biology, character of research in, <a href="#page7">7</a>.</p>
+ <p>Biophores, <a href="#page40">40</a>, <a href="#page47">47</a>, <a href="#page58">58</a>.</p>
+ <p>Boltzmann, <a href="#page4">4</a>, <a href="#page5">5</a>.</p>
+ <p>Bonnet, <a href="#page53">53</a>.</p>
+ <p>Bourne, footnote, <a href="#page54">54</a>.</p>
+ <p>Brücke, <a href="#page40">40</a>.</p>
+ <p>Butterflies, <a href="#page14">14</a> et seq., <a href="#page18">18</a> et seq., <a href="#page81">81</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Catonephele, <a href="#page50">50</a>.</p>
+ <p>Chance, <a href="#page61">61</a>.</p>
+ <p>Chemical selection, <a href="#page71">71</a>.</p>
+ <p>Chitons, <a href="#page28">28</a>.</p>
+ <p>Coadaptation, <a href="#page30">30</a>.</p>
+ <p>Colorings, protective, <a href="#page14">14</a> et seq.</p>
+ <p>Constancy of species, <a href="#page46">46</a>.</p>
+ <p>Constructs, <a href="#page8">8</a>.</p>
+ <p>Cormi, <a href="#page66">66</a> footnote.</p>
+ <p>Correlation, <a href="#page21">21</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Danaids, <a href="#page19">19</a>.</p>
+ <p>Darwin, <a href="#page11">11</a>, <a href="#page25">25</a>, <a href="#page29">29</a>, <a href="#page36">36</a>, <a href="#page38">38</a>, <a href="#page66">66</a>, <a href="#page81">81</a>, <a href="#page83">83</a>.</p>
+ <p>Definite variation, <a href="#page3">3</a>, <a href="#page4">4</a>, <a href="#page60">60</a>, <a href="#page76">76</a>-<a href="#page79">79</a>, <a href="#page82">82</a>.</p>
+ <p>Degeneration, <a href="#page30">30</a> et seq., <a href="#page39">39</a> et seq. <a href="#page55">55</a>, <a href="#page63">63</a>, <a href="#page64">64</a>, <a href="#page79">79</a>.</p>
+ <p>Delâge, Yves, <a href="#page40">40</a>, <a href="#page69">69</a>.</p>
+ <p>Determinants, <a href="#page6">6</a> et seq., <a href="#page10">10</a>, <a href="#page36">36</a> et seq. <a href="#page42">42</a>, <a href="#page54">54</a>, <a href="#page58">58</a>.</p>
+ <p>Developmental mechanics, <a href="#page8">8</a>, <a href="#page9">9</a>.</p>
+ <p>De Vries, <a href="#page40">40</a>.</p>
+ <p>Dimorphism, <a href="#page58">58</a>.</p>
+ <p>Directions of variations, <a href="#page83">83</a>.</p>
+ <p>Directive forces, <a href="#page23">23</a>, <a href="#page24">24</a>.</p>
+ <p>Dixey, <a href="#page51">51</a> footnote.</p>
+ <p>Dohrn, <a href="#page81">81</a>.</p>
+ <p>Driesch, Hans, <a href="#page12">12</a>.</p>
+ <p>Dyer, Thiselton, <a href="#page78">78</a>-<a href="#page79">79</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Eimer, <a href="#page16">16</a>, <a href="#page70">70</a>.</p>
+ <p>Emery, <a href="#page71">71</a>, <a href="#page83">83</a>-<a href="#page84">84</a>.</p>
+ <p>Empedocles, <a href="#page75">75</a>.</p>
+ <p>Epigenesis, <a href="#page53">53</a> footnote, <a href="#page58">58</a>, <a href="#page59">59</a>.</p>
+ <p>Euploids, <a href="#page19">19</a>.</p>
+ <p>Europeans, exempt from malarial fevers, <a href="#page82">82</a>.</p>
+ <p>Eurypheme, <a href="#page22">22</a>.</p>
+ <p>Evolution, <a href="#page53">53</a> footnote, <a href="#page59">59</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Fireworks, determinants and ids compared to, <a href="#page7">7</a>.</p>
+ <p>"Fits," <a href="#page6">6</a> footnote.</p>
+ <p>Fluctuations of development, <a href="#page74">74</a>-<a href="#page75">75</a>.</p>
+ <p>Formative laws, <a href="#page17">17</a> et seq., <a href="#page23">23</a>.</p>
+ <p>Frog, <a href="#page14">14</a>.</p>
+ <p>Functional adaptation, <a href="#page29">29</a>.</p>
+ <p>Functionless parts, <a href="#page64">64</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Galton, <a href="#page36">36</a>.</p>
+ <p>Germs, <a href="#page7">7</a> et seq., <a href="#page40">40</a> et seq.</p>
+<!-- Page 86 --><span class="pagenum"><a name="page86"></a>{86}</span>
+ <p>Germinal selection, <a href="#page3">3</a>, <a href="#page39">39</a>, <a href="#page44">44</a>, <a href="#page50">50</a>-<a href="#page53">53</a>, <a href="#page59">59</a>, <a href="#page63">63</a>, <a href="#page66">66</a>-<a href="#page68">68</a>.</p>
+ <p>Germinal substance, <a href="#page55">55</a> et seq.</p>
+ <p>Germ-plasm, <a href="#page9">9</a>, <a href="#page44">44</a>, <a href="#page57">57</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Haase, Eric, <a href="#page70">70</a>.</p>
+ <p>Heliconids, <a href="#page19">19</a>, <a href="#page20">20</a>, <a href="#page51">51</a> footnote.</p>
+ <p>Henslow, G., <a href="#page70">70</a>, <a href="#page82">82</a>.</p>
+ <p>Heredity, <a href="#page4">4</a> et seq.</p>
+ <p>Hertwig, O., <a href="#page54">54</a> footnote, <a href="#page58">58</a>, <a href="#page59">59</a>.</p>
+ <p>Hertz, <a href="#page5">5</a>, <a href="#page6">6</a>.</p>
+ <p>Histonal selection, <a href="#page66">66</a>.</p>
+ <p>Huxley, Thomas, <a href="#page12">12</a>.</p>
+ <p>Hypna, <a href="#page22">22</a>.</p>
+ <p>Hypotheses, nature of, <a href="#page5">5</a> et seq.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Ids, their theoretical character, <a href="#page7">7</a>.</p>
+ <p>Imagination, its function in science, <a href="#page4">4</a>.</p>
+ <p>"Imperfect" formations, <a href="#page81">81</a>.</p>
+ <p>Individual variations, <a href="#page73">73</a> et seq.</p>
+ <p>Inertia, law of organic, <a href="#page15">15</a>.</p>
+ <p>Internal forces of evolution, <a href="#page16">16</a>, <a href="#page23">23</a>, <a href="#page24">24</a>, <a href="#page31">31</a>, <a href="#page60">60</a>, <a href="#page82">82</a>-<a href="#page4">4</a>.</p>
+ <p>Intrabiontic selection, <a href="#page29">29</a>.</p>
+ <p>Ishikawa, Professor, <a href="#page34">34</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Japanese cocks, long-tailed, <a href="#page34">34</a>, <a href="#page44">44</a>, <a href="#page78">78</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Kallima, <a href="#page22">22</a>, <a href="#page23">23</a>, <a href="#page50">50</a>.</p>
+ <p>Katagramma, <a href="#page22">22</a>.</p>
+ <p>Knowledge, its character, <a href="#page5">5</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Lamarckian principles, <a href="#page24">24</a>, <a href="#page29">29</a> et seq., <a href="#page31">31</a> et seq., <a href="#page38">38</a>, <a href="#page63">63</a>-<a href="#page64">64</a>, <a href="#page68">68</a>, <a href="#page84">84</a>.</p>
+ <p>Leaves, imitated by butterflies, <a href="#page20">20</a> et seq.</p>
+ <p>Locomotive, simile of, <a href="#page11">11</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Malthusian principle, <a href="#page65">65</a>, <a href="#page67">67</a>.</p>
+ <p>Markings, butterflies', <a href="#page16">16</a> et seq.</p>
+ <p>Maxwell, <a href="#page4">4</a>, <a href="#page5">5</a>.</p>
+ <p>Mean of variation, <a href="#page78">78</a>-<a href="#page79">79</a>.</p>
+ <p>Meristic, <a href="#page18">18</a>.</p>
+ <p>Mimicry, <a href="#page19">19</a>, <a href="#page51">51</a> et seq.</p>
+ <p>Minot, S., <a href="#page54">54</a> footnote.</p>
+ <p>Models, mental, <a href="#page4">4</a> et seq.</p>
+ <p>Molecules, <a href="#page58">58</a>.</p>
+ <p>Morgan, Prof. C. Lloyd, <a href="#page32">32</a>, <a href="#page71">71</a>, <a href="#page83">83</a>.</p>
+ <p>Müller, Fritz, <a href="#page77">77</a>-<a href="#page79">79</a>.</p>
+ <p>Müller, Hermann, <a href="#page77">77</a>.</p>
+ <p>Mussels, <a href="#page28">28</a>.</p>
+ <p>Mutations, <a href="#page31">31</a> footnote, <a href="#page72">72</a>-<a href="#page76">76</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Nägeli, <a href="#page4">4</a>, <a href="#page11">11</a>, <a href="#page24">24</a>, <a href="#page60">60</a>, <a href="#page82">82</a>.</p>
+ <p>Neumayr, <a href="#page72">72</a>.</p>
+ <p>Newton, <a href="#page5">5</a>.</p>
+ <p>Nutrition of determinants, <a href="#page36">36</a>, <a href="#page37">37</a>, <a href="#page41">41</a>, <a href="#page47">47</a>.</p>
+ <p>Nymphalidæ, <a href="#page21">21</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Ontogenesis, <a href="#page8">8</a>.</p>
+ <p>Orr, Henry B., <a href="#page69">69</a>.</p>
+ <p>Osborn, Prof. H. F., <a href="#page33">33</a>.</p>
+ <p>Owen, Richard, <a href="#page11">11</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Paleontology, <a href="#page31">31</a>, <a href="#page73">73</a>, <a href="#page75">75</a>, <a href="#page76">76</a>.</p>
+ <p>Palms from Cordilleras, <a href="#page82">82</a>.</p>
+ <p>Pangenes, <a href="#page40">40</a>.</p>
+ <p>Panmixia, <a href="#page15">15</a>, <a href="#page39">39</a>, <a href="#page42">42</a>, <a href="#page43">43</a>, <a href="#page64">64</a>.</p>
+ <p>Papilio, <a href="#page16">16</a>, <a href="#page52">52</a>.</p>
+ <p>Parallecta, <a href="#page23">23</a>.</p>
+ <p>Parts, struggling of the, <a href="#page29">29</a>, <a href="#page39">39</a>, <a href="#page66">66</a>-<a href="#page67">67</a>.</p>
+ <p>Passively functioning parts, <a href="#page30">30</a> et seq., <a href="#page64">64</a>.</p>
+ <p>Personal selection, <a href="#page30">30</a>, <a href="#page41">41</a>, <a href="#page42">42</a>, <a href="#page45">45</a>, <a href="#page52">52</a>, <a href="#page64">64</a>-<a href="#page86">86</a>, <a href="#page80">80</a>.</p>
+ <p>Phyletic variation, <a href="#page31">31</a>-<a href="#page32">32</a> footnote.</p>
+ <p>Phylogenesis, <a href="#page8">8</a>.</p>
+ <p>Phylogenetic variations, <a href="#page31">31</a>-<a href="#page32">32</a>, <a href="#page73">73</a>.</p>
+ <p>Plasomes, <a href="#page40">40</a>.</p>
+ <p>Plus and minus variations, <a href="#page35">35</a>, <a href="#page42">42</a>, <a href="#page46">46</a>, <a href="#page50">50</a>, <a href="#page79">79</a>-<a href="#page80">80</a>.</p>
+ <p>Polymorphism, <a href="#page58">58</a>.</p>
+ <p>Poulton, <a href="#page64">64</a> footnote.</p>
+ <p>Predestined variation, <a href="#page4">4</a>.</p>
+ <p>Pre-established harmony, <a href="#page25">25</a>.</p>
+ <p>Preformation, <a href="#page53">53</a>.</p>
+ <p>Protective colorings, <a href="#page14">14</a> et seq.</p>
+ <p>Protogonius, <a href="#page22">22</a>.</p>
+ <p>Pseudocræa, <a href="#page52">52</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Qualitative modifications, <a href="#page46">46</a>.</p>
+ <p>Quantitative changes, <a href="#page46">46</a>-<a href="#page47">47</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Retrogressive development, <a href="#page38">38</a>.</p>
+ <p>Round-worms, eggs of, <a href="#page28">28</a>.</p>
+ <p>Roux, Wilhelm, <a href="#page29">29</a>, <a href="#page39">39</a>, <a href="#page65">65</a>, <a href="#page66">66</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Salamis, <a href="#page22">22</a>.</p>
+ <p>Scott, Prof. W. B., <a href="#page31">31</a> footnote, <a href="#page72">72</a>-<a href="#page74">74</a>.</p>
+ <p>Segmentation, <a href="#page10">10</a>.</p>
+<!-- Page 87 --><span class="pagenum"><a name="page87"></a>{87}</span>
+ <p>Selection, natural, <a href="#page10">10</a>, <a href="#page25">25</a> et seq., <a href="#page50">50</a>, <a href="#page51">51</a>, <a href="#page67">67</a>, <a href="#page69">69</a>-<a href="#page73">73</a>, <a href="#page81">81</a>, <a href="#page82">82</a>.</p>
+ <p>Selective value of variations, <a href="#page60">60</a>.</p>
+ <p>Semper, <a href="#page69">69</a>.</p>
+ <p>Siderone, <a href="#page22">22</a>.</p>
+ <p>Snails, <a href="#page28">28</a>.</p>
+ <p>Spencer, <a href="#page14">14</a>, <a href="#page28">28</a>, <a href="#page29">29</a>, <a href="#page40">40</a>, <a href="#page53">53</a>, <a href="#page56">56</a>, <a href="#page80">80</a>.</p>
+ <p>Struggle for existence, <a href="#page65">65</a>.</p>
+ <p>Survival of the fit, <a href="#page52">52</a>.</p>
+ <p>Symphædra, <a href="#page22">22</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p><i>Tabula rasa</i>, <a href="#page27">27</a>, <a href="#page24">24</a>.</p>
+ <p>Tegetmeier, W. B., <a href="#page34">34</a>.</p>
+ <p>Teleological principles, <a href="#page10">10</a>, <a href="#page16">16</a>, <a href="#page25">25</a>.</p>
+ <p>Theories, nature of, <a href="#page5">5</a> et seq.</p>
+ <p>Turbellaria, <a href="#page28">28</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Units, vital, biological, physiological, etc., <a href="#page8">8</a>, <a href="#page40">40</a>, <a href="#page41">41</a>, <a href="#page53">53</a>, <a href="#page56">56</a>, <a href="#page65">65</a>, <a href="#page80">80</a>.</p>
+ <p>Useful modifications, value of initial stages of, <a href="#page80">80</a>-<a href="#page82">82</a>.</p>
+ <p>Utility, <a href="#page11">11</a>, <a href="#page18">18</a>, <a href="#page33">33</a>, <a href="#page45">45</a>, <a href="#page48">48</a>, <a href="#page62">62</a>, <a href="#page63">63</a>, <a href="#page82">82</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Variations, necessary, their constant presence, <a href="#page26">26</a> et seq., <a href="#page31">31</a> et seq., <a href="#page61">61</a>;</p>
+ <p class="i2">generally, <a href="#page3">3</a>, <a href="#page11">11</a>-<a href="#page14">14</a>, <a href="#page61">61</a>, <a href="#page71">71</a> et seq.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Waagen, <a href="#page72">72</a>.</p>
+ <p>Wallace, <a href="#page11">11</a>, <a href="#page25">25</a>, <a href="#page29">29</a>, <a href="#page51">51</a>, <a href="#page66">66</a>, <a href="#page81">81</a>.</p>
+ <p>Weldon, <a href="#page36">36</a>.</p>
+ <p>Whale, hind leg of, <a href="#page42">42</a>, <a href="#page56">56</a>, <a href="#page80">80</a>.</p>
+ <p>Whitman, C. O., <a href="#page53">53</a>.</p>
+ <p>Wiesner, <a href="#page40">40</a>.</p>
+ <p>Wigand, Albert, <a href="#page11">11</a>, <a href="#page63">63</a>.</p>
+ <p>Wings of butterflies, <a href="#page14">14</a> et seq., <a href="#page47">47</a>-<a href="#page52">52</a>, <a href="#page56">56</a>.</p>
+ <p>Wolff, K. F., <a href="#page53">53</a>, <a href="#page62">62</a>, <a href="#page63">63</a>, <a href="#page69">69</a>.</p>
+ <p>"Worse" individuals, <a href="#page76">76</a>.</p>
+ </div>
+
+ <div class="stanza">
+ <p>Zero-point of variation, <a href="#page36">36</a> et seq., <a href="#page45">45</a>, <a href="#page74">74</a>, <a href="#page79">79</a>.</p>
+ </div>
+ </div>
+
+ <p><br style="clear:both" /></p>
+<hr class="full" />
+
+<h3>Notes</h3>
+
+<div class="note">
+ <p><a name="Nt1" href="#NtA1">[1]</a> <i>Neue Gedanken zur
+ Vererbungsfrage, eine Antwort an Herbert Spencer.</i> Jena. 1895.</p>
+
+ <p><a name="Nt2" href="#NtA2">[2]</a> See Boltzmann, <i>Methoden der
+ theor. Physik</i>, Munich, 1892. (In the Catalogue of the Mathematical
+ Exhibit.)</p>
+
+ <p><a name="Nt3" href="#NtA3">[3]</a> Of late this saying of Newton's is
+ frequently quoted as if Newton were a downright contemner of scientific
+ hypotheses. But if we read the passage in question in its original
+ context, we shall discover that his renunciation of hypotheses referred
+ solely to a definite case, viz., to that of universal gravitation, of
+ whose character Newton could form no conception and hence was unwilling
+ to construct hypotheses concerning it. Indeed, such a wholesale
+ repudiation of hypotheses is antecedently incredible on the part of the
+ inventor of the emission-theory of light, in which, to speak of only one
+ daring conjecture, "fits" were ascribed to the luminous particles.
+ Compare Newton, <i>Philosophiae Naturalis Principia Mathematica</i>,
+ second edition, 1714, page 484.</p>
+
+ <p><a name="Nt4" href="#NtA4">[4]</a> H. Hertz, <i>Die Principien der
+ Mechanik</i>.</p>
+
+ <p><a name="Nt5" href="#NtA5">[5]</a> Hans Driesch, <i>Die Biologie als
+ selbstständige Grundwissenschaft</i>, Leipsic, 1893, p. 31, footnote. The
+ sentence reads: "An examination of the pretensions of the refuted
+ Darwinian theory, so called, would be an affront to our readers."</p>
+
+ <p><a name="Nt6" href="#NtA6">[6]</a> <i>Die Allmacht der
+ Naturzüchtung.</i> A Reply to Herbert Spencer. Jena, 1893, p. 27 et seq.
+ [Also in the <i>Contemporary Review</i> for September, 1893.]</p>
+
+ <p><a name="Nt7" href="#NtA7">[7]</a> That is, by the law of exceedingly
+ slow retrogression of superfluous characters, which may be designated the
+ law of organic inertia.</p>
+
+ <p><a name="Nt8" href="#NtA8">[8]</a> <i>Materials for the Study of
+ Variation with Especial Regard to Discontinuity in the Origin of
+ Species.</i> London, 1895.</p>
+
+ <p><a name="Nt9" href="#NtA9">[9]</a> <i>Studien zur
+ Descendenztheorie</i>, Leipsic, 1876. Vol. II. pp. 295 and 322.</p>
+
+ <p><a name="Nt10" href="#NtA10">[10]</a> Compare my essay, <i>Neue
+ Gedanken zur Vererbungsfrage</i>, Jena, 1895, p. 10, second footnote.</p>
+
+ <p><a name="Nt11" href="#NtA11">[11]</a> On the same day on which the
+ present address was delivered at the International Congress of Zoölogists
+ in Leyden, and on the same occasion, Dr. W. B. Scott, Professor of
+ Geology in Princeton College, New Jersey, read a very interesting paper
+ on the tertiary mammalian fauna of North America, in which, without a
+ knowledge of my paper, he took his stand precisely on this argument and
+ arrived at the opinion that it could not possibly be the ordinary
+ individual variations which accomplished phyletic evolution, but that it
+ was necessary to assume in addition phyletic variations. I believe our
+ views are not as widely remote as might be supposed. Of course, I see no
+ reason for assuming two kinds of hereditary variations, different <i>in
+ origin</i>. Still it is likely that only a relatively small portion of
+ the numberless individual variations lie on the path of phyletic
+ advancement and so under the <i>guidance</i> of germinal selection mark
+ out the way of further development; and hence it would be quite possible
+ in this sense to distinguish continuous, <i>definitely directed</i>
+ individual variations from such as fluctuate hither and thither with no
+ uniformity in the course of generations. The root of the two is of course
+ the same, and they admit of being distinguished from each other only by
+ their success, phyletic modification, or by their failure.</p>
+
+ <p><a name="Nt12" href="#NtA12">[12]</a> H. F. Osborn, "The Hereditary
+ Mechanism and the Search for the Unknown Factors of Evolution," in
+ <i>Biological Lectures delivered at the Marine Biolog. Lab. at Wood's
+ Holl in the Summer Session of 1894</i>. Boston, 1895.</p>
+
+ <p><a name="Nt13" href="#NtA13">[13]</a> In 1886. See my paper on
+ "Retrogression in Nature," published in English in Nos. 105, 107, 108,
+ and 109 of <i>The Open Court</i>, and also in my essays on
+ <i>Heredity</i>, Jena, 1892.</p>
+
+ <p><a name="Nt14" href="#NtA14">[14]</a> <i>Neue Gedanken zur
+ Vererbungsfrage</i>, Jena, 1895.</p>
+
+ <p><a name="Nt15" href="#NtA15">[15]</a> Delâge, in <i>La structure du
+ protoplasma et les théories sur l'hérédité</i>, etc., Paris, 1895, is
+ mistaken in attributing to Herbert Spencer the merit of having first
+ pointed out the necessity of the assumption of biological units ranking
+ between the molecule and the cell. Brücke set forth this idea three years
+ previously to Spencer and established it exhaustively in a paper which in
+ Germany at least is famous ("Elementarorganismen," <i>Wiener
+ Sitzungsberichte</i>, October 10, 1861, Vol. XLIV., II., p. 381).
+ Spencer's <i>Principles of Biology</i> appeared between 1864 and 1868;
+ consequently there can be no dispute touching the priority of the idea.
+ Strangely enough Delâge cites Brücke's essay in the Bibliographical Index
+ at the end of his book correctly, although Brücke's name and views are
+ nowhere mentioned in the book itself. It is to be observed, however, that
+ the elementary organisms of Brücke are not merely the precursors of
+ Spencer's "physiological units," but repose on much firmer foundations
+ than the latter, which, as Delâge himself remarks, are at bottom nothing
+ more than magnified molecules and not combinations of different molecules
+ of such character as to produce necessarily phenomena of life. He aptly
+ remarks on this point: "the physiological units of Spencer are only
+ chemical molecules of greater complexity than the rest, and as he defines
+ them they would be regarded as such by every chemist. He attributes to
+ them no property <i>essentially</i> different from those of chemical
+ molecules." Assimilation, growth, propagation, in short the attributes of
+ life, are not attributed by Spencer to his units, while Brücke by his
+ very designation "elementary organisms" expresses the idea of "ultimate
+ living units," to use Wiesner's phrase. Of course this particular aspect
+ of the vital units was not emphasised by Brücke with the same
+ distinctness and sharpness as by recent inquirers, who took up Brücke's
+ ideas thirty years after. I refer to the conception that the union of a
+ definite combination of heterogeneous molecules into an invisibly small
+ unit, forms the cradle or focus of the vital phenomena. This was first
+ done and apparently on independent considerations by De Vries, and soon
+ after by Wiesner, and subsequently by myself (De Vries, <i>Intracelluläre
+ Pangenesis</i>, Jena, 1889; Wiesner, <i>Die Elementarstructur and das
+ Wachsthum der lebenden Substanz</i>, Vienna, 1892; Weismann, <i>Das
+ Keimplasma</i>, Jena, 1892). Let me say at the close of this note that it
+ is not my intention in thus defending the rights of a great physiologist,
+ to censure in the least the distinguished author of <i>L'hérédité</i> who
+ has set himself a remarkably high standard of exactitude in such matters.
+ Certainly, when we consider the enormous extent of the literature that
+ had to be mastered to produce his book, embracing as it did all the
+ various theories of recent times, such an oversight is quite
+ excusable.</p>
+
+ <p><a name="Nt16" href="#NtA16">[16]</a> I speak here of determinants,
+ not of groups of determinants, which is the more correct expression,
+ merely for the sake of brevity. It is a matter of course that a whole
+ extremity, such as we have here chosen, cannot be represented in the germ
+ by a single determinant only, but requires a large group of
+ determinants.</p>
+
+ <p><a name="Nt17" href="#NtA17">[17]</a> That this is not so in all cases
+ has recently been shown by Dixey from observations on certain white
+ butterflies of South America which mimic the Heliconids and in which a
+ small, yellowish red streak on the under surface of the hind wing has
+ served as the point of departure and groundwork of the development of a
+ protective resemblance to quite differently colored Heliconids. "On the
+ Relation of Mimetic Characters to the Original Form," in the <i>Report of
+ the British Association for 1894</i>.</p>
+
+ <p><a name="Nt18" href="#NtA18">[18]</a> Oscar Hertwig, <i>Zeit-und
+ Streitfragen der Biologie</i>, Jena, 1894. It is customary now to look
+ upon the preformation-theory of Bonnet as a discarded monstrosity, and on
+ the epigenesis of K. F. Wolff as the only legitimate view, and to draw a
+ parallel between these two and what might be called to-day "evolution"
+ [i. e. unfoldment] and epigenesis. The evolution, or unfoldment, of
+ Bonnet and Harvey, however, was something totally different from modern
+ doctrines of evolution, and Whitman is quite right when he says that even
+ my theory of determinants would have appeared to the inquirers of the
+ last century as "extravagant epigenesis." Biologists in that day were
+ concerned with quite different questions from what they are at present,
+ and although now we probably all share the conviction of Wolff that new
+ characters do arise in the course of evolution, yet the acceptance of
+ this view is far from settling the question <i>as to how these new
+ characters are established in the germ-substance</i>&mdash;for in this
+ substance they certainly must have their foundation. When, therefore, O.
+ Hertwig laments over my regarding evolution and not epigenesis as the
+ correct foundation of the theory of development, his sorrow is almost as
+ naïve as is the statement of Bourne that epigenesis is a fact and not a
+ theory "a statement of morphological fact," <i>Science Progress</i>,
+ April, 1894, page 108), or, as is the latter's unconsciousness that facts
+ originally receive their scientific significance from thought, i. e. from
+ their interpretation and combination, and that thought is theory. And
+ when S. Minot, as the leader of the embryologists, carries his zeal to
+ the pitch of issuing a general pronunciamento against me as a corruptor
+ of youth, in which he declares it to be a "scientific duty to protest in
+ the most positive manner against Weismann's theory," I wonder greatly
+ that he does not suggest the casting of a general ballot in the matter.
+ (See the <i>Biologisches Centralblatt</i> of August 1, 1895.) We see how
+ with these gentlemen the wisdom of the recitation-room regarding the
+ infallibility of epigenesis has grown into a dogma, and whoever ventures
+ to disturb its foundations must be burnt as a heretic.</p>
+
+ <p><a name="Nt19" href="#NtA19">[19]</a> Oscar Hertwig, <i>Zeit- und
+ Streitfragen der Biologie</i>, Jena, 1894.</p>
+
+ <p><a name="Nt20" href="#NtA20">[20]</a> Nor will those, who demand a
+ demonstration of "how the biophores and determinants are constituted in
+ every case, and must be arranged in the architecture of the germ-plasm."
+ (O. Hertwig, <i>loc. cit.</i>, p. 137). As if any living being could have
+ the temerity even so much as to guess at the actual ultimate phenomena in
+ evolution and heredity! The whole question is a matter of symbols only,
+ just as it is in the matter of "forces," "atoms," "ether undulations,"
+ etc., the only difference being that in biology we stumble much earlier
+ upon the unknown than in physics.</p>
+
+ <p><a name="Nt21" href="#NtA21">[21]</a> "Beiträge zur Kritik der
+ Darwin'schen Lehre," <i>Biologisches Centralblatt</i>, Vol. X., p. 449.
+ 1890.</p>
+
+ <p><a name="Nt22" href="#NtA22">[22]</a> Poulton has adverted to the fact
+ that this is nevertheless not always the case; for example, it is not so
+ with the teeth, whose shape it had also been sought to reduce to the
+ mechanical effects of pressure and friction. See "The Theory of
+ Selection" in <i>The Proceedings of the Boston Society of Natural
+ History</i>, Vol. XX., page 389. 1894.</p>
+
+ <p><a name="Nt23" href="#NtA23">[23]</a> As the highest stage of
+ selective processes must be regarded that between the highest biological
+ units, the colonies or cormi&mdash;a stage, however, which is not
+ essentially different from personal selection. In this stage the persons
+ enact the part that the organs play in personal selection. Like their
+ prototypes they also battle with one another for food and in this way
+ maintain harmony in the colony. But the result of the struggle endures
+ only during the life of the individual colony and can be transmitted
+ through the germ-cells to the following generation as little as can
+ histological changes provoked by use in the individual person. Only that
+ which issues from the germ has duration.</p>
+
+ <p><a name="Nt24" href="#NtA24">[24]</a> This statement has often been
+ declared extravagant, and it is so if it is taken in its strict
+ literalness. On the other hand, it would also seem, by a more liberal
+ interpretation, as if there existed non-adaptive characters, for example,
+ rudimentary organs. Adaptiveness, however, is never absolute but always
+ conditioned, that is, is never greater than outward and inward
+ circumstances permit. Moreover, an organ can only disappear gradually and
+ slowly when it has become superfluous; yet this does not prevent our
+ recognising every stage of its degeneration as adapted when compared with
+ its precursor. Further, it does not militate against the correctness of
+ the above proposition that there are also characters whose fitness
+ consists in their being the necessary accompaniments of other directly
+ adapted features, as, for instance, the red color of the blood.</p>
+
+ <p><a name="Nt25" href="#NtA25">[25]</a> Semper, <i>Die natürlichen
+ Existenzbedingungen der Thiere</i>, Leipsic, 1880, pp. 218-219.</p>
+
+ <p><a name="Nt26" href="#NtA26">[26]</a> Wolff, "Beiträge zur Kritik der
+ Darwin'schen Lehre," <i>Biolog. Centralblatt</i>, Vol. X., Sept. 15,
+ 1890, and "Bemerkungen zum Darwinismus mit einem experimentellen Beitrag
+ zur Physiologie der Entwicklung," <i>Biolog. Centralblatt</i>, Vol. XIV.,
+ Sept. 1, 1894.</p>
+
+ <p><a name="Nt27" href="#NtA27">[27]</a> Henry B. Orr, <i>A Theory of
+ Development and Heredity</i>, New York, 1893.</p>
+
+ <p><a name="Nt28" href="#NtA28">[28]</a> Yves Delâge, <i>La structure du
+ protoplasma et les théories sur l'hérédité et les grands problèmes de la
+ biologie générale</i>, Paris, 1895.</p>
+
+ <p><a name="Nt29" href="#NtA29">[29]</a> Henslow, <i>The Origin of
+ Species Without the Aid of Natural Selection, A Reply to Wallace</i>.
+ 1894.</p>
+
+ <p><a name="Nt30" href="#NtA30">[30]</a> If any one should deem these
+ words too severe, let him read the sarcastic passages in which Eimer has
+ dispatched the late unfortunate Eric Haase who had been presumptuous
+ enough to oppose the Tübingen Professor's deliverances on certain points.
+ Haase, as we all know, fell a victim to the climate of the tropics,
+ shortly after resigning the post of Director of the natural science
+ collections in Bangkok, in order to return to Germany and to work out the
+ fruits of his tropical sojourn. The unfortunate end of this accomplished
+ man who had rendered important services to science had no effect in
+ mollifying the resentment of Herr Eimer at the opposition which his views
+ had encountered; and in twenty printed pages he takes him to task in the
+ most personal and rancorous manner for this affront, remarking at the
+ close: "In the meantime Herr Haase has died. Nevertheless I owe it to
+ myself, in spite of this occurrence, to make public the foregoing facts,
+ in order," etc. Any one who is interested in knowing the motives of Herr
+ Eimer's excuse may find them in his book <i>Artbildung and Verwandtschaft
+ bei den Schmetterlingen</i>, Part II., p. 66.</p>
+
+ <p><a name="Nt31" href="#NtA31">[31]</a> "Gedanken zur Descendenz- und
+ Vererbungstheorie." <i>Biolog. Centralblatt</i>, July 15, 1893.</p>
+
+ <p><a name="Nt32" href="#NtA32">[32]</a> C. Lloyd Morgan, <i>Animal Life
+ and Intelligence</i>, London, 1890-1891, p. 30-33.</p>
+
+ <p><a name="Nt33" href="#NtA33">[33]</a> <i>Materials for the Study of
+ Variation with Especial Regard to Discontinuity in the Origin of
+ Species</i>, London, 1895, p. 16.</p>
+
+ <p><a name="Nt34" href="#NtA34">[34]</a> "Gedanken zur Descendenz- and
+ Vererbungstheorie," <i>Biolog. Centralblatt</i>, 1893, Vol. XIII., p.
+ 397.</p>
+
+</div>
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
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+Definite Variation, by August Weismann
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+</pre>
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+</html>
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+The Project Gutenberg EBook of On Germinal Selection as a Source of
+Definite Variation, by August Weismann
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: On Germinal Selection as a Source of Definite Variation
+
+Author: August Weismann
+
+Translator: Thomas McCormack
+
+Release Date: October 15, 2010 [EBook #34077]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK ON GERMINAL SELECTION ***
+
+
+
+
+Produced by Bryan Ness, Keith Edkins and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive/American Libraries.)
+
+
+
+
+
+ BIOLOGICAL PUBLICATIONS.
+
+ THE PRIMARY FACTORS OF ORGANIC EVOLUTION.
+ By _Prof. E. D. Cope_. Cuts, 121. Pp., xvi, 547. Cl., $2.00 (10s.).
+
+ DARWIN AND AFTER DARWIN. An Exposition of the Darwinian
+ Theory and a Discussion of Post-Darwinian Questions.
+ By _George John Romanes, LL. D., F. R. S., etc._
+
+ 1. THE DARWINIAN THEORY. With portrait of Darwin.
+ Pp., 460. Cuts, 125. Second edition. Cloth, $2.00.
+
+ 2. POST-DARWINIAN QUESTIONS. Heredity and Utility.
+ With portrait of Romanes. Pp., 338. Cloth, $1.50.
+
+ 3. POST-DARWINIAN QUESTIONS. Isolation and Physiological
+ Selection. With portrait of Mr. J. T. Gulick. Pp.,
+ 181. 8vo. Cloth, $1.00.
+
+ (_The three volumes supplied to one order for $4.00._)
+
+ A FIRST BOOK IN ORGANIC EVOLUTION. An Introduction
+ to the Study of the Development Theory by _D. Kerfoot_
+ _Shute, M. D._ Pages, xvi, 285, 39 illustrations--9 in natural
+ colors. Cloth, $2.00 net (7s. 6d. net).
+
+ AN EXAMINATION OF WEISMANNISM. By _George John_
+ _Romanes_. Pp., ix, 221. Cloth, $1.00. Paper, 40c.
+
+ THE PSYCHIC LIFE OF MICRO-ORGANISMS. By _Dr._
+ _Alfred Binet_. Pp., xii, 120. Cloth, 75c (3s. 6d.). Paper, 30c
+ (1s. 6d.).
+
+ ON GERMINAL SELECTION. By _August Weismann_. Pp.,
+ xii, 61. Paper, 30c (1s. 6d.).
+
+ ON MEMORY, AND THE SPECIFIC ENERGIES OF THE
+ NERVOUS SYSTEM. By _E. Hering_. Pp., 50. Paper, 20c.
+
+ A MECHANICO-PHYSIOLOGICAL THEORY OF ORGANIC
+ EVOLUTION. Summary. By _Carl von Naegeli_.
+ Pp., 52. Paper, 20c (9d.).
+
+ ON ORTHOGENESIS. By _Th. Eimer_. Pp., 56. Paper, 30c.
+ (1s. 6d.).
+
+ THE PRINCIPLES OF BACTERIOLOGY. By _Dr. Ferdinand_
+ _Hueppe_. Woodcuts, 28. Pp., 467. $1.75 (7s. 6d.).
+
+ THE OPEN COURT PUB. CO., CHICAGO.
+
+ * * * * *
+
+
+ON
+
+GERMINAL SELECTION
+
+AS A
+
+SOURCE OF DEFINITE VARIATION
+
+BY
+
+AUGUST WEISMANN
+
+TRANSLATED FROM THE GERMAN BY
+THOMAS J. McCORMACK
+
+ * * * * *
+
+SECOND EDITION
+
+ * * * * *
+
+CHICAGO
+
+THE OPEN COURT PUBLISHING COMPANY.
+
+LONDON AGENTS:
+KEGAN PAUL, TRENCH, TRUEBNER & CO., LTD.
+1902.
+
+ * * * * *
+
+COPYRIGHT BY
+THE OPEN COURT PUBLISHING CO.
+1896
+
+ * * * * *
+
+
+{3}
+
+PREFACE.
+
+The present paper was read in the first general meeting of the
+International Congress of Zooelogists at Leyden on September 16, 1895.
+Several points, which for reasons of brevity were omitted when the paper
+was read, have been re-embodied in the text, and an Appendix has been added
+where a number of topics receive fuller treatment than could well be
+accorded to them in a lecture. The address was first printed in _The
+Monist_ for January, 1896, and afterwards in a German pamphlet.
+
+The basal idea of the essay--the existence of Germinal Selection--was
+propounded by me some time since,[1] but it is here for the first time
+fully set forth and tentatively shown to be the necessary complement of the
+process of selection. Knowing this factor, we remove, it seems to me, the
+patent contradiction of the assumption that the general fitness of
+organisms, or the adaptations _necessary_ to their existence, are produced
+by _accidental_ variations--a contradiction which formed a serious
+stumbling-block to the theory of selection. Though still assuming that the
+_primary_ variations are "accidental," I yet hope to have demonstrated that
+an interior mechanism exists which compels them to go on increasing in a
+definite direction, the moment selection intervenes. _Definitely directed
+{4} variation exists_, but not predestined variation, running on
+independently of the life-conditions of the organism, as Naegeli, to
+mention the most extreme advocate of this doctrine, has assumed; on the
+contrary, the variation is such as is elicited and controlled by those
+conditions themselves, though indirectly.
+
+In basing my proof of the doctrine of Germinal Selection on the fundamental
+conceptions of my theory of heredity, a few words of justification are
+necessary, owing to the fact that the last-mentioned theory has been widely
+and severely assailed since its first emergence into light and even
+repudiated as absolutely futile and erroneous.
+
+In the first place, many critics have characterised it as a "pure creation
+of the imagination." And to a certain extent it is such, as every theory
+is. But is it on that account necessarily wrong? Can not its fundamental
+ideas still be quite correct, and it itself therefore perfectly justified
+as a means of further progress?
+
+Surely my critics cannot be ignorant of the prominent part which
+imagination has recently played in the exactest of all natural
+sciences--physics? Are they unaware that the English physicist Maxwell
+"constructed from liquid vortices and friction-pulleys enclosed in cells
+with elastic walls, a wonderful mechanism, which served as a mechanical
+model for electromagnetism"?[2] He hoped "that further research in the
+domain of theoretical electricity would be promoted rather than hindered by
+such mechanical {5} fictions." And so it actually happened, for Maxwell
+found by means of them "the very equations, whose singular and almost
+incomprehensible power Hertz has so beautifully portrayed in his lecture on
+the relations between light and electricity." "Maxwell's formulae were the
+direct outcome of his mechanical models." "These ideal mechanisms"--so
+relates Boltzmann in the same interesting essay--"were at first widely
+ridiculed, but gradually the new ideas worked their way into all fields.
+They were themselves more convenient than the old hypotheses. For the
+latter could be maintained only in the event of everything's proceeding
+smoothly; whereas now little inconsistencies were fraught with no peril,
+for no one can take amiss a slight hitch in a mere analogy.--Ultimately
+Maxwell's ideas were philosophically generalised as the theory that all
+knowledge consists in the disclosure of analogies."
+
+But not only does it seem that there is little appreciation among
+biologists for the scientific import of imagination, they also appear to
+have little sense for the significance of theory. It is a favorite attitude
+nowadays to look upon theory as a sort of superfluous ballast, as a
+worthless survival from the epoch of decrepit "nature-philosophies." People
+pronounce with pride the miscomprehended utterance of Newton, _Hypotheses
+non fingo_, and place the value of the slightest new fact infinitely higher
+than that of "the most beautiful theory."[3] And yet theory originally {6}
+fashions science out of facts and is the indispensable precondition of
+every important scientific advance.
+
+Heinrich Hertz,[4] the discoverer of electric undulations, had the same
+thought in mind when he said: "We form inward representations or constructs
+of outward objects, so constituted that the results that follow logically
+and necessarily from the constructs are in turn always constructs of the
+results flowing naturally and necessarily from the objects." "These
+constructs or mental images copied after familiar objects possessed of
+familiar properties, so constituted that from their manipulation effects
+result similar to those which we observe in the objects to be explained.
+Experience teaches us that the requirements here made can be fulfilled and
+that consequently such 'correspondences' between reality and the supposed
+images [or, as Hertz says, between nature and mind] actually exist. Having
+succeeded in extracting from the accumulated experience of the past,
+representative images or constructs fulfilling all these necessary
+requirements, we can then reproduce by them in a short space of time, as we
+might by models, results that in the outward world require a long space of
+time for their actualisation or can be produced only through our personal
+intervention," etc.
+
+{7}
+
+Such representative models, or constructs, now, in my theory of heredity,
+are the _determinants_, which may be conceived as indefinitely fashioned
+packages of units (biophores) which are set into activity by definite
+impressions and put a distinctive stamp upon some small part of the
+organism, on some cell or group of cells, evoking definite phenomena
+somewhat as a piece of fireworks when lighted produces a brilliant sun, a
+shower of sparks, or the glowing characters of a name.
+
+The _ids_, also, are such representative models, and may be compared to a
+definitely ordered but variously compounded aggregate of fireworks, in
+which the single pieces are so connected as to go off in fixed succession
+and to produce a definite resultant phenomenon like a complete inscription
+surrounded by a hail of fire and glowing spheres.
+
+Owing to the greater complexity of the phenomena in biology we can never
+hope to reach the same distinctness in our constructs and models as in
+physics, and the attempt to derive from them mathematical formulae by the
+independent development of which research could be continued, would at
+present be utterly fruitless. In the meantime it seems preferable to have
+some sort of adequate model to which the imagination can always resort and
+with which it can easily operate, rather than to have to revert, in
+considering every special problem of heredity, to the mutual actions of the
+molecules of living substance and outward agents--processes which we know
+only in their roughest outlines. Or is any one presumptuous enough to
+believe we can infer from our slight knowledge of the chemical and physical
+constitution of the germs of a trout and a salmon the real cause {8} of the
+one's becoming a trout and of the other's becoming a salmon?
+
+The fact is, we can make no show of accounting for the complex phenomena of
+heredity with mere _material_ units; we can never reach these phenomena
+from below, but must begin farther up and make the assumption of _vital_
+units and _hereditary_ units, if there is to be any advance in this field.
+
+It is undoubtedly a splendid aim which the newly founded science of
+developmental mechanics has set itself of laying bare the entire causal
+line leading from the egg to the finished organism; yet, however much we
+may wish to see the success of this plan realised, we cannot disguise the
+fact that little or nothing is to be accomplished by it in the settlement
+of the problems of heredity. It is impossible to suspend the study of
+heredity until this mechanics is completed, and even if we could it would
+help us little, for the riddles of heredity are not concealed in the
+ontogenesis of types, or, to give an example, in the developmental history
+of man _as a race_, but in the ontogenesis of _individuals_, in that of a
+_definite and particular_ man. This last ontogenesis exhibits the phenomena
+of variation, of reversion, of the predominance of the one or the other
+parent, etc., and no one is likely to believe that inductive evolutional
+inquiry alone will ever afford us knowledge of these minute and delicate
+processes, which, in their bearing on the total resultant development,
+phylogenesis, are after all the most important of all.
+
+There is, accordingly, no choice left. If we are really bent on
+scientifically investigating the question of heredity, we are obliged
+perforce to form from the observed facts of heredity a highly detailed and
+{9} elaborate theory, on the basis of which we can propound new questions,
+which will give rise in turn to new facts, and thus will exercise a
+retroactive influence on the theory, improving and transforming it.
+
+This is precisely what I have sought to accomplish by my theory of
+Germ-plasm, as I stated in the Preface to the book bearing that name. It
+was never intended as a theory of life, nor, indeed, primarily, as a theory
+of evolution, but first and above all as a theory of heredity. I cannot
+understand, therefore, the animadversion, that my theory in no way furthers
+our insight into the mechanics of development. That is not its purpose; in
+fact, it takes the ultimate physical and chemical processes which make up
+the vital processes for granted; and inevitably it is constrained to do so.
+Its aim is to put into our hands a serviceable formula by means of which we
+can go on working in the field of heredity at any rate, and, if I am not
+mistaken, also in that of evolution. To me, at least, the newest results of
+developmental mechanics do not seem so widely at variance with the theory
+of determinants as might appear at first sight; so far as I can see, they
+can be quite readily made to harmonise with the theory, provided only the
+initial stage of the disintegration of the germ-plasm in the determinant
+groups be not invariably placed at the beginning of the process of
+segmentation, but be transferred according to circumstances to a subsequent
+period. The exact state of things cannot as yet be determined, so long as
+the mass of facts is still in constant flux.
+
+In any event I still hold fast to the hope which I expressed in the Preface
+to my _Germ-plasm_, that despite the unavoidable uncertainties in its
+foundation my theory would yet prove more than a mere work {10} of
+imagination, and that the future would find in it some durable points which
+would outlive the mutations of opinion. It is possible that one of these
+durable gains is my much impugned idea of determinants, and in fact not
+only will the present essay be made to rest on this idea, but it will also
+defend it on new grounds, although primarily only as a representation of
+something which we do not as yet exactly know, but which still exists and
+on which we can reckon, leaving it to the future to decide the greater or
+less resemblance of our hypothetical construct to nature.
+
+The real aim of the present essay is to rehabilitate the principle of
+selection. If I should succeed in reinstating this principle in its
+emperilled rights, it would be a source of extreme satisfaction to me; for
+I am so thoroughly convinced of its indispensability as to believe that its
+demolition would be synonymous with the renunciation of all inquiry
+concerning the causal relation of vital phenomena. If we could understand
+the adaptations of nature, whose number is infinite, only upon the
+assumption of a teleological principle, then, I think, there would be
+little inducement to trouble ourselves about the causal connexion of the
+stages of ontogenesis, for no good reason would exist for excluding
+teleological principles from this field. Their introduction, however, means
+the ruin of science.
+
+ AUGUST WEISMANN.
+
+ FREIBURG, Nov. 18, 1895.
+
+ * * * * *
+
+
+{11}
+
+GERMINAL SELECTION.
+
+ * * * * *
+
+Numerous and varied are the objections that have been advanced against the
+theory of selection since it was first enunciated by Darwin and
+Wallace--from the unreasoning strictures of Richard Owen and the acute and
+thoughtful criticisms of Albert Wigand and Naegeli to the opposition of our
+own day, which contends that selection cannot create but only reject, and
+which fails to see that precisely through this rejection its creative
+efficacy is asserted. The champions of this view are for discovering the
+motive forces of evolution in the _laws_ that govern organisms--as if the
+norm according to which an event happens were the event itself, as if the
+rails which determine the direction of a train could supplant the
+locomotive. Of course, from every form of life there proceeds only a
+definite, though extremely large, number of tracks, _the possible
+variations_, whilst between them lie stretches without tracks, _the
+impossible variations_, on which locomotion is impossible. But the actual
+travelling of a track is not performed by the track, but by the locomotive,
+and on the other hand, the choice of a track, the decision whether the
+destination of the train shall be Berlin or Paris, is not made by the
+locomotive, the cause of the variation, but by the driver of the
+locomotive, who directs the engine on the right track. In the theory of
+selection the engine-driver is represented by utility, for with utility
+rests the decision {12} as to what particular variational track shall be
+travelled. The cogency, the irresistible cogency, as I take it, of the
+principle of selection is precisely its capacity of explaining why fit
+structures always arise, and that certainly is the great problem of life.
+Not the fact of change, but the _manner_ of the change, whereby all things
+are maintained capable of life and existence, is the pressing question.
+
+It is, therefore, a very remarkable fact, and one deserving of
+consideration, that to-day (1895), after science has been in possession of
+this principle for something over thirty years and during this time has
+steadily and zealously busied itself with its critical elaboration and with
+the exact determination of its scope, that now the estimation in which it
+is held should apparently be on the decrease. It would be easy to enumerate
+a long list of living writers who assign to it a subordinate part only in
+evolution, or none at all. One of our youngest biologists speaks without
+ado of the "pretensions of the refuted Darwinian theory, so called,"[5] and
+one of the oldest and most talented inquirers of our time, a pioneer in the
+theory of evolution, who, unfortunately, is now gone to his rest, Thomas
+Huxley, implicitly yet distinctly intimated a doubt regarding the principle
+of selection when he said: "Even if the Darwinian hypothesis were swept
+away, evolution would still stand where it is." Therefore, he, too,
+regarded it as not impossible that this hypothesis should disappear from
+among {13} the great explanatory principles by which we seek to approach
+nearer to the secrets of nature.
+
+I am not of that opinion. I see in the growth of doubts regarding the
+principle of selection and in the pronounced and frequently bitter
+opposition which it encounters, a transient depression only of the wave of
+opinion, in which every scientific theory must descend after having been
+exalted, here perhaps with undue swiftness, to the highest pitch of
+recognition. It is the natural reaction from its overestimation, which is
+now followed by an equally exaggerated underestimation. The principle of
+selection was not overrated in the sense of ascribing to it too much
+explanatory efficacy, or of extending too far its sphere of operation, but
+in the sense that naturalists imagined that they perfectly understood its
+ways of working and had a distinct comprehension of its factors, which was
+not so. On the contrary, the deeper they penetrated into its workings the
+clearer it appeared that something was lacking, that the action of the
+principle, though upon the whole clear and representable, yet when
+carefully looked into encountered numerous difficulties, which were
+formidable, for the reason that we were unsuccessful in tracing out the
+actual details of the individual process, and, therefore, in _fixing_ the
+phenomenon as it actually occurred. We can state in no single case how
+great a variation must be to have selective value, nor how frequently it
+must occur to acquire stability. We do not know when and whether a desired
+useful variation really occurs, nor on what its appearance depends; and we
+have no means of ascertaining the space of time required for the fulfilment
+of the selective processes of nature, and hence cannot calculate the exact
+number of such {14} processes that do and can take place at the same time
+in the same species. Yet all this is necessary if we wish to follow out the
+precise details of a given case.
+
+But perhaps the most discouraging circumstance of all is, that in scarcely
+a single actual instance in nature can we assert whether an observed
+variation is useful or not--a drawback that I distinctly pointed out some
+time ago.[6] Nor is there much hope of betterment in this respect, for
+think how impossible it would be for us to observe all the individuals of a
+species in all their acts of life, be their habitat ever so limited--and to
+observe all this with a precision enabling us to say that this or that
+variation possessed selective value, that is, was a decisive factor in
+determining the existence of the species.
+
+In many cases we can reach at least a probable inference, and say, for
+example, that the great fecundity of the frog is a property having
+selective value, basing our inference on the observation that in spite of
+this fertility the frogs of a given district do not increase.
+
+But even such inferences offer only a modicum of certainty. For who can say
+precisely how large this number is? Or whether it is on the increase or on
+the decrease? And besides, the exact degree of the fecundity of these
+animals is far from being known. Rigorously viewed, we can only say that
+great fecundity must be advantageous to a much-persecuted animal.
+
+And thus it is everywhere. Even in the most indubitable cases of
+adaptation, as, for instance, in that of the striking protective coloring
+of many butterflies, {15} the sole ground of inference that the species
+upon the whole is adequately adapted to its conditions of life, is the
+simple fact that the species is, to all appearances, preserved
+undiminished, and the inference is not at all permissible that just this
+protective coloring has selective value for the species, that is, that if
+it were lacking, the species would necessarily have perished.
+
+It is not inconceivable that in many species today these colorings are
+actually unnecessary for the preservation of the species, that they
+formerly were, but that now the enemies which preyed on the resting
+butterflies have grown scarce or have died out entirely, and that the
+protective coloring will continue to exist by the law of inertia[7] only
+for a short while till panmixia or new adaptations shall modify it.
+
+Discouraging, therefore, as it may be, that the control of nature in her
+minutest details is here gainsaid us, yet it were equivalent to sacrificing
+the gold to the dross, if simply from our inability to follow out the
+details of the individual case we should renounce altogether the principle
+of selection, or should proclaim it as only subsidiary, on the ground that
+we believe the protective coloring of the butterfly is not a protective
+coloring, but a combination of colors inevitably resulting from internal
+causes. The protective coloring remains a protective coloring whether at
+the time in question it is or is not necessary for the species; and it
+arose as protective coloring--arose not because it was a constitutional
+necessity of the animal's organism that here a red and there a white,
+black, or yellow spot should be produced, but because it was {16}
+advantageous, because it was necessary for the animal. There is only one
+explanation possible for such patent adaptations and that is selection.
+What is more, no other natural way of their originating is conceivable, for
+we have no right to assume teleological forces in the domain of natural
+phenomena.
+
+I have selected the example of the butterfly's wing, not solely because it
+is so widely known, but because it is so exceedingly instructive, because
+we are still able to learn so much from it. It has been frequently asserted
+that the color-patterns of the butterfly's wings have originated from
+internal causes, independently of selection and conformably to inward laws
+of evolution. Eimer has attempted to prove this assertion by establishing
+in a division of the genus Papilio the fact that the species there admit of
+arrangement in series according to affinity of design. But is a proof that
+the markings are modified in definite directions during the course of the
+species's development equivalent to a definite statement as to the _causes_
+that have produced these gradual transformations? Or, is our present
+inability to determine with exactness the biological significance of these
+markings and their modifications, a proof that the same have no
+significance whatever? On the contrary, I believe it can be clearly proved
+that the wing of the butterfly is a tablet on which nature has inscribed
+everything she has deemed advantageous to the preservation and welfare of
+her creatures, and nothing else; or, to abandon the simile, that these
+color-patterns have not proceeded from inward evolutional forces, but are
+the result of selection. At least in all places where we do understand
+their biological significance these patterns are constituted and
+distributed over the wing exactly as utility would require. {17}
+
+I do not pledge myself, of course, to give an explanation of every spot and
+every line on a wing. The inscription is often a very complicated one,
+dating from remote and widely separated ages; for every single existing
+species has inherited the patterns of its ancestral species and that again
+the patterns of a still older species. Even at its origin, therefore, the
+wing was far from being a _tabula rasa_, but was a closely written and
+fully covered sheet, on which there was no room for new writing until a
+portion of the old had been effaced. But other parts were preserved, or
+only slightly modified, and thus in many cases gradually arose designs of
+almost undecipherable complexity.
+
+I should be far from maintaining that the markings arose unconformably to
+law. Here, as elsewhere, the dominance of law is certain. But I take it,
+that the laws involved here, that is, the physiological conditions of the
+variation, are without exception subservient to the ends of a higher
+power--utility; and that it is utility primarily that determines the kind
+of colors, spots, streaks and bands that shall originate, as also their
+place and mode of disposition. The laws come into consideration only to the
+extent of conditioning the quality of the constructive materials--the
+variations, out of which selection fashions the designs in question. And
+this also is subject to important restrictions, as will appear in the
+sequel.
+
+The meaning of formative laws here is that definite spots on the surfaces
+of the wings are linked together in such a manner by inner, invisible
+bonds, as to represent the same spots or streaks, so that we can predict
+from the appearance of a point at one spot the appearance of another
+similar point at another, and {18} so on. It is an undoubted fact that such
+relations exist, that the markings frequently exhibit a certain symmetry,
+that--to use the words of the most recent observer on this subject,
+Bateson[8]--a meristic representation of equivalent design-elements occurs.
+But I believe we should be very cautious in deducing laws from these facts,
+because all the rules traceable in the markings apply only to small groups
+of forms and are never comprehensive nor decisive for the entire class or
+even for the single sub-class of diurnal butterflies, in fact, often not so
+for a whole genus. All this points to special causes operative only within
+this group.
+
+If internal laws controlled the marking on butterflies' wings, we should
+expect that some general rule could be established, requiring that the
+upper and under surfaces of the wings should be alike, or that they should
+be different, or that the fore wings should be colored the same as or
+differently from the hind wings, etc. But in reality all possible kinds of
+combinations occur simultaneously, and no rule holds throughout. Or, it
+might be supposed that bright colors should occur only on the upper surface
+or only on the under surface, or on the fore wings or only on the hind
+wings. But the fact is, they occur indiscriminately, now here, now there,
+and no one method of appearance is uniform throughout all the species. But
+the fitness of the various distributions of colors is apparent, and the
+moment we apply the principle of utility we know why in the diurnal
+butterflies the upper surface alone is usually variegated and the under
+surface protectively colored, or why in the nocturnal {19} butterflies the
+fore wings have the appearance of bark, of old wood, or of a leaf, whilst
+the hind wings, which are covered while resting, alone are brilliantly
+colored. On this theory we also understand the exceptions to these rules.
+We comprehend why Danaids, Heliconids, Euploids, and Acracids, in fact all
+diurnal butterflies, offensive to the taste and smell, are mostly brightly
+marked and equally so on both surfaces, whilst all species not thus exempt
+from persecution have the protective coloring on the under surface and are
+frequently quite differently colored there from what they are on the upper.
+
+In any event, the supposed formative laws are not obligatory. Dispensations
+from them can be issued and are issued _whenever utility requires it_.
+Indeed, so far may these transgressions of the law extend, that in the very
+midst of the diurnal butterflies is found a genus, the South American
+Ageronia, which, like the nocturnal butterfly, shows on the entire _upper_
+surface of both wings a pronounced bark-coloration, and concerning which we
+also know (and in this respect it is an isolated genus and differs from
+almost all other diurnal butterflies), that it spreads out its wings when
+at rest like the nocturnal butterfly, and does not close them above it as
+its relatives do. Therefore, entirely apart from cases of mimicry, which
+after all constitute the strongest proof, the facts here cited are alone
+sufficient to remove all doubt that not inner necessities or so-called
+formative laws have painted the surface of the butterflies' wings, but that
+the conditions of life have wielded the brush.
+
+This becomes more apparent on considering the details. I have remarked that
+the usually striking colorations of exempt butterflies, as of the
+Heliconids, {20} are the same on both the upper and the lower surfaces of
+the wings. Possibly the expression of a law might be seen in this fact, and
+it might be said, the coloration of the Heliconids _runs through_ from the
+upper to the under surface. But among numerous imitators of the Heliconids
+is the genus Protogonius, which has the coloration of the Heliconids on its
+upper surface, but on its lower exhibits a magnificent leaf-design. During
+flight it appears to be a Heliconid and at rest a leaf. How is it possible
+that two such totally different types of coloration should be combined in a
+single species, if any sort of _inner_ rigorous necessity existed,
+regulating the coloration of the two wing-surfaces? Now, although we are
+unable to prove that the Protogonius species would have perished unless
+they possessed this duplex coloration, yet it would be nothing less than
+intellectual blindness to deny that the butterflies in question are
+effectively protected, both at rest and during flight, _that their
+colorations are adaptive_. We do not know their primitive history, but we
+shall hardly go astray if we assume that the ancestors of the Protogonius
+species were forest-butterflies and already possessed an under surface
+resembling a leaf. By this device they were protected when at rest.
+Afterwards, when this protection was no longer sufficient, they acquired on
+their upper surface the coloration of the exempt species with which they
+most harmonised in abode, habits of life, and outward appearance.
+
+At the same time it is explained why these butterflies did not acquire the
+coloration of the Heliconids on the under surface. The reason is, that in
+the attitude of repose they were already protected, and that in an
+admirable manner. {21}
+
+That _exempt_ diurnal butterflies should be colored on the upper and under
+surfaces alike, and should never resemble in the attitude of repose their
+ordinary surroundings, is intelligible when we reflect that it is a much
+greater protection to be despised when discovered than to be well, or very
+well, but never absolutely, protected from discovery.
+
+It has been so often reiterated that diurnal butterflies, as a rule, are
+protectively colored on the under surfaces, that one has some misgivings in
+stating the fact again. And yet the least of those who hold this to be a
+trivial commonplace know how strongly its implications militate against the
+inner motive and formative forces of the organism, which are ever and anon
+appealed to. No less than sixty-two genera are counted today in the family
+of diurnal butterflies known as the Nymphalidae. Of these by far the
+largest majority are sympathetically colored underneath, that is, they show
+in the posture of rest the colorings of their usual environment. In a large
+number of the species belonging to this group the entire surface of the
+hind wings possesses such a sympathetic coloration, as does also the
+distant apex of the fore wings. Why? The reason is obvious. This part only
+of the fore wing is visible in the attitude of repose. Here, then,--as a
+zealous opponent of the theory of selection once exclaimed,--there is
+undoubted "correlation" between the coloring of the surface of the hind
+wing and of the apex of the fore wing. Correlation is unquestionably a fine
+word, but in the present instance it contributes nothing to the
+understanding of the problem, for there are near relatives and often
+species of the same genera in which this correlation is not restricted to
+the apex of the {22} fore wings, but extends to a third or even more of
+their wings, and these species are also in the habit of drawing back their
+wings less completely in the state of rest, thus rendering a larger portion
+of them visible. There are species, too, like the forest-butterflies of
+South America just mentioned, the Protogonius, Anaea, Kallima species,
+etc., which have nearly the _whole_ of the under surfaces of their fore
+wings marked according to the same pattern with their hind wings, and these
+butterflies when at rest hold their fore wings free and uncovered by their
+hind wings. Where are the formative laws in such cases?
+
+Or, perhaps some one will say: "The covering by the hind wings hinders the
+formation of scales on the wing, or impedes the formation of the colors in
+the scales." Such a person should examine one of these species. He will
+find that the scales are just as dense on the covered as on the uncovered
+surface of the wing, and in many species, for example, in Katagramma, the
+scales of the covered surface are colored most brilliantly of all.
+
+But the facts are still more irresistible, when we consider _special
+adaptations_; for example, the imitation of leaves, which is so often
+cited. It is to be noted, first, that this sort of imitation is by no means
+restricted to a few genera, still less to a few species. All the numerous
+species of the genus Anaea, which are distributed over the forests of
+tropical South America, exhibit this imitation in pronounced and varied
+forms, as do likewise the American genera Hypna and Siderone, the Asiatic
+Symphaedra, the African Salamis, Eurypheme, etc. I have observed
+fifty-three genera in which it is present in one, several, or in many
+species, but there are many others. {23}
+
+These genera, now, are by no means all so nearly allied that they could
+have inherited the leaf-markings from a common ancestral form. They belong
+to different continents and have probably for the most part acquired their
+protective colorings themselves. But one resemblance they have in
+common--they are all _forest-butterflies_. Now what is it that has put so
+many genera of forest-butterflies and no others into positions where they
+could acquire this resemblance to leaves? Was it directive formative laws?
+If we closely examine the markings by which the similarity of the leaf is
+determined, we shall find, for example, in Kallima Inachis, and Parallecta,
+the Indian leaf-butterflies, that the leaf-markings are executed _in
+absolute independence of the other uniformities governing the wing_.
+
+From the tail of the wing to the apex of the fore wings runs with a
+beautiful curvature a thick, doubly-contoured dark line accompanied by a
+brighter one, representing the midrib of the leaf. This line cuts the
+"veins" and the "cells" of the wing in the most disregardful fashion, here
+in acute and here in obtuse angles, and in absolute independence of the
+regular system of divisions of the wing, which should assuredly be the
+expression of the "formative law of the wing," if that were the product of
+an internal directive principle. But leaving this last question aside, this
+much is certain with regard to the markings, that they are dependent, not
+on an _internal_, but on an _external_ directive power.
+
+Should any one be still unconvinced by the evidence we have adduced, let
+him give the leaf-markings a closer inspection. He will find that the
+midrib is composed of two pieces of which the one belongs to the {24} hind
+wing and the other to the fore wing, and that the two fit each other
+exactly when the butterfly is in the attitude of repose, but not otherwise.
+Now these two pieces of the leaf-rib do not begin on corresponding spots of
+the two wings, but on absolutely non-identical spots. And the same is also
+true of the lines which represent the lateral ribs of the leaf. These lines
+proceed in acute angles from the rib; to the right and to the left in the
+same angle, those of the same side parallel with each other. Here, too, no
+relation is noticeable between the parts of the wings over which the lines
+pass. The venation of the wing is utterly ignored by the leaf-markings, and
+its surface is treated as a _tabula rasa_ upon which anything conceivable
+can be drawn. In other words, we are presented here with a _bilaterally
+symmetrical_ figure engraved on a surface which is essentially _radially
+symmetrical_ in its divisions.
+
+I lay unusual stress upon this point because it shows that we are dealing
+here with one of those cases which cannot be explained by mechanical, that
+is, by natural means, unless natural selection actually exists and is
+actually competent to create new properties; for the Lamarckian principle
+is excluded here _ab initio_, seeing that we are dealing with a formation
+which is only passive in its effects; the leaf-markings are effectual
+simply by their existence and not by any function which they perform; they
+are present in flight as well as at rest, during the absence of danger, as
+well as during the approach of an enemy.
+
+Nor are we helped here by the assumption of _purely internal motive
+forces_, which Naegeli, Askenasy, and others have put forward as supplying
+a _mechanical_ force of evolution. It is impossible to regard the {25}
+coincidence of an Indian butterfly with the leaf of a tree now growing in
+an Indian forest as fortuitous, as a _lusus naturae_. Assuming this
+seemingly mechanical force, therefore, we should be led back inevitably to
+a teleological principle which produces adaptive characters and which must
+have deposited the directive principle in the very first germ of
+terrestrial organisms, so that after untold ages at a definite time and
+place the illusive leaf-markings should be developed. The assumption of
+pre-established harmony between the evolution of the ancestral line of the
+tree with its pre-figurative leaf, and that of the butterfly with its
+imitating wing, is absolutely necessary here--a fact which I pointed out
+many years ago,[9] but which is constantly forgotten by the promulgators of
+the theory of internal evolutionary forces.
+
+For the present I leave out of consideration altogether the question as to
+the conceivable extent of the sphere of operation of natural selection; I
+am primarily concerned only with elucidating the process of selection
+itself, wholly irrespective of the comprehensiveness or limitedness of its
+sphere of action. For this purpose it is sufficient to show, as I have just
+done, _that cases exist wherein all natural explanations except that of
+selection fail us_. But let us now see how far the principle of selection
+will carry us in the explanation of such cases--natural selection, I mean,
+as it was formulated by Darwin and Wallace.
+
+There can be no doubt but the leaf-markings readily admit of production in
+this manner, slowly and with a gradual but constant increase of fidelity,
+provided a single condition is fulfilled: _the occurrence of the {26} right
+variations at the right place_. But just here, it would seem, is the
+insurmountable barrier to the explanatory power of our principle, for who,
+or what, is to be our guarantee that dark scales shall appear at the exact
+spots on the wing where the midrib of the leaf must grow? And that later
+dark scales shall appear at the exact spots to which the midrib must be
+prolonged? And that still later such dark spots shall appear at the places
+whence the lateral ribs start, and that here also a definite acute angle
+shall be accurately preserved, and the mutual distances of the lateral ribs
+shall be alike and their courses parallel? And that the prolongation of the
+median rib from the hind wing to the fore wing shall be extended exactly to
+that spot where the fore wing is not covered by the hind wing in the
+attitude of repose? And so on.
+
+If I could go more minutely into this matter, I should attempt to prove
+that the markings, as I have just assumed, have not arisen suddenly, but
+were perfected very, very gradually; that in one species they began on the
+fore wing and in another on the hind wing; and that in many they never
+until recently proceeded beyond one wing, in other species they went only a
+little way, and in only a few did they spread over the entire surface of
+both wings.
+
+That these markings advanced slowly and gradually, but with marvelous
+accuracy, is no mere conjecture. But it follows that the right variations
+at the right places must never have been wanting, or, as I expressed it
+before: _the useful variations were always present_. But how is that
+possible in such long extensive lines of dissimilar variations as have
+gradually come to constitute markings of the complexity here presented?
+Suppose that the useful colors had not {27} appeared at all, or had not
+appeared at the right places? It is a fact that in constant species, that
+is, in such as are not in process of transformation, the variations of the
+markings are by no means frequent or abundant. Or, suppose that they had
+really appeared, but occurred only in individuals, or in a small percentage
+of individuals?
+
+Such are the objections raised against the theory of selection by its
+opponents, and put forward as insurmountable obstacles to the process. Nor
+are such objections relevant only in the case of protective colorings; they
+are applicable in all cases where the process of selection is concerned.
+Take the case of instincts that are called into action only once in life,
+as, for example, the pupal performances of insects, the artificial
+fabrication of cocoons, etc. How is it that the useful variations were
+always present here? And yet they must have been present, if such
+complicated spinning instincts could have taken their rise as are
+observable in the silk-worm, or in the emperor-moth. And they have been
+developed, and that in whole families, in forms varying in all species, and
+in every case adapted to the special wants of the species.
+
+Particularly striking is the proof afforded of this constant presence of
+the useful variations by cases where we meet with the development of highly
+special adaptations that are uncommon even for the group of organisms
+concerned. Such a case, for example, is the apparatus designed for the
+capture of small animals and their digestion, found in widely different
+plants and widely separated families. On the other hand, very common
+adaptations, such as the eyes of animals, show distinctly that in all cases
+where it was necessary, the useful variations for the formation of {28} an
+eye were presented, and were presented further exactly at spots at which
+organs of vision could perform their best work: thus, in Turbellaria and
+many other worms that live in the light, at the anterior extremity of the
+body and on the dorsal surface; in certain mussels, on the edge of the
+mantle; in terrestrial snails, on the antennae; in certain tropical marine
+snails inhabiting shallow waters, on the back; and in the chitons even on
+the dorsal surface of the shell!
+
+But even taking the very simplest cases of selection, it is impossible to
+do without this assumption, that the useful variations are always present,
+or that _they always exist in a sufficiently large number of individuals
+for the selective process_. You know the thickness and power of resistance
+of the egg-shells of round-worms. The eggs of the round-worms of horses
+have been known to continue their course of development undisturbed even
+after they had been thrown into strong alcohol and all other kinds of
+injurious liquids--much to the vexation of the embryologists, who wished to
+preserve a definite stage of development and sought to kill the embryo at
+that stage. Indeed, think of the result, if in the course of their
+phylogenesis stout and resistant variations of egg-shells had not been
+presented in these worms, or had not always been presented, or had not been
+presented in every generation and not in sufficient quantities.
+
+The cogency of the facts is absolutely overpowering when we consider that
+practically no modification occurs _alone_, that every primary modification
+brings in its train secondary ones, and that these induce forced
+modifications in many parts of the body, frequently of the most
+diversified, or even self-contradictory, forms. Recently Herbert Spencer
+has drawn {29} fresh attention to these secondary modifications, which must
+always occur in harmony with the primary one, and has, as he thinks,
+advanced in this set of facts, a convincing disproof of the contention that
+such coadaptive modifications of numerous cofunctioning parts can rest on
+natural selection. Now, although I deem his conclusion precipitate, yet the
+very fact of a simultaneous, functionally concordant, yet essentially
+diversified modification of numerous parts, points conclusively to the
+circumstance that _something is still wanting to the selection of Darwin
+and Wallace, which it is obligatory on us to discover, if we possibly can_,
+and without which selection as yet offers no complete explanation of the
+phyletic processes of transformation. There is a hidden secret to be
+unriddled here before we can obtain a satisfactory insight into the
+phenomena in question. _We must seek to discover why it happens that the
+useful variations are always present._
+
+Herbert Spencer appealed to Lamarck's principle for the explanation of
+coadaptation, and it is certain that functional adaptation is operative
+during the individual life, and that it compensates in a certain measure
+the inequalities of the inherited constitutions. I shall not repeat what I
+have said before on this subject, nor maintain, in refutation of Spencer's
+contention, that functional adaptation is itself nothing more than the
+efflux of _intra-biontic_ selective processes, as Spencer himself once
+suggested in a prophetic moment, but which it was left for Wilhelm Roux to
+introduce into science as "the struggle of the parts" of organisms.[10] I
+shall only remark that if functional adaptations were themselves
+inheritable, this would still be insufficient {30} for the explanation of
+coadaptation, for the reason that precisely similar coadaptive
+modifications occur in _purely passively_ functioning parts, in which,
+consequently, modification _by_ function is excluded. This is the case with
+the skeletal parts of Articulata; e. g., it is true of their articular
+surfaces with their complex adaptations to the most varied forms of
+locomotion. In all these cases the ready-made, hard, unalterable, chitinous
+part is _first_ set into activity; consequently its adaptation to the
+function must have been _previously_ effected, independently of that
+function. These joints, and divers other parts, accordingly, have been
+developed in the precisest manner for the function, and the latter could
+have had no direct share in their formation. When we consider, now, that it
+is impossible that every one of the numerous surfaces, ridges, furrows, and
+corners found in a single such articulation, let alone in all the
+articulations of the body, should hold in its hands the power of life and
+death over individuals for untold successions of generations, the fact is
+again unmistakably impressed upon our attention that the conception of the
+selective processes which has hitherto obtained is insufficient, that the
+root of the process in fact lies deeper, that it is to be found in the
+place where it is determined what variations of the parts of the organism
+shall appear--namely _in the germ_.
+
+The phenomena observed in the _stunting_, or _degeneration_, _of parts
+rendered useless_, point to the same conclusion. They show distinctly that
+ordinary selection which operates by the removal of entire persons,
+_personal selection_, as I prefer to call it, cannot be the only cause of
+degeneration; for in most cases of degeneration it cannot be assumed that
+slight individual {31} vacillations in the size of the organ in question
+have possessed selective value. On the contrary, we see such retrogressions
+affected apparently _in the shape of a continuous evolutionary process
+determined by internal causes_, in the case of which there can be no
+question whatever of selection of persons or of a survival of the fittest,
+that is, of individuals with the smallest rudiments.
+
+It is this consideration principally that has won so many adherents for the
+Lamarckian principle in recent times, particularly among the
+paleontologists. They see the outer toes of hoofed animals constantly and
+steadily degenerating through long successions of generations and species,
+concurrently with the re-enforcement of one or two middle toes, which are
+preferred or are afterwards used exclusively for stepping, and they believe
+correctly enough that these results should not be ascribed to the effects
+of personal selection alone. They demand a principle which shall effect the
+degeneration by internal forces, and believe that they have found it in
+functional adaptation.[11] {32} On this last point, now, I believe, they
+are mistaken, be they ever so strongly convinced of the correctness of
+their view and ever so aggressive and embittered in their defence of it.
+
+Recently, an inquirer of great caution and calmness of judgment, Prof. C.
+Lloyd Morgan, has expressed the opinion that the Lamarckian principle must
+at least be admitted as a working hypothesis. But with this I cannot agree,
+at least as things stand at present. A working hypothesis may be false, and
+yet lead to further progress; that is, it may constitute an advance to the
+extent of being useful in formulating the problem and in illuminating paths
+that are likely to lead to results. But it seems to me that a hypothesis of
+this kind has performed its services and must be discarded the moment it is
+found to be at hopeless variance with the facts. If it can be proved that
+precisely the same degenerative processes also take place in such
+superfluous parts as have only _passive_ and not active functions, as is
+the case with the _chitinous parts of the skeleton of Arthropoda_, then it
+is a demonstrated fact, that the cessation of functional action is not the
+efficient cause of the process of degeneration. At once your legitimate
+working hypothesis is transformed into an illegitimate dogma--illegitimate
+because it no longer serves as a guide on the path to knowledge but {33}
+blocks that path. For the person who is convinced he has found the right
+explanation is not going to seek for it.
+
+I can understand perfectly well the hesitation that has prevailed on this
+point in many minds, from their having seen _one_ aspect of the facts more
+distinctly than the other. From this sceptical point of view Osborn has
+drawn the following perfectly correct conclusion: "If acquired variations
+are transmitted, there must be some unknown principle in heredity; if they
+are not transmitted, there must be some unknown factor in evolution."[12]
+
+Such in fact is the case and I shall attempt to point out to you what this
+factor is. My inference is a very simple one: if we are forced by the facts
+on all hands to the assumption that the useful variations which render
+selection possible are always present, then _some profound connection must
+exist between the utility of a variation and its actual appearance_, or, in
+other words, _the direction of the variation of a part must be determined
+by utility_, and we shall have to see whether facts exist that confirm our
+conjecture.
+
+The facts do indeed exist and lie before our very eyes, despite their not
+having been recognised as such before. All _artificial selection_ practised
+by man rests on the fact that by means of the selection of individuals
+having a given character slightly more pronounced than usual, there is
+gradually produced a general augmentation of this character, which
+subsequently reaches a point never before attained by any individual {34}
+of this species. I shall choose an example which seems to me especially
+clear and simple because only one character has been substantially modified
+here. The long-tailed variety of domestic cock, now bred in Japan and
+Corea, owes its existence to skilful selection and not at all to the
+circumstance that at some period of the race's history a cock with
+tail-feathers six feet in length suddenly and spasmodically appeared. At
+the present day even, as Professor Ishikawa of Tokio writes me, the
+breeders still make extraordinary efforts to increase the length of the
+tail, and every inch gained adds considerably to the value of the bird. Now
+nothing has been done here whatever except always to select for purposes of
+breeding the cocks with the longest feathers; and in this way alone were
+these feathers, after the lapse of many generations, prolonged to a length
+far exceeding every previous variation.
+
+I once asked a famous dove-fancier, Mr. W. B. Tegetmeier of London, whether
+it was his opinion that by artificial selection alone a character could be
+augmented. He thought a long time and finally said: "It is without our
+power to do anything if the variation which we seek is not presented, but
+once that variation is given, then I think the augmentation can be
+effected." And that in fact is the case. If cocks had never existed whose
+tail-feathers were a little longer than usual the Japanese breed could
+never have originated; but as the facts are, always the cocks with the
+longest feathers were chosen from each generation, and these only were
+bred, and thus a hereditary augmentation of the character in question was
+effected, which would hardly have been deemed possible.
+
+Now what does this mean? Simply that the {35} hereditary diathesis, the
+constitutional predisposition (_Anlage_) of the breed was changed in the
+respect in question, and our conclusion from this and numerous similar
+facts of artificial selection runs as follows: _by the selection alone of
+the plus or minus variations of a character is the constant modification of
+that character in the plus or minus direction determined._ Obviously the
+hereditary _diminution_ of a part is also effected by the simple selection
+of the individuals in each generation possessing the smallest parts, as is
+proved, for example, by the tiny bills and feet of numerous breeds of
+doves. We may assert, therefore, in general terms: a definitely directed
+progressive variation of a given part is produced by continued selection in
+that definite direction. This is no hypothesis, but a direct inference from
+the facts and may also be expressed as follows: _By a selection of the kind
+referred to the germ is progressively modified in a manner corresponding
+with the production of a definitely directed progressive variation of the
+part._
+
+In this general form the proposition is not likely to encounter opposition,
+as certainly no one is prepared to uphold the view that the germ remains
+unchanged whilst the products proceeding from it, its descendants, are
+modified. On the contrary, all will agree when I say that the germ in this
+case must have undergone modifications, and that their character must
+correspond with the modifications undergone by its products. Thus far,
+then, we find ourselves, not on the ground of the hypothesis that has been
+lately so much maligned, but on the ground of facts and of direct
+inferences from facts. But if we attempt to pierce deeper into the problem,
+we are in need of the hypothesis. {36}
+
+The first and most natural explanation will be this--that through selection
+the zero-point, about which, figuratively speaking, the organ may be said
+to oscillate in its plus and minus variations, is displaced upwards or
+downwards. Darwin himself assumed that the variations oscillated about a
+mean point, and the statistical researches of Galton, Weldon, and others
+have furnished a proof of the assumption. If selection, now, always picks
+out the plus variations for imitation, perforce, then, the mean or
+zero-point will be displaced in the upward direction, and the variations of
+the following generation will oscillate about a higher mean than before.
+This elevation of the zero-point of a variation would be continued in this
+manner until the total equilibrium of the organism was in danger of being
+disturbed.
+
+There is involved here, however, an assumption which is by no means
+self-evident, that every advancement gained by the variation in question
+constitutes a new centre for the variations occurring in the following
+generation. _That this is a fact_, is proved by such actual results of
+selection as are obtained in the case of the Japanese cock. But the
+question remains, Why is this the fact?
+
+Now here, I think, my theory of determinants gives a satisfactory answer.
+According to that theory every independently and hereditarily variable part
+is represented in the germ by a _determinant_, that is by a determinative
+group of vital units, whose size and power of assimilation correspond to
+the size and vigor of the part. These determinants multiply, as do all
+vital units, by growth and division, and necessarily they increase rapidly
+in every individual, and the more rapidly the greater the quantity of the
+germinal cells {37} the individual produces. And since there is no more
+reason for excluding irregularities of passive nutrition, and of the supply
+of nutriment in these minute, microscopically invisible parts, than there
+is in the larger visible parts of the cells, tissues, and organs,
+consequently the descendants of a determinant can never all be exactly
+alike in size and capacity of assimilation, but they will oscillate in this
+respect to and fro about the maternal determinant as about their
+zero-point, and will be partly greater, partly smaller, and partly of the
+same size as that. In these oscillations, now, the material for further
+selection is presented, and in the inevitable fluctuations of the nutrient
+supply I see the reason why every stage attained becomes immediately the
+zero-point of new fluctuations, and consequently why the size of a part can
+be augmented or diminished by selection without limit, solely by the
+displacement of the zero-point of variation as the result of selection.
+
+We should err, however, if we believed that we had penetrated to the root
+of the phenomenon by this insight. There is certainly some other and
+mightier factor involved here than the simple selection of persons and the
+consequent displacement of the zero-point of variation. It would seem,
+indeed, as if in one case, _videlicet_, in that of the Japanese cock, the
+augmentation of the character in question were completely explained by this
+factor _alone_. In fact, in this and similar cases we cannot penetrate
+deeper into the processes of variation, and therefore cannot say _a priori_
+whether other factors have or have not been involved in the augmentation of
+the character in question--other characters, that is, than the simple
+displacement of the zero-point. There is, however, another class of
+phyletic modifications, which point {38} unmistakably to the conclusion
+that the displacement of the zero-point of variation by personal selection
+is not and cannot be the only factor in the determination and
+accomplishment of the direction of variation. I refer to _retrogressive
+development_, the gradual degeneration of parts or characters that have
+grown useless, the gradual disappearance of the eye in cave-animals, of the
+legs in snakes and whales, of the wings in certain female butterflies, in
+short, to that entire enormous mass of facts comprehended under the
+designation of "rudimentary organs."
+
+I have endeavored on a previous occasion to point out the significance of
+the part played in the great process of animate evolution by these
+retrogressive growths, and I made at the time the statement that "the
+phenomena of retrogressive growth enabled us in a greater measure almost
+than those of progressive growth to penetrate to the causes which produce
+the transformations of animate nature." Although at that time[13] I had no
+inkling of certain processes which today I shall seek to prove the
+existence of, yet my statement receives a fresh confirmation from these
+facts.
+
+For, in most retrogressive processes _active_ selection in Darwin's sense
+plays no part, and advocates of the Lamarckian principle, as above
+remarked, have rightly denied that active selection, that is, the selection
+of individuals possessing the useless organ in its most reduced state, is
+sufficient to explain the process of degeneration. I, for my part, have
+never assumed this, {39} and I enunciated precisely on this account the
+_principle of panmixia_. Now, although this, as I still have no reason for
+doubting, is a perfectly correct principle, which really does have an
+essential and indispensable share in the process of retrogression, still it
+is not _alone_ sufficient for a full explanation of the phenomena. My
+opponents, in advancing this objection, were right, to the extent indicated
+and as I expressly acknowledge, although they were unable to substitute
+anything positive in its stead or to render my explanation complete. The
+very fact of the cessation of control over the organ is sufficient to
+explain its _degeneration_, that is, its deterioration, the disharmony of
+its parts, but not the fact which actually and always occurs where an organ
+has become useless--viz., _its gradual and unceasing diminution continuing
+for thousands and thousands of years culminating in its final and absolute
+effacement._
+
+If, now, neither the selection of persons nor the cessation of personal
+selection can explain this phenomenon, assuredly some other principle must
+be the efficient cause here, and this cause I believe I have indicated in
+an essay written at the close of last year and only recently published.[14]
+I call it _germinal selection_.
+
+The principle in question reposes on the application, made some fifteen
+years ago by Wilhelm Roux, of the principle of selection to the _parts_ of
+organisms--on the _struggle of the parts_, as he called it. If such a
+struggle obtains among organs, tissues, and cells, it must also obtain
+between the smallest and for us invisible vital particles, not only between
+those of the body-cells, strictly so called, but also between those of the
+{40} germinal cells. Roux himself spoke of the struggle of the molecules,
+by which he presumably understood the smallest ultimate units of vital
+phenomena--elements which De Vries designated pangenes, Wiesner plasomes,
+and I _biophores_, after Bruecke's ingenious conception[15] of these
+invisible entities had been almost totally forgotten, or at least had lain
+unnoticed for thirty years. No struggle, as that is understood in the
+theory of selection, could take place between real {41} molecules, for
+molecules are neither nourished, subject to growth, nor propagated.
+
+The gradual degeneration of organs grown useless may be explained, now, by
+the theory of determinants very simply and without any co-operation on the
+part of active personal selection, as follows.
+
+Nutrition, it is known, is not merely a passive process. A part is not only
+_nourished_ but also actively _nourishes_ itself, and the more vigorously,
+the more powerful and capable of assimilation it is. Hence powerful
+determinants in the germ will absorb nutriment more rapidly than weaker
+determinants. The latter, accordingly, will grow more slowly and will
+produce weaker descendants than the former.
+
+Let us assume, now, that a part of the body, say the hinder extremities of
+the quadruped ancestors of {42} our common whales, are rendered useless.
+Panmixia steps in, _i. e._, selection ceases to influence these organs.
+Individuals with large and individuals with small hind legs are equally
+favored in the struggle for existence.
+
+From this fact alone would result a degradation of the organ, but of course
+it would not be very marked in extent, seeing that the minus variations
+which occur are no longer removed. According to our assumption, however,
+such minus variations repose on the weaker determinants of the germ, that
+is, on such as absorb nutriment less powerfully than the rest. And since
+every determinant battles stoutly with its neighbors for food, that is,
+takes to itself as much of it as it can, consonantly with its power of
+assimilation and proportionately to the nutrient supply, therefore the
+unimpoverished neighbors of this minus determinant will deprive it of its
+nutriment more rapidly than was the case with its more robust ancestors;
+hence, it will be unable to obtain the full quantum of food corresponding
+even to its weakened capacity of assimilation, and the result will be that
+its ancestors will be weakened still more. Inasmuch, now, as no weeding out
+of the weaker determinants of the hind leg by personal selection takes
+place on our hypothesis, inevitably the average strength of this
+determinant must slowly but constantly diminish, that is, the leg must grow
+smaller and smaller until finally it disappears altogether. The
+determinants[16] of the useless organ are constantly at {43} a disadvantage
+as compared with the determinants of their environment in the germinal
+tenement, because no assistance is offered to them by personal selection
+after they have once been weakened by a decrease of the passive nutrient
+influx. Nor is the degeneration stopped by the uninterrupted crossing of
+individuals in sexual propagation, but only slightly retarded. The number
+of individuals with weaker determinants must, despite this fact, go on
+increasing from generation to generation, so that soon every determinant
+that still happens to be endowed with exceptional vigor will be confronted
+by a decided overplus of weaker determinants, and by continued crossing
+therefore will become more and more impoverished. Panmixia is the
+indispensable precondition of the whole process; for owing to the fact that
+persons with weak determinants are just as capable of life as those with
+strong, owing to the fact that they cannot now, as formerly, when the organ
+was still useful, be removed by personal selection, solely by this means is
+a further weakening effected in the following generations--in short, only
+by this means are the determinants of the useless organ brought upon the
+inclined plane, down which they are destined slowly but incessantly to
+slide towards their completed extinction.
+
+The foregoing explanation will be probably accepted as satisfactory _in a
+purely formal regard_, but it will be objected that, even granting this, it
+has not yet been proved to be the correct one. In answer I can of course
+adduce nothing except that it is at present the only one that can be given.
+It may be that the actual state of things in nature is different, but if it
+can be shown that a self-direction of variation merely from the need of it
+is at all conceivable by mechanical means, {44} that in itself, it seems to
+me, is a decided gain. It must also not be forgotten that some process or
+other _must_ take place in the germ-plasm when an organ becomes
+rudimentary, and that as the result of it this organ, and only this organ,
+must disappear. Now in what shall this process consist, if not in a
+modification of the constitution of the germ? And how could the effect of
+such a modification be limited only to _one_ organ which was becoming
+rudimentary if the modification itself were not a local one? These are
+questions which it is incumbent on those to answer who conceive the
+germinal substance to be composed of like units.
+
+Applying, now, the explanation derived from the disappearance of organs to
+the opposed transformation, namely, to the _enlargement_ of a part, the
+presumption lies close at hand that the production of the long
+tail-feathers of the Japanese cock does not repose solely on the
+displacement directly effected by personal selection, of the zero-point of
+variation upwards, but that _it is also fostered and strengthened by
+germinal selection_. Were that not so, the phenomena of the transmutation
+of species, in so far as fresh growth and the enlargement and complication
+of organs already present are concerned, _would not be a whit more
+intelligible than they were before_. We should know probably how it comes
+to pass that the constitutional predisposition (group of determinants) of a
+_single_ organ is intensified by selection, but the flood of objections
+against the theory of selection touching its inability to modify _many_
+parts at once would not be repressed by such knowledge. The initial impulse
+conditioning the independent maintenance of the useful direction of
+variation in the germ-plasm must rather be sought {45} in the utility of
+the modification itself, and this also seems to me intelligible from the
+side of the theory. For as soon as personal selection favors the more
+powerful variations of a determinant, the moment that these come to
+predominate in the germ-plasm of the species, at once the tendency must
+arise for them to vary _still more strongly_ in the plus direction, not
+solely because the zero-point has been pushed farther upwards, but because
+they themselves now oppose a relatively more powerful front to their
+neighbors, that is, actively absorb more nutriment, and upon the whole
+increase in vigor and produce more robust descendants. From the relative
+vigor or dynamic status of the particles of the germ-plasm, thus, will
+issue spontaneously an ascending line of variation, precisely as the facts
+of evolution require. For, as I have already said, it is not sufficient
+that the augmentation of a character should be brought about by
+uninterrupted personal selection, even supposing that the displacement of
+the zero-point were possible without germinal selection.
+
+Thus, I think, may be explained how personal selection imparts the initial
+impulse to processes in the germ-plasm, which, when they are once set
+agoing, persist of themselves in the same direction, and are, therefore, in
+no need of the continued supplementary help of personal selection, _as
+directed exclusively to a definite part_. If but from time to time, that
+is, if upon the average the poorest individuals, the bearers of the weakest
+determinants, are eliminated, the variational direction of the part in
+question, now reposing on germinal selection, must persist, and it will
+very slowly but very surely increase until further development is impeded
+by its inutility and personal selection {46} arrests the process, that is,
+ceases to eliminate the weaker individuals.
+
+In this manner it becomes intelligible how a large number of modifications
+varying in kind and far more so in degree can be guided _simultaneously_ by
+personal selection; how in strict conformity with its adaptive wants every
+part is modified, or preserved unmodified; how a given articulation can
+undergo modifications, causing it to disappear on one side, to grow in
+volume on another, and to continue unaltered on a third. For every part
+that is perfectly adapted, although it can fluctuate slightly, yet can
+never undergo a permanent alteration in the ascending or descending
+direction because every plus and every minus variation which has attained
+selective value would be eliminated by personal selection in the course of
+time. Therefore, a definite direction of variation cannot arise in such
+cases and we have also reached, as it seems to me, a satisfactory
+explanation of the _constancy_ of well-adapted species and characters.
+
+Hitherto I have spoken only of plus and minus variation. But there exist,
+as we know, not only variations of size but also variations of _kind_; and
+the coloration of the wings of butterflies, which we chose above as our
+example, would fall, according to the ordinary usage of speech, under just
+this head of variations of quality. The question arises, therefore, Have
+the principles just developed any claim to validity in the explanation of
+_qualitative_ modifications?
+
+In considering this question it should be carefully borne in mind that by
+far the largest part of the qualitative modifications falling under this
+head rest on _quantitative_ changes. Of course, chemical transformations,
+which usually also involve quantitative {47} alterations, cannot be reduced
+to the processes of augmentation described, inasmuch as these, by their
+very nature, can be effected only in living elements capable of increase by
+propagation; but the interference of selection does not begin originally
+with the constitutional predisposition (_Anlagen_) of the germ, i. e. with
+the determinants, but with the ultimate units of life, the _biophores_.
+
+A determinant must be composed of heterogeneous biophores, and on their
+numerical proportion reposes, according to our hypothesis, their specific
+nature. If that proportion is altered, so also is the character of the
+determinant. But disturbances of this numerical proportion must result at
+once on proof of their usefulness, or as soon as the modifications
+determined thereby in the inward character of the determinant turn out to
+be of utility. For fluctuations of nutriment and the struggle for
+nutriment, with its sequent preference of the strongest, must take place
+between the various species of the biophores as well as between the species
+of the determinants. But changes in the quantitative ratios of the
+biophores appear to us qualitative changes in the corresponding
+determinants, somewhat as a simple augmentation of a determinant, for
+example, that of a hair, may on its development appear to us as a
+qualitative change, a spot on the skin where previously only isolated hairs
+stood being now densely crowded with them, and assuming thus the character
+of a downy piece of fur. The single hair need not have changed in this
+process, and yet the spot has virtually undergone a qualitative
+modification. The majority of the changes that appear to us qualitative
+rest on invisible _quantitative_ changes, and such can be produced at all
+times and _at all stages_ {48} _of the vital units_ by germinal selection.
+In a similar manner are induced the most varied qualitative changes of the
+corresponding determinants and of the characters conditioned thereby, just
+as changes in the numerical proportions of atoms produce essential changes
+in the properties of a chemical molecule.
+
+In this way we acquire an approximate conception of the possible mechanical
+_modus operandi_ of actual events--namely, of the manner in which the
+useful variations required by the conditions of life _can_ always, that is,
+very frequently, make their appearance. This possibility is the sole
+condition of our being able to understand how different parts of the body,
+absolutely undefined in extent, can appear as variational units and vary in
+the same or in different directions, according to the special needs of the
+case, or as the conditions of life prescribe. Thus, for example, in the
+case of the butterfly's wings it rests entirely with utility to decide the
+size and the shape of the spots that shall vary simultaneously in the same
+direction. At one time the whole under surface of the wing appears as the
+variational unit and has the same color; at another the inside half, which
+is dark, is contrasted with the outside half which is bright; or the same
+contrast will exist between the anterior and posterior halves; or, finally,
+narrow stripes or line-shaped streaks will behave as variational units and
+form contrasts with manifold kinds of spots or with the broader intervals
+between them, with the result that the picture of a leaf or of another
+protected species is produced.
+
+I must refrain from entering into the details of such cases and shall
+illustrate my views regarding the color-transformations of butterflies'
+wings by the simplest {49} conceivable example--viz. that of the uniform
+change of color on the entire under surface of the wing.
+
+Suppose, for example, that the ancestral species of a certain
+forest-butterfly habitually reposed on branches which hung near the ground
+and were covered with dry or rotten leaves; such a species would assume on
+its under surface a protective coloring which by its dark, brown, yellow,
+or red tints would tend toward similarity with such leaves. If, however,
+the descendants of this species should be subsequently compelled, no matter
+from what cause, to adopt the habit of resting on the green-leafed branches
+higher up, then from that period on the brown coloring would act less
+protectively than the shades verging towards green. And a process of
+selection will have set in which consisted first in giving preference only
+to such persons whose brown and yellow tints showed a tendency to green.
+Only on the assumption that such shades were possible by a displacement in
+the quantitative proportions of the different kinds of biophores composing
+the determinants of the scales affected, was a further development in the
+direction of green possible. Such being the case, however, that development
+_had to_ result; because fluctuations in the numerical proportions of the
+biophores are always taking place, and consequently the material for
+germinal selection is always at hand. At present it is impossible to
+determine exactly the magnitude of the initial stages of the deviations
+thus brought about and promoted by the sexual blending of characters; but
+it may perhaps be ascertained in the future, with exceptionally favorable
+material. Pending such special observations, however, it can only be said
+_a priori_ that slight changes in the composition of a determinant do not
+necessarily {50} condition similar slight deviations of the corresponding
+character,--in this case the color,--just as slight changes in the atomic
+composition of a molecule may result in bestowing upon the latter widely
+different properties. As soon, however, as the beginning has been made and
+a definite direction has been imparted to the variation, as the result of
+this or that primary variation's being preferred, the selective process
+must continue until the highest degree of faithfulness required by the
+species in the imitation of fresh leaves has been attained.
+
+That the foregoing process has actually taken place is evidenced not only
+by the presence of the beginnings of such transformations, as found for
+example in some greenish-tinted specimens of Kallima, but mainly by certain
+species of the South American genus Catonephele, all of which are
+forest-butterflies, and which, with many species having dark-brown under
+surfaces, present some also with bright green under surfaces--a green that
+is not like the fresh green of our beech and oak trees, but resembles the
+bright under surface of the cherry-laurel leaf, and is the color of the
+under surfaces of the thick, leathery leaves, colored dark-green above,
+borne by many trees in the tropics.
+
+The difference between this and the old conception of the selection-process
+consists not only in the fact that a large number of individuals with the
+initial stages of the desired variation is present from the beginning, for
+always innumerable plus and minus variations exist, but principally in the
+circumstance that the constant uninterrupted progress of the process after
+it is once begun is assured, that there can never be a lack of
+progressively advantageous variations in a large number of individuals.
+Selection, {51} therefore, is now not compelled to wait for accidental
+variations but produces such itself, whenever the required elements for the
+purpose are present. Now, where it is a question simply of the enlargement
+or diminution of a part, or of a part of a part, these variations are
+always present, and in modifications of quality they are at least present
+in many cases.
+
+This is the only way in which I can see a possibility of explaining
+phenomena of _mimicry_--the imitation of one species by another. The useful
+variations must be produced in the germ itself by internal
+selection-processes if this class of facts is to be rendered intelligible.
+I refer to the mimicry of an exempt species by two or three other species,
+or, the aping of _different_ exempt patterns by _one_ species in need of
+protection. It must be conceded to Darwin and Wallace that some degree of
+similarity between the copy and the imitation was present from the start,
+at least in very many cases;[17] but in no case would this have been
+sufficient had not slight shades of coloring afforded some hold for
+personal selection, and in this way furnished a basis for independent
+germinal selection acting only in the direction indicated. It would have
+been impossible for such a minute similarity in the design, and
+particularly in the shades of the coloration, ever to have arisen, if the
+process of adaptation rested entirely {52} on personal selection. Were this
+so, a complete scale of the most varied shades of color must have been
+continually presented as variations in every species, which certainly is
+not the case. For example, when the exempt species _Acraea Egina_, whose
+coloration is a brick-red, a color common only in the genus Acraea, is
+mimicked by two other butterflies, a Papilio and a Pseudacraea, so
+deceptively that not only the cut of the wings and the pattern of their
+markings, but also that precise shade of brick-red, which is scarcely ever
+met with in diurnal butterflies, are produced, assuredly such a result
+cannot rest on accidental, but must be the outcome of a _definitely
+directed_, variation, produced by utility. We cannot assume that such a
+coloration has appeared as an _accidental_ variation in just and in only
+these two species, which fly together with the _Acraea_ in the same
+localities of the same country and same part of the world--the Gold Coast
+of Africa. It is conceivable, indeed, that non-directed variation should
+have accidentally produced this brick-red _in a single case_, but that it
+should have done so three times and in three species, which live together
+but are otherwise not related, is a far more violent and improbable
+assumption than that of a causal connexion of this coincidence. Now
+hundreds of cases of such mimicry exist in which the color-tints of the
+copy are met with again in more or less precise and sometimes in
+exceedingly exact imitations, and there are thousands of cases in which the
+color-tint of a bark, of a definite leaf, of a definite blossom, is
+repeated _exactly_ in the protectively colored insect. In such cases there
+can be no question of accident, but _the variations presented to personal
+selection must themselves have been produced by the principle of the
+survival of the_ {53} _fit!_ And this is effected, as I am inclined to
+believe, through such profound processes of selection in the interior of
+the germ-plasm as I have endeavored to sketch to you to-day under the title
+of germinal selection.
+
+I am perfectly well aware how schematic my presentation of this process is,
+and must be at present, owing mainly to our inability to gain exact
+knowledge concerning the fundamental germinal constituents here assumed.
+But I regard its existence as assured, although I by no means underrate the
+fact that eminent thinkers, like Herbert Spencer, contest its validity and
+believe they are warranted in assuming a germ which is composed of _similar
+units_. I strongly doubt whether even so much as a _formal_ explanation of
+the phenomena can be arrived at in this manner. So far as direct
+observation is concerned, the two theories stand on an equal footing, for
+neither my dissimilar, nor Spencer's similar, units of germinal substance
+can be _seen_ directly.
+
+The attempt has been recently made to discredit my _Anlagen_, or
+constitutional germ-elements, on the ground that they are simply a
+subtilised reproduction of Bonnet's old theory of preformation.[18] This
+{54} impression is very likely based upon ignorance of the real character
+of Bonnet's theory. I will not go into further details here, particularly
+as Whitman, in several excellently written and finely conceived essays, has
+recently afforded opportunity for every one to inform himself on the
+subject. My determinants and groups of determinants have nothing to do with
+the preformations of Bonnet; in a sense they are the exact opposites of
+them; they are simply _those living parts of the germ whose presence
+determines the appearance of a definite organ of a definite character in
+{55} the course of normal evolution_. In this form they appear to me to be
+an absolutely necessary and unavoidable inference from the facts. There
+_must_ be contained in the germ parts that correspond to definite parts of
+the complete organism, that is, parts that constitute the reason why such
+other parts are formed.
+
+It is conceded even by my opponents that the reason why one egg produces a
+chicken and another a duck is not to be sought in external conditions, but
+lies in a difference of the germinal substance. Nor can they deny that a
+difference of germinal substance must also constitute the reason why a
+slight _hereditary_ difference should exist between two filial organisms.
+Should there now, in a possible instance, be present between them a second,
+a third, a fourth, or a hundredth difference of hereditary character, each
+of which could vary from the germ, then, certainly, some second, third,
+fourth, or hundredth part of the germ must have been different; for whence,
+otherwise, should the heredity of the differences be derived, seeing that
+external influences affecting the organism in the course of evolution
+induce only non-transmissible and transient deviations? But the fact that
+every complex organism is actually composed of a very large number of parts
+independently alterable from the germ, follows not only from the comparison
+of allied species, but also and principally from the experiments long
+conducted by man in artificial selection, and by the consequent and not
+infrequent change of only a single part which happens to claim his
+interest; for example, the tail-feathers of the cock, the fruit of the
+gooseberry, the color of a single feather or group of feathers, and so on.
+But a still more cogent proof is furnished by the degeneration of parts
+grown {56} useless, for this process can be carried on to almost any extent
+without the rest of the body necessarily becoming involved in sympathetic
+alteration. Whole members may become rudimentary, like the hind limbs of
+the whale, or it may be only single toes or parts of toes; the whole wing
+may degenerate in the females of a butterfly species, or only a small
+circular group of wing-scales, in the place of which a so-called "window"
+arises. A single vein of the wing also may degenerate and disappear, or the
+process may affect only a part of it, and this may happen in one sex only
+of a species. In such cases the rest of the body may remain absolutely
+unaltered; only a stone is taken out of the mosaic.
+
+The assumption, thus, appears to me irresistible, that every such
+hereditary and likewise independent and very slight change of the body
+rests on some alteration of a _single_ definite particle of the germinal
+substance, and not as Spencer and his followers would have it, on a change
+of _all_ the units of the germ. If the germinal substance consisted wholly
+of like units, then in every change, were it only of a single character,
+_each_ of these units would have to undergo exactly the same modification.
+Now I do not see how this is possible.
+
+But it may be that Spencer's assumption is the _simpler_ one? Quite the
+contrary, its simplicity is merely apparent. Whilst my theory needs for
+each modification only a modification of _one_ constitutional element of
+the germ, that is, of _one_ particle of the germinal substance, according
+to Spencer _every_ particle of that substance must change, for they are all
+supposed to be and to remain alike. But seeing that all hereditary
+differences, be they of individuals, races, {57} or species, must be
+contained in the germ, the obligation rests on these similar units, or
+rather the capacity is required of them, to produce in themselves a truly
+enormous number of differences. But this is possible only provided their
+composition is an exceedingly complex one, or only on the condition that in
+every one of them are contained as many alterable particles as according to
+my view there are contained determinants in the whole germ. _The
+differences that I put into the whole germ, Spencer and his followers are
+obliged to put into every single unit of the germinal substance._ My
+position on this point appears to me incontrovertible so long as it is
+certain that the single characters can vary hereditarily; for, if a thing
+can vary independently, that is, _of its own accord_, and _from the germ_,
+then that thing must be represented in the germ by some particle of the
+substance, _and be represented there in such wise that a change of the
+representative particle produces no other change in the organism developing
+from the germ than such as are connected with the part which depends on
+it_. I conceive that even on the assumption of my constitutional elements
+(_Anlagen_) the germ-plasm is complex enough, and that there is no need of
+increasing its complexity to a fabulous extent. Be that as it may, the
+person who fancies he can produce a complex organism from a _really_ simple
+germinal substance is mistaken: he has not yet thoroughly pondered the
+problem. The so-called "epigenetic" theory with its _similar_ germinal
+units is therefore naught else than an evolution-theory where the primary
+constitutional elements are reduced to the molecules and atoms--a view
+which in my judgment is inadmissible. A _real_ {58} epigenesis from
+absolutely _homogeneous_ and not merely _like_ units is not thinkable.
+
+All value has been denied my doctrine of determinants[19] on the ground
+that it only shifts the riddles of evolution to an invisible terrain where
+it is impossible for research to gain a foothold.
+
+Now I have indeed to admit that no information can be gained concerning my
+determinants, either with the aided or with the unaided eye. But
+fortunately there exists in man another organ which may be of use in
+fathoming the riddles of nature and this organ which is called the brain
+has in times past often borne him out in the assumption of invisible
+entities--entities that have not always proved unfruitful for science by
+reason of that defect, in proof whereof we may instance the familiar
+assumptions of atoms and molecules. Probably the biophores also will be
+included under that head if the determinants should be adjudged utterly
+unproductive. But so far I have always held that assumptions of this kind
+_are_ really productive, if they are only capable of being used, so to
+speak, as a _formula_, whereby to perform our computations, unconcerned for
+the time being as to what shall be its subsequent fate. Now, as I take it,
+the determinants have had fruitful results, as their application to various
+biological problems shows. Is it no advance that we are able to reduce the
+scission of a form of life into two or several forms subject to separately
+continued but recurrent changes,--I refer to dimorphism and
+polymorphism,--that we are able to reduce such phenomena to the formula of
+male, female, and worker determinants? It has been, I think, {59} rendered
+conceivable how these diverse and extremely minute adaptations could have
+developed side by side in the same germ-plasm, under the guidance of
+selection; how sterile forms could be _hereditarily_ established and
+transformed in just that manner which best suits with their special duties;
+and how they themselves under the right circumstances could subsequently
+split up into two or even into three new forms. Surely at least the unclear
+conception of an _adaptively_ transformative influence of food must be
+discarded. It is true, we cannot penetrate by this hypothesis to the last
+root of the phenomena. The hotspurs of biology, who clamor to know
+forthwith how the molecules behave, will scarcely repress their
+dissatisfaction[20] with such provisional knowledge--forgetful that _all
+our knowledge is and remains throughout provisional_.
+
+But I shall not enter more minutely into the question whether epigenesis or
+evolution is the right foundation of the theory of development, but shall
+content myself with having shown, first, that it is illusory to imagine
+that epigenesis admits of a simpler structure of the germ, (the precise
+opposite is true,) and secondly, that there are phenomena that can be
+understood only by an evolution-theory. Such a phenomenon is {60} the
+_guidance of variation by utility_, which we have considered to-day. For
+without primary constituents of the germ, whether they are called as I call
+them, determinants, or something else, _germinal selection_, or guidance of
+variation by personal selection, is impossible; for where all units are
+alike there can be no struggle, no preference of the best. And yet such a
+guidance of variation exists and demands its explanation, and the early
+assumptions of a "definitely directed variation" such as Naegeli and
+Askenasy made are insufficient, for the reason that they posit only
+_internal_ forces as the foundations thereof, and because, as I have
+attempted to show, the harmony of the direction of variation with the
+requirements of the conditions of life subsists and represents the riddle
+to be solved. _The degree of adaptiveness which a part possesses itself
+evokes the direction of variation of that part._
+
+This proposition seems to me to round off the whole theory of selection and
+to give to it that degree of inner perfection and completeness which is
+necessary to protect it against the many doubts which have gathered around
+it on all sides like so many lowering thunder-clouds. The moment variation
+is determined substantially though not exclusively by the adaptiveness
+itself, all these doubts fall to the ground, with _one_ exception, that of
+the utility of the initial steps. But just this objection is the least
+weighty. Without doubt the theory requires that the initial steps of a
+variation should also have selective value; otherwise personal selection
+and hence germinal selection could not set in. Since, however, as I have
+before pointed out, _in no case can we pretend to a judgment regarding the
+selective value of a modification, or have any_ {61} _experience thereof_,
+therefore the assumption that in a given case where a character is
+transformed the original initial steps of the variation did have selective
+value, is not only as probable as the opposed assumption that they had
+none, but is _infinitely more probable_, for with this we can give an
+intelligible explanation of the mysterious fact of adaptation, while with
+that we cannot. Consequently, unless we are resolved to give up all
+attempts whatsoever at explanation, we are forced to the assumption that
+the initial steps of all actually affected adaptations possessed selective
+value.
+
+The principal and fundamental objection that selection is unable to create
+the variations with which it works, is removed by the apprehension that a
+germinal selection exists. Natural selection is not compelled to wait until
+"chance" presents the favorable variations, but supposing merely that the
+groundwork for favorable variations is present in the transforming species,
+that is, supposing merely that in the constitutional basis of the part to
+be changed are contained components which render favorable variations
+possible by a change of their numerical ratio, then those variations _must_
+occur, for the reason that quantitative fluctuations are always happening,
+and they must also be augmented as soon as personal selection intervenes
+and permanently holds over them her protecting hand. Not only is the
+marvelous _certainty and exactitude_ with which adaptation has operated in
+so many individual cases, rendered intelligible in this manner, but what is
+more difficult, we are able to understand the _simultaneity_ of numerous
+and totally different modifications of the most diverse parts co-operant
+towards some collective end, such as we see so frequently occur, {62} for
+example, in the simultaneous rise of instincts and protective similarities,
+or in the harmonious and simultaneous augmentation of two co-operant but
+independent organs, as of the eye and of the centre of vision, or of the
+nerve and its muscle, etc.
+
+The "secret law," of which Wolff prophetically speaks in his criticism of
+selection, is in all likelihood naught else than germinal selection. This
+it is that brings it about that the necessary variations are always
+present, that symmetrical parts, for example, the two eyes, usually vary
+alike, but under circumstances may vary differently, for example, the two
+visual halves of soles; that homodynamic parts, (for instance, the
+member-pairs of Arthropoda,) have frequently varied alike, and not
+infrequently and in conformity with the needs of the animal, have varied
+differently. It brings it about also that conversely species of quite
+different fundamental constitutions occasionally vary alike, as instances
+of mimicry and numerous other cases of convergence show us. As soon as
+utility itself is supposed to exercise a determinative influence on the
+direction of variation, we get an insight into the entire process and into
+much else besides that has hitherto been regarded as a stumbling-block to
+the theory of selection, and which did indeed present difficulties that for
+the moment were insuperable--as, for example, the like-directed variation
+of a large number of already existing similar parts, seen in the origin of
+feathers from the scales of reptiles. The utility in the last-mentioned
+instance consisted, not in the transformation of one or two, but of _all_
+the scales; consequently the line of variation of _all_ the scales must
+have been started simultaneously in the same direction. A large part of the
+objections to the theory of selection {63} that have been recently brought
+forward by the acutest critics, as for example by Wigand, but particularly
+by Wolff,[21] find, as I believe, their refutation in this doctrine of
+germinal selection. The principle extends precisely as far as utility
+extends, inasmuch as it creates, not only the direction of variation for
+every increase or diminution demanded by the circumstances, but also every
+qualitative direction of variation attainable by changes of quantity, so
+far as that is at all possible for the organism in question.
+
+Considering also the contrary process, the degeneration of useless parts by
+the cessation of selection in regard to the normal size of that part, a
+clear light is shed on that whole complex system of ascending and
+descending modifications which makes up most of the transformations of a
+living form, and we are led to understand how the fore extremity of a
+mammal can change into a fin at the same time that the _hinder_ extremity
+is growing rudimentary, or how one or two toes of a hoofed animal can
+continue to develop more and more powerfully, whilst the others in the same
+degree grow weaker and weaker until finally they have disappeared entirely
+from the germ of most of the individuals of the species.
+
+Possibly some of that large body of inquirers, mostly paleontologists, who
+till now have considered the Lamarckian principle indispensable for the
+explanation of these phenomena--perhaps some, I say, will not utterly close
+their eyes to the insight that germinal selection performs the same
+services for the understanding of observed transformations, particularly of
+{64} the degeneration of superfluous parts, that a heredity of acquired
+characters would perform, without rendering necessary so violent an
+assumption. I have always conceded that many transformations actually do
+run parallel to the use and disuse of the parts,[22] that therefore it does
+really look as if functional acquisitions of the individual life were
+hereditary. But if it be found that _passively functioning parts_, that is,
+parts which are not alterable during the individual life by function, obey
+the same laws and also degenerate when they become useless, then we shall
+scarcely be able to refuse our assent to a view which explains both cases.
+It certainly cannot be the physiological function which provokes
+modifications in the individual, which are then subsequently transmitted to
+the germ and in this way made hereditary, if _functionless parts also
+change_ when they become useless. It is precisely this _uselessness_, then,
+from which the initial impulse emanates, and the primary modification is
+not in the soma but in the germ.
+
+The Lamarckians were right when they maintained that the factor for which
+hitherto the name of natural selection had been exclusively reserved, viz.,
+_personal_ selection, was insufficient for the explanation of the
+phenomena. They were also right when they declared that panmixia in the
+form in which until recently I held the theory was also insufficient to
+explain the degeneration of parts that had grown useless, but they {65}
+erred when they ascribed hereditary effects to the selection-processes
+which are enacted among the parts of the body (Wilhelm Roux) and which are
+rightly regarded as the results of functioning. And they did this,
+moreover, as they themselves admit, not because the facts of heredity
+directly and unmistakably required it, but because they saw no other
+possibility of explaining many phenomena of transformation. I am fain to
+relinquish myself to the hope that now after another explanation has been
+found, a reconciliation and unification of the hostile views is not so very
+distant, and that then, we can continue our work together on the newly laid
+foundations.
+
+That the application of the Malthusian principle was thoroughly justified
+is now clear. _The entire process of the development of living forms is
+guided by this principle._ The struggle for existence, _videlicet_, for
+food and propagation, takes place at all the stages of life between all
+orders of living units from the biophores recently disclosed upwards to the
+elements that are accessible to direct observation, to the cells, and still
+higher up, to individuals and colonies. Consequently, in all the divers
+orders of biological units lying between the two extremes of biophores and
+colonies, the modifications must be controlled by selective processes;
+therefore, these govern every change of living forms no matter what its
+significance, and bring it about that the latter fit their conditions of
+life as wax does the mould; and the various stages of these processes, as
+enacted between the divers orders of biological units, in all organisms not
+absolutely simple, are involved in incessant and mutual interaction. The
+three principal stages of selection, that of {66} _personal_ selection[23]
+as it was enunciated by Darwin and Wallace, that of _histonal_ selection as
+it was established by Wilhelm Roux in the form of a "struggle of the
+parts," and finally that of _germinal selection_ whose existence and
+efficacy I have endeavored to substantiate in this article--these are the
+factors that have co-operated to maintain the forms of life in a constant
+state of viability and to adapt them to their conditions of life, now
+modifying them _pari passu_ with their environment, and now maintaining
+them on the stage attained, when that environment is not altered.
+
+Everything is adapted in animate nature[24] and has been from the first
+beginnings of life; for adaptiveness of organisation is here equivalent to
+the power to exist, and they alone have had the power to exist who have
+permanently existed. _We know of only one natural principle of explanation
+for this fact--that of selection {67} of the picking out of those having
+the power to exist from those having the power to originate._ If there is
+any solution possible to the riddle of adaptiveness to ends,--a riddle held
+by former generations to be insoluble,--it can be obtained only through the
+assistance of this principle of the self-regulation of the originating
+organisms, and we should not turn our faces and flee at the sight of the
+first difficulties that meet its application, but should look to it whether
+the apparent effects of this single principle of explanation are not
+founded in the imperfect application that is made of it.
+
+If I am not mistaken the situation is as follows: We had remained standing
+half way. We had applied the principle, but only to a portion of the
+natural units engaged in struggle. If we apply the principle throughout we
+reach a satisfactory explanation. Selection of _persons_ alone is _not
+sufficient_ to explain the phenomena; _germinal_ selection must be added.
+Germinal selection is the last consequence of the application of the
+principle of Malthus to living nature. It is true it leads us into a
+terrain which cannot be submitted directly to observation by means of our
+organs of touch and by our eyes, but it shares this disadvantage in common
+with all other ultimate inferences in natural science, even in the domain
+of inorganic {68} nature: in the end all of them lead us into hypothetical
+regions. If we are not disposed to follow here, nothing remains but to
+abandon utterly the hope of explaining the adaptive character of life--a
+renunciation which is not likely to gain our approval when we reflect that
+by the other method is actually offered at least in principle, not only a
+broad insight into the adaptation of the single forms of life to their
+conditions, but also into the mode of formation of the living world as a
+whole. The variety of the organised world, its transformation by adaptation
+to new, and by reversed adaptation to old conditions, the inequality of the
+systematic groups, the attainment of the same ends by different means, that
+is, by different organisations, and a thousand and one other things assume
+on this hypothesis in a certain measure an intelligible form, whilst
+without it they remain lifeless facts.
+
+And so in this case, I may say, that again doubt is the parent of all
+progress. For the idea of germinal selection has its roots in the necessity
+of putting something else in the place of the Lamarckian principle, after
+that had been recognised as inadequate. That principle did, indeed, seem to
+offer an easy explanation of many phenomena, but others stood in open
+contradiction to it, and consequently that was the point at which the lever
+had to be applied if we were to penetrate deeper into the phenomena in
+question. For it is at the places where previous views are at variance with
+facts that the divining rod of the well-seekers must thrice nod. There lie
+the hidden waters of knowledge, and they will leap forth as from an
+artesian well if he who bores will only drive undaunted his drill into
+their depths.
+
+ * * * * *
+
+
+{69}
+
+APPENDIX.
+
+ * * * * *
+
+I. THE REJECTION OF SELECTION.
+
+Many years ago Semper[25] denied the power of selection to create an organ,
+declaring that the organ must have previously existed before selection
+could have increased and developed it. More recently Wolff[26] has
+distinguished himself by the vigor with which he has attacked the "task" of
+"setting aside the dogma of selection." Henry B. Orr[27] is also of opinion
+that selection is not the real cause of improved organic states; he regards
+it as a factor checking growth in certain directions, but not as a cause
+producing growth. Likewise Yves Delage,[28] in his recent voluminous but in
+many respects excellent work, regards natural selection solely as a
+subordinate principle which is devoid of all power to create species (p.
+391), although he grants to it certain functions, and even characterises it
+{70} as "an admirable and perfectly legitimate principle" (p. 371). A more
+pronounced opponent of selection, of any kind, as a principle creating
+species, is the Rev. Mr. Henslow,[29] whose views we shall discuss later,
+in Division VII. of this Appendix.
+
+Finally, must be mentioned the name of Th. Eimer, as that of a pronounced
+and bitter enemy of the theory of selection. I shall leave it to others to
+decide whether he can properly be called an "opponent" of the principle, in
+the scientific acceptance of the word. I can see in the blind railings of
+the Tuebingen Professor nothing but a reiteration of the same unproved
+assertions, mingled with loud praises of his own doughty performances and
+captious onslaughts on every one who does not value them as highly as their
+originator.[30]
+
+The lack of confidence latterly placed in the theory of selection even by
+professed adherents of the doctrine, is well shown by such remarks as the
+following {71} from Emery,[31] who says: "Some pupils of Darwin have gone
+beyond their master and discovered in natural selection the sole and
+universal factor controlling variations. Thus there has arisen in the
+natural course of things a reaction, especially on the part of those who,
+while they accept evolution, will have naught to do with natural selection
+or Darwinism as they call it." Emery then professes himself a Darwinian,
+although not in the sense of Wallace and "other co-workers and pupils of
+Darwin." For him "natural selection is a very important factor in
+evolution, and in determining the direction of variation plays the highest
+part; but it is far from being the only factor and is probably also not the
+most efficient factor." Not the most efficient factor but plays the highest
+part!
+
+ * * * * *
+
+II. CHEMICAL SELECTION.
+
+If we refer adaptation to selection, we have also to trace back to this
+source the origin of the organic combinations which make up the various
+tissues of the body and which go by the collective name of muscular,
+nervous, glandular substance, etc. Lloyd Morgan has prettily likened the
+vital processes to the periodic formation and discharge of explosive
+substances.[32] Unstable combinations are upon the application of a {72}
+stimulus suddenly disintegrated into simpler and more stable compounds;
+through this disintegration they evoke what is called the function of the
+disintegrating part--for example, certain changes of form (muscular
+contractions) or the excretion of the disintegrated products, etc.
+
+Now how is it possible that such unstable chemical combinations, answering
+exactly to the needs of life, could have arisen in such marvellous
+perfection if the _useful_ variations had not always been presented to the
+ceaselessly working processes of selection? or, if the constantly
+increasing adaptation to the constantly augmenting delicacy of operation of
+physiological substances had depended in its last resort on _accidental_
+variations? Hence, not only with regard to the "form" of organs, but also
+with regard to the chemical and physiological composition of their
+materials, we are referred to the constant presence of appropriate
+variations.
+
+ * * * * *
+
+III. VARIATION AND MUTATION.
+
+I have still to add a few remarks on the subject touched on in the footnote
+at page 31. The view there referred to was discussed by Professor Scott
+before in an article published in the _American Journal of Science_, Vol.
+XLVIII., for November, 1894, entitled "On Variations and Mutations."
+Following the precedent of Waagen and Neumayr, Scott sharply discriminates
+between the inconstant vacillating variations which it is supposed [?]
+produce simultaneously occurring "varieties," and "mutations," or the
+successively evolved _time_-variations of a phylum, which constitute the
+stages of phyletic development. The facts on which this view is based are
+those already {73} adduced in the text--the _Zielstrebigkeit_ (to use K. E.
+von Baer's phraseology) displayed in the visible paleontological
+development, the directness of advance of the modifications to a final
+"goal." "The direct, unswerving way in which development proceeds, however
+slowly, is not suggestive of many trials and failures in all directions
+save one." And again, "The march of transformation is the resultant of
+forces both internal and external which operate in a _definite manner_ upon
+a changeable organism and similarly affect _large numbers of individuals_."
+
+The two points which I have here italicised are actually the facts which
+separate phylogenetic from common individual variation: the definite
+_manner_ of the change, repeated again and again without modification, and
+its occurrence in a _large number of individuals_.
+
+Still the two are not solely a result of observation, deduced from
+paleontological data; they are also _a consequence of the theory of
+selection_, as was shown in the text. If the theory in its previous form
+was unable to fulfil this requirement, it is certainly now able to do so
+after germinal selection has been added, and it is not in any sense
+necessary to assume a difference of _character_ between phylogenetic and
+ontogenetic variations. Bateson and Scott are wrong in imagining that I ask
+them "to abrogate reason" in pronouncing the "omnipotence of natural
+selection." On the contrary, the theory seems to me to accord so perfectly
+with the facts that we might, by reversing the process, actually construct
+the facts from the theory. What other than the actual conditions could be
+expected, if it is a fact that selection favors only the useful variations
+and singles them out from the rest by producing them in {74} increasing
+distinctness and volume with every generation, and also in an increasing
+number of individuals? The mere displacement of the zero-point of useful
+variations alone must produce this effect, especially when it is supported
+by germinal selection. It is impossible, indeed, to see how considerable,
+that is perceptible, deviations could arise at all on the path of phyletic
+development if in each generation a large number of individuals always
+possessed the useful, that is, the phyletic variations? In fact, by the
+assumption itself, the difference between useful and less useful variations
+is merely one of degree, and that a slight one.
+
+Hence, as I before remarked at page 31, I see no reason for assuming two
+kinds of hereditary variations, _distinct as to their origin_, such as
+Scott and the other palaeontologists mentioned have been led to adopt,
+although with the utmost caution. I believe there is only one kind of
+variation proceeding from the germ, and that these germinal variations play
+quite different roles according as they lie or do not lie on the path of
+adaptive transformation of the species, and consequently are or are not
+favored by germinal selection. To repeat what I have said in the footnote
+to page 31 only a relatively small portion of the numberless individual
+variations lie on the path of phyletic advancement and so mark out under
+the _guidance_ of germinal selection the way of further development; and
+hence it would be quite possible to distinguish continuous, _definitely
+directed_ variations from such as fluctuate hither and thither with no
+uniformity in the course of generations. The origin of the two is the same;
+they bear in them nothing that distinguishes the one from the other, and
+their success alone, that {75} is, the actual resultant phyletic
+modification, permits their being known as phyletic or as vacillating
+variations. Uncertain fluctuations along the path of evolution are what the
+geologists would be naturally led to expect from the theory of selection,
+but which they were unable to discover in the facts; it is evident,
+however, that these fluctuations are not a logical consequence of the
+theory of selection as that is perfected by germinal selection, and there
+seems to me to be no reason now for attributing "variations" to the union
+of changing hereditary tendencies, while "mutations" are ascribed to the
+effect "of dynamical agencies acting long in a uniform way, and the results
+controlled by natural selection."
+
+The idea which the Grecian philosophers evolved of the thousands of
+non-adaptive formations that nature brings forth by the side of adaptive
+ones, and which must subsequently all perish as being unfit to live, is
+certainly correct in its ultimate foundations. But it is in need of far
+more radical refinement than it underwent in the hands of Empedocles, or
+than it seems likely to undergo at the hands of many contemporary
+inquirers. We know now that nature did not produce isolated eyes, ears,
+arms, legs, and trunks, and afterwards permit them to be joined together
+just as the play of the fundamental forces of love and hatred directed,
+leaving the monsters to perish and granting permanent existence only to
+harmonious products. Yet there is a weak echo of this conception, although
+infinitely far removed from its prototype, in the question as to where all
+the non-adaptive individuals are preserved that have perished in the
+struggle for existence and been eliminated from development by selection?
+Where, for example, are the fossil remains {76} of the rejected individuals
+in the line of the Horses? Certainly they should be forthcoming in far
+larger numbers than the individuals lying directly in the path of
+development, for by our very assumption the latter were greatly in the
+minority in every generation. Doubtless the question would be a proper one
+if our eyes were sufficiently keen-sighted to assign the life-value of the
+various minute differences that distinguish the "better" from the "worse"
+individuals of every generation. But this is a task which we can accomplish
+at best only with selective processes which are artificially directed by
+ourselves, as in the case of doves and chickens, and even there only with
+the utmost difficulty and only with reference to a single characteristic
+and not with any species which to-day exists in the state of nature.
+Picture, then, the difficulties attending such a task as applied to the
+meagre fossilic bones of prehistoric species, touching which the richest
+discoveries never so much as remotely approach to the actual number of
+individuals that have lived together for a _single_ generation in the same
+habitat. If the differences between good and bad in a single generation
+were striking enough to be immediately remarked _as such_ in fossil bones,
+the development of species would take place so rapidly that we could
+directly witness it in living species.
+
+ * * * * *
+
+IV. REMARKS ON THE HISTORY OF DEFINITELY DIRECTED VARIATIONS.
+
+As to the attempt here made to apply the selective process to the elements
+of the germinal substance (the idioplasm) and thus to acquire a foothold
+for definitely directed variation not blind in its tendency but {77}
+proceeding in the direction of adaptive growth, it is remarkable that the
+same was not made long ago by some one or other of the many who have
+thought and written on selection and evolution.
+
+Allusions to a connexion between the direction of variation and the
+selective processes are to be found, but they remained unnoticed or
+undeveloped. I have been able to find at least two such observations, but
+would not wish to assert that there are not more of them hidden somewhere
+in the literature of the subject. One of them is old and comes from Fritz
+Mueller. It was appended by his brother Hermann as a "Supplementary Remark"
+to his book _Die Befruchtung der Blumen durch Insecten_ (1873) and is dated
+November 24, 1872. We read there: "My brother Fritz Mueller communicates to
+me in a letter which reached my hands only after the bulk of the present
+work had passed through the press, the following law discovered by him,
+which materially facilitates the explanation by natural selection of the
+pronounced characters of sharply distinguished species: 'The moment a
+choice in a definite direction is made in a variable species, progressive
+modification from generation to generation in the same direction will set
+in as the result of this choice, wholly apart from the influence of
+external conditions. Transformation into new forms is thus greatly
+facilitated and accelerated.'"
+
+The facts on which F. Mueller based the enunciation of his law, are the
+results of several experiments with plants, the numbers of whose grains
+(maize), or styles, or flowering leaves, were, by the exercise of choice in
+the cultivation, made to change in definite directions. Accurately viewed
+their significance is the same as that of numerous other cases of
+artificial selection, for {78} example, that of the long-tailed Japanese
+cock which was laid at the foundation of the theory in the text, although
+the numerical form of the observation gives more precision and distinctness
+to the reasoning based on them, than is to be observed in cases where we
+speak of characters as being simply "longer" or "shorter."
+
+F. Mueller's opinion regarding the increase of characters by selection is
+expressed as follows: "The simplest explanation of these facts appears to
+be that every species possesses the faculty of varying within certain
+limits; the crossing of different individuals, so long as no choice is
+effected in a definite direction, maintains the mean round which the
+oscillations take place at the same points, and consequently the extremes
+also remain unaltered. If, however, one side is preferred by natural or
+artificial selection, the mean is shifted in the direction of this side and
+accordingly the extreme forms are also displaced towards that side, going
+now beyond the original limit. However, this explanation does not satisfy
+me in all cases."
+
+It is not known to me that F. Mueller ever returned to this conception
+subsequently to the year 1872 or gave further developments of the same, nor
+have I been able to discover that it has been mentioned by other writers or
+incorporated in previous notions regarding selection.
+
+The second naturalist who has approached the fundamental idea of my
+doctrine of germinal selection, is a more recent writer. I refer to the
+English botanist Thiselton-Dyer, a scientist whose occasional utterances on
+the general questions of biology have more than once evoked my sympathetic
+approval. In an article, "Variation and Specific Stability," which appeared
+in {79} _Nature_ for March 14, 1895, this author enunciates twenty theses
+touching this subject, many of which appear to me apposite and correct,
+particularly the following: In every species there is a mean specific form
+round which the variations are symmetrically grouped like shots around the
+bull's eye of a target. As soon as natural selection comes into play and
+favors one of these variations it must shift the centre of density.
+Variations arise by a change in the outward conditions of life and can be
+useful or indifferent; only in the first case will natural selection obtain
+control of them and "the new variation will get the upper hand and the
+centre of density will be shifted."
+
+This is not germinal selection, but it is the same as what I have referred
+to in this and in the preceding essay as displacement of the zero-point of
+variation. Thiselton-Dyer did not draw the conclusion that a definitely
+directed variation answering to utility resulted from this process, which
+variation alone must cause the disappearance of useless parts, for the
+reason that he never attempted to penetrate to the causes of the shifting
+of the zero-point of variation. Neither Fritz Mueller, whose utterances
+Thiselton-Dyer was obviously ignorant of, nor Thiselton-Dyer himself pushed
+his inquiries beyond the thought that the shifting in question resulted
+entirely in consequence of personal selection. There is no gainsaying that
+the degeneration of useless organs cannot be explained by personal
+selection alone, seeing that though the minus variations may possibly have
+a selective value at the beginning of a degenerative process, they
+certainly cannot have such in the subsequent course of the same, when the
+organ has dwindled down to a really minimal mass of substance as compared
+with the whole {80} body. Of what advantage would it be to the whale if his
+hinder leg, now concealed in a mass of flesh and no longer protruding
+beyond the skin, should still be reduced one or several centimetres in
+size? (Spencer.) If the minus variations have no selective value, how can
+the upper limit of the variational field be constantly displaced downwards,
+as actually happens? It is unquestionable but something different from
+personal selection must come here co-determinatively into play.
+
+ * * * * *
+
+V. HISTORICAL REMARKS CONCERNING THE ULTIMATE VITAL UNITS.
+
+(For this Appendix which is marked "Appendix V." in the German edition of
+_Germinal Selection_ see the footnote at page 40.)
+
+ * * * * *
+
+VI. THE INITIAL STAGES OF USEFUL MODIFICATIONS.
+
+In characterising as "least" weighty the old objection that the variations
+are too small at the start to be useful and to be selected, I find myself
+diametrically opposed to many writers of the present day, who have taken up
+with renewed vigor this old stumbling block to the principle of selection.
+Bateson[33] regards the deficient proof of the utility of initial stages as
+the most serious objection that can be made to natural selection. New
+organs must in the necessity of the case have first been imperfect; how,
+then, could they have been selected since imperfect organs cannot be
+useful? Answers from various quarters have already been {81} made to this
+and to similar objections, and Darwin himself has referred to the fact that
+even the smallest variations may have selective value; Dohrn, too, has
+urged his principle of change of functions, which with regard to this
+question of the utility of initial stages has certainly a wide
+significance. Still, every transformation and new structure in the narrow
+sense of the word does not rest on change of function, and neither Darwin
+nor Wallace, nor any other more recent champion of the principle of
+selection, can ever succeed in demonstrating in _every_ case the selective
+value of an initial stage. One reason why this cannot be done is because
+_in no case of morphological variation do we really know what these initial
+stages are_. To say that "new organs were at first necessarily imperfect"
+appears obvious enough, but it is at bottom a meaningless assertion, for it
+is not only possible but certain, that "imperfect" organs may still have
+selective value, and in by far the most cases have had selective value. The
+fact that we see to-day a long graduated line of forest-butterflies which
+possess resemblance to leaves and by this means are able in a measure to
+conceal themselves from prying eyes, yet that this resemblance in many
+species is very imperfect, in others more perfect, and in a very small
+number very perfect, simply proves that even "imperfect" formations may be
+of utility. The word "imperfect" in this connexion is itself very
+imperfect, for it is utterly anthropomorphic and estimates the biological
+value of a structure by our own peculiar artistic notions of its
+faithfulness to a leaf-copy, whilst we are really concerned here only with
+its protective value for the species in question, which is by no means
+dependent merely on the faithfulness of the copying, on the {82}
+faithfulness of the imitation, but on numerous other factors, such as the
+frequency and sharp-sightedness of the enemies of the species, the
+fertility of the species, their frequency and persecution in earlier
+developmental stages, and so forth, in brief, on their need of protection
+on the one hand and on their other means of protection on the other.
+
+Now all this cannot be exactly calculated in any given case, and it will be
+better, instead of haggling about individual cases concerning which we can
+never judge with certainty, to take the position adopted in the text and
+say: Since the utility of the initial stages _must_ be assumed unless we
+are to renounce forever the explanation of adaptation, let us then take it
+for granted. No contradiction of facts is involved in this assumption; in
+fact, even individual variations exist whose eventual utility can be
+demonstrated, for example, the invisible differences enabling Europeans of
+certain constitutions to resist the attacks of tropical malarial
+fevers,--or the differences of structure, likewise not directly visible,
+which enable palms from the summits of the Cordilleras to withstand our
+winter climate better than palms of the same species from along the
+base-line of the mountains; and so on.
+
+ * * * * *
+
+VII. THE ASSUMPTION OF INTERNAL EVOLUTIONARY FORCES
+
+Definite variation was not only postulated in the last decade by Naegeli
+and Askenasy, but has also been repeatedly set up in recent years by
+various other authors. The Rev. George Henslow, in his book _The Origin of
+Species Without the Aid of Natural Selection_, 1894, regards the variations
+occurring in the state {83} of nature as always definite and not with
+Darwin as indefinite, and meets the objection that modification but not
+adaptation to outward conditions of life can be inferred from this fact, by
+the bold assumption that it is precisely the outward conditions of life or
+the environment which "induces the best fitted to arise." He further
+concludes that natural selection has nothing to do with the origin of
+species. At the basis of his conviction lies the naturally correct view
+that the summation of _accidental_ variations is insufficient for
+transforming the species, but that definitely directed variation is
+necessary to this end. But concerning the way in which external conditions
+are always able to produce the fit variations, he can give us no
+information--if I am not mistaken, for the simple reason that such is not
+the fact, that the outward conditions only apparently determine the
+direction of variations whilst in truth it is the adaptive requirement
+itself that produces the useful direction of variation by means of
+selectional processes within the germ.
+
+C. Lloyd Morgan also has recently expressed himself in favor of the
+necessity of definite variation, though likewise without assigning a basis
+for its action, and without being able to show how its efficacy is
+compatible with the plain fact of adaptation to the conditions of life. He
+seeks to find the origin of variation in "mechanical stresses and chemical
+or physical influences," but this conception is too general to be of much
+help. He has, in fact, not been able to abandon completely the heredity of
+acquired characters.
+
+Emery[34] likewise sees only the alternative of a {84} "definitely directed
+variation" from internal causes and of a summation of "accidental"
+variations. He says: "A summation of entirely accidental variations in a
+given direction is extremely difficult," because "natural selection thus
+always awaits its fortune at the hands of accident whereby it is possible
+that the little good thereby produced will be swept away by other accidents
+(disadvantages of position) or obliterated in the following generations by
+unfortunate crossings." We can, therefore, continues Emery, well conceive
+"how many scientists look upon the whole theory of selection as a fable, or
+else throw themselves into the arms of Lamarckism." Unquestionably Emery
+has here singled out the insufficient points in the assumption of a
+selection of "accidental" variations; he has recognised the necessity of
+operating, not with single variations, but with "directions of variation."
+He has not, however, attempted the derivation of directed tendencies of
+variation from known factors; he apparently thinks of them as of something
+which has sprung from unknown constitutional factors and consequently
+ascribes to them the capacity of shooting beyond their mark, so to speak,
+that is, of acting beyond and ahead of utility, and so of producing
+modifications which may lead to the destruction of the species.
+
+ * * * * *
+
+
+{85}
+
+INDEX.
+
+ Accidental variations, 3, 83.
+ Acquired variations, 33.
+ Acracids, 19.
+ Acraea, 52.
+ Active selection, 38.
+ Adaptations, 3, 10, 22, 61, 82.
+ Adaptiveness, 66 footnote, 67, 74 et seq.
+ Ageronia, 19.
+ Anaea, 22.
+ _Anlagen_, 35, 47, 53.
+ Arthropoda, 32, 62.
+ Articulata, 30.
+ Artificial selection, 33.
+ Askenasy, 24, 60, 82.
+ Atoms, 57, 58.
+
+ Baer, K. E. von, 73.
+ Bateson, 18, 73, 80.
+ "Better" individuals, 76.
+ Biology, character of research in, 7.
+ Biophores, 40, 47, 58.
+ Boltzmann, 4, 5.
+ Bonnet, 53.
+ Bourne, footnote, 54.
+ Bruecke, 40.
+ Butterflies, 14 et seq., 18 et seq., 81.
+
+ Catonephele, 50.
+ Chance, 61.
+ Chemical selection, 71.
+ Chitons, 28.
+ Coadaptation, 30.
+ Colorings, protective, 14 et seq.
+ Constancy of species, 46.
+ Constructs, 8.
+ Cormi, 66 footnote.
+ Correlation, 21.
+
+ Danaids, 19.
+ Darwin, 11, 25, 29, 36, 38, 66, 81, 83.
+ Definite variation, 3, 4, 60, 76-79, 82.
+ Degeneration, 30 et seq., 39 et seq. 55, 63, 64, 79.
+ Delage, Yves, 40, 69.
+ Determinants, 6 et seq., 10, 36 et seq. 42, 54, 58.
+ Developmental mechanics, 8, 9.
+ De Vries, 40.
+ Dimorphism, 58.
+ Directions of variations, 83.
+ Directive forces, 23, 24.
+ Dixey, 51 footnote.
+ Dohrn, 81.
+ Driesch, Hans, 12.
+ Dyer, Thiselton, 78-79.
+
+ Eimer, 16, 70.
+ Emery, 71, 83-84.
+ Empedocles, 75.
+ Epigenesis, 53 footnote, 58, 59.
+ Euploids, 19.
+ Europeans, exempt from malarial fevers, 82.
+ Eurypheme, 22.
+ Evolution, 53 footnote, 59.
+
+ Fireworks, determinants and ids compared to, 7.
+ "Fits," 6 footnote.
+ Fluctuations of development, 74-75.
+ Formative laws, 17 et seq., 23.
+ Frog, 14.
+ Functional adaptation, 29.
+ Functionless parts, 64.
+
+ Galton, 36.
+ Germs, 7 et seq., 40 et seq.
+ {86}
+ Germinal selection, 3, 39, 44, 50-53, 59, 63, 66-68.
+ Germinal substance, 55 et seq.
+ Germ-plasm, 9, 44, 57.
+
+ Haase, Eric, 70.
+ Heliconids, 19, 20, 51 footnote.
+ Henslow, G., 70, 82.
+ Heredity, 4 et seq.
+ Hertwig, O., 54 footnote, 58, 59.
+ Hertz, 5, 6.
+ Histonal selection, 66.
+ Huxley, Thomas, 12.
+ Hypna, 22.
+ Hypotheses, nature of, 5 et seq.
+
+ Ids, their theoretical character, 7.
+ Imagination, its function in science, 4.
+ "Imperfect" formations, 81.
+ Individual variations, 73 et seq.
+ Inertia, law of organic, 15.
+ Internal forces of evolution, 16, 23, 24, 31, 60, 82-4.
+ Intrabiontic selection, 29.
+ Ishikawa, Professor, 34.
+
+ Japanese cocks, long-tailed, 34, 44, 78.
+
+ Kallima, 22, 23, 50.
+ Katagramma, 22.
+ Knowledge, its character, 5.
+
+ Lamarckian principles, 24, 29 et seq., 31 et seq., 38, 63-64, 68, 84.
+ Leaves, imitated by butterflies, 20 et seq.
+ Locomotive, simile of, 11.
+
+ Malthusian principle, 65, 67.
+ Markings, butterflies', 16 et seq.
+ Maxwell, 4, 5.
+ Mean of variation, 78-79.
+ Meristic, 18.
+ Mimicry, 19, 51 et seq.
+ Minot, S., 54 footnote.
+ Models, mental, 4 et seq.
+ Molecules, 58.
+ Morgan, Prof. C. Lloyd, 32, 71, 83.
+ Mueller, Fritz, 77-79.
+ Mueller, Hermann, 77.
+ Mussels, 28.
+ Mutations, 31 footnote, 72-76.
+
+ Naegeli, 4, 11, 24, 60, 82.
+ Neumayr, 72.
+ Newton, 5.
+ Nutrition of determinants, 36, 37, 41, 47.
+ Nymphalidae, 21.
+
+ Ontogenesis, 8.
+ Orr, Henry B., 69.
+ Osborn, Prof. H. F., 33.
+ Owen, Richard, 11.
+
+ Paleontology, 31, 73, 75, 76.
+ Palms from Cordilleras, 82.
+ Pangenes, 40.
+ Panmixia, 15, 39, 42, 43, 64.
+ Papilio, 16, 52.
+ Parallecta, 23.
+ Parts, struggling of the, 29, 39, 66-67.
+ Passively functioning parts, 30 et seq., 64.
+ Personal selection, 30, 41, 42, 45, 52, 64-86, 80.
+ Phyletic variation, 31-32 footnote.
+ Phylogenesis, 8.
+ Phylogenetic variations, 31-32, 73.
+ Plasomes, 40.
+ Plus and minus variations, 35, 42, 46, 50, 79-80.
+ Polymorphism, 58.
+ Poulton, 64 footnote.
+ Predestined variation, 4.
+ Pre-established harmony, 25.
+ Preformation, 53.
+ Protective colorings, 14 et seq.
+ Protogonius, 22.
+ Pseudocraea, 52.
+
+ Qualitative modifications, 46.
+ Quantitative changes, 46-47.
+
+ Retrogressive development, 38.
+ Round-worms, eggs of, 28.
+ Roux, Wilhelm, 29, 39, 65, 66.
+
+ Salamis, 22.
+ Scott, Prof. W. B., 31 footnote, 72-74.
+ Segmentation, 10.
+ {87}
+ Selection, natural, 10, 25 et seq., 50, 51, 67, 69-73, 81, 82.
+ Selective value of variations, 60.
+ Semper, 69.
+ Siderone, 22.
+ Snails, 28.
+ Spencer, 14, 28, 29, 40, 53, 56, 80.
+ Struggle for existence, 65.
+ Survival of the fit, 52.
+ Symphaedra, 22.
+
+ _Tabula rasa_, 27, 24.
+ Tegetmeier, W. B., 34.
+ Teleological principles, 10, 16, 25.
+ Theories, nature of, 5 et seq.
+ Turbellaria, 28.
+
+ Units, vital, biological, physiological, etc., 8, 40, 41, 53, 56, 65, 80.
+ Useful modifications, value of initial stages of, 80-82.
+ Utility, 11, 18, 33, 45, 48, 62, 63, 82.
+
+ Variations, necessary, their constant presence, 26 et seq., 31 et seq.,
+ 61;
+ generally, 3, 11-14, 61, 71 et seq.
+
+ Waagen, 72.
+ Wallace, 11, 25, 29, 51, 66, 81.
+ Weldon, 36.
+ Whale, hind leg of, 42, 56, 80.
+ Whitman, C. O., 53.
+ Wiesner, 40.
+ Wigand, Albert, 11, 63.
+ Wings of butterflies, 14 et seq., 47-52, 56.
+ Wolff, K. F., 53, 62, 63, 69.
+ "Worse" individuals, 76.
+
+ Zero-point of variation, 36 et seq., 45, 74, 79.
+
+ * * * * *
+
+
+Notes
+
+[1] _Neue Gedanken zur Vererbungsfrage, eine Antwort an Herbert Spencer._
+Jena. 1895.
+
+[2] See Boltzmann, _Methoden der theor. Physik_, Munich, 1892. (In the
+Catalogue of the Mathematical Exhibit.)
+
+[3] Of late this saying of Newton's is frequently quoted as if Newton were
+a downright contemner of scientific hypotheses. But if we read the passage
+in question in its original context, we shall discover that his
+renunciation of hypotheses referred solely to a definite case, viz., to
+that of universal gravitation, of whose character Newton could form no
+conception and hence was unwilling to construct hypotheses concerning it.
+Indeed, such a wholesale repudiation of hypotheses is antecedently
+incredible on the part of the inventor of the emission-theory of light, in
+which, to speak of only one daring conjecture, "fits" were ascribed to the
+luminous particles. Compare Newton, _Philosophiae Naturalis Principia
+Mathematica_, second edition, 1714, page 484.
+
+[4] H. Hertz, _Die Principien der Mechanik_.
+
+[5] Hans Driesch, _Die Biologie als selbststaendige Grundwissenschaft_,
+Leipsic, 1893, p. 31, footnote. The sentence reads: "An examination of the
+pretensions of the refuted Darwinian theory, so called, would be an affront
+to our readers."
+
+[6] _Die Allmacht der Naturzuechtung._ A Reply to Herbert Spencer. Jena,
+1893, p. 27 et seq. [Also in the _Contemporary Review_ for September,
+1893.]
+
+[7] That is, by the law of exceedingly slow retrogression of superfluous
+characters, which may be designated the law of organic inertia.
+
+[8] _Materials for the Study of Variation with Especial Regard to
+Discontinuity in the Origin of Species._ London, 1895.
+
+[9] _Studien zur Descendenztheorie_, Leipsic, 1876. Vol. II. pp. 295 and
+322.
+
+[10] Compare my essay, _Neue Gedanken zur Vererbungsfrage_, Jena, 1895, p.
+10, second footnote.
+
+[11] On the same day on which the present address was delivered at the
+International Congress of Zooelogists in Leyden, and on the same occasion,
+Dr. W. B. Scott, Professor of Geology in Princeton College, New Jersey,
+read a very interesting paper on the tertiary mammalian fauna of North
+America, in which, without a knowledge of my paper, he took his stand
+precisely on this argument and arrived at the opinion that it could not
+possibly be the ordinary individual variations which accomplished phyletic
+evolution, but that it was necessary to assume in addition phyletic
+variations. I believe our views are not as widely remote as might be
+supposed. Of course, I see no reason for assuming two kinds of hereditary
+variations, different _in origin_. Still it is likely that only a
+relatively small portion of the numberless individual variations lie on the
+path of phyletic advancement and so under the _guidance_ of germinal
+selection mark out the way of further development; and hence it would be
+quite possible in this sense to distinguish continuous, _definitely
+directed_ individual variations from such as fluctuate hither and thither
+with no uniformity in the course of generations. The root of the two is of
+course the same, and they admit of being distinguished from each other only
+by their success, phyletic modification, or by their failure.
+
+[12] H. F. Osborn, "The Hereditary Mechanism and the Search for the Unknown
+Factors of Evolution," in _Biological Lectures delivered at the Marine
+Biolog. Lab. at Wood's Holl in the Summer Session of 1894_. Boston, 1895.
+
+[13] In 1886. See my paper on "Retrogression in Nature," published in
+English in Nos. 105, 107, 108, and 109 of _The Open Court_, and also in my
+essays on _Heredity_, Jena, 1892.
+
+[14] _Neue Gedanken zur Vererbungsfrage_, Jena, 1895.
+
+[15] Delage, in _La structure du protoplasma et les theories sur
+l'heredite_, etc., Paris, 1895, is mistaken in attributing to Herbert
+Spencer the merit of having first pointed out the necessity of the
+assumption of biological units ranking between the molecule and the cell.
+Bruecke set forth this idea three years previously to Spencer and
+established it exhaustively in a paper which in Germany at least is famous
+("Elementarorganismen," _Wiener Sitzungsberichte_, October 10, 1861, Vol.
+XLIV., II., p. 381). Spencer's _Principles of Biology_ appeared between
+1864 and 1868; consequently there can be no dispute touching the priority
+of the idea. Strangely enough Delage cites Bruecke's essay in the
+Bibliographical Index at the end of his book correctly, although Bruecke's
+name and views are nowhere mentioned in the book itself. It is to be
+observed, however, that the elementary organisms of Bruecke are not merely
+the precursors of Spencer's "physiological units," but repose on much
+firmer foundations than the latter, which, as Delage himself remarks, are
+at bottom nothing more than magnified molecules and not combinations of
+different molecules of such character as to produce necessarily phenomena
+of life. He aptly remarks on this point: "the physiological units of
+Spencer are only chemical molecules of greater complexity than the rest,
+and as he defines them they would be regarded as such by every chemist. He
+attributes to them no property _essentially_ different from those of
+chemical molecules." Assimilation, growth, propagation, in short the
+attributes of life, are not attributed by Spencer to his units, while
+Bruecke by his very designation "elementary organisms" expresses the idea
+of "ultimate living units," to use Wiesner's phrase. Of course this
+particular aspect of the vital units was not emphasised by Bruecke with the
+same distinctness and sharpness as by recent inquirers, who took up
+Bruecke's ideas thirty years after. I refer to the conception that the
+union of a definite combination of heterogeneous molecules into an
+invisibly small unit, forms the cradle or focus of the vital phenomena.
+This was first done and apparently on independent considerations by De
+Vries, and soon after by Wiesner, and subsequently by myself (De Vries,
+_Intracellulaere Pangenesis_, Jena, 1889; Wiesner, _Die Elementarstructur
+and das Wachsthum der lebenden Substanz_, Vienna, 1892; Weismann, _Das
+Keimplasma_, Jena, 1892). Let me say at the close of this note that it is
+not my intention in thus defending the rights of a great physiologist, to
+censure in the least the distinguished author of _L'heredite_ who has set
+himself a remarkably high standard of exactitude in such matters.
+Certainly, when we consider the enormous extent of the literature that had
+to be mastered to produce his book, embracing as it did all the various
+theories of recent times, such an oversight is quite excusable.
+
+[16] I speak here of determinants, not of groups of determinants, which is
+the more correct expression, merely for the sake of brevity. It is a matter
+of course that a whole extremity, such as we have here chosen, cannot be
+represented in the germ by a single determinant only, but requires a large
+group of determinants.
+
+[17] That this is not so in all cases has recently been shown by Dixey from
+observations on certain white butterflies of South America which mimic the
+Heliconids and in which a small, yellowish red streak on the under surface
+of the hind wing has served as the point of departure and groundwork of the
+development of a protective resemblance to quite differently colored
+Heliconids. "On the Relation of Mimetic Characters to the Original Form,"
+in the _Report of the British Association for 1894_.
+
+[18] Oscar Hertwig, _Zeit-und Streitfragen der Biologie_, Jena, 1894. It is
+customary now to look upon the preformation-theory of Bonnet as a discarded
+monstrosity, and on the epigenesis of K. F. Wolff as the only legitimate
+view, and to draw a parallel between these two and what might be called
+to-day "evolution" [i. e. unfoldment] and epigenesis. The evolution, or
+unfoldment, of Bonnet and Harvey, however, was something totally different
+from modern doctrines of evolution, and Whitman is quite right when he says
+that even my theory of determinants would have appeared to the inquirers of
+the last century as "extravagant epigenesis." Biologists in that day were
+concerned with quite different questions from what they are at present, and
+although now we probably all share the conviction of Wolff that new
+characters do arise in the course of evolution, yet the acceptance of this
+view is far from settling the question _as to how these new characters are
+established in the germ-substance_--for in this substance they certainly
+must have their foundation. When, therefore, O. Hertwig laments over my
+regarding evolution and not epigenesis as the correct foundation of the
+theory of development, his sorrow is almost as naive as is the statement of
+Bourne that epigenesis is a fact and not a theory "a statement of
+morphological fact," _Science Progress_, April, 1894, page 108), or, as is
+the latter's unconsciousness that facts originally receive their scientific
+significance from thought, i. e. from their interpretation and combination,
+and that thought is theory. And when S. Minot, as the leader of the
+embryologists, carries his zeal to the pitch of issuing a general
+pronunciamento against me as a corruptor of youth, in which he declares it
+to be a "scientific duty to protest in the most positive manner against
+Weismann's theory," I wonder greatly that he does not suggest the casting
+of a general ballot in the matter. (See the _Biologisches Centralblatt_ of
+August 1, 1895.) We see how with these gentlemen the wisdom of the
+recitation-room regarding the infallibility of epigenesis has grown into a
+dogma, and whoever ventures to disturb its foundations must be burnt as a
+heretic.
+
+[19] Oscar Hertwig, _Zeit- und Streitfragen der Biologie_, Jena, 1894.
+
+[20] Nor will those, who demand a demonstration of "how the biophores and
+determinants are constituted in every case, and must be arranged in the
+architecture of the germ-plasm." (O. Hertwig, _loc. cit._, p. 137). As if
+any living being could have the temerity even so much as to guess at the
+actual ultimate phenomena in evolution and heredity! The whole question is
+a matter of symbols only, just as it is in the matter of "forces," "atoms,"
+"ether undulations," etc., the only difference being that in biology we
+stumble much earlier upon the unknown than in physics.
+
+[21] "Beitraege zur Kritik der Darwin'schen Lehre," _Biologisches
+Centralblatt_, Vol. X., p. 449. 1890.
+
+[22] Poulton has adverted to the fact that this is nevertheless not always
+the case; for example, it is not so with the teeth, whose shape it had also
+been sought to reduce to the mechanical effects of pressure and friction.
+See "The Theory of Selection" in _The Proceedings of the Boston Society of
+Natural History_, Vol. XX., page 389. 1894.
+
+[23] As the highest stage of selective processes must be regarded that
+between the highest biological units, the colonies or cormi--a stage,
+however, which is not essentially different from personal selection. In
+this stage the persons enact the part that the organs play in personal
+selection. Like their prototypes they also battle with one another for food
+and in this way maintain harmony in the colony. But the result of the
+struggle endures only during the life of the individual colony and can be
+transmitted through the germ-cells to the following generation as little as
+can histological changes provoked by use in the individual person. Only
+that which issues from the germ has duration.
+
+[24] This statement has often been declared extravagant, and it is so if it
+is taken in its strict literalness. On the other hand, it would also seem,
+by a more liberal interpretation, as if there existed non-adaptive
+characters, for example, rudimentary organs. Adaptiveness, however, is
+never absolute but always conditioned, that is, is never greater than
+outward and inward circumstances permit. Moreover, an organ can only
+disappear gradually and slowly when it has become superfluous; yet this
+does not prevent our recognising every stage of its degeneration as adapted
+when compared with its precursor. Further, it does not militate against the
+correctness of the above proposition that there are also characters whose
+fitness consists in their being the necessary accompaniments of other
+directly adapted features, as, for instance, the red color of the blood.
+
+[25] Semper, _Die natuerlichen Existenzbedingungen der Thiere_, Leipsic,
+1880, pp. 218-219.
+
+[26] Wolff, "Beitraege zur Kritik der Darwin'schen Lehre," _Biolog.
+Centralblatt_, Vol. X., Sept. 15, 1890, and "Bemerkungen zum Darwinismus
+mit einem experimentellen Beitrag zur Physiologie der Entwicklung,"
+_Biolog. Centralblatt_, Vol. XIV., Sept. 1, 1894.
+
+[27] Henry B. Orr, _A Theory of Development and Heredity_, New York, 1893.
+
+[28] Yves Delage, _La structure du protoplasma et les theories sur
+l'heredite et les grands problemes de la biologie generale_, Paris, 1895.
+
+[29] Henslow, _The Origin of Species Without the Aid of Natural Selection,
+A Reply to Wallace_. 1894.
+
+[30] If any one should deem these words too severe, let him read the
+sarcastic passages in which Eimer has dispatched the late unfortunate Eric
+Haase who had been presumptuous enough to oppose the Tuebingen Professor's
+deliverances on certain points. Haase, as we all know, fell a victim to the
+climate of the tropics, shortly after resigning the post of Director of the
+natural science collections in Bangkok, in order to return to Germany and
+to work out the fruits of his tropical sojourn. The unfortunate end of this
+accomplished man who had rendered important services to science had no
+effect in mollifying the resentment of Herr Eimer at the opposition which
+his views had encountered; and in twenty printed pages he takes him to task
+in the most personal and rancorous manner for this affront, remarking at
+the close: "In the meantime Herr Haase has died. Nevertheless I owe it to
+myself, in spite of this occurrence, to make public the foregoing facts, in
+order," etc. Any one who is interested in knowing the motives of Herr
+Eimer's excuse may find them in his book _Artbildung and Verwandtschaft bei
+den Schmetterlingen_, Part II., p. 66.
+
+[31] "Gedanken zur Descendenz- und Vererbungstheorie." _Biolog.
+Centralblatt_, July 15, 1893.
+
+[32] C. Lloyd Morgan, _Animal Life and Intelligence_, London, 1890-1891, p.
+30-33.
+
+[33] _Materials for the Study of Variation with Especial Regard to
+Discontinuity in the Origin of Species_, London, 1895, p. 16.
+
+[34] "Gedanken zur Descendenz- and Vererbungstheorie," _Biolog.
+Centralblatt_, 1893, Vol. XIII., p. 397.
+
+
+
+
+
+
+End of the Project Gutenberg EBook of On Germinal Selection as a Source of
+Definite Variation, by August Weismann
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