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+Project Gutenberg (https://www.gutenberg.org) public repository for
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-The Project Gutenberg eBook, Charles Darwin and the Theory of Natural
-Selection, by Sir Edward Bagnall Poulton
-
-
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-Title: Charles Darwin and the Theory of Natural Selection
-
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-Author: Sir Edward Bagnall Poulton
-
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-
-Release Date: July 6, 2021  [eBook #65779]
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-***START OF THE PROJECT GUTENBERG EBOOK CHARLES DARWIN AND THE THEORY OF
-NATURAL SELECTION***
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-E-text prepared by Fay Dunn, Charlie Howard, and the Online Distributed
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-Transcriber’s Note
-
-      Text enclosed by underscores is in italics (_italics_).
-
-      A caret character is used to denote superscription. A
-      single character following the caret is superscripted
-      (example: individ^l). Multiple superscripted characters are
-      enclosed by curly brackets (example: affect^{te}).
-
-
-
-
-
-THE CENTURY SCIENCE SERIES
-
-Edited by Sir Henry E. Roscoe, D.C.L., LL.D., F.R.S.
-
-
-
-CHARLES DARWIN
-AND THE THEORY OF NATURAL SELECTION
-
-
-      *      *      *      *      *      *
-
-The Century Science Series.
-
-EDITED BY
-
-SIR HENRY E. ROSCOE, D.C.L., F.R.S.
-
-
-John Dalton and the Rise of Modern Chemistry.
-
-  By Sir HENRY E. ROSCOE, F.R.S., &c.
-
-
-Major Rennell, F.R.S., and the Rise of Modern English Geography.
-
-  By Sir CLEMENTS R. MARKHAM, C.B., F.R.S., President of the Royal
-  Geographical Society.
-
-
-Justus von Liebig: his Life and Work (1803–1873).
-
-  By W. A. SHENSTONE, F.I.C., Lecturer on Chemistry in Clifton College.
-
-
-The Herschels and Modern Astronomy.
-
-  By AGNES M. CLERKE, Author of “A Popular History of Astronomy during
-  the 19th Century,” &c.
-
-
-Charles Lyell and Modern Geology.
-
-  By Professor T. G. BONNEY, F.R.S., &c.
-
-
-James Clerk Maxwell and Modern Physics.
-
-  By R. T. GLAZEBROOK, F.R.S., Fellow of Trinity College, Cambridge.
-
-
-Humphry Davy, Poet and Philosopher.
-
-  By T. E. THORPE, LL.D., F.R.S.
-
-
-Charles Darwin and the Theory of Natural Selection.
-
-  By EDWARD B. POULTON, M.A., F.R.S., Hope Professor of Zoology at the
-  University of Oxford, &c.
-
-
-_In Preparation._
-
-Michael Faraday: his Life and Work.
-
-  By Professor SILVANUS P. THOMPSON, F.R.S.
-
-
-Pasteur: his Life and Work.
-
-  By M. ARMAND RUFFER, M.D., Director of the British Institute of
-  Preventive Medicine.
-
-
-Hermann von Helmholtz.
-
-  By A. W. RÜCKER, F.R.S., Professor of Physics in the Royal College of
-  Science, London.
-
-
-CASSELL & COMPANY, LIMITED, _London; Paris & Melbourne_.
-
-      *      *      *      *      *      *
-
-
-[Illustration:
-
-  _Photo by Mr. James C. Christie, F.G.S., Glasgow._
-
-STATUE OF CHARLES DARWIN.
-
-(_By Boehm._)
-
-CENTRAL HALL OF THE BRITISH MUSEUM OF NATURAL HISTORY.]
-
-
-The Century Science Series
-
-CHARLES DARWIN
-AND THE THEORY OF NATURAL SELECTION
-
-by
-
-EDWARD B. POULTON
-M.A., F.R.S., F.G.S., F.L.S., ETC.
-
-Hope Professor of Zoology at the University of Oxford
-Corresp. Memb. of the New York Academy of Sciences
-Corresp. Memb. of the Boston Society of Nat. Hist.
-
-
-
-
-
-
-Cassell and Company, Limited
-London, Paris & Melbourne
-1896
-All Rights Reserved
-
-
-[Illustration]
-
-
-
-
-INTRODUCTION
-
-
-In the following pages I have tried to express a sense of the greatness
-of my subject by simplicity and directness of statement. The limits
-of the work necessarily prevented any detailed treatment, the subject
-of the work prevented originality. We have had the great “Life and
-Letters” with us for nine years, and this I have used as a mine,
-extracting what I believed to be the statements of chief importance for
-the work in hand, and grouping them so as to present what I hope is
-a connected account of Darwin’s life, when considered in relation to
-his marvellous work; and especially to the great central discovery of
-Natural Selection and its exposition in the “Origin of Species.”
-
-In addition to the invaluable volumes which we owe to the industry,
-taste, and skill of Francis Darwin, an immense number of other works
-have been consulted. We live in an age of writing, and of speeches and
-addresses; and the many sides of Darwin’s life and work have again and
-again inspired the ablest men of our time to write and speak their
-best--a justification for the freedom with which quotations are spread
-over the following pages.
-
-It is my pleasant duty to express my hearty thanks to many kind friends
-who have helped in the production of this little work. Mr. Francis
-Darwin has kindly permitted the use of many of Darwin’s letters,
-which have not as yet been published, and he has given me valuable
-information and criticism on many points. I have also gained much
-by discussion and correspondence with my friends Dr. A. R. Wallace,
-Professor E. Ray Lankester, and Professor Meldola. The latter has
-freely given me the use of his valuable series of letters; and I owe
-to my friend, Mr. Rowland H. Wedgwood, the opportunity of publishing a
-single letter of very great interest.
-
-The greater part of the volume formed the subject of two short courses
-of lectures delivered in the Hope Department of the Oxford University
-Museum in Michaelmas Term 1894 and Lent Term 1895.
-
-                                                  EDWARD B. POULTON.
-
-Oxford, _October, 1896_.
-
-
-
-
-CONTENTS
-
-
-  CHAPTER PAGE
-
-  I.--THE SECRET OF DARWIN’S GREATNESS                                 9
-
-  II.--BOYHOOD--EDINBURGH--CAMBRIDGE (1817–31)                        16
-
-  III.--VOYAGE OF THE “BEAGLE” (1831–36)                              21
-
-  IV.--CAMBRIDGE--LONDON--WORK UPON THE
-            COLLECTIONS--MARRIAGE--GEOLOGICAL WORK--JOURNAL OF
-            THE VOYAGE--CORAL REEFS--FIRST RECORDED THOUGHTS ON
-            EVOLUTION (1837–42)                                       25
-
-  V.--DOWN--GEOLOGY OF THE VOYAGE--WORK ON CIRRIPEDES (1842–54)       35
-
-  VI.--THE GROWTH OF THE “ORIGIN OF SPECIES” (1837–58)                42
-
-  VII.--GROWTH OF THE “ORIGIN” (_continued_)--CORRESPONDENCE WITH
-            FRIENDS                                                   50
-
-  VIII.--DARWIN AND WALLACE (1858)                                    60
-
-  IX.--DARWIN’S SECTION OF THE JOINT MEMOIR READ BEFORE THE
-            LINNEAN SOCIETY JULY 1, 1858                              65
-
-  X.--WALLACE’S SECTION OF THE JOINT MEMOIR READ BEFORE THE
-            LINNEAN SOCIETY JULY 1, 1858                              71
-
-  XI.--COMPARISON OF DARWIN’S AND WALLACE’S SECTIONS OF THE JOINT
-            MEMOIR--RECEPTION OF THEIR VIEWS--THEIR FRIENDSHIP        78
-
-  XII.--THE GROWTH OF WALLACE’S CONVICTIONS ON EVOLUTION AND
-            DISCOVERY OF NATURAL SELECTION--BORNEO 1855--TERNATE
-            1858                                                      87
-
-  XIII.--CANON TRISTRAM THE FIRST PUBLICLY TO ACCEPT THE THEORY
-            OF NATURAL SELECTION (1859)                               92
-
-  XIV.--THE PREPARATION OF THE “ORIGIN OF SPECIES” (1858–59)          95
-
-  XV.--THE ORIGIN OF SPECIES (1859)                                  100
-
-  XVI.--THE INFLUENCE OF DARWIN UPON LYELL (1859–64)                 105
-
-  XVII.--INFLUENCE OF DARWIN UPON HOOKER AND ASA GRAY--NATURAL
-            SELECTION AND DESIGN IN NATURE (1860–68)                 111
-
-  XVIII.--INFLUENCE OF DARWIN UPON HUXLEY                            119
-
-  XIX.--THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS UNDERSTOOD        144
-
-  XX.--THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS UNDERSTOOD
-            (_continued_)--VIEWS ON SPONTANEOUS GENERATION           153
-
-  XXI.--VARIATION OF ANIMALS AND PLANTS UNDER DOMESTICATION:
-            PANGENESIS (1868)                                        161
-
-  XXII.--PANGENESIS AND CONTINUITY OF THE GERM-PLASM: DARWIN’S
-            CONFIDENCE IN PANGENESIS                                 178
-
-  XXIII.--DESCENT OF MAN--EXPRESSION OF EMOTIONS--EARTH-WORMS
-            (1871–81)                                                186
-
-  XXIV.--BOTANICAL WORKS (1862–86)                                   193
-
-  XXV.--LETTERS FROM DARWIN TO PROFESSOR MELDOLA (1871–82)           199
-
-  XXVI.--HIS LAST ILLNESS (1882)                                     219
-
-  INDEX                                                              221
-
-
-
-
-                            CHARLES DARWIN
-                                  AND
-                   THE THEORY OF NATURAL SELECTION.
-
-
-
-
-CHAPTER I.
-
-THE SECRET OF DARWIN’S GREATNESS.
-
-
-Charles Robert Darwin was born at Shrewsbury on February 12th, 1809,
-the year which witnessed the birth of Alfred Tennyson, W. E. Gladstone,
-and Abraham Lincoln.
-
-Oliver Wendell Holmes, born in the same year, delighted to speak of the
-good company in which he came into the world. On January 27th, 1894,
-I had the great pleasure of sitting next to him at a dinner of the
-Saturday Club in Boston, and he then spoke of the subject with the same
-enthusiasm with which he deals with it in his writings; mentioning the
-four distinguished names, and giving a brief epigrammatic description
-of each with characteristic felicity. Dr. Holmes further said that he
-remembered with much satisfaction an occasion on which he was able to
-correct Darwin on a matter of scientific fact. He could not remember
-the details, but we may hope for their ultimate recovery, for he said
-that Darwin had written a courteous reply accepting the correction.
-
-[Sidenote: HIS FAMILY.]
-
-Charles Darwin’s grandfather, Erasmus Darwin (1731–1802), was a man of
-great genius. He speculated upon the origin of species, and arrived at
-views which were afterwards independently enunciated by Lamarck. He
-resembled this great zoologist in fertility of imagination, and also in
-the boldness with which he put forward suggestions, many of which were
-crude and entirely untested by an appeal to facts. The poetical form in
-which a part of his work was written was, doubtless, largely due to the
-traditions and customs of the age in which he lived.
-
-Robert Waring (1766–1848), the father of Charles Darwin, was the second
-son of Erasmus. He married a daughter of the great Josiah Wedgwood.
-Although his mother died when he was only eight years old, and Darwin
-remembered very little of her, there is evidence that she directed his
-attention to Nature (“Autobiography,” p. 28, footnote). Dr. Darwin
-followed his father’s profession, commencing a very successful medical
-practice at Shrewsbury before he was twenty-one. He was a man of great
-penetration, especially in the discernment of character--a power which
-was of the utmost value to him in his profession. Dr. Darwin had two
-sons and four daughters: Charles was the younger son and fourth child,
-his brother Erasmus being the third.
-
-Even in this mere outline there is evidence of hereditary genius
-in the Darwin family--evidence which becomes irresistible when all
-available details of every member of the family are brought together,
-as they are in the great “Life and Letters.” When it is further
-remembered that two of Charles Darwin’s sons have achieved distinction
-as scientific investigators, it will be admitted that the history of
-the family affords a most striking example of hereditary intellectual
-power.
-
-There is nothing in this history to warrant the belief that the nature
-and direction of hereditary genius receive any bias from the line of
-intellectual effort pursued by a parent. We recognise the strongest
-evidence for hereditary capacity, but none at all for the transmission
-of results which follow the employment of capacity. Thus Erasmus
-inherited high intellectual power, with a bias entirely different from
-that of his younger brother Charles--his interests being literary
-and artistic rather than scientific. The wide difference between the
-brothers seems to have made a great impression upon Charles, for he
-wrote:--
-
-      “Our minds and tastes were, however, so different, that I do not
-      think I owe much to him intellectually. I am inclined to agree
-      with Francis Galton in believing that education and environment
-      produce only a small effect on the mind of anyone, and that most
-      of our qualities are innate” (“Life and Letters,” 1887, p. 22).
-
-Equally significant is the fact that Professor George Darwin’s
-important researches in mathematics have been applied to
-astronomy--subjects which were not pursued by his father.
-
-[Sidenote: CHARACTER AND POWERS.]
-
-It appears probable that Charles Darwin’s unique power was largely
-due to the inheritance of the imagination of his grandfather combined
-with the acute observation of his father. Although he possessed an
-even larger share of both these qualities than his predecessors, it
-is probable that he owed more to their co-operation than to the high
-degree of their development.
-
-It is a common error to suppose that the intellectual powers which
-make the poet or the historian are essentially different from those
-which make the man of science. Powers of observation, however acute,
-could never make a scientific discoverer; for discovery requires the
-creative effort of the imagination. The scientific man does not stumble
-upon new facts or conclusions by accident; he finds what he looks for.
-The problem before him is essentially similar to that of the historian
-who tries to create an accurate and complete picture of an epoch out
-of scattered records of contemporary impressions more or less true,
-and none wholly true. Fertility of imagination is absolutely essential
-for that step from the less to the more perfectly known which we call
-discovery.
-
-But fertility of imagination alone is insufficient for the highest
-achievement in poetry, history, or science; for in all these subjects
-the strictest self-criticism and the soundest judgment are necessary
-in order to ensure that the results are an advance in the direction
-of the truth. A delicately-adjusted balance between the powers of
-imagination and the powers which hold imagination in check, is
-essential in the historian who is to provide us with a picture of a
-past age, which explains the mistaken impression gained by a more or
-less prejudiced observer who saw but a small part of it from a limited
-standpoint, and has handed down his impression to us. A poem which
-sheds new light upon the relation between mind and mind, requires to
-be tested and controlled by constant and correct observation, like a
-hypothesis in the domain of the natural sciences.
-
-It is probable, then, that the secret of Darwin’s strength lay in the
-perfect balance between his powers of imagination and those of accurate
-observation, the creative efforts of the one being ever subjected to
-the most relentless criticism by the employment of the other. We shall
-never know, I have heard Professor Michael Foster say, the countless
-hypotheses which passed through the mind of Darwin, and which, however
-wild and improbable, were tested by an appeal to Nature, and were then
-dismissed for ever.
-
-Darwin’s estimate of his own powers is given with characteristic
-candour and modesty in the concluding paragraph of his “Autobiography”
-(“Life and Letters,” 1887, p. 107):--
-
-      “Therefore my success as a man of science, whatever this
-      may have amounted to, has been determined, as far as I can
-      judge, by complex and diversified mental qualities and
-      conditions. Of these, the most important have been--the love
-      of science--unbounded patience in long reflecting over any
-      subject--industry in observing and collecting facts--and a fair
-      share of invention as well as of common sense. With such moderate
-      abilities as I possess, it is truly surprising that I should have
-      influenced to a considerable extent the belief of scientific men
-      on some important points.”
-
-We also know from other sources that Darwin looked upon the creative
-powers as essential to scientific progress. Thus he wrote to Wallace
-in 1857: “I am a firm believer that without speculation there is no
-good and original observation.” He also says in the “Autobiography”:
-“I have steadily endeavoured to keep my mind free so as to give up any
-hypothesis, however much beloved (and I cannot resist forming one on
-every subject), as soon as facts are shown to be opposed to it.”
-
-[Sidenote: VALUE OF HYPOTHESIS.]
-
-I have thought it worth while to insist thus strongly on the high value
-attached by Darwin to hypothesis, controlled by observation, in view
-of certain recent attacks upon this necessary weapon for scientific
-advance. Thus Bateson, in his “Materials for the Study of Variation”
-(London, 1894), p. 7, says: “In the old time the facts of Nature
-were beautiful in themselves and needed not the rouge of speculation
-to quicken their charm, but that was long ago before Modern Science
-was born.” The author does not specify the period in the history of
-science when discovery proceeded without hypothesis. A study of the
-earlier volumes of the _Philosophical Transactions_ reveals a far
-greater interest in speculation than in the facts of Nature. We can
-hardly call those ages anything but speculative which received with
-approval the suggestions that geese were developed from barnacles which
-grew upon trees; that swallows hibernated at the bottom of lakes;
-that the Trade-winds were due to the breath of a sea-weed. Bateson’s
-statement requires to be reversed in order to become correct. Modern
-science differs from the science of long ago in its greater attention
-to the facts of Nature and its more rigid control over the tendency
-to hypothesis; although hypothesis remains, and must ever remain, as
-the guide and inspirer of observation and the discovery of fact.[A]
-Although Darwin has kindled the imagination of hundreds of workers, and
-has thus been the cause of an immense amount of speculation, science
-owes him an even larger debt for the innumerable facts discovered under
-the guidance of this faculty.
-
-
-
-
-CHAPTER II.
-
-BOYHOOD--EDINBURGH--CAMBRIDGE (1817–31).
-
-
-Of Darwin’s boyhood and school-life we only know the facts given in his
-brief “Autobiography,” written when he was sixty-seven, together with
-those collected by his son Francis and appended in the form of notes.
-He first went to Mr. Case’s day-school in Shrewsbury in 1817, the year
-of his mother’s death. At this time, although only eight years old, his
-interest in natural history and in collecting was well established.
-“The passion for collecting, which leads a man to be a systematic
-naturalist, a virtuoso, or a miser, was very strong in me, and was
-clearly innate, as none of my sisters or brother had this taste.”
-
-In the following year he went to Dr. Butler’s school in Shrewsbury,
-where he remained seven years. He does not appear to have profited
-much by the classical instruction which at that time received
-almost exclusive attention. His interest seems to have been chiefly
-concentrated upon sport; but whenever a subject attracted him he
-worked hard at it, and it is probable that he would have conveyed a
-very different impression of his powers to the masters and his father
-if scientific subjects had been taught, as they are now to a moderate
-extent in many schools.
-
-That he was a keen observer for his age is clear from the fact that,
-when he was only ten, he was much interested and surprised to notice
-that the insects he found on the Welsh coast were different from those
-in Shropshire. His most valuable education was received out of school
-hours--collecting, and working at chemistry with his brother Erasmus,
-although this latter study drew down upon him the rebukes of Dr. Butler
-for wasting time on such useless subjects.
-
-[Sidenote: AT EDINBURGH.]
-
-He was removed from school early, and in 1825 went to Edinburgh to
-study medicine--a subject for which he seemed to be unfitted by nature.
-The methods of instruction by lectures did not benefit him; he was
-disgusted at dissection, and could not endure to witness an operation.
-And yet here it was evident, as it became afterwards at Cambridge,
-that Darwin--although seeming to be by no means above the average when
-judged by ordinary standards--possessed in reality a very remarkable
-and attractive personality. There can be no other explanation of the
-impression he made upon distinguished men who were much older than
-himself, and the friendships he formed with those of his own age who
-were afterwards to become eminent.
-
-Thus at Edinburgh he was well acquainted with Dr. Grant and Mr.
-Macgillivray, the curator of the museum, and worked at marine zoology
-in company with the former. Here, too, in 1826, he made his first
-scientific discovery, and read a paper before the Plinian Society,
-proving that so-called eggs of Flustra were in reality free-swimming
-larvæ. And it is evident from his “Autobiography” that he took every
-opportunity of hearing and learning about scientific subjects.
-
-Darwin’s love of sport remained as keen as ever at this period and at
-Cambridge, and he speaks with especial enthusiasm of his visits in the
-autumn to Maer, the home of his uncle, Josiah Wedgwood, who afterwards
-exerted so important an influence upon his life.
-
-[Sidenote: AT CAMBRIDGE.]
-
-After Darwin had been at Edinburgh for two sessions, his father
-realised that he did not like the thought of the medical profession,
-and suggested that he should become a clergyman. With this intention
-he was sent to Cambridge in the beginning of 1828, after spending some
-months in recovering the classics he had learnt at school.
-
-He joined Christ’s College, and passed his final examination in
-January, 1831, being tenth in the list of those who do not seek
-honours. The immense, and in many respects disastrous, development
-of the competitive examination system since that time has almost
-banished from our universities the type of student represented by
-Darwin--the man who takes the easiest road to a degree and obtains it
-with the minimum of effort, but who all the time is being benefited by
-residence, studying, without any thought of examinations, the subjects
-which are of special interest to him, and seeking personal contact
-with older men who have reached the highest eminence in those subjects.
-
-He seems to have led a somewhat double life at Cambridge, his
-intense love of sport taking him into a pleasure-loving set, while
-his intellectual interests made him the intimate friend of Whitley,
-who became Senior Wrangler, and of Professor Henslow, to whom he
-was introduced by his second cousin, W. Darwin Fox, who also first
-interested him in entomology. He became so keen a collector of beetles
-that his successes and experiences in this direction seem to have
-impressed him more deeply than anything else at Cambridge. Entomology,
-and especially beetles, form the chief subject of those of his
-Cambridge letters which have been recovered.
-
-Darwin’s friendship with Henslow, which was to have a most important
-effect on his life, very soon deepened. They often went long walks
-together, so that he was called “the man who walks with Henslow.” This
-fact and the subsequent rapidly formed intimacy with Professor Adam
-Sedgwick, indicate that he was remarkable among the young men of his
-standing.
-
-One of his undergraduate friends, J. M. Herbert, afterwards County
-Court Judge for South Wales, retained the most vivid recollection of
-Darwin at Cambridge, and contributed the following impression of his
-character to the “Life and Letters”:--
-
-      “It would be idle for me to speak of his vast intellectual powers
-      ... but I cannot end this cursory and rambling sketch without
-      testifying, and I doubt not all his surviving college friends
-      would concur with me, that he was the most genial, warm-hearted,
-      generous and affectionate of friends; that his sympathies were
-      with all that was good and true; and that he had a cordial
-      hatred for everything false, or vile, or cruel, or mean, or
-      dishonourable. He was not only great, but pre-eminently good, and
-      just, and loveable.”
-
-Two books greatly influenced Darwin--Herschel’s “Introduction to the
-Study of Natural Philosophy,” which, he said, “stirred up in me a
-burning zeal to add even the most humble contribution to the noble
-structure of Natural Science”; and Humboldt’s “Personal Narrative,”
-which roused in him the longing to travel--a desire which was soon
-afterwards gratified by his voyage in the _Beagle_.
-
-“Upon the whole,” he says, “the three years which I spent at Cambridge
-were the most joyful in my happy life; for I was then in excellent
-health, and almost always in high spirits.”
-
-After passing his last examination, Darwin had still two terms’
-residence to keep, and was advised by Henslow to study geology. To
-this end Henslow asked Sedgwick to allow Darwin to go with him on a
-geological excursion in North Wales in August, 1831. He thus gained
-experience which was of the utmost value during the voyage of the
-_Beagle_.
-
-
-
-
-CHAPTER III.
-
-VOYAGE OF THE “BEAGLE” (1831–36).
-
-
-About the time of the excursion with Sedgwick (the exact date is
-uncertain) Professor Henslow received a letter from George Peacock
-(formerly Dean of Ely and Lowndean Professor of Astronomy at Cambridge)
-stating that he had the offer to recommend a young man as naturalist
-to accompany Captain Fitzroy on a surveying expedition to many parts
-of the world. Leonard Jenyns (afterwards Blomefield) was evidently
-considered to be the most suitable person for the position, but he
-was unable to accept it. Henslow at once wrote (August 24th, 1831) to
-Darwin, and advised him to do his utmost to obtain the position, and
-Darwin found the letter waiting for him on his return home after the
-geological excursion with Sedgwick. As his father greatly disliked the
-idea, Darwin at once wrote (August 30th) and declined, and the next
-day went to Maer to be ready for the shooting on September 1st. Here,
-however, his uncle, Josiah Wedgwood, took a very different view from
-that adopted by his father, with the result that both he and Darwin
-wrote (August 31st) to Shrewsbury and reopened the question. Darwin’s
-letter shows the most touching deference to his father’s wishes, and
-the gravest apprehension lest he should be rendered “uncomfortable” or
-“uneasy” by any further suggestion as to the possibility of the voyage,
-although his father had said, “If you can find any man of common-sense
-who advises you to go, I will give my consent.” We also learn from the
-“Autobiography” that his uncle sent for him whilst out shooting and
-drove him the thirty miles to Shrewsbury, in order that they might talk
-with his father, who then at once consented. This must have been on
-September 1st, 1831.
-
-From this time until he went to Plymouth, on October 24th--the final
-start was not until December 27th--his letters show that he had a very
-busy time making purchases and preparing for the voyage. These letters
-breathe the warmest affection to the members of his family and his
-friends, together with the keenest enthusiasm for Captain Fitzroy, the
-ship, and the voyage.
-
-The voyage of the _Beagle_ lasted from December 27th, 1831, to October
-2nd, 1836. Darwin says that it was “by far the most important event in
-my life, and has determined my whole career.... I have always felt that
-I owe to the voyage the first real training or education of my mind”
-(_l. c._, p. 61). He attributes the greatest share in this training to
-geology, among the special sciences, because of the reasoning involved
-in making out the structure of a new and unknown district; but he
-considers that the habits of “energetic industry and of concentrated
-attention” which he then acquired were of the utmost importance, and
-the secret of all his success in science. He tells us that the love of
-sport was present at first in all its keenness, but that he gradually
-abandoned it for scientific work.
-
-Among his numerous observations and discoveries during the voyage,
-those which appear to stand out in his mind so that he quotes them
-in his “Autobiography” are--the explanation of the forms of coral
-islands, the geological structure of St. Helena and other islands, and
-the relations between the animals and plants of the several Galapagos
-islands to each other and to those of South America. His letters and
-the collections which he sent home attracted much attention; and
-Sedgwick told Dr. Darwin that his son would take a place among the
-leading scientific men. When Darwin heard this from his sisters, he
-says, “I clambered over the mountains of Ascension with a bounding
-step, and made the volcanic rocks resound under my geological hammer.”
-His letters during the voyage are full of enthusiasm and of longing to
-return to his family and friends.
-
-There was the same conflict between the naval and scientific
-departments of the _Beagle_ on the untidiness of the decks which was
-afterwards repeated on the _Challenger_, where I have been told that
-one of the naval authorities used to say, with resigned disgust, “Oh,
-no, we’re not a man-of-war, we’re only a ---- dredger!”
-
-In the course of the voyage the following countries and islands were
-visited in the order given:--The Cape de Verde Islands, St. Paul’s
-Rocks, Fernando Noronha, South America (including the Galapagos
-Archipelago, the Falkland Islands, and Tierra del Fuego), Tahiti, New
-Zealand, Australia, Tasmania, Keeling Island, Maldive Coral Atolls,
-Mauritius, St. Helena, Ascension. Brazil was then visited again for a
-short time, the _Beagle_ touching at the Cape de Verde Islands and the
-Azores on the voyage home.
-
-Darwin says, concerning the intellectual effect of his work during the
-voyage:--
-
-      “That my mind became developed through my pursuits during the
-      voyage is rendered probable by a remark made by my father, who
-      was the most acute observer whom I ever saw, of a sceptical
-      disposition, and far from being a believer in phrenology; for on
-      first seeing me after the voyage he turned round to my sisters,
-      and exclaimed, ‘Why the shape of his head is quite altered!’”
-      (_l. c._, pp. 63, 64).
-
-
-
-
-CHAPTER IV.
-
-CAMBRIDGE--LONDON--WORK UPON THE COLLECTIONS--MARRIAGE--GEOLOGICAL
-WORK--JOURNAL OF THE VOYAGE--CORAL REEFS--FIRST RECORDED THOUGHTS ON
-EVOLUTION (1837–42).
-
-
-Darwin reached England October 2nd, 1836, and was home at Shrewsbury
-October 5th (according to his Letters; the 4th is the date given by
-Francis Darwin in the “Life and Letters”). The two years and three
-months which followed he describes as the most active ones he ever
-spent. After visiting his family, he stayed three months in Cambridge,
-working at his collection of rocks, writing his “Naturalist’s Voyage,”
-and one or two scientific papers. He then (March 7th, 1837) took
-lodgings in 36, Great Marlborough Street, London, where he remained
-until his marriage, January 29th, 1839. The apathy of scientific
-men--even those in charge of museums--caused him much depression,
-and he found great difficulty in getting specialists to work out his
-collections, although the botanists seem to have been keener than the
-zoologists.
-
-The commencement of his London residence is of the deepest interest,
-as the time at which he began to reflect seriously on the origin of
-species. Thus he says in the “Autobiography”:--“In July I opened my
-first note-book for facts in relation to the Origin of Species, about
-which I had long reflected, and never ceased working for the next
-twenty years.” Furthermore, his pocket-book for 1837 contained the
-words:--“In July opened first note-book on Transmutation of Species.
-Had been greatly struck from about the month of previous March” (he was
-then just over twenty-eight years old) “on character of South American
-fossils, and species on Galapagos Archipelago. These facts (especially
-latter) origin of all my views.” It is, perhaps, worth while to
-explain in greater detail the nature of this evidence which appealed
-so strongly to Darwin’s mind. The Edentata (sloths, ant-eaters,
-armadilloes, etc.) have their metropolis in South America, and in the
-later geological formations of this country the skeletons of gigantic
-extinct animals of the same order (Megatherium, Mylodon, Glyptodon,
-etc.) are found; and Darwin was doubtless all the more impressed by
-discovering such remains for himself. In his “Autobiography” he says:
-“During the voyage of the _Beagle_ I had been deeply impressed by
-discovering in the Pampean formation great fossil animals covered with
-armour like that on existing armadilloes;...”
-
-Darwin was thus led to conclude that there was some genetic connection
-between the animals which have succeeded each other in the same
-district; for in a theory of destructive cataclysms, followed by
-re-creations--or, indeed, in any theory of special creation--there
-seemed no adequate reason why the successive forms should belong
-to the same order. In his “Naturalist’s Voyage Round the World” he
-says, speaking of this subject: “This wonderful relationship in the
-same continent between the dead and the living will, I do not doubt,
-hereafter throw more light on the appearance of organic beings on our
-earth, and their disappearance from it, than any other class of facts”
-(p. 173 in the third edition).
-
-[Sidenote: THE GALAPAGOS.]
-
-The other class of evidence which impressed him even more strongly
-was afforded by the relations between the animals and plants of the
-several islands of the Galapagos Archipelago and between those of
-the Archipelago and of South America, nearly 600 miles to the East.
-Although the inhabitants of the separate islands show an astonishing
-amount of peculiarity, the species are nearly related, and also exhibit
-American affinities. Concerning this, Darwin writes in his “Voyage”
-(p. 398 in the third edition): “Reviewing the facts here given, one
-is astonished at the amount of creative force--if such an expression
-may be used--displayed on these small, barren, and rocky islands; and
-still more so at its diverse and yet analogous action on points so near
-each other.” Here, too, the facts were unintelligible on a theory of
-separate creation of species, but were at once explained if we suppose
-that the inhabitants were the modified descendants of species which
-had migrated from South America--the migrations to the Archipelago and
-between the separate islands being rendered extremely rare from the
-depth of the sea, the direction of the currents, and the absence of
-gales. In this way time for specific modification was provided before
-the partially modified form could interbreed with the parent species
-and thus lose its own newly-acquired characteristics.
-
-Although Darwin made these observations on the _Beagle_, they
-required, as Huxley has suggested (Obituary [1888], “Darwiniana”:
-Collected Essays, vol. ii., pp. 274–275. London, 1893), careful and
-systematic working out before they could be trusted as a basis on
-which to speculate; and this could not be done until the return home.
-The following letter written by Darwin to Dr. Otto Zacharias in 1877
-confirms this opinion. It was sent to Huxley by Francis Darwin, and is
-printed in “Darwiniana” (_l. c._, p. 275):--
-
-      “When I was on board the ‘Beagle,’ I believed in the permanence
-      of species, but, as far as I can remember, vague doubts
-      occasionally flitted across my mind. On my return home in the
-      autumn of 1836, I immediately began to prepare my journal for
-      publication, and then saw how many facts indicated the common
-      descent of species, so that in July, 1837, I opened a note-book
-      to record any facts which might bear on the question. But I did
-      not become convinced that species were mutable until I think two
-      or three years had elapsed.”
-
-It is interesting to note that both the lines of evidence which
-appealed to Darwin so strongly, point to evolution, but not to any
-causes of evolution. The majority of mankind were only convinced of
-this process when some conception as to its causes had been offered to
-them; Darwin took the more logical course of first requiring evidence
-that the process takes place, and then inquiring for its causes.
-
-[Sidenote: EARLY NOTES ON SPECIES.]
-
-The first indication of these thoughts in any of his published letters
-is in one to his cousin Fox written in June, 1838, in which, after
-alluding to some questions he had previously asked about the crossing
-of animals, he says, “It is my prime hobby, and I really think some day
-I shall be able to do something in that most intricate subject--species
-and varieties.”
-
-He is rather more definite in a letter to Sir Charles Lyell, written
-September 13th in the same year:--
-
-      “I have lately been sadly tempted to be idle--that is, as far
-      as pure geology is concerned--by the delightful number of new
-      views which have been coming in thickly and steadily,--on the
-      classification and affinities and instincts of animals--bearing
-      on the question of species. Note-book after note-book has been
-      filled with facts which begin to group themselves _clearly_ under
-      sub-laws.”
-
-On February 16th, 1838, he was appointed Secretary of the Geological
-Society, a position which he retained until February 1st, 1841. During
-these two years after the voyage he saw much of Sir Charles Lyell,
-whose teachings had been of the greatest help to him during the
-voyage, and whose method of appealing to natural causes rather than
-supernatural cataclysms undoubtedly had a most important influence
-on the development of Darwin’s mind. This influence he delighted to
-acknowledge, dedicating to Lyell the second edition of his “Voyage,”
-“as an acknowledgment that the chief part of whatever scientific merit
-this ‘Journal’ and the other works of the author may possess has been
-derived from studying the well-known and admirable ‘Principles of
-Geology.’”
-
-[Sidenote: EARLY WORKS.]
-
-At this period he finished his “Journal,” which was published in
-1839 as Vol. III. of the “Narrative of the Surveying Voyages of Her
-Majesty’s Ships _Adventure_ and _Beagle_.” A second edition was
-published in a separate form in 1845 as the “Journal of Researches into
-the Natural History and Geology of the Countries visited during the
-Voyage of H.M.S. _Beagle_ round the World, under the command of Captain
-Fitz-Roy, R.N.”; and a third edition--but very slightly altered--in
-1860, under the title “A Naturalist’s Voyage: Journal of Researches,
-etc.” This book is generally admitted to deserve above all others the
-generous description which Darwin gave to Sir Joseph Hooker of Belt’s
-admirable “Naturalist in Nicaragua”--as “the best of all Natural
-History journals which have ever been published.”
-
-A comparison between the first and second editions indicates, but by
-no means expresses, his growing convictions on evolution and natural
-selection. Natural selection he had not discovered when the MS. of the
-first edition was complete; and if we had no further evidence we could
-not, from any passage in the work, maintain that he was convinced of
-evolution. His great caution in dealing with so tremendous a problem
-explains why the second edition does not reflect the state of his mind
-at the time of its publication. He tells us (“Autobiography”) that in
-the preparation of this second edition he “took much pains,” and we may
-feel confident that much of this care was given to the decision as to
-how much he should reveal and how much withhold of the thoughts which
-were occupying his mind, and the conclusions to which he had at that
-time arrived. That he did attribute much importance to the evolutionary
-passages added in the second edition is shown by his letter to Lyell
-(July, 1845), in which he alludes to some of them, and specially asks
-Lyell to read the pages on the causes of extinction.
-
-He also edited and superintended the “Zoology of the Voyage of H.M.S.
-_Beagle_,” the special parts of which were written by various eminent
-systematists, and appeared separately between 1839 and 1843.
-
-He also read several papers before the Geological Society, including
-two (1838 and 1840) on the Formation of Mould by the Action of
-Earth-Worms--a subject to which he returned, and upon which his last
-volume (published in 1881) was written. He also read a paper on the
-Parallel Roads of Glen Roy before the Royal Society (published in
-the _Phil. Trans._, 1839). These wonderful parallel terraces are now
-admitted to be due to the changes of level in a lake following those of
-an ice-barrier at the mouth of the valley. At the time Darwin studied
-them, the terraces were believed to have been formed by a lake dammed
-back by a barrier of rock and alluvium; this he proved to be wrong, and
-as no other barrier was then available--for the evidences of glaciation
-had not then been discovered by Agassiz--he was driven, on the method
-of exclusion, to the action of the sea. Upon this subject he says, in
-the “Autobiography,” “My error has been a good lesson to me never to
-trust in science to the principle of exclusion.”
-
-On January 29th, 1839, he married his cousin, Emma Wedgwood, the
-daughter of Josiah Wedgwood, of Maer. They resided at 12, Upper Gower
-Street until September 14th, 1842, when they settled at Down.
-
-The few graceful and touching words in which Francis Darwin, in the
-“Life and Letters,” alludes to his father’s married life show how deep
-is the debt of gratitude which the world owes to Mrs. Darwin; for
-without her constant and loving care it would have been impossible for
-Darwin to have accomplished his life-work.
-
-[Sidenote: ON CORAL REEFS.]
-
-During these years in London his health broke down many times; so that
-he says, in the “Autobiography”: “I did less scientific work, though I
-worked as hard as I possibly could, than during any other equal length
-of time in my life.” He chiefly worked at his book on “The Structure
-and Distribution of Coral Reefs,” published in 1842 (second edition in
-1874). This work contains an account of Darwin’s well-known theory upon
-the origin of the various coral formations--fringing reefs, barrier
-reefs, and atolls--by the upward growth of the reef keeping pace with
-the gradual sinking of the island upon which it is based, so that the
-living corals always remain at the surface under the most favourable
-conditions, while beneath them is an ever-thickening reef formed of
-dead coral, until at length, by continuing this process, the climax
-is reached in the atoll, in which the original island has altogether
-disappeared beneath the surface of a central lagoon enclosed in a
-ring formed by the living edge of the reef. This theory, after being
-accepted for many years, has recently been disputed, chiefly as the
-result of the observations made on the _Challenger_ expedition. It
-is contended by Dr. John Murray “that it is not necessary to call in
-subsidence to explain any of the characteristic features of barrier
-reefs or atolls, and that all these features would exist alike in areas
-of slow elevation, of rest, or of slow subsidence” (_Nature_, August
-12th, 1880, p. 337). It cannot be said that this controversy is yet
-settled, or that the supporters of either theory have proved that the
-other does not hold--at any rate, in certain cases.
-
-Among his geological papers written at this time was one describing the
-glacial phenomena observed during a tour in North Wales. This paper
-(_Philosophical Magazine_, 1842, p. 352) is placed by Sir Archibald
-Geikie “almost at the top of the long list of English contributions to
-the history of the Ice Age.”
-
-At this time, too, he was reflecting and collecting evidence for
-the great work of his life. Thus in January, 1841, he writes to his
-cousin, Darwin Fox, asking for “all kinds of facts about ‘Varieties and
-Species.’”
-
-
-
-
-CHAPTER V.
-
-DOWN--GEOLOGY OF THE VOYAGE--WORK ON CIRRIPEDES (1842–54).
-
-
-From September 14th, 1842, until his death, Darwin resided at Down,
-living a very retired life, and almost exclusively engaged in his
-scientific researches. Although Down is only twenty miles from London,
-it is three miles from the nearest railway station (Orpington), and is
-only now for the first time receiving a telegraph office. A home in
-such a place enabled Darwin to pursue his work without interruption,
-remaining, at the same time, within easy reach of all the advantages of
-London. Here, too, he had no difficulty in avoiding social engagements,
-which always injured his very precarious health, and thus interfered
-with work; although, at the same time, he could entertain in his own
-house at such times as he felt able to do so.
-
-In 1844, and again in 1846, he published works on the geology of the
-voyage of the _Beagle_; the first on the Volcanic Islands visited, the
-second on South America. A second edition, in which both were combined
-in a single work, appeared in 1876. He seemed somewhat disappointed
-at the small amount of attention they at first attracted, and wrote
-with much humour to J. M. Herbert:--“I have long discovered that
-geologists never read each other’s works, and that the only object in
-writing a book is a proof of earnestness, and that you do not form
-your opinions without undergoing labour of some kind.” All geologists
-were, nevertheless, soon agreed in attaching the highest value to these
-researches.
-
-[Sidenote: ON CIRRIPEDES.]
-
-From this time forward his work was almost exclusively zoological. The
-four monographs on the Cirripedia, recent and fossil, occupied eight
-years--from October, 1846, to October, 1854. The works on the recent
-forms were published by the Ray Society (1851 and 1854), and those on
-the fossil forms by the Palæontographical Society (1851 and 1854).
-These researches grew directly out of his observations on the _Beagle_,
-but it is evident that they reached far greater dimensions than he had
-at first intended. Thus, at the very beginning of the work, he wrote
-(October, 1846) to Hooker:--
-
-      “I am going to begin some papers on the lower marine animals,
-      which will last me some months, perhaps a year, and then I shall
-      begin looking over my ten-year-long accumulation of notes on
-      species and varieties, which, with writing, I dare say will take
-      me five years, and then, when published, I dare say I shall stand
-      infinitely low in the opinion of all sound Naturalists--so this
-      is my prospect for the future.”
-
-Darwin himself, at any rate towards the end of his life, when he
-wrote his “Autobiography,” doubted “whether this work was worth
-the consumption of so much time,” although admitting that it was
-of “considerable value” when he had “to discuss in the ‘Origin of
-Species’ the principles of a natural classification.” Sir Joseph Hooker
-remembers that Darwin at an earlier time “recognised three stages
-in his career as a biologist: the mere collector at Cambridge; the
-collector and observer in the _Beagle_ and for some years afterwards;
-and the trained naturalist after, and only after, the Cirripede work”
-(Letter to F. Darwin).
-
-Professor Huxley considers that just as by Darwin’s practical
-experience of physical geography, geology, etc., on the _Beagle_, “he
-knew of his own knowledge the way in which the raw materials of these
-branches of science are acquired, and was, therefore, a most competent
-judge of the speculative strain they would bear,” so his Cirripede work
-fitted him for his subsequent speculations upon the deepest biological
-problems. “It was a piece of critical self-discipline, the effect of
-which manifested itself in everything your father wrote afterwards,
-and saved him from endless errors of detail” (Letter to F. Darwin,
-“Life and Letters”). The history of Darwin’s career has often been
-used as an argument against those who, not having passed through a
-similar training as regards systematic zoological work, have ventured
-to concern themselves with the problems of evolution. Professor Meldola
-has recently treated of this subject in his interesting presidential
-address to the Entomological Society (1896). He says:--
-
-      “It used formerly to be asserted that he only is worthy of
-      attention who has done systematic, _i.e._ taxonomic, work.
-      I do not know whether this view is still entertained by
-      entomologists; if so, I feel bound to express my dissent. It
-      has been pointed out that the great theorisers have all done
-      such work--that Darwin monographed the Cirripedia, and Huxley
-      the oceanic Hydrozoa, and it has been said that Wallace’s and
-      Bates’s contributions in this field have been their biological
-      salvation. I yield to nobody in my recognition of the value
-      and importance of taxonomic work, but the possibilities of
-      biological investigation have developed to such an extent
-      since Darwin’s time that I do not think this position can any
-      longer be seriously maintained. It must be borne in mind that
-      the illustrious author of the ‘Origin of Species’ had none of
-      the opportunities for systematic training in biology which any
-      student can now avail himself of. To him the monographing of the
-      Cirripedia was, as Huxley states in a communication to Francis
-      Darwin, ‘a piece of critical self-discipline,’ and there can be
-      no reasonable doubt that this value of systematic work will be
-      generally conceded. That this kind of work gives the sole right
-      to speculate at the present time is, however, quite another
-      point.”
-
-Meldola then goes on to argue that the systematic work of those who
-know nothing of the living state of the species they are describing
-does not specially fit them for theorising, and he concludes by quoting
-the following passage from a letter recently received from A. R.
-Wallace:--
-
-      “I do not think species-describing is of any special use to the
-      philosophical generaliser, but I do think the collecting, naming,
-      and classifying some extensive group of organisms is of great
-      use, is, in fact, almost essential to any thorough grasp of the
-      whole subject of the evolution of species through variation
-      and natural selection. I had described nothing when I wrote my
-      papers on variation, etc. (except a few fishes and palms from the
-      Amazon), but I had collected and made out species very largely
-      and had seen to some extent how curiously useful and protective
-      their forms and colours often were, and all this was of great use
-      to me.”
-
-Towards the end of this long period of hard taxonomic labour, we know
-from Darwin’s letters that he was extremely tired of the work; but
-with marvellous resolution--and in spite of the trouble of his health,
-which was perhaps worse than at any other time--he clung to and carried
-through this stupendous task, although all the time attracted away from
-it by the weightier problems which he could never thrust aside after
-they had once made their claim upon him.
-
-[Sidenote: ON NAMING SPECIES.]
-
-Darwin was evidently greatly disconcerted at the task of making out
-those special difficulties which man has added to the difficulties of
-Nature herself--the disheartening tangle of nomenclature. He thought
-that the custom of appending the name of the systematist after that of
-the species or genus he had named was injurious to the interests of
-science--inducing men to name quickly rather than describe accurately.
-Some of his remarks on this subject indicate the state of his mind.
-Thus he wrote to Hooker, October 6th, 1848:--
-
-      “I have lately been trying to get up an agitation ... against
-      the practice of Naturalists appending for perpetuity the name
-      of the _first_ describer to species. I look at this as a direct
-      premium to hasty work, to _naming_ instead of _describing_. A
-      species ought to have a name so well known that the addition of
-      the author’s name would be superfluous, and ... empty vanity....
-      Botany, I fancy, has not suffered so much as zoology from mere
-      _naming_; the characters, fortunately, are more obscure.... Why
-      should Naturalists append their own names to new species, when
-      Mineralogists and chemists do not do so to new substances?”
-
-And again he wrote to Hugh Strickland, January 29th, 1849:--
-
-      “I have come to a fixed opinion that the plan of the first
-      describer’s name, being appended for perpetuity to a species, has
-      been the greatest curse to Natural History.... I feel sure as
-      long as species-mongers have their vanity tickled by seeing their
-      own names appended to a species, because they miserably described
-      it in two or three lines, we shall have the same _vast_ amount of
-      bad work as at present, and which is enough to dishearten any man
-      who is willing to work out any branch with care and time.”
-
-And in another letter (February 4th) to the same correspondent:--
-
-      “In mineralogy I have myself found there is no rage to merely
-      name; a person does not take up the subject without he intends
-      to work it out, as he knows that his _only_ claim to merit rests
-      on his work being ably done, and has no relation whatever to
-      _naming_.... I do not think more credit is due to a man for
-      defining a species, than to a carpenter for making a box. But I
-      am foolish and rabid against species-mongers, or rather against
-      their vanity; it is useful and necessary work which must be done;
-      but they act as if they had actually made the species, and it was
-      their own property.”
-
-A little later in the same year (1849) his health seems to have
-determined him to give up the crusade, for he writes to Hooker (April
-29th):--
-
-      “With health and vigour, I would not have shewn a white feather,
-      [and] with aid of half-a-dozen really good Naturalists, I
-      believe something might have been done against the miserable and
-      degrading passion of mere species naming.”
-
-Anyone whose researches have been among the species of any much-worked
-and much-collected zoological group will quite agree that synonymy is,
-as Darwin found it, heart-breaking work; and although there may be
-good reasons why the system of appending the describer’s name must be
-retained, such a protest as that raised in these letters cannot fail to
-do good in drawing attention to an abuse which is only too common, and
-which introduces unnecessary difficulty and gratuitous confusion into
-the study of Nature.
-
-[Sidenote: DEATH OF HIS FATHER.]
-
-His father, Dr. Darwin, died November 13th, 1848, at the age of
-eighty-three, when he was so much out of health that he was unable to
-attend the funeral. In 1851 he lost his little daughter Annie, who died
-at Malvern, April 23rd. A few days after her death he wrote a most
-affecting account of her--a composition of great beauty and pathos.
-
-
-
-
-CHAPTER VI.
-
-THE GROWTH OF THE “ORIGIN OF SPECIES” (1837–58).
-
-
-In dealing with this subject in his “Autobiography,” Darwin tells us
-of his reflections whilst on the voyage of the _Beagle_, and here
-mentions another observation which deeply impressed him in addition
-to those which he again repeats, on the relation between the living
-and the dead in the same area and on the productions of the Galapagos
-Archipelago--viz. “the manner in which closely allied animals replace
-one another in proceeding southwards over the continent” (of South
-America). On the theory of separate creation the existence of such
-representative species received no explanation, although it became
-perfectly intelligible on the theory that a single species may be
-modified into distinct, although nearly related, species in the course
-of its range over a wide geographical area. Here, too, the evidence
-is in favour of evolution simply, and does not point to any cause of
-evolution.
-
-He also implies that even at this time he regarded the beautiful
-adaptations or contrivances of nature by which organisms are fitted
-to their habits of life--“for instance, a woodpecker or a tree-frog
-to climb trees, or a seed for dispersal by hooks or plumes”--as the
-most striking and important phenomena of the organic world, and the
-one great difficulty in the path of any naturalist who should attempt
-to supply a motive force for evolution. And he regarded the previous
-attempts at an explanation--the direct action of surroundings and the
-will of the organism--as inadequate because they could not account for
-such adaptations.
-
-Therefore being convinced of evolution, but as yet unprovided with a
-motive cause which in any way satisfied him, he began in July, 1837,
-shortly after his return home from the _Beagle_, to collect all facts
-which bore upon the modifications which man has induced in the animals
-and plants which he has subjugated, following, as he tells us, the
-example of Lyell in geology. He goes on to say in his “Autobiography”:--
-
-      “I soon perceived that selection was the key-stone of man’s
-      success in making useful races of animals and plants. But how
-      selection could be applied to organisms living in a state of
-      nature remained for some time a mystery to me.”
-
-[Sidenote: COLLECTION OF NOTES.]
-
-We see indications in the extracts from his note-book at this period
-(viz. between July, 1837, and February, 1838), and before he had
-arrived at the conception of Natural Selection, that he had the idea
-of “laws of change” affecting species to some extent like the laws of
-change which compel the individuals of every species to work out their
-own development, the extinction of the one corresponding in a measure
-to the death of the other. Thus he says, “It is a wonderful fact,
-horse, elephant, and mastodon dying out about the same time in such
-different quarters. Will Mr. Lyell say that some [same?] circumstance
-killed it over a tract from Spain to South America? Never.” We know
-that a few months later he would have himself accepted the view he
-imputes to Lyell, and would have regarded the extinction as due to
-some circumstance affecting the competition for food or some other
-relationship with the organic life of the same district. It is probable
-that the above quotation from his Diary was written in connection with
-the conclusion of Chapter IX. of the first edition of the “Journal of
-the Voyage” (pp. 211, 212); for the latter is a fuller exposition of
-the same argument.[B]
-
-      “One is tempted to believe,” he says, “in such simple relations,
-      as variation of climate and food, or introduction of enemies,
-      or the increased numbers of other species, as the cause of the
-      succession of races. But it may be asked whether it is probable
-      that [“than” is an evident misprint in the original] any such
-      cause should have been in action during the same epoch over
-      the whole northern hemisphere, so as to destroy the _Elephas
-      primigenius_ on the shores of Spain, on the plains of Siberia,
-      and in Northern America.... These cases of extinction forcibly
-      recall the idea (I do not wish to draw any close analogy) of
-      certain fruit-trees, which, it has been asserted, though grafted
-      on young stems, planted in varied situations, and fertilized by
-      the richest manures, yet at one period have all withered away and
-      perished. A fixed and determined length of life has in such cases
-      been given to thousands and thousands of buds (or individual
-      germs), although produced in long succession.”
-
-He then concludes that the animals of one species, although “each
-individual appears nearly independent of its kind,” may be bound
-together by common laws. He ends by arguing that the adaptations
-of animals confined to certain areas cannot be related to the
-peculiarities of climate or country, because other animals introduced
-by man are often so much more successful than the aborigines. As to the
-causes of extinction, “all that at present can be said with certainty
-is that, as with the individual, so with the species, the hour of life
-has run its course, and is spent.”
-
-[Sidenote: EARLY VIEWS.]
-
-At this time he had the conception--as we see in the succeeding
-extracts from his Diary--of species being so constituted that they
-must give rise to other species; or, if not, that they must die out,
-just as an individual dies unrepresented if it has no offspring; that
-change--and evidently change in some fixed direction--or extinction, is
-inevitable in the history of a species after a certain period of time.
-With this view, which presented much resemblance to that of the author
-of the “Vestiges,” and which seemed uppermost in his mind at this time,
-there are traces of others. Thus in one extract the “wish of parents”
-was thought of as a very doubtful explanation of adaptation, while in
-another we meet a tolerably clear indication of natural selection, a
-variety which is not well adapted being doomed to extinction, while a
-favourable one is perpetuated, the death of a species being regarded as
-“a consequence ... of non-adaptation of circumstances.”
-
-It seems certain that for fifteen months after July, 1837, he was
-keenly considering the various causes of evolution which were
-suggested to him by the facts of nature, and that some general idea of
-natural selection presented itself to him at times, although without
-any of the force and importance it assumed in his mind at a later time.
-
-In October, 1838, he read “Malthus on Population,” and as he says:--
-
-      “Being well prepared to appreciate the struggle for existence
-      which everywhere goes on from long-continued observation of the
-      habits of animals and plants, it at once struck me that under
-      these circumstances favourable variations would tend to be
-      preserved, and unfavourable ones to be destroyed. The result of
-      this would be the formation of new species. Here then I had a
-      theory by which to work.”
-
-[Sidenote: SKETCH OF THE “ORIGIN.”]
-
-In June, 1842, he wrote a brief account of the theory, occupying
-thirty-five pages. In Lyell’s and Hooker’s introduction to the joint
-paper by Darwin and Wallace in the Linnean Society’s Journal (1858) it
-is stated that the first sketch was made in 1839, but Francis Darwin
-shows (“Life and Letters,” 1887, Vol. II. pp. 11, 12) that in all
-probability this is an error--a note of Darwin’s referring to the first
-complete grasp of the theory after reading Malthus, being mistaken for
-a reference to the first written account.
-
-In 1844 the sketch was enlarged to a written essay occupying 231 pages
-folio--“a surprisingly complete presentation of the argument afterwards
-familiar to us in the ‘Origin of Species’” published fifteen years
-later. Professor Huxley, after reading this essay, observed that “much
-more weight is attached to the influence of external conditions in
-producing variation, and to the inheritance of acquired habits than in
-the ‘Origin,’” while Professor Newton pointed out that the remarks on
-the migration of birds anticipate the views of later writers.[C]
-
-The explanation of divergence of species during modification
-(divergence of character) had not then occurred to him, and he tells us
-in the “Autobiography”:--
-
-      “I can remember the very spot in the road, whilst in my carriage,
-      when to my joy the solution occurred to me; and this was long
-      after I had come to Down. The solution, as I believe, is that
-      the modified offspring of all dominant and increasing forms tend
-      to become adapted to many and highly diversified places in the
-      economy of nature.”
-
-A good example of this tendency is seen in the relations of three great
-vertebrate classes--mammals, birds, and fishes--to the environments for
-which they are respectively fitted: earth, air, and water. Competition
-is most severe between forms most nearly alike, and hence some measure
-of relief from competition is afforded when certain members of each of
-these classes enter the domain of one of the others. Hence, we observe
-that although mammals as a whole are terrestrial, a small minority
-are aërial and aquatic; although birds are aërial, a minority are
-terrestrial and aquatic; although fishes are aquatic, a minority tend
-to be, at any rate largely, terrestrial and aërial.
-
-Huxley considered it “curious that so much importance should be
-attached to this supplementary idea. It seems obvious that the theory
-of the origin of species by natural selection necessarily involves
-the divergence of the forms selected” (“Obituary,” 1888, reprinted
-in “Darwiniana,” 1893; see pp. 280, 281). But Darwin showed that
-divergence might be a great advantage in itself, and would then be
-directly (and not merely incidentally and indirectly) encouraged and
-increased by natural selection.
-
-[Sidenote: RESOLVE TO PUBLISH.]
-
-As soon as the 1844 sketch was finished, Darwin wrote a letter (July
-5th) as his “solemn and last request” that his wife would, in the
-case of his death, devote £400, or if necessary £500, in publishing
-it, and would take trouble in promoting it. He suggests Lyell as the
-best editor, then Edward Forbes, then Henslow (“quite the best in many
-respects”), then Hooker (“would be _very_ good”), then Strickland.
-After Strickland he had thought of Owen as “very good,” but added,
-“I presume he would not undertake such a work.” If no editor could
-be obtained, he requested that the essay should be published as it
-was--stating that it was not intended for publication in its present
-form. In August, 1854, he wrote on the back of the letter: “Hooker by
-far best man to edit my Species volume.”
-
-All this shows how certain he felt that he was on firm ground, and that
-his theory of natural selection was of vast importance to science. This
-same strong conviction appears clearly in the first edition of the
-“Origin,” and is undoubtedly one of the secrets of its power to move
-the minds of men. Although the author is above all others fair-minded;
-although he is most keen to discover and to bring forward all opposing
-evidence, and to criticise most minutely everything favourable;
-nevertheless, looking at the evidence as a whole, he has no doubt as
-to its bearing, and feels, and shows that he feels, a magnificent
-confidence in the truth and the importance of his theory.
-
-
-
-
-CHAPTER VII.
-
-GROWTH OF THE “ORIGIN” (_continued_)--CORRESPONDENCE WITH FRIENDS.
-
-
-The great periods of Darwin’s scientific career are marked by intimate
-friendships, which must be taken into account in attempting to trace
-his mental development. Henslow was his intimate friend at Cambridge
-and during the voyage of the _Beagle_. The influence of Lyell, through
-his writings, was of the utmost importance during the voyage, and was
-deepened by the close personal contact which took place on Darwin’s
-return. Sir Joseph Hooker was his most intimate friend during the
-growth of the “Origin of Species.”
-
-Although Hooker met Darwin in 1839, their friendship did not begin
-until four years later, when the former returned from the Antarctic
-Expedition. On January 11th, 1844, Darwin wrote admitting his
-conclusions on the question of evolution:--“At last gleams of light
-have come,” he says, “and I am almost convinced (quite contrary to the
-opinion I started with) that species are not (it is like confessing a
-murder) immutable” (“Life and Letters,” Vol. II. p. 23).
-
-[Sidenote: INQUIRIES AND EXPERIMENTS.]
-
-From this point onwards his letters, especially to Hooker, indicate
-the course he was following and the various problems he was considering
-as they arose. Thus we find that he had finished reading Wollaston’s
-“Insecta Maderensia” in 1855 (writing March 7th), and had been struck
-with the very large proportion of wingless beetles, and had interpreted
-the observation, viz. “that powers of flight would be injurious to
-insects inhabiting a confined locality, and expose them to be blown
-to the sea.” It is of great interest thus to witness the origin of a
-theory which has since been universally accepted, and has received
-confirmation from many parts of the world.
-
-On April 11th of the same year he is experimenting on the powers of
-resistance to immersion in salt water possessed by seeds, and he
-writes an account of it to Hooker. The object of these experiments was
-to throw light on the means by which plants have been transported to
-islands.
-
-In the same year began his correspondence with Asa Gray, who soon
-became one of his warmest friends. He had numerous questions to ask
-about the geographical range of plants, and in 1857 he wrote explaining
-in some detail the views at which he had arrived as to the causes of
-evolution.
-
-My friend Rowland H. Wedgwood, a nephew of Darwin, has given me
-the following interesting letter to his father, which was written,
-he believes, probably before 1855. By kind permission, it is here
-published for the first time. The letter is of great interest, as
-throwing light upon his work, and also because of this early reference
-to Huxley:--
-
-                                                  “Down, _Sept. 5_.
-
-      “MY DEAR HARRY,--I am very much obliged for the Columbine seed
-      and for your note which made us laugh heartily.
-
-      “I had no idea what trouble the counting must have been, I had
-      not the least conception that there would have been so many pods.
-      I am very much interested on this point, and therefore to make
-      assurance sure, I repeat your figures viz. 560 and 742 pods on
-      two plants and 7200 on another. Does the latter number really
-      mean pods and not seeds? Upon my life I am sorry to give so much
-      trouble, but I should be VERY MUCH obliged for a few _average_
-      size pods, put up separately that I may count the seeds in each
-      pod: for though I counted the seeds in the pods sent before, I
-      hardly dare trust them without counting more. Moreover I sadly
-      want more seed itself for one of my experiments.
-
-      “The young cabbages are coming up already. Thank you much about
-      the asparagus seeds; as it is so rare a plant, you are my only
-      chance.
-
-      “We have been grieved to hear about poor Anne and Tom.--Your
-      affect^{te} screw
-
-                                                  “C. DARWIN.
-
-      “Have you been acquainted with Mr. Huxley; I think you would find
-      him a pleasant acquaintance. He is a very clever man.”
-
-Mr. Francis Darwin believes that the asparagus and cabbage seeds were
-for the experiments to determine the time during which immersion in
-salt water could be endured. The object of such experiments was to
-throw light on the means by which plants are distributed over the
-earth’s surface. He also informs me that the use of the word “screw” is
-unique and incomprehensible.
-
-Darwin tells us in the “Autobiography” that “early in 1856 Lyell
-advised me to write out my views pretty fully, and I began at once to
-do so on a scale three or four times as extensive as that which was
-afterwards followed in my ‘Origin of Species.’” This work he began on
-May 14th, and, after working steadily until June, 1858, had written
-about half the book, in ten chapters, when he received the celebrated
-letter from Wallace, which altered everything.
-
-[Sidenote: ON THE “ATLANTIS” THEORY.]
-
-At this period we get interesting evidence of his extraordinary insight
-in the strong protests he makes against the Atlantis hypothesis
-of Edward Forbes, and the other vast continental extensions which
-naturalists did not hesitate to make in order to explain the existence
-of species common to countries separated by wide tracts of the ocean.
-These lost continents were as generally accepted as they were freely
-proposed. And yet we find that, even then, one thinker far ahead of his
-time saw clearly enough--as the _Challenger_ Expedition twenty years
-later proved beyond all doubt--that the geological evidence is against
-such extension, and that the means of distribution possessed by animals
-are such as to render the supposition unnecessary.
-
-In June, 1856, he writes to Lyell: “My blood gets hot with passion and
-turns cold alternately at the geological strides, which many of your
-disciples are taking”; and after mentioning the extension of continents
-proposed by many leading naturalists, he says: “If you do not stop
-this, if there be a lower region for the punishment of geologists, I
-believe, my great master, you will go there. Why, your disciples in
-a slow and creeping manner beat all the old Catastrophists who ever
-lived! You will live to be the great chief of the Catastrophists.”
-Lyell wrote disagreeing on the subject of continental extension; and
-hence, on June 25th, 1856, Darwin replied in a long letter, giving
-in detail his reasons for rejecting the hypothesis. He argued (1)
-that the supposed extension of continents and fusion of islands would
-be vast changes, giving the earth a new aspect, but that recent and
-tertiary molluscs, etc., are distinct on opposite sides of the existing
-continents; so that, although he did not doubt _great_ changes of level
-in parts of continents, he concluded that “_fundamentally_ they stood
-as barriers to the sea where they now stand” ever since the appearance
-of living species; (2) that if a continent were nearly submerged, the
-last remaining peaks would by no means always be volcanic, as are,
-almost without exception, the oceanic islands; (3) that the amount of
-subsidence which took place in continental areas during the Silurian
-and Carboniferous periods--viz. during one tolerably uniform set of
-beings--would not be enough to account for the depth of the ocean over
-some parts of the site of the supposed submerged continents; (4) that
-the supposed extensions are not consistent with the _absence_ of many
-groups of animals--_e.g._ mammals, frogs, etc.--from islands.
-
-These arguments did not convince Lyell; and they have only received
-an almost universal acceptance after the confirmatory evidence
-afforded by the voyage of the _Challenger_. Dredgings over many parts
-of the ocean showed that all the continental deposits are collected
-on a fringing shelf not more than 200 miles wide, and that beyond
-this in the ocean bed proper an entirely different kind of deposit is
-accumulating, composed of the shells, bones, and teeth of swimming or
-floating organisms, or the products of their decomposition, of volcanic
-and cosmic dust, and the products--_e.g._ manganese dioxide--of the
-decomposition of these and of floating pumice. Hence, the depths of the
-ocean afford no indications of a lost continental area, but are covered
-by a peculiar deposit unknown among the rocks of continents which were
-formed in comparatively shallow water round and not far from coasts, or
-in land-locked or nearly land-locked seas like the Mediterranean.
-
-[Sidenote: EARLY CORRESPONDENCE.]
-
-On July 20th, 1856, he wrote to Asa Gray, giving some account of his
-views, and stating his belief in evolution, but only hinting at natural
-selection.
-
-About this time we meet with evidence of the great difficulty with
-which Darwin’s ideas were thoroughly understood, even by his intimate
-friends, to whom he often wrote on the subject. Later on, when the
-“Origin of Species” was published, although the arguments in favour
-of natural selection were given in considerable detail, many years
-passed before the theory itself was understood by the great body of
-naturalists. This particular case of misunderstanding is of such great
-interest that it is desirable to consider it in detail.
-
-In the origin of new species by natural selection, the stress
-of competition determines the survival of favourable individual
-variations, and these, when by the continued operation of the
-process they have become constant, are added to those pre-existing
-characters of the species which are inherited from a remote past,
-and are witnesses of the operation of natural selection from age to
-age under ever-changing conditions of competition and variation. It
-follows, therefore, that the origin of a species can only take place
-once; for it is infinitely improbable that the same variation would
-be independently submitted under the same conditions of competition,
-and added to the mass of inherited characters independently gained in
-two distinct lines by natural selection acting in the same manner upon
-the same variations in the same order through all ages. Not only is it
-inconceivable that the same species could arise by natural selection
-from distinct lines of ancestry, but it is extremely improbable that
-the same species could arise independently in more than one centre
-among the individuals of a changing species; for in this case, too,
-it is most unlikely that the same conditions of competition would
-co-exist with the same favourable variations in the areas inhabited by
-independent colonies of the same species.
-
-[Sidenote: EARLY CRITICISM.]
-
-Under other theories of evolution--direct action of environment,
-supposed inherited effects of use and disuse, etc.--an independent
-origin, even from quite distinct lines, would be probable; and we find,
-accordingly, that those who would advance such theories believe in what
-is called the “polyphyletic” origin of species (_e.g._ the horse), and
-in the principle of “convergence” carried far enough to produce the
-same complex character (_e.g._ vertebrate teeth) twice over without any
-genetic connection between the forms in which the character appears.
-
-Under natural selection, however, such a result would be infinitely
-improbable, and hence this theory strongly supports, and indeed
-explains, the theory of “specific centres,” viz. that each species
-has arisen in one area only, and has spread from that into the other
-areas over which it now occurs. This view was strongly held by Lyell
-and Hooker after an exhaustive study of the facts then known as to the
-geographical distribution of plants and animals; and yet both of these
-distinguished naturalists seem to have feared that Darwin, in advancing
-a theory which was entirely consistent with their convictions and
-utterly inconsistent with any other views upon the same subject, was in
-some way undermining the conclusions at which they had arrived.
-
-Thus Lyell wrote (July 25th, 1856) to Hooker:--
-
-      “I fear much that if Darwin argues that species are phantoms,
-      he will also have to admit that single centres of dispersion
-      are phantoms also, and that would deprive me of much of the
-      value which I ascribe to the present provinces of animals and
-      plants, as illustrating modern and tertiary changes in physical
-      geography.”
-
-And on August 5th of the same year Darwin replied to Hooker, who had
-apparently argued that the origin of species by direct action of
-climate, etc., would mean independent and multiple specific centres:--
-
-      “I see from your remarks that you do not understand my notions
-      (whether or no worth anything) about modification; I attribute
-      very little to the direct action of climate, etc. I suppose, in
-      regard to specific centres, we are at cross purposes; I should
-      call the kitchen garden in which the red cabbage was produced,
-      or the farm in which Bakewell made the Shorthorn cattle,
-      the specific centre of these _species_! And surely this is
-      centralisation enough!”
-
-As I have argued above, Darwin was all the time affording the strongest
-support to the theory of specific centres: support which was entirely
-wanting in the theory of separate creation, in which the origin of each
-species is wrapped in mystery, so that we can form no opinion as to
-whether it took place at one centre or at many.
-
-At this time, when the views set forth in the “Origin” were gaining
-shape and expression, we cannot estimate too highly the value of the
-correspondence with Hooker. In after years, when the “Origin” had to
-stand the fire of adverse criticism, and at first of very general
-disapproval, it was of inestimable advantage that every idea contained
-in it should have been minutely discussed beforehand with one who
-was more critical and more learned than the greatest of those who
-afterwards objected. Darwin tells us in his “Autobiography”:--
-
-      “I think that I can say with truth that in after years, though I
-      cared in the highest degree for the approbation of such men as
-      Lyell and Hooker, who were my friends, I did not care much about
-      the general public.”
-
-But, although Darwin cared nothing for it, it is nevertheless true that
-the approbation of minds such as these was a sure indication of the
-general approbation of the intellect of the country, and of the world,
-which was to follow as soon as the new ideas were absorbed.
-
-[Sidenote: VALUE OF THE DISCUSSION.]
-
-And the value which Darwin himself placed on these discussions appears
-again and again in his letters. To take a single example, he writes to
-Hooker November 23rd, 1856:--
-
-      “I fear I shall weary you with letters, but do not answer this,
-      for in truth and without flattery, I so value your letters,
-      that after a heavy batch, as of late, I feel that I have been
-      extravagant and have drawn too much money, and shall therefore
-      have to stint myself on another occasion.”
-
-
-
-
-CHAPTER VIII.
-
-DARWIN AND WALLACE (1858).
-
-
-The history of Darwin’s friendship with Alfred Russel Wallace is of
-quite unique interest, being brought about by the fact that both
-naturalists saw in evolution and its causes the great questions of the
-immediate future, and by the agreement in the interpretations which
-they independently offered. Wallace was collecting and observing in
-the Malay Archipelago, and wrote to Darwin as the one man most likely
-to sympathise with and understand his views and to offer valuable
-criticism.
-
-In the “Annals and Magazine of Natural History” for 1855, Wallace
-published a paper “On the Law that has Regulated the Introduction
-of New Species,” and in this and a letter written from the Malay
-Archipelago Darwin recognised the similarity of their views, although
-the completeness of this agreement was to be brought before him with
-startling force a year after his sympathetic reply, written May 1st,
-1857. He then wrote:--
-
-      “By your letter and even still more by your paper in the Annals,
-      a year or more ago, I can plainly see that we have thought much
-      alike and to a certain extent have come to similar conclusions.
-      In regard to the Paper in the Annals, I agree to the truth of
-      almost every word of your paper; and I dare say that you will
-      agree with me that it is very rare to find oneself agreeing
-      pretty closely with any theoretical paper; for it is lamentable
-      how each man draws his own different conclusions from the very
-      same facts.”
-
-On December 22nd he replied to another letter from Wallace, again
-expressing agreement with all his conclusions except that upon the
-supposed continental extension to oceanic islands, on which, alluding
-to his previous discussion, he says:--
-
-      “You will be glad to hear that neither Lyell nor Hooker thought
-      much of my arguments. Nevertheless, for once in my life, I dare
-      withstand the almost preternatural sagacity of Lyell.”
-
-And he concludes with the wish--
-
-      “May all your theories succeed, except that on Oceanic Islands,
-      on which subject I will do battle to the death.”
-
-He also said, as regards Wallace’s conclusions: “I believe I go
-much further than you; but it is too long a subject to enter on my
-speculative notions.”
-
-[Sidenote: WALLACE’S ESSAY.]
-
-Finally, on June 18th, 1858, Darwin received from Wallace a manuscript
-essay bearing the title “On the Tendency of Varieties to depart
-indefinitely from the Original Type.” Upon this essay he wanted
-Darwin’s opinion, and asked him, if he thought well of it, to forward
-it to Lyell. Darwin was startled to find in the essay a complete
-account of his own views. That very day he wrote to Lyell, enclosing
-the essay. In the letter he said:--
-
-      “Your words have come true with a vengeance--that I should
-      be forestalled. You said this, when I explained to you here
-      very briefly my views of ‘Natural Selection’ depending on the
-      struggle for existence. I never saw a more striking coincidence;
-      if Wallace had my MS. sketch written out in 1842, he could not
-      have made a better short abstract! Even his terms now stand as
-      heads of my chapters.”
-
-A few days later (June 25th) he again wrote to Lyell, saying--
-
-      “I should be extremely glad now to publish a sketch of my general
-      views in about a dozen pages or so; but I cannot persuade
-      myself that I can do so honourably. Wallace says nothing about
-      publication, and I enclose his letter. But as I had not intended
-      to publish any sketch, can I do so honourably, because Wallace
-      has sent me an outline of his doctrine? I would far rather burn
-      my whole book, than that he or any other man should think that I
-      had behaved in a paltry spirit.”
-
-He also asked Lyell to send the letter on to Hooker, “for then I shall
-have the opinion of my two best and kindest friends.” He was so much
-distressed at the idea of being unfair to Wallace that he wrote again
-the next day to put the case against himself in an even stronger light.
-This must have been one of the most trying times in Darwin’s life, for,
-in addition to the cause of trouble and perplexity described above, one
-of his children died of scarlet fever, and there was the gravest fear
-lest the others should be attacked.
-
-[Sidenote: BOTH ESSAYS PUBLISHED.]
-
-Thus appealed to, Lyell and Hooker took an extremely wise and fair
-course. They asked Darwin for an abstract of his work, and, accepting
-the whole responsibility, communicated it and Wallace’s essay in
-a joint paper to the Linnean Society, giving an account of the
-circumstances of the case in a preface, which took the form of a
-letter to the Secretary of the Society. In this letter they introduced
-to the Society “the results of the investigations of the indefatigable
-naturalists, Mr. Charles Darwin and Mr. Alfred Wallace.”
-
-      “These gentlemen having, independently and unknown to one
-      another, conceived the same very ingenious theory to account for
-      the appearance and perpetuation of varieties and of specific
-      forms on our planet, may both fairly claim the merit of being
-      original thinkers in this important line of enquiry; but neither
-      of them having published his views, though Mr. Darwin has for
-      many years past been repeatedly urged by us to do so, and both
-      authors having now unreservedly placed their papers in our hands,
-      we think it would best promote the interests of science that a
-      selection from them should be laid before the Linnean Society.”
-
-After giving a list of these selections, they say of Wallace’s essay--
-
-      “This was written at Ternate[D] in February, 1858, for the
-      perusal of his friend and correspondent Mr. Darwin, and sent
-      to him with the expressed wish that it should be forwarded to
-      Sir Charles Lyell, if Mr. Darwin thought it sufficiently novel
-      and interesting. So highly did Mr. Darwin appreciate the value
-      of the views therein set forth, that he proposed, in a letter
-      to Sir Charles Lyell, to obtain Mr. Wallace’s consent to allow
-      the Essay to be published as soon as possible. Of this step we
-      highly approved, provided Mr. Darwin did not withhold from the
-      public, as he was strongly inclined to do (in favour of Mr.
-      Wallace), the memoir which he had himself written on the same
-      subject, and which, as before stated, one of us had perused in
-      1844, and the contents of which we had both of us been privy
-      to for many years. On representing this to Mr. Darwin, he gave
-      us permission to make what use we thought proper of his memoir,
-      &c.; and in adopting our present course, of presenting it to the
-      Linnean Society, we have explained to him that we are not solely
-      considering the relative claims to priority of himself and his
-      friend, but the interests of science generally; for we feel it to
-      be desirable that views founded on a wide deduction from facts,
-      and matured by years of reflection, should constitute at once a
-      goal from which others may start, and that, while the scientific
-      world is waiting for the appearance of Mr. Darwin’s complete
-      work, some of the leading results of his labours, as well as
-      those of his able correspondent, should together be laid before
-      the public.”
-
-The title of the joint paper was “On the Tendency of Species to form
-Varieties; and on the Perpetuation of Varieties and Species by Natural
-Means of Selection.” It was read July 1st, 1858.
-
-
-
-
-CHAPTER IX.
-
-DARWIN’S SECTION OF THE JOINT MEMOIR READ BEFORE THE LINNEAN SOCIETY
-JULY 1, 1858.
-
-
-[Sidenote: FIRST PUBLISHED ESSAY.]
-
-The first section of Darwin’s communication consisted of extracts
-from the Second Chapter of the First Part of his manuscript essay of
-1844. The Part was entitled “The Variation of Organic Beings under
-Domestication, and in their Natural State,” and the Second Chapter was
-headed “On the Variation of Organic Beings in a State of Nature; on
-the Natural Means of Selection; on the Comparison of Domestic Races
-and True Species.” The extracts first deal with the tendency towards
-rapid multiplication and the consequent struggle for life. The average
-constancy of the numbers of individuals is traced to the average
-constancy of the amount of food, “whereas the increase of all organisms
-tends to be geometrical.” Practical illustrations are given in the
-enormous increase of the mice in La Plata during the drought which
-killed millions of cattle, and in the well-known and rapid increase
-of the animals and plants introduced by man into a new and favourable
-country.
-
-The checks which operate when the country is stocked and the species
-reaches its average are most difficult to detect, but none the less
-certain. If any check is lightened in the case of any organism it will
-at once tend to increase. “Nature may be compared to a surface on which
-rest ten thousand sharp wedges touching each other and driven inward by
-incessant blows.” Darwin meant by this image to express that just as
-any single wedge would instantly rise above the rest when the blows on
-it were in any way lessened as compared with those on the other wedges,
-so it would be with the proportionate number of any species when the
-checks to which it is subjected are in any way relaxed.
-
-If the external conditions alter, and the changes continue progressing,
-the inhabitants will be less well adapted than formerly. The changed
-conditions would act on the reproductive system and render the
-organisation plastic. Now, can it be doubted, from the struggle each
-individual has to obtain subsistence, that any minute variation in
-structure, habits, or instincts adapting that individual better to the
-new conditions would tell upon its vigour and health? “Yearly more are
-bred than can survive; the smallest grain in the balance, in the long
-run, must tell on which death shall fall, and which shall survive.” If
-this went on for a thousand generations who will deny its effect “when
-we remember what, in a few years, Bakewell effected in cattle, and
-Western in sheep, by this identical principle of selection?”
-
-He gives an imaginary example of a canine animal preying on rabbits and
-hares. If the rabbits, constituting its chief food, gradually became
-rarer, and the hares more plentiful, the animal would be driven to
-try and catch more hares, and hence would be selected in the direction
-of speed and sharp eyesight. “I can see no more reason to doubt that
-these cases in a thousand generations would produce a marked effect,
-and adapt the form of the fox or dog to the catching of hares instead
-of rabbits, than that greyhounds can be improved by selection and
-careful breeding.” So also with plants having seeds with rather more
-down, leading to wider dissemination. Darwin here added this note: “I
-can see no more difficulty in this, than in the planter improving his
-varieties of the cotton plant. C. D. 1858.”
-
-Then follows a brief sketch of sexual selection and a comparison
-with natural selection, and the conclusion is reached--“this kind
-of selection, however, is less vigorous than the other; it does not
-require the death of the less successful, but gives to them fewer
-descendants. The struggle falls, moreover, at a time of year when food
-is generally abundant, and perhaps the effect chiefly produced would
-be the modification of the secondary sexual characters, which are not
-related to the power of obtaining food, or to defence from enemies, but
-to fighting with or rivalling other males.”
-
-The second section was entitled “Abstract of a Letter from C. Darwin,
-Esq., to Professor Asa Gray, Boston, U.S., dated Down, September 5th,
-1857.” To this letter Darwin attached great importance as a convenient
-and brief account of the essentials of his theory, written and sent to
-Asa Gray many months before he received Wallace’s essay. A tolerably
-full abstract of the letter, which is itself a very brief abstract,
-is therefore printed below. The epitome here given is taken from the
-letter itself, and is in certain respects more full than that published
-in the Linnean Journal.
-
-In the introductory parts Darwin explained that “the facts which
-kept me longest scientifically orthodox are those of adaptation--the
-pollen-masses in asclepias--the mistletoe, with its pollen carried by
-insects, and seed by birds--the woodpecker, with its feet and tail,
-beak and tongue, to climb the tree and secure insects. To talk of
-climate or Lamarckian habit producing such adaptations to other organic
-beings is futile. This difficulty I believe I have surmounted.” Having
-then stated that the reasons which induced him to accept evolution
-were “general facts in the affinities, embryology, rudimentary organs,
-geological history, and geographical distribution of organic beings,”
-he proceeds to give a brief account of his “notions on the means by
-which Nature makes her species.” The following is an abstract of the
-account he gives:--
-
-[Sidenote: SUMMARY OF THE ESSAY.]
-
-      I. The success with which selection has been applied by man in
-      making his breeds of domestic animals and plants: and this even
-      in ancient times when the selection was unconscious, viz. when
-      breeding was not thought of, but the most useful animals and
-      plants were kept and the others destroyed. “Selection acts only
-      by the accumulation of very slight or greater variations,” and
-      man in thus accumulating “_may be said_ to make the wool of one
-      sheep good for carpets, and another for cloth, &c.”
-
-      II. Slight variations of all parts of the organism occur in
-      nature, and if a being could select with reference to the whole
-      structure, what changes might he not effect in the almost
-      unlimited time of which geology assures us.
-
-      III. Animals increase so fast that, but for extermination,
-      the earth would not hold the progeny of even the slowest
-      breeding animal. Only a few in each generation can live; hence
-      the struggle for life, which has never yet been sufficiently
-      appreciated. “What a trifling difference must often determine
-      which shall survive and which perish!” Thus is supplied the
-      “unerring power” of “_Natural Selection_ ... which selects
-      exclusively for the good of each organic being.”
-
-      IV. If a country were changing the altered conditions would tend
-      to cause variation, “not but what I believe most beings vary at
-      all times enough for selection to act on.” Extermination would
-      expose the remainder to “the mutual action of a different set of
-      inhabitants, which I believe to be more important to the life
-      of each being than mere climate.” In the infinite complexity
-      of the struggle for life “I cannot doubt that during millions
-      of generations individuals of a species will be born with
-      some slight variation profitable to some part of its economy;
-      such will have a better chance of surviving and propagating
-      this variation, which again will be slowly increased by the
-      accumulative action of natural selection; and the variety
-      thus formed will either coexist with, or more commonly will
-      exterminate its parent form.” Thus complex adaptations like those
-      of woodpecker or mistletoe may be produced.
-
-      V. Numerous difficulties can be answered satisfactorily in time.
-      The supposed changes are only very gradual, and very slow, “only
-      a few undergoing change at any one time.” The imperfection of
-      the geological record accounts for deficient direct evidence of
-      change.
-
-      VI. Divergence during evolution will be an advantage. “The
-      same spot will support more life if occupied by very diverse
-      forms.” Hence during the increase of species into its
-      offspring--varieties, or sub-species, or true species, the latter
-      “will try (only few will succeed) to seize on as many and as
-      diverse places in the economy of nature as possible,” and so
-      will tend to “exterminate its less well-fitted parent.” This
-      explains classification, in which the organic beings “always
-      _seem_ to branch and sub-branch like a tree from a common trunk;
-      the flourishing twigs destroying the less vigorous--the dead and
-      lost branches rudely representing extinct genera and families.”
-
-In a postscript he says:--
-
-      “This little abstract touches only the accumulative power of
-      natural selection, which I look at as by far the most important
-      element in the production of new forms. The laws governing the
-      incipient or primordial variation (unimportant except as the
-      groundwork for selection to act on, in which respect it is all
-      important), I shall discuss under several heads, but I can come,
-      as you may well believe, only to very partial and imperfect
-      conclusions.”
-
-It is, I think, of especial interest to find Darwin at this early
-period arguing in a most convincing manner for the creative power
-of natural selection. The selective power becomes, by accumulation,
-of such paramount importance in the process, as compared with the
-variations, that, although these latter are absolutely essential, man
-may be said to _make_ his domestic breeds and Nature her species. The
-man who argued thus had been through and had left behind the difficulty
-that, even now, is often raised--that “before anything can be selected
-it must be,” and therefore that selection is of small account as
-compared with variation.
-
-
-
-
-CHAPTER X.
-
-WALLACE’S SECTION OF THE JOINT MEMOIR READ BEFORE THE LINNEAN SOCIETY
-JULY 1, 1858.
-
-
-The communication by Alfred Russel Wallace was entitled “On the
-Tendency of Varieties to depart indefinitely from the Original Type.”
-An abstract of it is given below.
-
-[Sidenote: WALLACE’S ESSAY.]
-
-_Varieties_ produced in domesticity are more or less unstable, and
-often tend to return to the parent form. This is usually thought to be
-true for all varieties, and to be a strong argument for the original
-and permanent distinctness of species.
-
-On the other hand, races forming “permanent or true varieties” are
-well known, and there are generally no means of determining which is
-the _variety_ and which the original _species_. The hypothesis of a
-“permanent invariability of species” is satisfied by supposing that,
-while such varieties cannot diverge from the species beyond a certain
-fixed limit, they may return to it.
-
-This argument is founded on the assumption that _varieties_ in nature
-are in all respects identical with those of domestic animals. The
-object of the paper is to show that this is false, and “that there is
-a general principle in nature which will cause many _varieties_ to
-survive the parent species and to give rise to successive variations
-departing further and further from the original type.” The same
-principle explains the tendency of domestic animals to return to the
-parent form.
-
-“The life of wild animals is a struggle for existence.” To procure
-food and escape enemies are the primary conditions of existence, and
-determine abundance and rarity, frequently seen in closely allied
-species.
-
-“Large animals cannot be so abundant as small ones; the carnivora must
-be less numerous than the herbivora,” eagles and lions than pigeons
-and antelopes. Fecundity has little or nothing to do with this. The
-least prolific animals would increase rapidly if unchecked. But wild
-animals do not increase beyond their average; hence there must be an
-immense amount of destruction. The abundance of species in individuals
-bears no relation whatever to their fertility. Thus the excessively
-abundant passenger pigeon of the United States lays only one or two
-eggs. Its abundance is explained by the widespread supply of food
-rendered available by its powers of flight. The food-supply “is almost
-the sole condition requisite for ensuring the rapid increase of a
-given species.” This explains why the sparrow is more abundant than
-the red-breast, why aquatic species of birds are specially numerous
-in individuals, why the wild cat is rarer than the rabbit. “So long
-as a country remains physically unchanged, the numbers of its animal
-population cannot materially increase.” If one species does so, others
-must diminish. In the immense amount of destruction the weakest must
-die, “while those that prolong their existence can only be the most
-perfect in health and vigour--those who are best able to obtain food
-regularly and to avoid their numerous enemies. It is, as we commenced
-by remarking, ‘a struggle for existence,’ in which the weakest and
-least perfectly organised must always succumb.”
-
-This tendency must apply to species as well as individuals, the best
-adapted becoming abundant, the others scarce or even extinct. If we
-knew the whole of the conditions and powers of a species “we might be
-able even to calculate the proportionate abundance of individuals,
-which is the necessary result.”
-
-Hence, first, _the animal population of a country is generally
-stationary (due to food and other checks)_; second, _comparative
-abundance or scarcity of individuals is entirely due to organisation
-and resulting habits, the varying measure of success in the struggle
-being balanced by a varying population in a given area_.
-
-Variations from type must nearly always affect habits or capacities.
-Even changes of colour may promote concealment, while changes in the
-limbs or any external organs would affect the mode of procuring food,
-etc. “An antelope with shorter or weaker legs must necessarily suffer
-more from the attacks of the feline carnivora”; the passenger pigeon
-with less powerful wings could not always procure sufficient food.
-Hence species thus modified would gradually diminish; but, on the other
-hand, if modified in the direction of increased powers, would become
-more numerous. Varieties will fall under these two classes--those
-which will never rival, and those which will eventually outnumber,
-the parent species. If, then, some alteration in conditions occurred
-making existence more difficult to a certain species, first the less
-favourable variety would suffer and become extinct, then the parent
-species, while the superior variety would alone remain, “and on a
-return to favourable circumstances would rapidly increase in numbers
-and occupy the place of the extinct species and variety.”
-
-The superior _variety_ would thus replace the _species_, to which it
-_could not_ return, for the latter could never compete with the former.
-Hence a tendency to revert would be checked. But the superior variety,
-when established, would in time give rise to new varieties, some of
-which would become predominant. Hence _progression and continued
-divergence_ would follow, but not invariably, for the criteria of
-success or failure would vary, and would sometimes render a race
-which was under other conditions the most favoured now the least so.
-Variations without any effect on the life-preserving powers might also
-occur. But it is contended that certain varieties must, on the average,
-tend to persist longer than the parent species, while the scale on
-which nature works is so vast that an average tendency must in the end
-attain its full result.
-
-Comparing domestic with wild animals, the very existence of the latter
-depends upon their senses and physical powers. Not so with the former,
-which are defended and fed by man.
-
-Any favourable variety of a domestic animal is utterly useless to
-itself; while any increase of the powers and faculties of wild animals
-is immediately available, creating, as it were, a new and superior
-animal.
-
-Again, with domestic animals all variations have an equal chance, and
-those which would be extremely injurious in a wild state are, under the
-artificial conditions, no disadvantage. Our domestic breeds could never
-have come into existence in a wild state, and if turned wild “_must_
-return to something near the type of the original wild stock, _or
-become altogether extinct_.”[E]
-
-Hence we cannot argue from domestic to wild animals, the conditions of
-life in the two being completely opposed.
-
-Lamarck’s hypothesis of change produced by the attempts of animals to
-increase the development of their own organs has been often refuted,
-but the view here proposed depends upon the action of principles
-constantly working in nature. Retractile talons of falcons and cats
-have not been developed by volition, but by _the survival of those
-which had the greatest facilities for seizing prey_. The long neck of
-the giraffe was not produced by constant stretching, but by the success
-which any increase in the length of neck ensured to its possessors.
-Even colours, especially of insects, are explained in the same way,
-for among the varieties of many tints, those “having colours best
-adapted to concealment ... would inevitably survive the longest.” We
-can similarly explain deficiency of some organs with compensating
-development of others, “great velocity making up for the absence of
-defensive weapons,” etc. Varieties with an unbalanced deficiency could
-not long survive. The action of the principle is like the governor
-of a steam-engine, checking irregularities almost before they become
-evident. Such a view accords well with “the many lines of divergence
-from a central type”; the increasing efficiency of a particular organ
-in a series of allied species; the persistence of unimportant parts
-when important ones have changed; the “more specialised structure,”
-said by Owen to be characteristic of recent as compared with extinct
-forms.
-
-Hence there is a tendency of certain classes of _varieties_ to progress
-further and further from the original type, and there is no reason for
-assigning any limit to this progression. Such gradual changes “may,
-it is believed, be followed out so as to agree with all the phenomena
-presented by organised beings, their extinction and succession in past
-ages, and all the extraordinary modifications of form, instinct, and
-habits which they exhibit.”
-
-Wallace’s Essay has been reprinted without any alteration in his
-“Essays on Natural Selection,” recently re-issued combined with
-“Tropical Nature.”
-
-
-
-
-CHAPTER XI.
-
-COMPARISON OF DARWIN’S AND WALLACE’S SECTIONS OF THE JOINT
-MEMOIR--RECEPTION OF THEIR VIEWS--THEIR FRIENDSHIP.
-
-
-[Sidenote: WALLACE AND DARWIN.]
-
-Comparing the essays of these two naturalists, we observe that Darwin
-here first makes public the phrase “natural selection,” Wallace the
-“struggle for existence”; although so closely do their lines of thought
-converge that Darwin, using practically the same words, speaks of
-the “struggle for life.” Both show, by examples, the tendency of all
-animals to multiply at an enormous rate, and both show that their
-tolerably constant numbers are due to the constant supply of food.
-
-Both treat of domesticated animals, but in very different ways. Darwin
-uses them as the practical illustration of selection, and argues that
-if man by selection can make such forms, Nature can make her species
-by the same means. Wallace disposes of the argument that the reversion
-of domesticated varieties to the wild form is a proof of the permanent
-distinctness of species, by showing in some detail that the former are
-“abnormal, irregular, artificial.”
-
-Neither of them draws any distinction between instinct and other
-qualities, but assumes that the former is, like the latter, operated
-upon by natural selection.
-
-Wallace makes a special point of protective resemblances in the colours
-of insects, etc.
-
-The important principle of “divergence of character,” and the
-relatively unimportant one of “sexual selection,” are both clearly
-explained by Darwin.
-
-Neither writer speaks of the direct effect of external
-conditions--except as a cause of plasticity by Darwin--or the inherited
-effects of use and disuse. Lamarck is mentioned only to be dismissed
-by Wallace. The evolution of the giraffe’s long neck is explained by
-Wallace on the principle of natural selection, which is contrasted with
-Lamarck’s original explanation of the same character. This contrast,
-which has been so often drawn, was therefore originally contained in
-the first public statement of natural selection.
-
-As has been indicated above, Darwin suggested a cause of variation in
-the direct effect of changed external conditions on the reproductive
-system.
-
-In comparing the two essays it is not unnatural to conclude, as
-Professor Osborn has done (“From the Greeks to Darwin,” 1894, p.
-245), that the two writers held different views upon the material
-utilised by natural selection in the production of new species, Darwin
-relying upon the usual slight differences which separate individuals
-and upon variations in single characters, Wallace upon fully formed
-varieties--viz. individuals which departed conspicuously from the type
-of the species, and which may exist singly or in considerable numbers
-side by side with the parent form.
-
-Professor Osborn’s actual words are as follows:--
-
-      “Darwin dwells upon _variations in single characters_, as taken
-      hold of by Selection; Wallace mentions variations, but dwells
-      upon _full-formed varieties_, as favourably or unfavourably
-      adapted. It is perfectly clear that with Darwin the struggle is
-      so intense that the chance of survival of each individual turns
-      upon a single and even slight variation. With Wallace, varieties
-      are already presupposed by causes which he does not discuss,
-      a change in the environment occurs, and those varieties which
-      happen to be adapted to it survive. There is really a wide gap
-      between these two statements and applications of the theory.”
-
-Further consideration tends to obliterate this supposed distinction.
-Although Wallace used the term “variety” as contrasted with “species,”
-the whole context proves that he, equally with Darwin, recognised
-the importance of individual variations and of variations in single
-characters. This becomes clear when we remember his argument about the
-neck of the giraffe, the changes of colour and hairiness, the shorter
-legs of the antelope, and the less powerful wings of the passenger
-pigeon. Wallace has kindly written to me (May 12th, 1896) stating the
-case as I have given it, and he further explains--
-
-      “I used the term ‘varieties’ because ‘varieties’ were alone
-      recognised at that time, individ^l variability being ignored or
-      thought of _no importance_. My ‘varieties’ therefore included
-      ‘individual variations.’”
-
-On the other hand, Darwin certainly included large single variations
-(in other words, “varieties”) as well as ordinary individual
-differences, among the material for natural selection, and he did not
-abandon the former until he was convinced by the powerful reasoning of
-Fleeming Jenkin (_North British Review_, June, 1867), who argued that
-single large differences of a sudden and conspicuous kind (Darwin’s
-“variations”) would certainly be swamped by intercrossing. Upon this
-review of the “Origin” Francis Darwin says (“Life and Letters”)--
-
-      “It is not a little remarkable that the criticisms which my
-      father, as I believe, felt to be the most valuable ever made on
-      his views should have come, not from a professed naturalist but
-      from a Professor of Engineering.”
-
-After reading this review, Darwin wrote to Wallace (January 22nd,
-1869):--
-
-      “I always thought individual differences more important than
-      single variations, but now I have come to the conclusion that
-      they are of paramount importance, and in this I believe I agree
-      with you. Fleeming Jenkin’s arguments have convinced me.”
-
-The ambiguity of this sentence evidently misled Wallace into believing
-that the single variations were considered of paramount importance.
-Darwin therefore wrote again (February 2nd):--
-
-      “I must have expressed myself atrociously; I meant to say exactly
-      the reverse of what you have understood. F. Jenkin argued in the
-      ‘North British Review’ (June 1867) against single variations
-      ever being perpetuated, and has convinced me, though not in
-      quite so broad a manner as here put. I always thought individual
-      differences more important; but I was blind and thought single
-      variations might be preserved much oftener than I now see is
-      possible or probable. I mentioned this in my former note merely
-      because I believed that you had come to a similar conclusion,
-      and I like much to be in accord with you. I believe I was mainly
-      deceived by single variations offering such simple illustrations,
-      as when man selects.”
-
-From these two letters to Wallace we see that the latter was the first
-to give up the larger variations in favour of ordinary individual
-differences.
-
-Darwin also wrote to Victor Carus on May 4th, 1869:--
-
-      “I have been led to ... infer that single variations are even of
-      less importance, in comparison with individual differences, than
-      I formerly thought.”
-
-There has been much misconception on this point, and a theory of
-evolution by the selection of large single variations--a view held by
-many, but not by Darwin--has been passed off as the Darwinian theory of
-natural selection. It is surprising that this old mistake should have
-been repeated at so recent a date, and on so important an occasion as
-the Presidential Address to the British Association at Oxford on August
-8th, 1894, and that so ill-aimed a criticism should have been quoted
-with approval in a leading article in the _Times_ of the following day.
-The following extracts from Lord Salisbury’s address unfortunately
-leave no doubt on the matter:
-
-[Sidenote: LORD SALISBURY’S CRITICISM.]
-
-      “What is to secure that the two individuals of opposite sexes
-      in the primeval forest, who have been both accidentally blessed
-      with the same advantageous variation shall meet, and transmit by
-      inheritance that variation to their successors?... The biologists
-      do well to ask for an immeasurable expanse of time, if the
-      occasional meetings of advantageously varied couples from age to
-      age are to provide the pedigree of modifications which unite us
-      to our ancestor the jelly-fish.... There would be nothing but
-      mere chance to secure that the advantageously varied bridegroom
-      at one end of the wood should meet the bride, who by a happy
-      contingency had been advantageously varied in the same direction
-      at the same time at the other end of the wood. It would be a
-      mere chance if they ever knew of each other’s existence--a still
-      more unlikely chance that they should resist on both sides all
-      temptations to a less advantageous alliance. But unless they did
-      so, the new breed would never even begin, let alone the question
-      of its perpetuation after it had begun.”
-
-It is of interest to reproduce Lord Salisbury’s words in close
-proximity to Darwin’s real statements on the subject, as shown in the
-letters to his friends--statements which are also expressed in many
-places in his published works.
-
-The joint paper was read before the Linnean Society on July 1st, 1858,
-about a fortnight after Wallace’s essay had been received by Darwin.
-There was no discussion, but the interest and excitement at the meeting
-were very great, owing in large part to the influential support
-with which the new theory came before the scientific world. Darwin
-appreciated the importance of this support at its true value, for he
-wrote to Hooker, July 5th:--
-
-      “You must know that I look at it, as very important, for the
-      reception of the view of species not being immutable, the fact of
-      the greatest Geologist and Botanist in England taking _any sort
-      of interest_ in the subject: I am sure it will do much to break
-      down prejudices.”
-
-In the following January Darwin received a letter from Wallace, and
-his reply (on the 25th) shows how much relieved and pleased he was
-at its generous spirit. Alluding to Lyell’s and Hooker’s action in
-his “Autobiography” Darwin says:--“I was at first very unwilling
-to consent, as I thought Mr. Wallace might consider my doing so
-unjustifiable, for I did not then know how generous and noble was his
-disposition.” It was this letter which conveyed the knowledge to him
-and set his mind at rest on the subject.
-
-Thus ended one of the most interesting and memorable episodes in the
-history of science. It was sufficiently remarkable that two naturalists
-in widely-separated lands should have independently arrived at the
-theory which was to be the turning-point in the history of biology
-and of many other sciences--although such simultaneous discoveries
-have been known before; it was still more remarkable that one of the
-two should unknowingly have chosen the other to advise him upon the
-theory which was to be for ever associated with both their names.
-It was a magnificent answer to those who believed that the progress
-of scientific discovery implies continual jealousy and bitterness,
-that the conditions attending the first publication of the theory of
-natural selection were the beginning of a life-long friendship and of
-mutual confidence and esteem.[F]
-
-[Sidenote: FRIENDSHIP WITH WALLACE.]
-
-It is justifiable to speak of this episode as the _beginning_ of
-Darwin’s and Wallace’s friendship, for the latter writes (February,
-1895):--
-
-      “I had met him _once_ only for a few minutes at the Brit. Mus.
-      before I went to the East.”
-
-Later on Darwin, in his letters to Wallace, more than once alluded to
-the simultaneous publication of their essays. Thus he wrote, April
-18th, 1869, congratulating Wallace on his article in the _Quarterly
-Review_ for that month:--
-
-      “I was also much pleased at your discussing the difference
-      between our views and Lamarck’s. One sometimes sees the odious
-      expression, ‘Justice to myself compels me to say,’ &c., but you
-      are the only man I ever heard of who persistently does himself an
-      injustice, and never demands justice. Indeed, you ought in the
-      review to have alluded to your paper in the ‘Linnean Journal,’
-      and I feel sure all our friends will agree in this. But you
-      cannot ‘Burke’ yourself however much you may try, as may be seen
-      in half the articles which appear.”
-
-And again, on April 20th of the following year, he wrote:--
-
-      “I hope it is a satisfaction to you to reflect--and very few
-      things in my life have been more satisfactory to me--that we have
-      never felt any jealousy towards each other, though in one sense
-      rivals. I believe that I can say this of myself with truth, and I
-      am absolutely sure that it is true of you.”
-
-
-
-
-CHAPTER XII.
-
-THE GROWTH OF WALLACE’S CONVICTIONS ON EVOLUTION AND DISCOVERY OF
-NATURAL SELECTION--BORNEO 1855--TERNATE 1858.
-
-
-We have already seen in the earlier part of this volume, the gradual
-development of the theory of Natural Selection in the mind of Darwin,
-and the long succession of experiments and observations which he
-undertook before he could bring himself to publish anything upon the
-subject, as well as the conditions which forced him to a hurried
-publication in the end. It is of the deepest interest to compare with
-this the account which Wallace has given us of the mental process by
-which he arrived at the same conclusions.
-
-This deeply interesting personal history has only been known during
-the last few years; in 1891 Wallace republished his “Essays on Natural
-Selection” in one volume, combined with “Tropical Nature,” and he has
-added (on pp. 20, 21) the following introductory note to Chapter II.,
-viz. the reprint of his Linnean Society Memoir “On the Tendencies of
-Varieties to depart indefinitely from the Original Type.” The note is
-here reprinted in full:--
-
-      “As this chapter sets forth the main features of a theory
-      identical with that discovered by Mr. Darwin many years before
-      but not then published, and as it has thus an historical
-      interest, a few words of personal statement may be permissible.
-      After writing the preceding paper [“On the Law which has
-      Regulated the Introduction of New Species”] the question of
-      _how_ changes of species could have been brought about was
-      rarely out of my mind, but no satisfactory conclusion was
-      reached till February 1858. At that time I was suffering from
-      a rather severe attack of intermittent fever at Ternate in the
-      Moluccas, and one day, while lying on my bed during the cold
-      fit, wrapped in blankets, though the thermometer was at 88°
-      Fahr., the problem again presented itself to me, and something
-      led me to think of the ‘positive checks’ described by Malthus
-      in his ‘Essay on Population,’ a work I had read several years
-      before, and which had made a deep and permanent impression on my
-      mind. These checks--war, disease, famine and the like--must, it
-      occurred to me, act on animals as well as man. Then I thought of
-      the enormously rapid multiplication of animals, causing these
-      checks to be much more effective in them than in the case of
-      man; and while pondering vaguely on this fact there suddenly
-      flashed upon me the _idea_ of the survival of the fittest--that
-      the individuals removed by these checks must be on the whole
-      inferior to those that survived. In the two hours that elapsed
-      before my ague fit was over I had thought out almost the whole
-      of the theory, and the same evening I sketched the draft of my
-      paper, and in the two succeeding evenings wrote it out in full,
-      and sent it by the next post to Mr. Darwin. Up to this time
-      the only letters I had received from him were those printed in
-      the second volume of his _Life and Letters_ (vol. ii., pp. 95
-      and 108), in which he speaks of its being the twentieth year
-      since he ‘opened his first note-book on the question how and
-      what way do species and varieties differ from each other,’ and
-      after referring to oceanic islands, the means of distribution
-      of land-shells, &c., added: ‘My work, on which I have now been
-      at work more or less for twenty years, _will not fix or settle
-      anything_; but I hope it will aid by giving a large collection
-      of facts, with one definite end.’ The words I have italicised,
-      and the whole tone of his letters, led me to conclude that he
-      had arrived at no definite view as to the origin of species,
-      and I fully anticipated that my theory would be new to him,
-      because it seemed to me to settle a great deal. The immediate
-      result of my paper was that Darwin was induced at once to
-      prepare for publication his book on the _Origin of Species_ in
-      the condensed form in which it appeared, instead of waiting an
-      indefinite number of years to complete a work on a much larger
-      scale which he had partly written, but which in all probability
-      would not have carried conviction to so many persons in so short
-      a time. I feel much satisfaction in having thus aided in bringing
-      about the publication of this celebrated book, and with the
-      ample recognition by Darwin himself of my independent discovery
-      of ‘natural selection.’ (See _Origin of Species_, 6th ed.,
-      introduction, p. 1, and Life and Letters, vol. ii, chap. iv., pp.
-      115–129 and 145).”
-
-[Sidenote: ORIGIN OF WALLACE’S ESSAY.]
-
-A very similar account, differing in a few unimportant details from
-that quoted above, was written December 3rd, 1887, by Wallace to
-Professor Newton, and is published in the abridged “Life and Letters of
-Charles Darwin” (1892; pp. 189, 190). At the conclusion Wallace says:--
-
-      “... I _had_ the idea of working it out, so far as I was able,
-      when I returned home, not at all expecting that Darwin had so
-      long anticipated me. I can truly say _now_, as I said many years
-      ago, that I am glad it was so; for I have not the love of _work_,
-      _experiment_ and _detail_ that was so pre-eminent in Darwin, and
-      without which anything I could have written would never have
-      convinced the world.”
-
-It is of great interest to learn that Wallace as well as Darwin was
-directed to natural selection by Malthus’ Essay. Hence, as the late
-Professor Milnes Marshall has pointed out (Lectures on the Darwinian
-Theory, pp. 212, 213), the laws of the multiplication and extinction
-of man suggested to both naturalists those more general laws by which
-it was possible to understand the development of the whole animal and
-vegetable worlds.
-
-There is a tremendous contrast between these two discoverers, in
-the speed with which they respectively developed their ideas on the
-subject into a shape which satisfied them as suitable for publication.
-Wallace, after the inspiration which followed his reflections upon
-Malthus, had “thought out almost the whole of the theory” in two hours,
-and in three evenings had completed his essay. Darwin, receiving the
-same inspiration from the same source, in October 1838, wrote a brief
-account of it after four years’ reflection and work, and finished a
-longer account two years later, but was not prepared to give anything
-to the public until he was compelled to do so fourteen years later
-in 1858. All this delay was of the greatest advantage when a full
-exposition of the theory finally came before the world in the “Origin
-of Species”; for all difficulties had been fully considered and
-answered beforehand, while the wealth of new facts by which it was
-supported compelled a respectful hearing for the theory itself.
-
-[Sidenote: WALLACE’S VIEWS.]
-
-Wallace, like Darwin, was convinced of evolution before he discovered
-any principle which supplied a motive cause for the process. This
-conviction is expressed very clearly in his interesting essay already
-alluded to “On the Law which has regulated the Introduction of New
-Species” (Ann. and Mag., Nat. Hist., 1855, p. 184; reprinted without
-alteration in his Essays on Natural Selection). The law he states in
-these words:--
-
-      “Every species has come into existence coincident both in time
-      and space with a pre-existing closely allied species,”
-
-a law which, as he justly claims for it,
-
-      “connects together and renders intelligible a vast number of
-      independent and hitherto unexplained facts. The natural system of
-      arrangement of organic beings, their geographical distribution,
-      their geological sequence, the phenomena of representative and
-      substituted groups in all their modifications, and the most
-      singular peculiarities of anatomical structure, are all explained
-      and illustrated by it, in perfect accordance with the vast mass
-      of facts which the researches of modern naturalists have brought
-      together, and, it is believed, not materially opposed to any of
-      them. It also claims a superiority over previous hypotheses, on
-      the ground that it not merely explains, but necessitates what
-      exists. Granted the law, and many of the most important facts in
-      Nature could not have been otherwise, but are almost as necessary
-      deductions from it, as are the elliptic orbits of the planets
-      from the law of gravitation.”
-
-This important essay is dated by Wallace from Sarawak, Borneo,
-February, 1855.
-
-The conclusions remind us of the words Darwin wrote in his note-book in
-1837. “Led to comprehend true affinities. My theory would give zest to
-recent and Fossil comparative Anatomy.” By his theory Darwin here means
-evolution and not natural selection, which was not discovered by him
-until the end of 1838.
-
-
-
-
-CHAPTER XIII.
-
-CANON TRISTRAM THE FIRST PUBLICLY TO ACCEPT THE THEORY OF NATURAL
-SELECTION (1859).
-
-
-Although the historic meeting at the Linnean Society appeared to
-produce but little effect, one distinguished naturalist publicly
-accepted the theory of natural selection before the publication of “The
-Origin of Species,” and therefore as the direct result of Darwin’s
-and Wallace’s joint paper. This great distinction belongs to Canon
-Tristram, as Professor Newton has pointed out in his Presidential
-Address to the Biological Section of the British Association at
-Manchester in 1887 (“Reports,” p. 727), at the same time expressing the
-hope “that thereby the study of Ornithology may be said to have been
-lifted above its fellows.”
-
-[Sidenote: CANON TRISTRAM’S SUPPORT.]
-
-Canon Tristram’s paper, “On the Ornithology of Northern Africa” (Part
-iii., The Sahara, continued), was published in _The Ibis_, vol. i.,
-October, 1859. The important conclusions alluded to above are contained
-at the end of the section upon the species of desert larks (pp.
-429–433):
-
-      “Writing with a series of about 100 larks of various species from
-      the Sahara before me, I cannot help feeling convinced of the
-      truth of the views set forth by Messrs. Darwin and Wallace in
-      their communications to the Linnean Society, to which my friend
-      Mr. A. Newton last year directed my attention.... It is hardly
-      possible, I should think, to illustrate this theory better than
-      by the larks and chats of North Africa. In all these birds we
-      trace gradual modifications of coloration and of anatomical
-      structure, deflecting by very gentle gradations from the ordinary
-      type; but when we take the extremes, presenting most marked
-      differences.”
-
-These differences, he concludes--
-
-      “have a very direct bearing on the ease or difficulty with which
-      the animal contrives to maintain its existence.”
-
-He then points out, upon the uniform surface of the desert it is
-absolutely necessary that animals shall be protected by their colour:
-
-      “Hence, without exception, the upper plumage of every bird,
-      whether Lark, Chat, Sylvian, or Sandgrouse, and also the fur
-      of all the small mammals, and the skin of all the Snakes and
-      Lizards, is of one uniform isabelline or sand colour. It is
-      very possible that some further purpose may be served by the
-      prevailing colours, but this appears of itself a sufficient
-      explanation. There are individual varieties in depth of hue among
-      all creatures. In the struggle for life which we know to be going
-      on among all species, a very slight change for the better, such
-      as improved means of escaping from its natural enemies (which
-      would be the effect of an alteration from a conspicuous colour
-      to one resembling the hue of the surrounding objects), would
-      give the variety that possessed it a decided advantage over the
-      typical or other forms of the species. Now in all creatures,
-      from Man downwards, we find a tendency to transmit individual
-      varieties or peculiarities to the descendants. A peculiarity
-      either of colour or form soon becomes hereditary when there
-      are no counteracting causes, either from change of climate or
-      admixture of other blood. Suppose this transmitted peculiarity
-      to continue for some generations, especially when manifest
-      advantages arise from its possession, and the variety becomes not
-      only a race, with its variations still more strongly imprinted
-      upon it, but it becomes the typical form of that country.”
-
-Canon Tristram then points out the manner in which he imagines that one
-of the crested larks of the desert has been produced by the survival
-of the lightest coloured individuals, _Galerida abyssinica_ only
-differing in this respect from _G. cristata_ of Europe. Short-billed
-species of the same genus inhabiting hard rocky districts, and
-long-billed inhabiting loose sandy tracts have, he believes, been
-produced by the survival in each case of the forms of bill most suited
-to procure food:
-
-      “Here are only two causes enumerated which might serve to
-      _create_ as it were a new species from an old one, yet they
-      are perfectly natural causes, and such as, I think, must have
-      occurred, and are possibly occurring still. We know so very
-      little of the causes which in the majority of cases make
-      species rare or common, that there may be hundreds of others
-      at work, some even more powerful than these, which go to
-      perpetuate and eliminate certain forms ‘according to natural
-      means of selection.’ But even these superficial causes appear
-      sufficient to explain the marked features of the Desert races,
-      which frequently approach so very closely the typical form, and
-      yet possess such invariably distinctive characteristics, that
-      naturalists seem agreed to elevate them to the rank of species.”
-
-Although the author also declares his belief in the special creation
-of many species--a view put forward as possible by Darwin in the
-“Origin”[G]--and also believed in some direct influence of locality,
-climate, etc., the above quoted passages are a most complete acceptance
-of natural selection, at the same time affording excellent examples of
-its operation.
-
-
-
-
-CHAPTER XIV.
-
-THE PREPARATION OF “THE ORIGIN OF SPECIES” (1858–59).
-
-
-Almost immediately after the Linnean Society meeting, and evidently
-earlier than September, the time mentioned in his “Autobiography,”
-Darwin began to prepare a longer and more complete account of his work
-on evolution and natural selection. This account was at first intended
-for the Linnean Society, but it was soon found to be too long, and he
-then decided to publish it as an independent volume. In thus preparing
-the manuscript for what afterwards became the “Origin of Species,”
-Darwin tells us (“Autobiography”) he acted under “the strong advice of
-Lyell and Hooker,” and his letters also show the great interest that
-they were taking in the work.
-
-Darwin seems to have found the “Origin”--or his “Abstract,” as he
-always calls it--very hard work, and he ends his letter to Wallace
-(January 25th, 1859) with the words:
-
-      “I look at my own career as nearly run out. If I can publish my
-      Abstract and perhaps my greater work on the same subject, I shall
-      look at my course as done.”
-
-At the same time, so great was his enthusiasm and interest, in spite
-of the hard work and ill-health, that all through this period he was
-making fresh observations whenever an opportunity occurred. Thus we
-find him writing to Hooker about the thistle-down blown out to sea and
-then back to shore again; about the migrations of slave-making ants
-which he had been watching; about the bending of the pistil into the
-line of the gangway leading to the honey when this latter “is secreted
-at one point of the circle of the corolla,” etc. And on March 2nd,
-1859, he writes about “an odd, though very little, fact”:--Large nuts
-had been found in the crops of some nestling Petrels at St. Kilda,
-which he suspected the parent birds had picked up from the Gulf Stream.
-He arranged for one of these to be sent, and asked Hooker for the name
-and country. He asks forgiveness for the trouble, “for it is a funny
-little fact after my own heart.” The nuts turned out to be West Indian.
-
-When the proposal for publication had been accepted by Murray and the
-manuscript was assuming its final form, the letters to Hooker were more
-frequent than ever. Writing on May 11th, 1859, Darwin again raises the
-question of the relative importance of variation and selection.
-
-      “I imagine from some expressions ... that you look at variability
-      as some necessary contingency with organisms, and further that
-      there is some necessary tendency in the variability to go on
-      diverging in character or degree. _If you do_, I do not agree.”
-
-Darwin’s splendid confidence in the future appears in a letter written
-about this time (September 2, 1859) in which he begs Lyell not to
-commit himself “to go a certain length and no further; for,” he says,
-“I am deeply convinced that it is absolutely necessary to go the whole
-vast length, or stick to the creation of each separate species.” He
-asks Lyell to remember that his verdict will probably be of more
-importance than the book itself in influencing the present acceptance
-or rejection of the views. “In the future,” he continues, “I cannot
-doubt about their admittance, and our posterity will marvel as much
-about the current belief as we do about fossil shells having been
-thought to have been created as we now see them.” And again writing
-to Lyell a few days later (September 20th), he says, “I cannot too
-strongly express my conviction of the general truth of my doctrines,
-and God knows I have never shirked a difficulty.”
-
-I have thought it well to bring strong evidence of Darwin’s entire
-confidence in his conclusions, because his writings were so
-extraordinarily balanced and judicial, and the weight he gives to
-opposing considerations so great, that a superficial student might
-imagine that he wrote and argued without any very strong convictions.
-
-The letters to Mr. John Murray, the publisher, are eminently
-characteristic, in the expressions of regret for trouble given, and
-of pleasure at the work done, in the scrupulous care to prevent the
-publisher from feeling committed, if on further acquaintance with the
-manuscript he did not wish to accept it, and in the offer to contribute
-towards the cost of corrections.
-
-[Sidenote: THE “ORIGIN” PUBLISHED.]
-
-The first edition of “The Origin of Species” was published November
-24th, 1859. The edition consisted of 1,250 copies, all of which were
-sold on the day of issue.
-
-The full title of this volume, of which Darwin justly says
-(“Autobiography”), “It is no doubt the chief work of my life,” is
-reproduced below.
-
-                                  ON
-
-                         THE ORIGIN OF SPECIES
-
-                    BY MEANS OF NATURAL SELECTION,
-
-                                OR THE
-
-            PRESERVATION OF FAVOURED RACES IN THE STRUGGLE
-                               FOR LIFE.
-
-                       BY CHARLES DARWIN, M.A.,
-
-      FELLOW OF THE ROYAL, GEOLOGICAL, LINNEAN, ETC., SOCIETIES;
-   AUTHOR OF “JOURNAL OF RESEARCHES DURING H.M.S. ‘BEAGLE’S’ VOYAGE
-                           ROUND THE WORLD.”
-
-This title is of interest, as has been pointed out by Professor E. Ray
-Lankester, in relation to the controversy upon the exact meaning of the
-word “Darwinism.” Some writers have argued that the term “Darwinism”
-includes the whole of the causes of evolution accepted by Darwin--the
-supposed inherited effects of use and disuse and the direct influence
-of environment, which find a subordinate place in the “Origin,” as
-well as natural selection, which is the real subject of the book and
-which is fully defined in the title. It would seem appropriate to
-use the term “Darwinism,” as Wallace uses it, to indicate the causes
-of evolution which were suggested by Darwin himself, excluding these
-supposed causes which had been previously brought forward by earlier
-writers, and especially by Lamarck. The causes of evolution proposed
-by Lamarck are seriously disputed, and it is possible that they may
-be ultimately abandoned. If so, the integrity of “Darwinism,” as
-interpreted by some controversialists, would be impaired; and this, it
-will be generally admitted, would be most unfortunate, as well as most
-unfair to the memory of Darwin.
-
-
-
-
-CHAPTER XV.
-
-THE ORIGIN OF SPECIES (1859).
-
-
-[Sidenote: THE ORIGIN OF SPECIES.]
-
-It is very interesting to separate the two arguments which occur
-interwoven in the “Origin”--the argument for evolution and the
-argument for natural selection. The paramount importance of Darwin’s
-contributions to the evidences of organic evolution are often forgotten
-in the brilliant theory which he believed to supply the motive cause
-of descent with modification. Organic evolution had been held to be
-true by certain thinkers during many centuries; but not only were
-its adherents entirely without a sufficient motive cause, but their
-evidences of the process itself were erroneous or extremely scanty.
-It was Darwin who first brought together a great body of scientific
-evidence which placed the process of evolution beyond dispute, whatever
-the causes of evolution may have been. And accordingly we find that,
-even at first, natural selection was attacked far more generally than
-the doctrine of descent with modification.
-
-In Chapter I., Variation under Domestication and man’s power of
-selection in forming breeds of animals and plants are discussed; in
-Chapter II., Variation under Nature; in Chapter III., the Struggle for
-Existence; in Chapter IV., which Darwin, in writing to his publisher,
-called “the Keystone of my Arch,” the three preceding chapters are
-carried to their conclusion, and the operation of natural selection
-is explained and discussed. Hence, these four chapters deal almost
-exclusively with this process.
-
-Chapter V. has for its subject the Laws of Variation, and explains
-causes of modification (external conditions, use and disuse,
-correlation, reversion, etc.) other than natural selection and the
-relation of the latter to the former.
-
-In Chapter VI. difficulties are considered--partly those in the way
-of a belief in evolution and partly those which, at first sight, seem
-to be incapable of explanation on the theory of natural selection.
-Chapter VII. deals with a special difficulty of the latter kind, viz.
-Instinct, and shows how it can be accounted for by natural selection
-acting upon variation, although allowing some weight to the inheritance
-of habit. Chapter VIII. deals with Hybridism, the sterility of first
-crosses and of hybrids being considered as an objection to the doctrine
-of Descent with Modification. Chapter IX. treats of the Imperfection
-of the Geological Record as the explanation of the apparently
-insufficient evidence of evolution during past ages. Chapter X., on the
-Geological succession of Organic Beings, shows that, allowing for this
-Imperfection of Record, the facts brought to light by Geology support a
-belief in evolution and in some cases even in natural selection. Hence
-these five chapters deal partly with difficulties in the way of an
-acceptance of organic evolution and partly with those encountered by
-natural selection.
-
-Of the three remaining chapters before the XIVth, and last, which
-contains the Recapitulation and Conclusion, two--XI. and XII.--are
-concerned with Geographical distribution, while the XIIIth deals with
-Classification, Morphology, Embryology and Rudimentary Organs. These
-three chapters are almost entirely devoted to the proof that the facts
-of Nature with which they deal are not inconsistent with, but rather
-support, and often strongly support, a belief in Organic Evolution.
-
-Hence we see that this, incomparably the greatest work which the
-biological sciences have seen, begins with an explanation and defence
-and definition of the sphere of natural selection--then passes to
-consider difficulties which are partly those of natural selection, and
-partly of organic evolution--while it finally treats of the evidences
-of the latter process and the difficulties which a belief in it
-encounters.
-
-This arrangement was a very wise one for a book which was intended to
-convince a large circle of readers; for the human mind so craves after
-an explanation, that it was of more importance for the success of the
-work to show first that an intelligible cause of evolution had been
-proposed, than to follow the more logical order of first setting forth
-the evidences of evolution.
-
-The second edition (fifth thousand) was issued in January, 1860, the
-third (seventh thousand) in 1861, the fourth (eighth thousand) in 1866,
-the fifth (tenth thousand) in 1869, the sixth in 1872: in 1887 the
-twenty-fourth thousand was reached.
-
-A note to the last edition states that the second “was little more
-than a reprint of the first. The third edition was largely corrected
-and added to, and the fourth and fifth still more largely.” The sixth
-edition also contains “numerous small corrections,” and is about
-one-fourth larger than the first edition, although this material is,
-owing to the smaller print and more crowded lines, compressed into a
-smaller number of pages. The sixth edition also differs from the first
-in containing a glossary, an historical sketch, and a note and list of
-the chief corrections.
-
-The titles of Chapters I., II., and III. remain the same in the first
-and last editions. Herbert Spencer’s phrase is added to Darwin’s
-term, as the heading of Chapter IV., which accordingly becomes in the
-last edition “Natural Selection; or the Survival of the Fittest.”
-This change was certainly introduced in order to help readers to
-grasp the meaning of Darwin’s title, which had been very generally
-misunderstood. The heading of Chapter V. remains the same, while in
-Chapter VI.--“Difficulties on Theory”--“on” is replaced by “of the.”
-This chapter is, in the last edition, succeeded by a new one dealing
-with many of the difficulties which had been raised or had occurred
-to Darwin in the interval between the two editions; it is headed
-“Miscellaneous Objections to the Theory of Natural Selection.” The
-titles of the remaining eight chapters are unchanged.
-
-The first part of the title of the first edition--“On the Origin of
-Species”--becomes “The Origin of Species” in the last edition, and is
-still further shortened to “Origin of Species” on the outside of the
-volume.
-
-The form of the earlier editions was admirably suited for the purpose
-of attracting, and--so far as was possible with so difficult a
-subject--convincing, a large number of readers. When the subject
-was new and strange, the more numerous details of the last edition,
-and the smaller print which became necessary, would have acted as a
-hindrance to the complete success of the work. Authors and publishers
-are sometimes apt to forget that the form of a book has a great deal to
-do with the absorption of the ideas contained in it, especially when
-the argument is from the nature of the case difficult to follow, and
-the subject a new one. Francis Darwin in the “Life and Letters” justly
-condemns the unattractive form of the sixth edition of the work.
-
-
-
-
-CHAPTER XVI.
-
-THE INFLUENCE OF DARWIN UPON LYELL (1859–64).
-
-
-In considering the reception of the “Origin of Species,” it will
-be well first to show its effect upon Darwin’s intimate scientific
-friends, most of whom had been familiar with his work for many years,
-and then to deal with its effects upon biologists generally, especially
-those of Darwin’s own country.
-
-The gradual strengthening of Darwin’s influence over his old teacher
-Lyell, is one of the most interesting episodes in the personal history
-of the scientific men of this century.
-
-[Sidenote: LYELL’S SLOW CONVERSION.]
-
-Lyell, after reading the proof-sheets of the “Origin,” wrote on
-October 3rd, 1859, praising the work very warmly, and suggesting a few
-improvements, some of which were adopted. Lyell hesitated to accept
-the theory, because he saw clearly that it would be impossible to stop
-short at the human species, while a common origin of men and beasts was
-distasteful to him. Thus, he said:--
-
-      “I have long seen most clearly that if any concession is made,
-      all that you claim in your concluding pages will follow. It is
-      this which has made me so long hesitate, always feeling that
-      the case of man and his races, and of other animals, and that
-      of plants is one and the same, and that if a ‘vera causa’ be
-      admitted for one, instead of a purely unknown and imaginary one,
-      such as the word ‘Creation,’ all the consequences must follow.”
-
-To this letter Darwin replied (October 11th) at great length, in a most
-instructive letter, arguing in considerable detail on all the points
-alluded to by Lyell. He evidently thought that Lyell’s opinion was of
-the utmost importance for the success of Natural Selection. “If ever
-you are [perverted],” he wrote at the end of the letter, “I shall know
-that the theory of Natural Selection is, in the main, safe.”
-
-About this time Darwin seems to have heard that Lyell had made up his
-mind to admit the doctrine of evolution into a new edition of the
-“Manual,” and he wrote (November 23rd):--
-
-      “I honour you most sincerely. To have maintained in the position
-      of a master, one side of a question for thirty years, and then
-      deliberately give it up, is a fact to which I much doubt whether
-      the records of science offer a parallel.”
-
-Lyell’s public confession of faith was, however, not to be made for
-some years, and Darwin’s letter was a little premature.
-
-Space will not permit me to quote from the long correspondence
-with Lyell in the years following the appearance of the “Origin,”
-although these letters are of the deepest interest, and deal in the
-most luminous manner with the difficulties of natural selection and
-evolution, as they appeared to one of the acutest intellects of that
-time. The letters soon began to produce an effect, and Darwin wrote
-(September 26th, 1860) to Asa Gray:--
-
-      “I can perceive in my immense correspondence with Lyell, who
-      objected to much at first, that he has, perhaps unconsciously to
-      himself, converted himself very much during the last six months,
-      and I think this is the case even with Hooker. This fact gives me
-      far more confidence than any other fact.”
-
-Later on Darwin evidently became a little annoyed that Lyell still
-delayed to declare his belief one way or the other. Thus he wrote to
-Asa Gray (May 11th, 1863):--
-
-      “You speak of Lyell as a judge; now what I complain of is that
-      he declines to be a judge.... I have sometimes almost wished
-      that Lyell had pronounced against me. When I say ‘me,’ I only
-      mean _change of species by descent_. That seems to me the
-      turning-point. Personally, of course, I care much about Natural
-      Selection; but that seems to me utterly unimportant, compared to
-      the question of Creation _or_ Modification.”
-
-Shortly before this date, on February 24th, he wrote to Hooker in
-much the same style. These communications were called forth by the
-appearance of “The Antiquity of Man,” and it is clear that Darwin’s
-disappointment at Lyell’s suspended judgment was due to their
-correspondence, which had encouraged him to expect some definite
-opinion on the question. “From all my communications with him, I must
-ever think that he has really entirely lost faith in the immortality
-of species,” he wrote in his letter to Hooker. On March 6th he wrote
-to Lyell himself, expressing his disappointment, and again a few days
-later, rather complaining that his work was treated as a modification
-of Lamarck’s:--
-
-      “This way of putting the case ... closely connects Wallace’s and
-      my views with what I consider, after two deliberate readings, as
-      a wretched book, and one from which (I well remember my surprise)
-      I gained nothing.”
-
-When the second edition of “The Antiquity of Man” appeared in a few
-months, there was a significant change in one sentence:--
-
-      “Yet we ought by no means to undervalue the importance of the
-      step which will have been made, should it hereafter become
-      the generally received opinion of men of science (as I fully
-      expect it will) that the past changes of the organic world have
-      been brought about by the subordinate agency of such causes as
-      Variation and Natural Selection.”
-
-The words in parentheses had been added, and constituted Lyell’s first
-public expression of an opinion in favour of Darwin’s views.
-
-About this time an article appeared in the _Athenæum_ (March 28th,
-1863), attacking the opinions in favour of evolution contained in
-Dr. Carpenter’s work on Foraminifera, and supporting spontaneous
-generation. This was one of the rare occasions on which Darwin entered
-into controversy, and he wrote attacking spontaneous generation, and
-pointing out the numerous classes of facts which are connected by
-an intelligible thread of reasoning by means of his theory. In this
-letter he quoted the altered sentence from the second edition of the
-“Antiquity.” Darwin’s letter was answered in an article (May 2nd) in
-which it was argued that _any_ theory of descent would connect the
-various classes of facts equally well. To this Darwin replied in a
-characteristic letter. It was evident that he was most reluctant to
-continue the controversy, but thought it fair to admit publicly the
-force of his opponent’s arguments.
-
-[Sidenote: ACCESSION OF LYELL.]
-
-In 1864 the Copley Medal of the Royal Society was given to Darwin. At
-the anniversary dinner of the Society, after the meeting at which the
-medals are presented by the President, Sir Charles Lyell in his speech
-made a “confession of faith” as to the “Origin.” Darwin was prevented
-by illness from receiving the medal in person and from being present at
-the dinner.
-
-The tenth edition of the “Principles” was published in 1867 and 1868,
-and in it Lyell clearly stated his belief in evolution. Sir Joseph
-Hooker, in his presidential address to the British Association at
-Norwich in 1868, eloquently spoke of the “new foundation” with which
-Lyell had under-pinned the edifice he had raised, and had thus rendered
-it “not only more secure, but more harmonious in its proportion than
-it was before.” Wallace, too, in an article in the _Quarterly Review_
-(April, 1869), spoke with equal eloquence and force of the significance
-of Lyell’s change of opinion.
-
-Lyell’s death took place in 1875, eleven years after his definite
-acceptance of Darwin’s views. Darwin, in writing to Miss Arabella
-Buckley (now Mrs. Fisher, formerly secretary to Sir Charles Lyell),
-fully acknowledged the deep debt which he owed to Lyell’s teachings:
-“I never forget that almost everything which I have done in science
-I owe to the study of his great works.” Huxley says in his obituary
-of Charles Darwin (reprinted in “Darwiniana,” 1893, p. 268): “It is
-hardly too much to say that Darwin’s greatest work is the outcome of
-the unflinching application to Biology of the leading idea and the
-method applied in the ‘Principles’ to Geology.” Every biologist who
-realises--as who can help realising?--the boundless opportunities which
-Darwin’s work has opened for him, will feel that he too owes a deep
-personal debt to Darwin’s great teacher.
-
-
-
-
-CHAPTER XVII.
-
-INFLUENCE OF DARWIN UPON HOOKER AND ASA GRAY--NATURAL SELECTION AND
-DESIGN IN NATURE (1860–68).
-
-
-Hooker wrote on November 21st, speaking of the “glorious book” in the
-warmest terms. Later on in the year he wrote again in the same spirit,
-but speaking of the difficulty he found in assimilating the immense
-mass of details: “It is the very hardest book to read, to full profits,
-that I ever tried--it is so cram-full of matter and reasoning.” Hooker
-must, however, have been familiar with the arguments and proofs,
-and for this reason did not attempt any detailed discussion. It is
-unnecessary to say more of Hooker’s reception of the “Origin.” During
-their long friendship Darwin had discussed the difficulties and the
-evidences of his theory more fully with him than with any other man;
-and, as “a man sharpeneth the countenance of his friend,” the influence
-of Hooker was one of the most potent forces under which Darwin produced
-the greatest work of his life.
-
-Many years later, when Hooker was awarded, in 1887, the Copley Medal
-of the Royal Society, reviewing his past experiences and work in his
-speech at the anniversary dinner, he concluded by telling us that his
-long and intimate friendship with Charles Darwin was the great event of
-his scientific career.
-
-[Sidenote: ASA GRAY.]
-
-In sending a copy to Asa Gray, he wrote (November 11th):--
-
-      “I fully admit that there are very many difficulties not
-      satisfactorily explained by my theory of descent with
-      modification, but I cannot possibly believe that a false theory
-      would explain so many classes of facts as I think it certainly
-      does explain. On these grounds I drop my anchor, and believe that
-      the difficulties will slowly disappear.”
-
-Asa Gray’s reply was contained in a letter to Hooker, written January
-5th, 1860, four days after reading the “Origin.” He asks that Darwin
-may be told of what he had written. He says that the book “is done in
-a _masterly manner_. It might well have taken twenty years to produce
-it.” He expressed the intention of reviewing the book, and seeing that
-Darwin and Hooker had fair play in America. A little later (January
-23rd) he wrote to Darwin about the American reprint, etc., and spoke of
-the work itself in somewhat greater detail:--
-
-      “The _best part_, I think, is the _whole_, _i.e._ its _plan_
-      and _treatment_, the vast amount of facts and acute inferences
-      handled as if you had a perfect mastery of them.... Then your
-      candour is worth everything to your cause. It is refreshing to
-      find a person with a new theory who frankly confesses that he
-      finds difficulties.... The moment I understood your premisses,
-      I felt sure you had a real foundation to hold on.... I am free
-      to say that I never learnt so much from one book as I have from
-      yours.”
-
-He considered that the attempt to account for the formation of organs
-such as eyes by natural selection, was the weakest point in the book.
-This view is to be explained by his strong teleological convictions.
-
-Although Asa Gray was the great exponent of the “Origin” in America,
-he could not agree with Darwin on one important point--viz. on the
-exclusion of the ordinary conceptions of design in nature by the
-principle of natural selection. He believed that the two conceptions
-could be reconciled, and that design in some way worked in and through
-natural selection. By design is here meant what Huxley called “the
-commoner and coarser form of teleology,” and which he believed to be
-now refuted--“the teleology which supposes that the eye, such as we see
-it in man or one of the higher vertebrata, was made with the precise
-structure it exhibits for the purpose of enabling the animal which
-possesses it to see, has undoubtedly received its death-blow.” Huxley
-goes on to point out that there is a “wider teleology, which ... is
-actually based upon the fundamental proposition of evolution ... that
-the whole world ... is the result of the mutual interaction, according
-to definite laws, of the forces possessed by the molecules of which
-the primitive nebulosity of the universe was composed.” Therefore,
-“a sufficient intelligence could, from a knowledge of the properties
-of the molecules of that vapour, have predicted, say, the state of
-the fauna of Britain in 1869, with as much certainty as one can say
-what will happen to the vapour of the breath on a cold winter’s day.”
-(“Genealogy of Animals,” _The Academy_, 1869, reprinted in “Critiques
-and Addresses,” and quoted in his chapter “On the Reception of the
-‘Origin of Species’” in the “Life and Letters,” Vol. II.)
-
-But at the time of the appearance of the “Origin,” many who sympathised
-with the general drift of the argument were not yet prepared for
-the “wider teleology.” Of these Asa Gray may be taken as the
-representative; and it will be of interest to follow the controversy
-between him and Darwin as regards design and natural selection. The
-recently published “Letters of Asa Gray to Charles Darwin” (Macmillan)
-enable us to follow the correspondence from the side of the great
-American evolutionist.
-
-Writing November 26th, 1860, Darwin refers to one of Asa Gray’s
-articles on the “Origin”:--
-
-      “I grieve to say that I cannot honestly go as far as you do
-      about Design. I am conscious that I am in an utterly hopeless
-      muddle. I cannot think that the world, as we see it, is the
-      result of chance; and yet I cannot look at each separate thing
-      as the result of Design. To take a crucial example, you lead me
-      to infer--that you believe ‘that variation has been led along
-      certain beneficial lines.’ I cannot believe this; and I think
-      you would have to believe, that the tail of the Fantail was led
-      to vary in the number and direction of its feathers in order to
-      gratify the caprice of a few men. Yet if the Fantail had been a
-      wild bird, and had used its abnormal tail for some special end,
-      as to sail before the wind, unlike other birds, everyone would
-      have said, ‘What a beautiful and designed adaptation.’ Again, I
-      say I am, and shall ever remain, in a hopeless muddle.”
-
-Elsewhere Darwin suggested that the pouter pigeon, if it occurred
-wild, and used its inflated crop as a float, would be considered as a
-striking example of design.
-
-This controversy between them continued for many years. We find Asa
-Gray referring to the argument of the pigeons three years later. Thus
-he wrote (September 1st, 1863):--
-
-      “I will consider about fantastic variation of pigeons. I see afar
-      trouble enough ahead quoad design in nature, but have managed to
-      keep off the chilliness by giving the knotty questions a rather
-      wide berth. If I rather avoid, I cannot ignore the difficulties
-      ahead. But if I adopt your view boldly, can you promise me any
-      less difficulties?”
-
-Writing the concluding paragraphs of the “Variations of Animals
-and Plants under Domestication,” Darwin evidently bore in mind his
-controversies on the subject with Asa Gray and Lyell, and the attacks
-of the Duke of Argyll and others. Sending advanced sheets to Asa Gray,
-he wrote on October 16th, 1867:--
-
-      “I finish my book with a semi-theological paragraph, in which I
-      quote and differ from you; what you will think of it, I know not.”
-
-In relation to this interesting controversy, I think it well to quote,
-almost in full, the metaphor by which Darwin enforced his argument that
-the origin of species by natural selection precluded a belief in design
-in nature as it was ordinarily conceived at the time.
-
-This metaphor forms an important part of the conclusion of the work in
-question (“Variation of Animals and Plants,” etc.):
-
-      “The long-continued accumulation of beneficial variations will
-      infallibly have led to structures as diversified, as beautifully
-      adapted for various purposes and as excellently co-ordinated, as
-      we see in the animals and plants around us. Hence I have spoken
-      of selection as the paramount power, whether applied by man to
-      the formation of domestic breeds, or by nature to the production
-      of species. I may recur to the metaphor given in a former
-      chapter: if an architect were to rear a noble and commodious
-      edifice, without the use of cut stone, by selecting from the
-      fragments at the base of a precipice wedged-formed stones for his
-      arches, elongated stones for his lintels, and flat stones for his
-      roof, we should admire his skill and regard him as the paramount
-      power. Now, the fragments of stone, though indispensable to the
-      architect, bear to the edifice built by him the same relation
-      which the fluctuating variations of organic beings bear to the
-      varied and admirable structures ultimately acquired by their
-      modified descendants.
-
-      “Some authors have declared that natural selection explains
-      nothing, unless the precise cause of each slight individual
-      difference be made clear. If it were explained to a savage
-      utterly ignorant of the art of building, how the edifice had been
-      raised stone upon stone, and why wedge-formed fragments were used
-      for the arches, flat stones for the roof, &c.; and if the use of
-      each part and of the whole building were pointed out, it would
-      be unreasonable if he declared that nothing had been made clear
-      to him, because the precise cause of the shape of each fragment
-      could not be told. But this is a nearly parallel case with the
-      objection that selection explains nothing, because we know not
-      the cause of each individual difference in the structure of each
-      being.”
-
-       *       *       *       *       *
-
-      “The shape of the fragments of stone at the base of our precipice
-      may be called accidental, but this is not strictly correct; for
-      the shape of each depends on a long sequence of events, all
-      obeying natural laws.... But in regard to the use to which the
-      fragments may be put, their shape may be strictly said to be
-      accidental....”
-
-In his article in the _Nation_ (March 19th, 1868), Asa Gray criticised
-the metaphor as follows:--
-
-      “But in Mr. Darwin’s parallel, to meet the case of nature
-      according to his own view of it, not only the fragments of rock
-      (answering to variation) should fall, but the edifice (answering
-      to natural selection) should rise, irrespective of will or
-      choice!”
-
-This passage is quoted in the “Life and Letters” (Vol. III., p. 84),
-and Francis Darwin makes the convincing reply:--
-
-      “But my father’s parallel demands that natural selection shall be
-      the architect, not the edifice--the question of design only comes
-      in with regard to the form of the building materials.”
-
-Darwin’s reply was contained in his letter to Asa Gray dated May 8th,
-1868:--
-
-      “You give a good slap at my concluding metaphor: undoubtedly I
-      ought to have brought in and contrasted natural and artificial
-      selection; but it seemed so obvious to me that natural selection
-      depended on contingencies even more complex than those which
-      must have determined the shape of each fragment at the base
-      of my precipice. What I wanted to show was that, in reference
-      to pre-ordainment, whatever holds good in the formation of an
-      English pouter-pigeon holds good in the formation of a natural
-      species of pigeon. I cannot see that this is false. If the right
-      variations occurred, and no others, natural selection would be
-      superfluous.”
-
-To this, Asa Gray replied in his letter of May 25th:--
-
-      “As to close of my article, to match close of your book,--you
-      see plainly I was put on the defence by your reference to an
-      old hazardous remark of mine. I found your stone-house argument
-      unanswerable in substance (for the notion of design must after
-      all rest mostly on faith, and on accumulation of adaptations,
-      &c.); so all I could do was to find a vulnerable spot in the
-      shaping of it, fire my little shot, and run away in the smoke.
-
-      “Of course I understand your argument perfectly, and feel the
-      might of it.”
-
-From this last letter I think we may conclude that Asa Gray’s
-feelings on this subject rested, as he says, “on faith,” and that,
-intellectually, he saw no way of meeting Darwin’s arguments.
-
-
-
-
-CHAPTER XVIII.
-
-INFLUENCE OF DARWIN UPON HUXLEY.
-
-
-[Sidenote: HUXLEY AND NATURAL SELECTION.]
-
-It is of the utmost interest to trace the influence of Darwin upon
-Huxley, his great General in the numerous controversial battles which
-had to be fought before the new views were to secure a fair hearing
-and, at length, complete success. Now that we are quietly enjoying the
-fruit of his many victories, we are apt to forget how much we owe to
-Huxley, not only for evolution, but for that perfect freedom in the
-expression of thought and opinion which we enjoy. For Huxley fought
-on wider issues than those raised by evolution, wide as these are;
-and with a success so great that it is inconceivable that any new and
-equally illuminating thought which the future may hold in store for
-us, will meet with a reception like that accorded to the “Origin of
-Species.”
-
-At first sight it seems a simple matter to describe the effect of the
-“Origin” upon Huxley, considering that he, more than any other man,
-expounded it, and defended it from the most weighty of the attacks made
-upon it. Hence, it is only natural to believe, as many have done, that
-he was in entire agreement with the conclusions of the book as regards
-natural selection as well as evolution. On the other hand, the opinion
-has often been expressed that Huxley, although agreeing with the
-“Origin” for some years after its first appearance, changed his mind in
-later years, and no longer supported Darwin’s views.
-
-I shall give reasons for rejecting both these opinions about Huxley,
-although the first is far nearer the truth than the second. The
-latter is clearly untenable, and was probably merely an inference
-from the fact that after a time Huxley ceased to enter into Darwinian
-controversies. But this was because he had done his work with entire
-success, and therefore turned his attention in other directions.
-Whenever he was called on to write or speak about Darwinism, as he was
-on two occasions within a few months of his death, his writings and
-speeches left no doubt about his thoughts on the subject. Furthermore,
-in the Preface to “Darwiniana,” written in 1893, he expressly denied
-that he had recanted or changed his opinions about Darwin’s views.
-
-In order to appreciate the influence of Darwin upon Huxley, we must
-find out the beliefs of the latter upon the “species question” before
-the appearance of the “Origin.” In his chapter “On the Reception of
-the ‘Origin of Species’” (“Life and Letters,” Vol. II.) Huxley says
-that, before 1858, he took up an agnostic position as regards evolution
-“... upon two grounds: firstly, that up to that time, the evidence in
-favour of transmutation was wholly insufficient; and, secondly, that no
-suggestion respecting the causes of the transmutation assumed, which
-had been made, was in any way adequate to explain the phenomena.” It
-is obvious that these two grounds are entirely distinct, and that the
-logical foundation of the first is far more secure than that of the
-second.
-
-The effect of the “Origin” was completely to convince Huxley on the
-first ground: from that time he never doubted the truth of evolution,
-however it may have been brought about. With regard to the second
-ground, it is quite clear that Huxley had a very high opinion of
-natural selection: he thought it incomparably the best suggestion upon
-the subject that had ever been made, and he firmly believed that it
-accounted for something--that it may even have taken a dominant part
-in bringing about evolution. On the other hand, he never felt quite
-confident about the entire sufficiency of the evidence in its favour.
-It is probable that he was far more interested in the establishment
-of evolution as a fact than in natural selection as an explanation of
-it. He saw the vast amount of research in all kinds of new or almost
-neglected lines, which would be directly inspired by evolution. And his
-own investigations in some of these lines soon afforded some of the
-most weighty evidence in favour of the doctrine. Natural selection had
-not the same personal interest for him; no one has expounded it better
-or defended it more vigorously and successfully, but Huxley’s own
-researches never lay in directions which would have made them available
-as a test of the theory. Of natural selection he might have used the
-words of Mercutio--it may not be “so deep as a well, nor so wide as a
-church door,” to contain the whole explanation of evolution, “but ’tis
-enough ’twill serve”; it will, at any rate, prevent him from feeling
-the second ground on which he had maintained an agnostic position.
-
-I believe that he maintained these views with inflexible consistency
-throughout his life, the only indications of change being in the last
-year, when the contrast between his certainty of evolution and his
-uncertainty of natural selection, as expressed in the two speeches
-quoted on pp. 140, 141, was, perhaps, more sharply marked than at any
-other period.
-
-It is now proposed to support this conclusion by many extracts from
-Huxley’s writings, as well as from his speeches, which have been
-alluded to above. The deep interest of the subject, and the wide
-differences of opinion with regard to it, justify, and indeed demand,
-copious quotations selected from works and speeches, written and spoken
-at many different times during the years between 1858 and 1894.
-
-It may not be out of place to emphasise the fact that the sole
-responsibility for the conclusions here drawn rests with the author of
-this volume, and that the evidence on which the conclusions rest is
-supplied in full.
-
-About a month before the “Origin” was published, Darwin wrote to
-Professor Huxley asking for the names of foreigners to whom to send his
-book. This communication is of great interest as being the earliest
-letter, accessible to the public, which he wrote to Huxley. In it he
-says: “I shall be _intensely_ curious to hear what effect the book
-produces on you”; but he evidently thought that Huxley would disagree
-with much in it, and must have been surprised as well as gratified at
-the way in which it was received. In his chapter “On the Reception of
-the ‘Origin of Species’” (“Life and Letters,” Vol. II.), Huxley writes:
-“My reflection, when I first made myself master of the central idea of
-the ‘Origin,’ was, ‘How extremely stupid not to have thought of that.’”
-
-Huxley replied on November 23rd, 1859--the day before the publication
-of the “Origin”--saying that he had finished the book on the previous
-day. His letter was a complete acceptance of evolution as apart from
-any theory which may account for it; and a thorough agreement with
-natural selection as a “true cause for the production of species.”
-At no time in his life did he state how far he considered natural
-selection to be a sufficient cause. He was only “prepared to go to the
-stake, if requisite, in support of” the chapters which marshal the
-evidence for evolution (ix., and most parts of x., xi., and xii.).
-
-With regard to the earlier chapters, which propound the theory of
-natural selection, his exact words are:--
-
-      “As to the first four chapters, I agree thoroughly and fully
-      with all the principles laid down in them. I think you have
-      demonstrated a true cause for the production of species, and have
-      thrown the _onus probandi_, that species did not arise in the way
-      you suppose, on your adversaries.”
-
-Darwin replied with much warmth, and expressed himself as “Now
-contented and able to sing my _Nunc Dimittis_.”
-
-In the _Times_ of December 26th, 1859, appeared a masterly article upon
-the “Origin,” and, after a time, it became known that Huxley was its
-author. Volume II. of the “Life and Letters” explains the circumstances
-under which the review was written. The article is reprinted as the
-first essay (“The Darwinian Hypothesis,” I.) in “Darwiniana” (Vol.
-II. of the “Collected Essays of Professor Huxley,” London, 1893). The
-following quotation (pp. 19, 20) shows the attitude he took up with
-regard to natural selection:--
-
-      “That this most ingenious hypothesis enables us to give a reason
-      for many apparent anomalies in the distribution of living
-      beings in time and space, and that it is not contradicted by
-      the main phenomena of life and organisation appear to us to be
-      unquestionable; and, so far, it must be admitted to have an
-      immense advantage over any of its predecessors. But it is quite
-      another matter to affirm absolutely either the truth or falsehood
-      of Mr. Darwin’s views at the present stage of the enquiry. Goethe
-      has an excellent aphorism defining that state of mind which he
-      calls “Thätige Skepsis”--active doubt. It is doubt which so loves
-      truth that it neither dares rest in doubting, nor extinguish
-      itself by unjustified belief; and we commend this state of mind
-      to students of species, with respect to Mr. Darwin’s or any other
-      hypothesis as to their origin. The combined investigations of
-      another twenty years may, perhaps, enable naturalists to say
-      whether the modifying causes and the selective power, which Mr.
-      Darwin has satisfactorily shewn to exist in Nature, are competent
-      to produce all the effects he ascribes to them; or whether,
-      on the other hand, he has been led to over-estimate the value
-      of the principle of natural selection, as greatly as Lamarck
-      over-estimated his _vera causa_ of modification by exercise.”
-
-Of all the statements about natural selection made by Huxley, this one
-seems to me the nearest to the spirit of the two speeches he made in
-1894, in which it became evident that the intervening thirty-five years
-had not brought the increased confidence he had hoped for. Furthermore,
-in the Preface to “Darwiniana” (1893) he expressly stated that he had
-not changed his mind as regards this article and the next which will be
-considered (see p. 137, where the passage is quoted).
-
-In 1860 Huxley wrote the article on “The Origin of Species” which
-appeared in the _Westminster Review_ for April, and is reprinted in
-“Darwiniana.” He here states the reasons for his doubts about natural
-selection in considerable detail. At the beginning of the essay
-(“Darwiniana,” p. 23) he asserts that--
-
-      “... all competent naturalists and physiologists, whatever their
-      opinions as to the ultimate fate of the doctrines put forth,
-      acknowledge that the work in which they are embodied is a solid
-      contribution to knowledge and inaugurates a new epoch in natural
-      history.”
-
-Towards the end of the essay, after vindicating the logical method
-followed by Darwin, he continues (pp. 73–75):--
-
-      “There is no fault to be found with Mr. Darwin’s method, then;
-      but it is another question whether he has fulfilled all the
-      conditions imposed by that method. Is it satisfactorily proved,
-      in fact, that species may be originated by selection? that
-      there is such a thing as natural selection? that none of the
-      phœnomena exhibited by species are inconsistent with the origin
-      of species in this way? If these questions can be answered
-      in the affirmative, Mr. Darwin’s view steps out of the ranks
-      of hypotheses into those of proved theories; but, so long as
-      the evidence at present adduced falls short of enforcing that
-      affirmation, so long, to our minds, must the new doctrine be
-      content to remain among the former--an extremely valuable, and
-      in the highest degree probable, doctrine, indeed the only extant
-      hypothesis which is worth anything in a scientific point of view;
-      but still a hypothesis, and not yet the theory of species.
-
-      “After much consideration, and with assuredly no bias against Mr.
-      Darwin’s views, it is our clear conviction that, as the evidence
-      stands, it is not absolutely proven that a group of animals,
-      having all the characters exhibited by species in Nature, has
-      ever been originated by selection, whether artificial or natural.
-      Groups having the morphological character of species, distinct
-      and permanent races in fact, have been so produced over and
-      over again; but there is no positive evidence, at present, that
-      any group of animals has, by variation and selective breeding,
-      given rise to another group which was even in the least degree
-      infertile with the first. Mr. Darwin is perfectly aware of this
-      weak point, and brings forward a multitude of ingenious and
-      important arguments to diminish the force of the objection. We
-      admit the value of these arguments to their fullest extent; nay,
-      we will go so far as to express our belief that experiments,
-      conducted by a skilful physiologist, would very probably obtain
-      the desired production of mutually more or less infertile breeds
-      from a common stock, in a comparatively few years; but still, as
-      the case stands at present, this ‘little rift within the lute’ is
-      not to be disguised nor overlooked.”
-
-He concludes with a summary of the results of his argument. The
-sentences which bear on the present question are as follows (pp. 77,
-78):--
-
-      “Our object has been attained if we have given an intelligible,
-      however brief, account of the established facts connected with
-      species, and of the relation of the explanation of those facts
-      offered by Mr. Darwin to the theoretical views held by his
-      predecessors and his contemporaries, and, above all, to the
-      requirements of scientific logic. We have ventured to point
-      out that it does not, as yet, satisfy all those requirements;
-      but we do not hesitate to assert that it was superior to
-      any preceding or contemporary hypothesis, in the extent of
-      observational and experimental basis on which it rests, in its
-      rigorously scientific method, and in its power of explaining
-      biological phenomena, as was the hypothesis of Copernicus to the
-      speculations of Ptolemy. But the planetary orbits turned out to
-      be not quite circular after all, and, grand as was the service
-      Copernicus rendered to science, Kepler and Newton had to come
-      after him. What if the orbit of Darwinism should be a little
-      too circular? what if species should offer residual phenomena,
-      here and there, not explicable by natural selection? Twenty
-      years hence naturalists may be in a position to say whether this
-      is, or is not, the case; but in either event they will owe the
-      author of ‘The Origin of Species’ an immense debt of gratitude.
-      We should leave a very wrong impression on the reader’s mind if
-      we permitted him to suppose that the value of that work depends
-      wholly on the ultimate justification of the theoretical views
-      which it contains. On the contrary, if they were disproved
-      to-morrow, the book would still be the best of its kind--the
-      most compendious statements of well-sifted facts bearing on the
-      doctrine of species that has ever appeared.”
-
-It is clear that two very distinct points are urged in this criticism
-of natural selection--(1) the difficulty that selective methods
-applied by man have not as yet produced all the characteristics of
-true species; (2) supposing the latter difficulty to be surmounted or
-sufficiently explained, the uncertainty as to how much or how little of
-the process of evolution has been due to natural selection.
-
-Later in the same year Darwin seems to have been a little disappointed
-that Huxley’s confidence did not increase. Thus, he wrote on December
-2nd, 1860:--
-
-      “I entirely agree with you that the difficulties on my notions
-      are terrific; yet having seen what all the _Reviews_ have said
-      against me, I have far more confidence in the _general_ truth
-      of the doctrine than I formerly had. Another thing gives me
-      confidence--viz. that some who went half an inch with me now go
-      further, and some who were bitterly opposed are now less bitterly
-      opposed. And this makes me feel a little disappointed that you
-      are not inclined to think the general view in some slight degree
-      more probable than you did at first. This I consider rather
-      ominous. Otherwise I should be more contented with your degree
-      of belief. I can pretty plainly see that if my view is ever to
-      be generally adopted, it will be by young men growing up and
-      replacing the old workers, and then young ones finding that they
-      can group facts and search out new lines of investigation better
-      on the notion of descent than on that of creation.”
-
-In 1863 Huxley delivered a course of lectures to working men on “The
-Causes of the Phenomena of Organic Nature”; here, too, he expressed
-his opinions about natural selection with great clearness and force.
-These lectures are reprinted as the concluding part of “Darwiniana,”
-and the references are to the pages of that volume of his collected
-essays.
-
-On page 464 we read--
-
-      “Here are the phenomena of Hybridism staring you in the face, and
-      you cannot say, ‘I can, by selective modification, produce these
-      same results.’ Now, it is admitted on all hands, at present, so
-      far as experiments have gone, it has not been found possible
-      to produce this complete physiological divergence by selective
-      breeding.... If we were shewn that this must be the necessary and
-      inevitable results of all experiments, I hold that Mr. Darwin’s
-      hypothesis would be utterly shattered.”
-
-He then goes on to show that this is very far from proved, and
-concludes (page 466)--
-
-      “that though Mr. Darwin’s hypothesis does not completely
-      extricate us from this difficulty at present, we have not the
-      least right to say it will not do so.”
-
-A passage on page 467 shows that Huxley placed natural selection
-infinitely higher than any other attempt to account for evolution, and
-indeed that he regarded all other attempts with scorn.
-
-      “I really believe that the alternative is either Darwinism or
-      nothing, for I do not know of any rational conception or theory
-      of the Organic universe which has any scientific position at all
-      beside Mr. Darwin’s.... Whatever may be the objections to his
-      views, certainly all other theories are absolutely out of court.”
-
-On page 468 he continues--
-
-      “But you must recollect that when I say I think it is either Mr.
-      Darwin’s hypothesis or nothing; that either we must take his
-      view, or look upon the whole of organic nature as an enigma, the
-      meaning of which is wholly hidden from us; you must understand
-      that I mean that I accept it provisionally, in exactly the same
-      way as I accept any other hypothesis.”
-
-He concludes the lectures and the volume in which they are now
-reproduced by the following eloquent testimony to the unique value of
-the “Origin of Species”:--
-
-      “I believe that if you strip it of its theoretical part it still
-      remains one of the greatest encyclopædias of biological doctrine
-      that any one man ever brought forth, and I believe that, if you
-      take it as the embodiment of an hypothesis, it is destined to be
-      the guide of biological and psychological speculation for the
-      next three or four generations.”
-
-The next essay from which I quote was written in 1871. At the beginning
-of “Mr. Darwin’s Critics” (“Darwiniana,” p. 120) he uses words which,
-if they stood alone, might be interpreted as an indication of a
-stronger conviction.
-
-      “Whatever may be thought or said about Mr. Darwin’s doctrines, or
-      the manner in which he has propounded them, this much is certain,
-      that, in a dozen years, the ‘Origin of Species’ has worked as
-      complete a revolution in biological science as the ‘Principia’
-      did in astronomy--and it has done so, because, in the words of
-      Helmholtz, it contains an ‘essentially new creative thought.’”
-
-This last quotation, and the following one, from “Evolution in
-Biology,” written in 1878, are, I think, among the strongest
-utterances in favour of natural selection to be found in the Collected
-Essays. At the conclusion of the above-named essay (_l. c._, p. 223) he
-states that it was clearly seen that--
-
-      “if the explanation would apply to species, it would not
-      only solve the problem of their evolution, but that it would
-      account for the facts of teleology, as well as for those of
-      morphology;...”
-
-      “How far ‘natural selection’ suffices for the production of
-      species remains to be seen. Few can doubt that, if not the whole
-      cause, it is a very important factor in that operation; and that
-      it must play a great part in the sorting out of varieties into
-      those which are transitory and those which are permanent.”
-
-The seventh essay, “The Coming of Age of ‘The Origin of Species,’” was
-written in 1880. His complete confidence in evolution, as shown in this
-essay, may be contrasted with his cautious statements about natural
-selection. He boldly affirms evolution to be the fundamental doctrine
-of the “Origin of Species,” while natural selection is, I believe,
-neither mentioned nor even alluded to. On this great occasion he thus
-emphasised the immense debt we owe to Darwin in that he was the first
-to produce adequate evidence in favour of the ancient doctrine of
-evolution, a benefit quite distinct from that which he conferred in the
-theory of natural selection (see pp. 100–102).
-
-The following are among the most confident statements about evolution
-to be found in this essay. Speaking of the “Origin,” he says (p.
-229):--
-
-      “... the general doctrine of evolution, to one side of which it
-      gives expression, obtains, in the phenomena of biology, a firm
-      base of operations whence it may conduct its conquest of the
-      whole realm of nature.”
-
-And again, on page 332:--
-
-      “The fundamental doctrine of the ‘Origin of Species,’ as of all
-      forms of the theory of evolution applied to biology, is ‘that
-      the innumerable species, genera, and families of organic beings
-      with which the world is peopled have all descended, each within
-      its own class or group, from common parents, and have all been
-      modified in the course of descent.’”
-
-Furthermore, on page 242 we read:--
-
-      “I venture to repeat what I have said before, that so far as the
-      animal world is concerned, evolution is no longer a speculation,
-      but a statement of historical fact. It takes its place alongside
-      of those accepted truths which must be reckoned with by
-      philosophers of all schools.”
-
-And on the same page he quotes with approval the statement by M.
-Filhol of the results to which he had been led by his palæontological
-investigations:--
-
-      “Under the influence of natural conditions of which we have no
-      exact knowledge, though traces of them are discoverable, species
-      have been modified in a thousand ways: species have arisen which,
-      becoming fixed, have thus produced a corresponding number of
-      secondary species.”
-
-Similarly, in the Obituary notice in _Nature_ (1882), Huxley speaks
-of the secure position in which Darwin had placed the doctrine of
-evolution as his great achievement. The following eloquent passage
-occurs on page 247 of “Darwiniana”:--
-
-      “None have fought better, and none have been more fortunate, than
-      Charles Darwin. He found a great truth trodden underfoot, reviled
-      by bigots, and ridiculed by all the world; he lived long enough
-      to see it, chiefly by his own efforts, irrefragibly established
-      in science,...”
-
-In the impressive speech in which Huxley handed over the statue of
-Darwin to the Prince of Wales, as representative of the Trustees of
-the British Museum, on June 9th, 1885 (“Darwiniana,” p. 248), the
-references to Darwin are most consistent with the view that the support
-to evolution was held by the speaker to be the great work of his life.
-Natural selection is not mentioned.
-
-The next publication on this subject by Huxley is the celebrated
-chapter “On the Reception of the ‘Origin of Species,’” in the second
-volume of the great “Life and Letters.” In this chapter he speaks
-rather more confidently about natural selection than in some of the
-earlier essays and in the later speeches:--
-
-      “The reality and the importance of the natural processes on which
-      Darwin founds his deductions are no more doubted than those
-      of growth and multiplication; and, whether the full potency
-      attributed to them is admitted or not, no one doubts their vast
-      and far-reaching significance.”
-
-But of evolution he speaks far more strongly:--
-
-      “To any one who studies the signs of the times, the emergence
-      of the philosophy of Evolution, [“bound hand and foot and
-      cast into utter darkness during the millennium of theological
-      scholasticism”] in the attitude of claimant to the throne of the
-      world of thought, from the limbo of hated and, as many hoped,
-      forgotten things, is the most portentous event of the nineteenth
-      century.”
-
-And for this he gives Darwin the credit.
-
-Later on he indicates the sense in which his keen appreciation of
-natural selection is to be understood. Thus, such strong statements as--
-
-      “... the publication of the Darwin and Wallace papers in 1858,
-      and still more that of the ‘Origin’ in 1859, had the effect ...
-      of the flash of light, which to a man who has lost himself in a
-      dark night, suddenly reveals a road which, whether it takes him
-      straight home or not, certainly goes his way”;
-
-and--
-
-      “The facts of variability, of the struggle for existence, of
-      adaptation to conditions, were notorious enough; but none of
-      us had suspected that the road to the heart of the species
-      problem lay through them, until Darwin and Wallace dispelled
-      the darkness, and the beacon-fire of the ‘Origin’ guided the
-      benighted,”
-
-if they stood alone, might naturally be interpreted as an unqualified
-testimony to the permanent truth of natural selection. But this
-interpretation is expressly excluded:--
-
-      “Whether the particular shape which the doctrine of evolution, as
-      applied to the organic world, took in Darwin’s hands, would prove
-      to be final or not, was, to me, a matter of indifference. In my
-      earliest criticisms of the ‘Origin’ I ventured to point that its
-      logical foundation was insecure ...; and that insecurity remains.”
-
-Its value for Huxley was that it was “incomparably more probable than
-the creation hypothesis”; that it was “a hypothesis respecting the
-origin of known organic forms, which assumed the operation of no causes
-but such as could be proved to be actually at work”; that it provided
-“clear and definite conceptions which could be brought face to face
-with facts and have their validity tested”; that it freed us “for ever
-from the dilemma--refuse to accept the creation hypothesis, and what
-have you to propose that can be accepted by any cautious reasoner?”
-Indeed, the hypothesis did away with this dilemma, even if it were
-itself to disappear; for “if we had none of us been able to discern
-the paramount significance of some of the most patent and notorious of
-natural facts, until they were, so to speak, thrust under our noses,
-what force remained in the dilemma--creation or nothing? It was obvious
-that, hereafter, the probability would be immensely greater, that
-the links of natural causation were hidden from our purblind eyes,
-than that natural causation should be incompetent to produce all the
-phenomena of nature.”
-
-Therefore, “the only rational course for those who had no other object
-than the attainment of truth, was to accept ‘Darwinism’ as a working
-hypothesis, and see what could be made of it.” Furthermore, “Whatever
-may be the ultimate fate of the particular theory put forth by Darwin,
-... all the ingenuity and all the learning of hostile critics has not
-enabled them to adduce a solitary fact, of which it can be said, this
-is irreconcilable with the Darwinian theory.”
-
-Taking this argument as a whole, it seems to me to amount to the words
-of Mercutio quoted at the beginning of this chapter.
-
-In the following year (1888) Huxley wrote the Obituary Notice of
-Darwin for the Proceedings of the Royal Society: it is reprinted in
-“Darwiniana” (pp. 253 _et seq._). In this admirable essay the author
-recognises that Darwin evidently accepted evolution before he could
-offer any explanation of the motive cause by which that process
-took place. The theory of descent with modification had often been
-thought of before, “but in the eyes of the naturalist of the ‘Beagle’
-(and, probably, in those of most sober thinkers), the advocates of
-transmutation had done the doctrine they expounded more harm than
-good.” Huxley speaks of the “Origin” as “one of the hardest books to
-master,” in this agreeing with Hooker (see p. 111).
-
-In this essay Huxley gives a clear and excellent statement of natural
-selection, prefaced by these words (p. 287):--
-
-      “Although, then, the present occasion is not suitable for any
-      detailed criticism of the theory, or of the objections which have
-      been brought against it, it may not be out of place to endeavour
-      to separate the substance of the theory from its accidents; and
-      to shew that a variety not only of hostile comments, but of
-      friendly would-be improvements, lose their _raison d’être_ to the
-      careful student.”
-
-Then follows a brief but epigrammatic description, such as only Huxley
-could have written, of the theory, and some of the chief arguments
-which have revolved round it. Occasionally he speaks as if he were
-stating his own opinion as well as Darwin’s, but throughout it seems
-to me that his object is not to give his own views but to write a fair
-and clear account of Darwin’s theory, and to defend it from a number
-of criticisms and modifications which have been, from time to time,
-brought forward.
-
-“Darwiniana” was published in 1893, and this is the date of the
-Preface, in which Huxley speaks of--
-
-      “... the ancient doctrine of Evolution, rehabilitated and placed
-      upon a sound scientific foundation, since, and in consequence of,
-      the publication of the ‘Origin of Species....’”
-
-He thinks that readers will admit that in the first two essays (see
-pages 124–128 of the present volume)--
-
-      “... my zeal to secure fair play for Mr. Darwin, did not drive
-      me into the position of a mere advocate; and that, while doing
-      justice to the greatness of the argument, I did not fail to
-      indicate its weak points. I have never seen any reason for
-      departing from the position which I took up in these two essays;
-      and the assertion which I sometimes meet with nowadays, that I
-      have ‘recanted’ or changed my opinions about Mr. Darwin’s views,
-      is quite unintelligible to me.”
-
-      “As I have said in the seventh essay, [see pages 131, 132 of the
-      present volume] the fact of evolution is to my mind sufficiently
-      evidenced by palæontology; and I remain of the opinion expressed
-      in the second, that until selective breeding is definitely proved
-      to give rise to varieties infertile with one another, the logical
-      foundation of the theory of natural selection is incomplete.”
-
-It is therefore clear, as I have before stated, that Huxley, in 1893,
-re-stated his criticisms and qualifications of thirty years before,
-and expressed his conviction anew of the validity of the objections
-which he then raised against a full and complete acceptance of natural
-selection.
-
-We now come to the last and most significant of all Huxley’s utterances
-on evolution and natural selection, made on two great occasions in the
-last year of his life. Lord Salisbury, in his eloquent and interesting
-Presidential Address to the British Association at Oxford (August 8th,
-1894), had said of Darwin:--
-
-      “He has, as a matter of fact, disposed of the doctrine of the
-      immutability of species.... Few now are found to doubt that
-      animals separated by differences far exceeding those that
-      distinguish what we know as species have yet descended from
-      common ancestors.”
-
-While thus completely admitting evolution in the organic world, Lord
-Salisbury attacked natural selection on two grounds--first, on the
-insufficiency of the time allowed by physicists for a process which
-is, of necessity, extremely slow in its operation; secondly, on the
-ground that “we cannot demonstrate the process of natural selection in
-detail; we cannot even, with more or less ease, imagine it.” And his
-main objection under this head was the supposed difficulty in securing
-the union of successful variations. The actual words have been already
-quoted on page 83, where it was shown that the criticism does not apply
-to natural selection, but to a theory mistaken by the speaker for that
-of Darwin. Curiously enough, the first objection of the insufficiency
-of time was the indirect cause of a subsequent trenchant criticism by
-Professor Perry of the line of mathematical reasoning on which the
-limit had been fixed.
-
-Huxley was called on to second the vote of thanks, and his speech had
-evidently been considered with the greatest care. I quote the passages
-which bear on evolution and natural selection from the _Times_ of
-August 9th, 1894, in which a _verbatim_ report is furnished:--
-
-      “... As one of those persons who for many years past had made
-      a pretty free use of the comfortable word ‘evolution,’ let him
-      remind them that 34 years ago a considerable discussion, to which
-      the President had referred, took place in one of their sectional
-      meetings upon what people frequently called the ‘Darwinism
-      question,’ but which on that occasion was not the Darwinism
-      question, but the very much deeper question which lay beneath
-      the Darwinism question--he meant the question of evolution....
-      The two doctrines, the two main points, for which these men
-      [Sir John Lubbock, Sir J. Hooker, and the speaker] fought were
-      that species were mutable, and that the great variety of animal
-      forms had proceeded from gradual and natural modification of the
-      comparatively few primitive forms....”
-
-After alluding to the revolution in thought which had taken place in
-thirty-four years, he said:--
-
-      “As he noted in the presidential address to which they had just
-      listened with such well-deserved interest, he found it stated on
-      that which was then and at this time the highest authority for
-      them, that as a matter of fact the doctrine of the immutability
-      of species was disposed of and gone. He found that few were
-      now found to doubt that animals separated by differences far
-      exceeding those which they knew as species were yet descended
-      from a common ancestry. Those were their propositions; those
-      were the fundamental principles of the doctrine of evolution.
-      Darwinism was not evolution, nor Spencerism, nor Hæckelism, nor
-      Weismannism, but all these were built on the fundamental doctrine
-      which was evolution, which they maintained so many years, and
-      which was that upon which their President had put the seal of his
-      authority that evening....”
-
-Huxley thus hailed the statements of the President in favour of
-evolution, while the attacks on natural selection he merely met by
-saying that the address would have made a good subject for discussion
-in one of the sections, and by insisting with impressive solemnity that
-evolution was a very different thing from natural selection, thereby
-implying that the former would be unaffected by the fate of the latter.
-
-The second occasion was between three and four months later, when
-Huxley spoke at the Anniversary Dinner of the Royal Society, November
-30th, 1894, after having been awarded the Darwin Medal at the afternoon
-meeting. I quote his words from the _verbatim_ report of the _Times_
-for December 1st:--
-
-      “... I am as much convinced now as I was 34 years ago that
-      the theory propounded by Mr. Darwin, I mean that which he
-      propounded--not that which has been reported to be his by too
-      many ill-instructed, both friends and foes--has never yet been
-      shewn to be inconsistent with any positive observations, and if
-      I may use a phrase which I know has been objected to and which
-      I use in a totally different sense from that in which it was
-      first proposed by its first propounder, I do believe that on
-      all grounds of pure science it ‘holds the field,’ as the only
-      hypothesis at present before us which has a sound scientific
-      foundation.... I am sincerely of opinion that the views which
-      were propounded by Mr. Darwin 34 years ago may be understood
-      hereafter as constituting an epoch in the intellectual history of
-      the human race. They will modify the whole system of our thought
-      and opinion, our most intimate convictions. But I do not know, I
-      do not think anybody knows, whether the particular views which he
-      held will be hereafter fortified by the experience of the ages
-      which come after us; ... whether the particular form in which
-      he has put them before us (the Darwinian doctrines) may be such
-      as is finally destined to survive or not is more, I venture to
-      think, than anybody is capable at this present moment of saying.”
-
-It is unnecessary to say anything about this passage, which fitly sums
-up and sets the seal on the long series of quotations I have felt
-obliged to make.
-
-It may not be out of place, however, to state in a few words why
-many naturalists, including the present writer, are not inclined to
-accept the extremely cautious and guarded language of one upon whom,
-with regard to so many other subjects, they have ever looked as their
-teacher and guide. Concerning the verification of a hypothesis, Huxley
-said in his lectures to working men (“Darwiniana,” pages 367, 368)--
-
-      “... that the more extensive verifications are,--that the more
-      frequently experiments have been made, and results of the same
-      kind arrived at,--that the more varied the conditions under which
-      the same results are attained, the more certain is the ultimate
-      conclusion....”
-
-And again--
-
-      “In scientific enquiry it becomes a matter of duty to expose a
-      supposed law to every possible kind of verification, and to take
-      care, moreover, that this is done intentionally, and not left to
-      a mere accident....”
-
-It may well be that the length of time required before an
-artificially-selected race will exhibit, when interbred with the parent
-species, phenomena of hybridism similar to those which are witnessed
-when distinct natural species are interbred--will be fatal to the
-production of this important line of evidence. But there is nothing to
-hinder us from holding the reasonable belief that such evidence might
-be obtained if we had command of the necessary conditions; and in the
-meantime other evidence of the most satisfactory kind is accumulating,
-and on a vast scale. Whenever a naturalist approaches a problem in the
-light of the theory of natural selection, and is able, by its aid,
-to predict a conclusion which subsequent investigation proves to be
-correct, he is helping in the production of evidence in favour of the
-theory. When a naturalist has found the formula “if natural selection
-be true so-and-so ought to happen” the safest of all guides into
-the unknown, when it has brought him success many times and in very
-different directions, when he knows that many other workers in other
-fields of biological inquiry have had a similarly happy experience, he
-gradually comes to feel a profound confidence in the permanent truth
-and the far-reaching importance of the great theory which has served
-him so well.
-
-
-
-
-CHAPTER XIX.
-
-THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS UNDERSTOOD.
-
-
-Even earlier than Huxley, H. C. Watson wrote warmly accepting natural
-selection. In his letter, which is dated November 21st, 1859, he said:--
-
-      “Your leading idea will surely become recognised as an
-      established truth in science--_i.e._ ‘Natural Selection.’ It has
-      the characteristics of all great natural truths, clarifying what
-      was obscure, simplifying what was intricate, adding greatly to
-      previous knowledge. You are the greatest revolutionist in natural
-      history of this century, if not of all centuries.”
-
-[Sidenote: MISUNDERSTANDING OF THE THEORY.]
-
-For some years to come, however, such views as these were the
-exception, as will soon be shown.
-
-The Duke of Argyll has argued (_Nineteenth Century_, December,
-1887) that the success of “Natural Selection” has followed from the
-convincing character of the words used, scientific men (“the populace
-of science” he calls them) being so easily led by the power of loose
-analogies that they have been convinced of the truth of the principle
-because they are familiar with Nature on the one hand, and selection as
-a process on the other!
-
-As I am not aware that this preposterous suggestion has ever been
-publicly disproved, and since therefore some readers of the journal in
-question may have been misled by it, I have collected much evidence,
-which proves that the principle of natural selection was only absorbed
-with the very greatest difficulty, and that the words used in
-describing it for a long time entirely failed to inform even eminent
-scientific men of the essential characteristics of the theory itself,
-and certainly failed most signally to convince them. Conviction came
-very gradually as the theory was slowly understood and was seen to
-offer an intelligible explanation of an immense and ever-increasing
-number of facts.
-
-I will now bring together quotations from Darwin’s letters in 1859 and
-1860, showing how soon he came to realise the difficulty with which
-natural selection was understood, and to feel that he might have been
-more successful with some other title.
-
-In 1859 he wrote to Dr. W. B. Carpenter--“I have found the most
-extraordinary difficulty in making even able men understand at what
-I was driving.” The remaining quotations are all taken from letters
-written in 1860. By the middle of this year, when he was feeling
-oppressed by hostile reviews and unfair and ignorant criticisms (“I
-am getting wearied at the storm of hostile reviews, and hardly any
-useful”), he often alludes to the failure of opponents to understand
-his theory. Thus, in a letter to Hooker (June 5th), he says:--
-
-      “This review, however, and Harvey’s letter have convinced me that
-      I must be a very bad explainer. Neither really understand what
-      I mean by Natural Selection.... I hope to God you will be more
-      successful than I have been in making people understand your
-      meaning.”
-
-He says almost the same thing in a letter to Lyell (June 6th):--
-
-      “... I am beginning to despair of ever making the majority
-      understand my notions.... I must be a very bad explainer. I
-      hope to Heaven that you will succeed better. Several reviews
-      and several letters have shown me too clearly how little I am
-      understood. I suppose ‘Natural Selection’ was a bad term; ...
-      I can only hope by reiterated explanations finally to make the
-      matter clearer.”
-
-Writing to Asa Gray, he says:--
-
-      “... I have had a letter of fourteen folio pages from Harvey
-      against my book, with some ingenious and new remarks; but it is
-      an extraordinary fact that he does not understand at all what I
-      mean by Natural Selection.”
-
-Later on, he again wrote to Lyell:--
-
-      “Talking of ‘natural selection’; if I had to commence _de novo_,
-      I would have used ‘natural preservation.’ For I find men like
-      Harvey of Dublin cannot understand me, though he has read the
-      book twice. Dr. Gray of the British Museum remarked to me that,
-      ‘_selection_ was obviously impossible with plants! No one could
-      tell him how it could be possible!’ And he may now add that the
-      author did not attempt it to him!”
-
-And still later he wrote asking Lyell’s advice as to additions to a
-new edition of the “Origin,” saying:--“I would also put a note to
-‘Natural Selection,’ and show how variously it has been misunderstood.”
-This note is to be found on page 63 of the sixth edition. In it he
-tells us that some writers have “even imagined that natural selection
-induces variability,” instead of merely preserving it; others that
-natural selection “implies conscious choice in the animals which become
-modified”; others that it is set up “as an active power or Deity.”
-In writing (December) to Murray about a new edition of the “Origin,”
-he alludes to the “many corrections, or rather additions, which I
-have made in hopes of making my many rather stupid reviewers at least
-understand what is meant.”
-
-He seems to have retained a very vivid recollection of the difficulty
-with which his theory was understood at first; thus he tells us in his
-“Autobiography”:--
-
-      “I tried once or twice to explain to able men what I meant by
-      Natural Selection, but signally failed.”
-
-Why the term “natural selection” was chosen by Darwin is very clearly
-shown in the three following quotations from letters to distinguished
-scientific men, which were probably written in answer to attacks or
-criticisms on this very point.
-
-He writes to Lyell in 1859, “Why I like the term is that it is
-constantly used in all works on breeding.”
-
-Writing to H. G. Bronn in 1860, he explains his motives with great
-clearness and force:--
-
-      “Several scientific men have thought the term ‘Natural Selection’
-      good, because its meaning is _not_ obvious, and each man could
-      not put on it his own interpretation, and because it at once
-      connects variation under domestication and nature.... Man has
-      altered, and thus improved the English race-horse by _selecting_
-      successive fleeter individuals; and I believe, owing to the
-      struggle for existence, that similar _slight_ variations in a
-      wild horse, _if advantageous to it_, would be _selected_ or
-      _preserved_ by nature; hence Natural Selection.”
-
-In 1866 he wrote to Wallace, comparing the term with that which we owe
-to Herbert Spencer:--
-
-      “I fully agree with all that you say on the advantages of H.
-      Spencer’s excellent expression of ‘the survival of the fittest.’
-      This however had not occurred to me till reading your letter. It
-      is, however, a great objection to this term that it cannot be
-      used as a substantive governing a verb; and that it is a real
-      objection I infer from H. Spencer continually using the words,
-      natural selection. I formerly thought, probably in an exaggerated
-      degree, that it was a great advantage to bring into connection
-      natural and artificial selection; this indeed led me to use a
-      term in common, and I still think it some advantage.... The term
-      Natural Selection has now been so largely used abroad and at
-      home, that I doubt whether it could be given up, and with all its
-      faults I should be sorry to see the attempt made. Whether it will
-      be rejected must now depend ‘on the survival of the fittest.’ As
-      in time the term must grow intelligible the objections to its use
-      will grow weaker and weaker. I doubt whether the use of any term
-      would have made the subject intelligible to some minds, clear
-      as it is to others; for do we not see even to the present day
-      Malthus on Population absurdly misunderstood? This reflection
-      about Malthus has often comforted me when I have been vexed at
-      the mis-statement of my own views.”
-
-A large number of critics not only failed to understand natural
-selection, but they asserted that it was precisely the same theory as
-that advanced by Lamarck or one of the other writers on evolution
-before Darwin. This seems almost incredible to us at the present
-day, when the biological world is divided into two sections on the
-very subject, and when it is generally recognised that Lamarck’s
-theory would be, if it were proved to be sound, a formidable rival to
-natural selection as a motive cause of evolution. But the following
-quotations--a few among many--leave no doubt whatever upon the subject.
-
-Evidence on this point reached Darwin almost immediately after the
-appearance of the “Origin.” Thus he writes to Hooker on December 14th,
-1859:--
-
-      “Old J. E. Gray, at the British Museum, attacked me in fine
-      style: ‘You have just reproduced Lamarck’s doctrine, and nothing
-      else, and here Lyell and others have been attacking him for
-      twenty years, and because _you_ ... say the very same thing, they
-      are all coming round; it is the most ridiculous inconsistency,’
-      &c. &c.”
-
-In the following year, Wilberforce, Bishop of Oxford, writing in the
-_Quarterly Review_ for July, 1860, appeals to Lyell,
-
-      “in order that with his help this flimsy speculation may be as
-      completely put down as was what in spite of all denials we must
-      venture to call its twin though less-instructed brother, the
-      ‘Vestiges of Creation.’”
-
-Again, Dr. Bree, in “Species not Transmutable,” says:
-
-      “The only real difference between Mr. Darwin and his two
-      predecessors, [Lamarck and the “Vestiges”] is this:--that while
-      the latter have each given a mode by which they conceive the
-      great changes they believe in have been brought about, Mr. Darwin
-      does no such thing.”
-
-One of the most interesting of the countless examples of
-misunderstanding is contained in a recently published letter from W. S.
-Macleay to Robert Lowe.[H] This letter was written from Elizabeth Bay,
-and is dated May, 1860, evidently just after the first edition of the
-“Origin,” a copy of which had been sent by Robert Lowe, had been read
-by Macleay.
-
-      “Again if this primordial cell had a Creator, as Darwin seems
-      to admit, I do not see what we gain by denying the Creator, as
-      Darwin does, all management of it after its creation. Lamarck
-      was more logical in supposing it to have existed of itself from
-      all eternity--indeed this is the principal difference that I
-      see between this theory of Darwin’s and that of Lamarck, who
-      propounded everything essential in the former theory, in a work
-      now rather rare--his ‘Philosophie Zoologique.’ But you may see
-      an abridgment of it in so common a book as his ‘Histoire Nat.
-      des Animaux Vertébrés,’ vol. i., pp. 188, _et seq._--Edit. 1818,
-      where the examples given of natural selection are the gasteropod
-      molluscs.... Natural selection (sometimes called ‘struggles’ by
-      Darwin) is identical with the ‘Besoins des Choses’ of Lamarck,
-      who, by means of his hypothesis, for instance, assigns the
-      constant stretching of the neck to reach the acacia leaves as
-      the cause of the extreme length of it in the giraffe; much in
-      the same way the black bear, according to Darwin, became a
-      whale, which I believe as little as his other assertion that our
-      progenitors anciently had gills--only they had dropped off by
-      want of use in the course of myriads of generations.”
-
-I had long been anxious to possess a copy of the first edition of the
-“Origin,” and was fortunate enough to come across one about the time
-when Macleay’s letter was pointed out to me by my wife. I opened the
-title-page, and found upon it the signature “W. S. Macleay”; it must
-have been the very volume given him by Robert Lowe, which Macleay had
-read and believed he had been fairly criticising. Out of Macleay’s
-volume, therefore, I quote the sentences he referred to in his letter.
-
-Darwin’s real statement about the black bear which “became a whale” is
-to be found on page 184:--
-
-      “In North America the black bear was seen by Hearne swimming
-      for hours with widely open mouth, thus catching, like a whale,
-      insects in the water. Even in so extreme a case as this, if
-      the supply of insects were constant, and if better adapted
-      competitors did not already exist in the country, I can see
-      no difficulty in a race of bears being rendered, by natural
-      selection, more and more aquatic in their structure and habits,
-      with larger and larger mouths, till a creature was produced as
-      monstrous as a whale.”
-
-The statement about the gills which “dropped off by want of use”
-becomes in the original (p. 191):--
-
-      “In the higher vertebrata the branchiæ have wholly
-      disappeared--the slits on the sides of the neck and the loop-like
-      course of the arteries still marking in the embryo their former
-      position.”
-
-Although the hypothetical case of the black bear--carefully guarded as
-it is--does not now appear to us at all extravagant (indeed, in the
-cleft cheeks of the goat-sucker we have a precisely analogous case),
-Darwin seems to have thought it unsuitable, probably because it became
-an easy butt for ignorant ridicule. We find accordingly that in the
-second and all subsequent editions everything after the word “water”
-is omitted, while “almost” is inserted before “like a whale.” He was
-alluding to this passage when he wrote to Lyell (December 22nd, 1859):
-“Thanks about ‘Bears,’ a word of ill-omen to me.” Furthermore, Andrew
-Murray[I] says, concerning the sentences as they stand in the first
-edition:--
-
-      “In quoting this, I do not at all mean to give it as a fair
-      illustration of Mr. Darwin’s views. I only refer to it as
-      indicating the extent to which he is prepared to go. The example
-      here given I look upon (as I have reason to know that Mr. Darwin
-      himself does) merely as an extreme and somewhat extravagant
-      illustration, imagined expressly to show in a forcible way how
-      ‘natural selection’ would operate in making a mouth bigger and
-      bigger, because more advantageous.”
-
-
-
-
-CHAPTER XX.
-
-THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS UNDERSTOOD
-(_continued_)--VIEWS ON SPONTANEOUS GENERATION.
-
-
-The history of opinion on evolution and natural selection, in the years
-which followed the publication of the “Origin,” can be traced in the
-titles of the papers and subjects of discussion at successive meetings
-of the British Association. In the Presidential Address delivered by
-Professor Newton to the Biological Section of the Manchester meeting in
-1887, there is a most interesting account of the struggles which took
-place:--
-
-      “The ever-memorable meeting ... at Oxford in the summer of 1860
-      saw the first open conflict between the professors of the new
-      faith and the adherents of the old one. Far be it from me to
-      blame those among the latter who honestly stuck to the creed in
-      which they had educated themselves; but my admiration is for the
-      few dauntless men who, without flinching from the unpopularity
-      of their cause, flung themselves in the way of obloquy, and
-      impetuously assaulted the ancient citadel in which the sanctity
-      of ‘species’ was enshrined and worshipped as a palladium. However
-      strongly I myself sympathised with them, I cannot fairly state
-      that the conflict on this occasion was otherwise than a drawn
-      battle; and thus matters stood when in the following year the
-      Association met in this city [Manchester]. That, as I have
-      already said, was a time of ‘slack water.’ But though the ancient
-      beliefs were not much troubled, it was for the last time that
-      they could be said to prevail; and thus I look upon our meeting
-      in Manchester 1861 as a crisis in the history of biology. All
-      the same, the ancient beliefs were not allowed to pass wholly
-      unchallenged; and one thing is especially to be marked--they
-      were challenged by one who was no naturalist at all, by one who
-      was a severe thinker no less than an active worker; one who was
-      generally right in his logic, and never wrong in his instinct;
-      one who, though a politician, was invariably an honest man--I
-      mean the late Professor Fawcett. On this occasion he brought the
-      clearness of his mental vision to bear upon Mr. Darwin’s theory,
-      with the result that Mr. Darwin’s method of investigation was
-      shewn to be strictly in accordance with the rules of deductive
-      philosophy, and to throw light where all was dark before.”
-
-Professor Newton specially alluded to this interesting case of
-Professor Fawcett as illustrating his conviction that the theory of
-natural selection--
-
-      “did not, except in one small point, require a naturalist to
-      think it out and establish its truth.... But in order to see the
-      effect of this principle upon organic life the knowledge--the
-      peculiar knowledge--of the naturalist was required. This was
-      the knowledge of those slight variations which are found in
-      all groups of animals and plants.... Herein lay the triumph
-      of Mr. Darwin and Mr. Wallace. That triumph, however, was not
-      celebrated at Manchester. The question was of such magnitude as
-      to need another year’s incubation, and the crucial struggle came
-      a twelvemonth later when the Association met at Cambridge. The
-      victory of the new doctrine was then declared in a way that none
-      could doubt. I have no inclination to join in the pursuit of the
-      fugitives.”
-
-There is reason to believe that Professor Newton’s impressions of the
-result of the celebrated meeting of the British Association at Oxford
-in 1860 are more accurate than those of the eyewitness quoted in the
-“Life and Letters.” The latter has pictured a brilliant triumph for
-Huxley in the renowned duel with the Bishop of Oxford. But I have
-been told by more than one of the audience that Huxley was really too
-angry to speak effectively, nor is this to be wondered at, considering
-the extreme provocation. Mr. William Sidgwick, who was present and
-sympathised warmly with Huxley, has told me that this was his opinion.
-I have heard the same from the Rev. W. Tuckwell, who also quoted a
-remark of the late Professor Rolleston tending in the same direction.
-Mr. Tuckwell said that it was clear that the audience as a whole
-was not carried away by Huxley’s speech, but, on the contrary, was
-obviously shocked at it; and he contrasted that occasion with another
-at which he was also present, in the North, several years later,
-when Huxley replied to an opponent who, like the bishop, appealed to
-the theological prejudices of his hearers. But by that time the new
-teachings had been absorbed, and Huxley gained a signal triumph.
-
-[Sidenote: OPPOSITION.]
-
-It must not be supposed that Darwin was by any means indifferent to the
-attacks on his views. On the contrary, his sensitive nature was greatly
-depressed by the violent and often most unfair criticisms to which he
-was subjected, although beneath this evident disturbance lay the firm
-conviction that he had seen the truth, and that the truth would in the
-end be seen by others.
-
-After the great fight with the bishop at the British Association at
-Oxford, he wrote to Hooker (July 2nd, 1860):--
-
-      “I have read lately so many hostile views, that I was beginning
-      to think that perhaps I was wholly in the wrong, and that ----
-      was right when he said the whole subject would be forgotten in
-      ten years; but now that I hear that you and Huxley will fight
-      publicly (which I am sure I never could do), I fully believe that
-      our cause will, in the long-run, prevail.”
-
-Looking at the history of opinion on this subject, the slowness with
-which the new ideas were absorbed appears remarkable. Even so able a
-man as the late Professor Rolleston wrote in 1870 (“Forms of Animal
-Life,” Introduction, p. xxv., First Edition) the following carefully
-guarded sentences, which, it is to be noted, deal with evolution rather
-than natural selection. Speaking of “the theory of evolution with which
-Mr. Darwin’s name is connected,” Rolleston says:--
-
-      “Many of the peculiarities which attach to biological
-      classifications would thus receive a reasonable explanation; but
-      where verification is, _ex hypothesi_, impossible, such a theory
-      cannot be held to be advanced out of the region of probability.
-      The acceptance or rejection of the general theory will depend, as
-      does the acceptance or rejection of other views supported merely
-      by probable evidence, upon the particular constitution of each
-      individual mind to which it is presented!”
-
-It was too much to expect that many of the older scientific men would
-retain sufficient intellectual flexibility to be able to recognise, as
-Lyell had, that the facts of nature were explained and predicted better
-by the new views than by those in which they had grown up. Darwin
-thoroughly understood this, and, writing to his friends, maintained
-that the fate of his views was in the hands of the younger men.
-
-A grand yet simple conception like that of natural selection,
-explaining and connecting together innumerable facts which people had
-previously explained differently, or had become accustomed to regard as
-inexplicable, must always remain as a stumbling-block to the majority
-of those who have reached or passed middle life before its first
-appearance.
-
-Hardly anything is more characteristic of Darwin than the tone with
-which he wrote to acknowledged opponents. Thus his letters to L.
-Agassiz (1868), Quatrefages (1869 or 1870), and Fabre (1880), are
-models of the way in which a correspondence which would present
-peculiar difficulties to most people may be conducted. In these letters
-there is not the least attempt to slur over or minimise the points of
-wide difference; on the contrary, they are most candidly stated, but
-with so much respect and sympathy, and with such marked appreciation
-of the knowledge he had gained from his correspondent, that the reader
-must have regretted the divergence of opinion as greatly as the writer.
-
-Tyndall has given a very interesting and pathetic account of the
-evident distress with which Professor L. Agassiz, chief of the
-opponents of Darwin in America, recognised the success of the
-teachings he could not accept.
-
-      “Sprung from a race of theologians, this celebrated man combated
-      to the last the theory of natural selection. One of the many
-      times I had the pleasure of meeting him in the United States
-      was at Mr. Winthrop’s beautiful residence at Brookline, near
-      Boston. Rising from luncheon, we all halted, as if by a common
-      impulse in front of a window, and continued there a discussion
-      which had been started at table. The maple was in its autumn
-      glory; and the exquisite beauty of the scene outside seemed, in
-      my case, to interpenetrate without disturbance the intellectual
-      action. Earnestly, almost sadly, Agassiz turned and said to the
-      gentlemen standing round, ‘I confess that I was not prepared to
-      see this theory received as it has been by the best intellects
-      of our time. Its success is greater than I could have thought
-      possible.’”[J]
-
-The history of science can hardly supply anything more sad than the
-blight which may fall on a man’s career because he is unable, from
-conscientious motives, to use some great means of advance. Such a
-weapon for the progress of science was provided by the Darwinian
-theory, and men were to be henceforth divided according to their use
-or neglect of the new opportunities. Men who up to that time had been
-equals were to be for ever separated, some to press forward in the
-front rank of scientific discovery, others to remain as interesting
-relics of a byegone age.
-
-It is hardly necessary to say that this does not apply to men, like
-Agassiz, who had already left their mark deep upon the science of their
-day, but it has a very real application to those men whose position
-was to be estimated by work done after the year 1858.
-
-In the midst of those years of struggle and anxiety which followed the
-appearance of the “Origin,” we meet with another instance of the same
-extraordinary foresight which appeared in his contention in favour of
-the persistence of the great oceans and continental areas. I refer to
-his views on spontaneous generation--a very ancient belief, and one
-which from time to time has been the will-o’-the-wisp of biological
-speculation, leading it into all kinds of fruitless and dangerous
-regions.[K]
-
-Dr. Carpenter’s “Introduction to the Study of Foraminifera” had been
-reviewed in the _Athenæum_ (March 28th, 1863), the writer attacking
-evolution and favouring spontaneous generation, or, as it was then
-called, heterogeny. Darwin wrote to Hooker, who had lent him a copy of
-the paper, “Who would have ever thought of the old stupid _Athenæum_
-taking to Oken-like transcendental philosophy written in Owenian
-style!... It will be some time before we see ‘slime, protoplasm, etc.,’
-generating a new animal.... It is mere rubbish, thinking at present of
-the origin of life; one might as well think of the origin of matter.”
-In 1871 he wrote:--
-
-      “It is often said that all the conditions for the first
-      production of a living organism are now present, which could
-      ever have been present. But if (and oh! what a big if!) we could
-      conceive in some warm little pond, with all sorts of ammonia
-      and phosphoric salts, light, heat, electricity, etc., present,
-      that a proteine compound was chemically formed ready to undergo
-      still more complex changes, at the present day such matter would
-      be instantly devoured or absorbed, which would not have been the
-      case before living creatures were formed.”
-
-About 1870 Dr. H. C. Bastian began working on the subject, and brought
-forward in his “Origin of Lowest Organisms” (1871), and “The Beginnings
-of Life” (1872), what he believed to be conclusive evidence of the
-truth of spontaneous generation, for which he proposed the term
-Archebiosis. His enthusiasm and strong convictions were contagious, and
-for a time the belief spread rather widely, although it soon collapsed
-before the researches and arguments of Pasteur, Tyndall, and Huxley.
-Darwin read “The Beginnings of Life,” and wrote about it to Wallace
-(August 28th, 1872) as follows:--
-
-      “His [Bastian’s] general argument in favour of Archebiosis is
-      wonderfully strong, though I cannot think much of some few of
-      his arguments. The result is that I am bewildered and astonished
-      by his statements, but am not convinced, though, on the whole,
-      it seems to me probable that Archebiosis is true. I am not
-      convinced, partly I think owing to the deductive cast of much of
-      his reasoning; and I know not why, but I never feel convinced
-      by deduction, even in the case of H. Spencer’s writings.... I
-      must have more evidence that germs, or the minutest fragments of
-      the lowest forms, are always killed by 212° of Fahr.... As for
-      Rotifers and Tardigrades being spontaneously generated, my mind
-      can no more digest such statements, whether true or false, than
-      my stomach can digest a lump of lead.”
-
-
-
-
-CHAPTER XXI.
-
-VARIATION OF ANIMALS AND PLANTS UNDER DOMESTICATION: PANGENESIS (1868).
-
-
-We now come to consider the succession of invaluable works produced by
-Darwin after the appearance of the “Origin,” the last of which--that on
-Earthworms--was published about six months before his death.
-
-Darwin’s method of bringing these results before the world was
-somewhat different from that most generally adopted by scientific men
-in this country, although of common occurrence in Germany. The great
-majority of scientific facts are here published by the proceedings
-or transactions of scientific societies, or in special journals; and
-although a scientific man frequently brings together his general
-results into a volume for the public, the original communications
-remain as the detailed exposition of his researches.
-
-Darwin, too, wrote a very large number of memoirs for the scientific
-societies, as may be seen from the list in Appendix III. of the “Life
-and Letters,” but the volumes which he subsequently published included
-_all_ the previous details, with the addition of much new matter, and
-it is these volumes rather than the original communications which form
-the authoritative statement of his investigations. Such a method was
-possible and desirable with the subjects upon which he worked, all
-of which were of great interest to the thinking part of the general
-public, as well as to the experts; but in less attractive subjects it
-is not probable that the plan could be carried out in this country with
-any prospect of success.
-
-It has already been stated that Darwin looked on the “Origin of
-Species” as a short abstract of a greater work he intended to publish.
-It is likely that he at first contemplated a comprehensive work like
-the “Origin” itself, but soon found that his notes on domesticated
-animals and plants, the general results of which had been condensed
-into the first three chapters of the “Origin,” would form a work
-more than twice the size of the latter. He began arranging these
-notes on January 9th, 1860 (January 1st is the date given in the
-“Autobiography”), as soon as the second edition of the “Origin” was off
-his hands, but his “enormous correspondence,” as he calls it in the
-“Autobiography,” with friends about the “Origin,” and the reviews and
-discussions upon it, must have occupied a large part of his time; and
-then there was the third edition to bring out (published April, 1861).
-This edition must have cost much labour, as many parts were modified
-and enlarged to meet the objections or misunderstanding of reviewers.
-
-Francis Darwin tells us that the third chapter of “Animals and Plants,
-&c.,” was still on hand at the beginning of 1861. His work on this book
-was furthermore interrupted by illnesses and by other researches.
-Thus, during 1860 he worked at Drosera, and during the latter part
-of 1861 and beginning of 1862 at the fertilisation of orchids. In
-his diary for 1866 we meet with the entry, “_Nov. 21st_--Finished
-‘Pangenesis,’” and later on, “_Dec. 22nd_--Began concluding chapter
-of book.” In this year, too, he brought out the fourth edition of the
-“Origin.” When the time for publication approached Darwin was much
-disappointed at the dimensions of the work. It was not published till
-January 30th, 1868, when it was proved that his fears were groundless,
-for a second edition of 1,250 copies were required in the following
-month, the 1,500 of the first edition having been all absorbed.
-
-This work is considered by some writers to be the greatest produced by
-Darwin; but I think we shall be right in accepting his own opinion that
-such words should be applied to the “Origin.” It is probable, however,
-that this book stands second in importance in the splendid list of
-works which have done so much to increase our knowledge of nature and
-to inspire others to continue the good work.
-
-[Sidenote: ON VARIATION.]
-
-“The Variation of Animals and Plants under Domestication” opens with
-a very clearly written account of natural selection; it proceeds to
-treat of the domestic quadrupeds and birds, describing the differences
-between the various breeds of each species, and making out as far as
-possible the history of their development from each other and from the
-wild stock. Cultivated plants are then treated in the same manner.
-The first volume concludes with two most important chapters on
-bud-variation and anomalous modes of reproduction, and on inheritance.
-
-The second volume deals with inheritance, crossing, effect of
-conditions of life, sterility, hybridism, selection by man, causes
-and laws of variability. Finally, all the main lines are brought to
-a common centre in the wonderful chapter in which he discloses his
-“provisional hypothesis of pangenesis.” This is of such interest,
-and is so characteristic of its author’s power of viewing the most
-divergent facts from a common standpoint, that it is desirable to give
-a tolerably full account of it.
-
-The following is a brief statement of the various classes of facts
-which Darwin attempted to connect by his hypothesis.
-
-_Reproduction_ is sexual and asexual, and the latter is of various
-kinds, although their differences are more apparent than real. It may
-be concluded that gemmation or budding, fission or division, the repair
-of injuries, the maintenance of each part, and the growth of the embryo
-“are all essentially the results of one and the same great power.”
-
-In parthenogenesis the ovum can develop without fertilisation, and
-hence the union of germs from different individuals cannot serve as
-an essential characteristic of sexual, as compared with asexual,
-generation. Although sexually-produced individuals tend to vary far
-more than those which are produced asexually, this is not always the
-case, and the variability, when it occurs, is subject to the same
-laws. Sexually-produced individuals very generally pass in development
-from a lower to a higher grade; but this can hardly be said to occur in
-certain forms, such as Aphis, etc.
-
-The differences between the two forms of reproduction being thus much
-less than at first sight appears, we are led to inquire for the reason
-why the more complex and difficult process is so universal. Sexual
-reproduction appears to confer two benefits on organisms--(1) “When
-species are rendered highly variable by changed conditions of life,
-the free intercrossing of the varying individuals will tend to keep
-each form fitted for its proper place in nature, and crossing can be
-effected only by sexual generation”; (2) Many experiments tend to show
-that free and wide intercrossing induces vigour in the offspring.
-
-Darwin concludes that the reason why the germ-cell perishes if it does
-not unite with another from the opposite sex is simply because it
-includes “too little formative matter for independent existence and
-development.” He was led to this conclusion by the fact that the male
-and female germ-cells “do not in ordinary cases differ in their power
-of giving character to the embryo,” and also from experiments which
-seemed to show that a certain number of pollen grains or of spermatozoa
-may be required to fertilise a single seed or ovum. “The belief that
-it is the function of the spermatozoa to communicate life to the ovule
-seems a strange one, seeing that the unimpregnated ovule is already
-alive, and continues for a considerable time alive.”
-
-It is very remarkable to note how largely Professor Weismann’s
-conclusions on this subject were anticipated by this part of Darwin’s
-work.
-
-_Graft hybrids._--The probability that a graft may alter the character
-of the stock to which it is united, so that hybrid buds might be formed
-by budding or grafting the tissues of distinct varieties or species,
-would, if it became a certainty, prove the essential identity of
-sexual and asexual reproduction; “for the power of combining in the
-offspring the characters of both parents is the most striking of all
-the functions of sexual generation.”
-
-_Direct action of the male element on the female._--Pollen from another
-species is known to affect the mother-plant in certain cases. Thus
-pollen from the lemon has caused stripes of lemon-peel in the fruit of
-the orange; the peel is, of course, formed by the mother-plant, and
-is quite different from the part which the male element is adapted to
-affect--viz. the ovule. Similar cases are known among animals, as in
-the celebrated example of Lord Morton’s mare.
-
-_Development._--The changes by which the embryo reaches maturity
-differ immensely, even within the limits of the same compact group.
-Forms which closely resemble each other in the mature state, and
-are intimately related to each other, such as the various species
-of lobster and crayfish, etc., pass through a totally different
-developmental history. Hence we are led to believe in the complete
-independence of “each structure from that which precedes and follows it
-in the course of development.”
-
-_The functional independence of the elements or units of the body.
-Variability and inheritance._--Variability generally results “from
-changed conditions acting during successive generations.” The influence
-is exerted on the sexual system, and if extreme, impotence tends to be
-produced. Bud-variation proves that “variability is not necessarily
-connected with the sexual system.” The inherited effects of use and
-disuse of parts imply that the changes in the cells of a distant part
-of the body affect the reproductive cells, so that the being produced
-from one of these cells inherits the changes. “Nothing in the whole
-circuit of physiology is more wonderful.”
-
-“Inheritance is the rule and non-inheritance the anomaly.” Inheritance
-follows laws, such as the tendency for a character to appear at
-corresponding ages in parent and offspring. Reversion “proves to us
-that the transmission of a character and its development ... are
-distinct powers.” Crossing strongly induces reversion. “Every character
-which occasionally reappears is present in a latent form in each
-generation.”
-
-       *       *       *       *       *
-
-[Sidenote: PANGENESIS.]
-
-The hypothesis of pangenesis attempts to explain and connect together
-all the facts and conclusions which have been summarised in the
-preceding pages. This hypothesis assumes that each one of the
-countless cells of which the body of a higher animal is composed throws
-off a minute gemmule which, with those derived from other cells, exists
-in the body, and when supplied with nutriment multiplies by division.
-Each gemmule is capable of ultimate development into a cell similar
-to the one from which it, either directly or indirectly, arose. Each
-cell of the body dispatches its representative, as it were, to each
-single germ-cell, and this explains how it is that the latter possess
-the power of reproducing the likeness of the parent body. But the
-germ-cells also receive dormant gemmules which may remain undeveloped
-until some generation in the remote future. The development of the
-gemmules into cells depends on their union with the developing cells
-which precede them in the order of growth. Gemmules are thrown off
-during each stage of growth and during maturity.
-
-This hypothesis of pangenesis is so called because the whole body is
-supposed to produce the elements from which new individuals arise, the
-germ-cells being only the union of these elements into clusters.
-
-The fact that hybrids may be produced by grafting, that the pollen can
-act on the tissues of the female plant, and the male germ-cells on the
-future offspring of the female, implies that the reproductive material
-can exist and the reproductive processes take place in the tissues, and
-that they are not confined to the germ-cells.
-
-The retention of dormant gemmules, and their passage from generation
-to generation until their development, may seem improbable; but is it
-more so than the _fact_ which their presence would explain--viz. the
-transmission of latent structures and their ultimate reappearance?
-
-The development of the whole plant from a Begonia leaf implies that
-these gemmules are very widely distributed through the tissues.
-
-The elective affinity of the gemmules for the cells which precede them
-in growth may be paralleled by the affinity of the male and female
-germ-cells, as we see in the preference of a plant for the pollen
-grains of its own over those of closely-allied species, or by the
-attraction of the minute germs of disease to certain tissues of the
-body.
-
-It is possible that the numerous gemmules thrown off by the cells of
-a complex structure, such as a feather, “may be aggregated into a
-compound gemmule.” In the case of a petal, however, where parts as well
-as the whole are apt to develop, as is seen in the case of “stripes of
-the calyx assuming the colour and texture of the corolla,” it is more
-probable that the gemmules are separate and free. The cell itself is a
-complex structure, and we do not know whether its separate parts are
-not developed from the separate gemmules of an aggregate.
-
-Such an hypothesis explains the fundamental similarity which has
-already been shown to exist between all modes of reproduction. The
-gemmules collected in bud or germ-cell are essentially similar;
-and were it not for the special advantages of sexual reproduction
-(increased vigour and more marked variation of offspring), we can well
-believe that it would have been much less general. The formation of
-graft-hybrids, and the action of the male element on the mother and on
-future offspring, become intelligible. The antagonism between growth
-and sexual reproduction in animals, and between increase by buds, etc.,
-and seeds in plants, can be understood by the use of gemmules in one
-direction preventing their simultaneous use in another.
-
-The regrowth of an amputated part, as in the salamander or snail,
-is explained by the presence and development of gemmules previously
-thrown off from the part. The difficulty that a limb is produced of the
-same age as that which was lost, and not a larval limb, and that the
-cells with which the gemmules must unite at first are not those which
-precede them in the course of growth, but mature cells, is met by the
-consideration that this power is a special one adapted to meet special
-dangers to certain parts of certain animals, and that it is therefore
-probable that appropriate provision has been made by natural selection:
-it may be in the form of “a stock of nascent cells or of partially
-developed gemmules.” The existence of these latter in buds, and their
-absence from sexual cells, may account for bud development being the
-more direct and brief of the two. The much greater tendency to repair
-lost parts in lower and younger forms may be due to the same cause.
-
-The occasional tendency of hybrids to resemble one parent in one part
-and the other in another may be due to superabundance of gemmules in
-the fertilised germ, those from one parent having “some advantage in
-number, affinity, or vigour over those derived from the other parent.”
-The general preponderance of one parent over the other may be similarly
-explained. The cases in which “the colour or other characters of either
-parent tend to appear in stripes or blotches” are to be understood by
-the gemmules having an affinity for others of the same kind.
-
-_The sterility of hybrids_ is entirely due to the reproductive organs
-being affected; in the case of plants they continue to propagate freely
-by buds. The hybrid cells throw off hybrid gemmules which collect in
-the buds but cannot do so in the reproductive organs.
-
-_Development and metamorphosis._--The remarkable facts of development
-and metamorphosis are well explained by the hypothesis. Allied forms
-may pass to a similar end through very dissimilar stages or conversely.
-Parts may appear to develop within previously existing corresponding
-parts, or they may appear within parts which are quite distinct. These
-divergent facts are explained by the hypothesis, each part during each
-stage being formed independently from the gemmules of the same part
-in previous generations, and not, although it may appear to do so,
-from the corresponding parts of earlier stages. In the process of time
-certain parts during certain stages may be affected by use or disuse or
-surroundings, and the parts of subsequent generations will be similarly
-affected, because formed from correspondingly altered gemmules; but
-this need not affect the other stages of the same parts.
-
-_Transposition and multiplication of parts._--The cases of abnormal
-transposition or multiplication of organs--for instance, the
-development of teeth in the palate or of pollen in the edge of a
-petal--are to be explained by supposing that the gemmules unite with
-wrong cells instead of, or as well as, the right ones; “and this would
-follow from a slight change in their elective affinities.” Such slight
-changes are known to occur; for instance, certain plants “absolutely
-refuse to be fertilised by their own pollen, though abundantly fertile
-with that of any other individual of the same species.” Inasmuch as the
-cells of adjoining parts will often have nearly the same structure, we
-can understand that some slight change in elective affinity may affect
-a large area. Hence we can account for a crowd of horns on the head of
-a sheep, or many spurs on the leg of a fowl, etc. Frequently repeated
-parts are extremely liable to vary in number; in this case we have a
-large number of closely allied gemmules and of points for their union,
-and slight changes in elective affinity would be specially apt to
-occur.
-
-VARIABILITY.--Changed conditions may lead to irregularity in the number
-of gemmules derived from various parts of the body; deficiency in
-number might cause variation in any part by leaving some of the cells
-free to unite with allied gemmules.
-
-The direct action of surroundings, or the effect of use or disuse
-on a part, may cause corresponding modifications of the gemmules,
-and through these of the part in the succeeding generation. “A more
-perplexing problem can hardly be proposed,” and yet it receives an
-explanation on this hypothesis. Such causes must, as a rule, act during
-many generations before the modification reappears in the offspring.
-This may be due to the unaltered gemmules derived from earlier
-generations, and their gradual replacement by the increasing number of
-altered gemmules.
-
-Variation in plants is much more frequent in sexually produced than it
-is in asexually produced individuals. This may be due to the absence
-in the latter of that great cause of variability, changes in the
-reproductive organs under altered conditions. Furthermore, the former
-alone pass through the earlier phases of development, when structure is
-most plastic and yields most readily to the causes inducing variability.
-
-The stability of hybrids and of many varieties when propagated by buds,
-as compared with their reversion to the parent form when propagated by
-seed, remains inexplicable.
-
-Hence variability is explained as due (1) to the irregularity in
-number of gemmules, to their transpositions, and redevelopment
-when dormant; and (2) to their actual modification and the gradual
-replacement by them of unaltered gemmules.
-
-INHERITANCE.--The non-transmission by heredity of mutilations, even
-when repeated for many generations, as in docking the tails of
-certain domesticated breeds, may be explained by the persistence of
-gemmules from still earlier generations. The cases of inheritance when
-mutilations are followed by disease, as in Brown-Séquard’s experiments
-on guinea-pigs, may be due to the gemmules being attracted to the
-diseased part and there destroyed.
-
-The disappearance of a rudimentary part, together with its occasional
-reappearance by reversion, is to be understood by the existence of
-ancestral gemmules, for which the corresponding cells have, except in
-the cases of reversion, lost their affinity. When the disappearance is
-final and complete, the gemmules have probably perished altogether.
-
-“Most, or perhaps all, of the secondary characters which appertain to
-one sex, lie dormant in the other sex; that is, gemmules capable of
-development into the secondary male sexual characters are included
-within the female; and conversely female characters in the male.” This
-is seen in cases of castration or when the sexual organs from any cause
-have become functionless. The sex in which such changes are brought
-about tends to develop the secondary sexual characters of the other
-sex. The normal development of the secondary characters proper to the
-sex of the individual may be explained by a slight difference in the
-elective affinity of the cells so that they attract the corresponding
-gemmules rather than those of the opposite sex, which as we have seen
-are also present.
-
-The male characters of the male sex are in many species latent except
-at certain seasons of the year, and in both sexes the proper characters
-are latent until sexual maturity. All such latent characters are
-closely connected with the cases of ordinary reversion. The appearance
-(whether seasonal or in the course of development) of cells with
-affinities for the latent gemmules explains the development of the
-characters in question.
-
-Certain butterflies and plants (_e.g._ Lythrum) produce two or
-more separate forms of individuals. In these cases each individual
-includes the latent gemmules of the other forms as well as its own.
-Hermaphroditism in unisexual species, and especially in the occasional
-cases of insects in which the right side of the body is one sex and the
-left side the other, the line of separation dividing the individual
-into two equal halves, can be explained by slight abnormal changes in
-the affinities of cells for gemmules, so that a certain group of cells,
-or all the cells on one side of the body, attract the gemmules which
-would normally have remained latent.
-
-Reversion is induced by a change of conditions and especially by
-crossing. The first results of crossing are usually intermediate
-between the parents, but in the next generation there is commonly
-reversion to one or both parent-forms, or even to a more remote
-ancestor. The existence of abundant hybridised gemmules is shown by the
-propagation of the cross in a true form by means of buds; but dormant
-gemmules from the parent-form are also present and multiply. In the
-sexual elements of the hybrid there are both pure and hybrid gemmules,
-and the addition of the pure gemmules in one sex to those in the other
-accounts for the reversion, especially if we assume that pure “gemmules
-of the same nature would be especially apt to combine.” Partial
-reversion on the one hand, and the reappearance of the hybrid form on
-the other, would be respectively due to a combination of pure with
-hybrid gemmules, and of the hybrid gemmules from both parent hybrids.
-
-When characters which do not blend exist in the parents, crossing
-may result in an insufficiency of gemmules from the male alone and
-from the female alone, and then dormant ancestral gemmules might have
-the opportunity of development, and thus cause reversion. Similarly
-certain conditions might favour the increase and development of
-dormant gemmules. Diseases appearing in alternate generations, or
-gaining strength by the intermission of a generation, may be due to
-the increase of the gemmules in the intervening time, and the same
-explanation may hold for the sudden and irregular increase of a weakly
-inherited modification.
-
-Darwin ends his general conclusions with these words:--
-
-      “No other attempt, as far as I am aware, has been made,
-      imperfect as this confessedly is, to connect under one point
-      of view these several grand classes of facts. An organic
-      being is a microcosm--a little universe, formed of a host of
-      self-propagating organisms, inconceivably minute and numerous as
-      the stars in heaven.”
-
-
-
-
-CHAPTER XXII.
-
-PANGENESIS AND CONTINUITY OF THE GERM-PLASM: DARWIN’S CONFIDENCE IN
-PANGENESIS.
-
-
-[Sidenote: PANGENESIS.]
-
-Darwin’s letters prove that he thought very highly of this hypothesis;
-and whether the future determine it to be true or erroneous, it must
-surely rank as among the greatest of his intellectual efforts. In his
-autobiography he says of it:--
-
-      “An unverified hypothesis is of little or no value; but if any
-      one should hereafter be led to make observations by which some
-      such hypothesis could be established, I shall have done good
-      service, as an astonishing number of isolated facts can be thus
-      connected together and rendered intelligible.”
-
-The hypothesis was submitted to Huxley (May 27th, 1865?) in manuscript
-and alluded to in the letter sent at the same time. An unfavourable
-reply was evidently received, for we find Darwin writing to Huxley,
-July 12th (1865?):--
-
-      “I do not doubt your judgment is perfectly just, and I will try
-      to persuade myself not to publish. The whole affair is much too
-      speculative; yet I think some such view will have to be adopted,
-      when I call to mind such facts as the inherited effects of use
-      and disuse, &c.”
-
-This last sentence is of great interest, and the same opinion comes
-out strongly in his published account of the hypothesis, viz. the
-view that the real facts which imperatively demand some material to
-pass from the body-cells to the germ-cells in order to account for
-their hereditary transmission are the effects of use and disuse, or the
-influence of surroundings--in fact, all those characters which are now
-called “acquired.” And it is impossible to escape the conclusion that,
-if acquired characters are transmissible by heredity, an hypothesis
-which is substantially that of pangenesis will have to be accepted.
-Darwin did not doubt this transmission, and he framed pangenesis mainly
-to account for it.
-
-Considerable doubt has of recent years been thrown upon the
-transmission of acquired characters, and if hereafter this doubt
-be justified, it will be possible to substitute for pangenesis a
-hypothesis like the “continuity of the germ-plasm” brought forward by
-Professor Weismann. A few words indicating the contrast between the two
-hypotheses may not be out of place.
-
-In Professor Weismann’s hypothesis the germ-plasm contained in the
-nucleus of the germ-cell possesses, if placed under right conditions,
-the power of developing into an organism. It is not, however, entirely
-used up during development, and the part which remains grows and is
-stored in the germ-cells of the offspring, and ultimately develops
-into the succeeding generation. Hence parent and offspring resemble
-each other because they are formed from the same thing. There is no
-real break between the generations; they are thrown up successively
-from a continuous line of germ-plasm. In this hypothesis the germ
-is the essential thing, the body a mere secondary product. It is a
-theory of Blastogenesis as contrasted with Pangenesis. The hereditary
-transmission of acquired characters, in which many still believe, is
-quite irreconcilable with it, and if substantiated would overthrow it
-altogether.
-
-On the other hand the body-cells are the essential elements of
-pangenesis, and the germ-cells the mere meeting-places of their
-representatives and quite devoid of significance on their own account.
-There is some sort of interruption between successive generations, as
-the gemmules develop into cells, which again throw off gemmules; the
-break, however, is bridged by the ancestral gemmules and by the life of
-the body-cell which intervenes between the gemmule from which it arose
-and that to which it gives rise.
-
-The remaining chief occasions on which Darwin alludes to pangenesis in
-his published letters are quoted below; they prove his confidence in
-the hypothesis and the nature of the hold it had upon his mind.
-
-Later on he again wrote to Huxley on the same subject:--
-
-      “I am rather ashamed of the whole affair, but not converted to a
-      no-belief.... It is all rubbish to speculate as I have done; yet,
-      if I ever have strength to publish my next book, I fear I shall
-      not resist ‘Pangenesis,’ but I assure you I will put it humbly
-      enough. The ordinary course of development of beings, such as the
-      Echinodermata, in which new organs are formed at quite remote
-      spots from the analogous previous parts, seems to me extremely
-      difficult to reconcile on any view except the free diffusion in
-      the parent of the germs or gemmules of each separate new organ:
-      and so in cases of alternate generation.”
-
-_To_ LYELL, _August 22nd, 1867_.
-
-      “I have been particularly pleased that you have noticed
-      Pangenesis. I do not know whether you ever had the feeling of
-      having thought so much over a subject that you had lost all power
-      of judging it. This is my case with Pangenesis (which is 26 or
-      27 years old), but I am inclined to think that if it be admitted
-      as a probable hypothesis it will be a somewhat important step in
-      Biology.”
-
-_To_ ASA GRAY, _October 16th, 1867_.
-
-      “The chapter on what I call Pangenesis will be called a mad
-      dream, and I shall be pretty well satisfied if you think it a
-      dream worth publishing; but at the bottom of my own mind I think
-      it contains a great truth.”
-
-_To_ HOOKER, _November 17th_ [1867].
-
-      “I shall be intensely anxious to hear what you think about
-      Pangenesis; though I can see how fearfully imperfect, even in
-      mere conjectural conclusions, it is; yet it has been an infinite
-      satisfaction to me somehow to connect the various large groups of
-      facts, which I have long considered, by an intelligible thread.”
-
-_To_ FRITZ MÜLLER, _January 30th_ [1868].
-
-      “... I should very much like to hear what you think of
-      ‘Pangenesis,’ though I fear it will appear to _every one_ far too
-      speculative.”
-
-_To_ HOOKER, _February 23rd_ [1868].
-
-After expressing a fear that Pangenesis is still-born because of the
-difficulty with which it is understood, he says:--
-
-      “You will think me very self-sufficient, when I declare that I
-      feel _sure_ if Pangenesis is now still-born it will, thank God,
-      at some future time reappear, begotten by some other father,
-      and christened by some other name. Have you ever met with any
-      tangible and clear view of what takes place in generation,
-      whether by seeds or buds, or how a long-lost character can
-      possibly reappear; or how the male element can possibly affect
-      the mother plant, or the mother animal, so that her future
-      progeny are affected? Now all these points and many others are
-      connected together, whether truly or falsely is another question,
-      by Pangenesis. You see I die hard, and stick up for my poor
-      child.”
-
-_To_ WALLACE, _February 27th_ [1868].
-
-      “You cannot well imagine how much I have been pleased by what
-      you say about ‘Pangenesis’.... What you say exactly and fully
-      expresses my feeling, viz. that it is a relief to have some
-      feasible explanation of the various facts, which can be given
-      up as soon as any better hypothesis is found. It has certainly
-      been an immense relief to my mind; for I have been stumbling over
-      the subject for years, dimly seeing that some relation existed
-      between the various classes of facts.... You have indeed pleased
-      me, for I had given up the great god Pan as a still-born deity.”
-
-_To_ HOOKER, _February 28th_ [1868].
-
-      “I see clearly that any satisfaction which Pan may give will
-      depend on the constitution of each man’s mind.... I heard
-      yesterday from Wallace, who says (excuse horrid vanity), ‘I can
-      hardly tell you how much I admire the chapter on “Pangenesis.” It
-      is a _positive comfort_ to me to have any feasible explanation
-      of a difficulty that has always been haunting me, and I shall
-      never be able to give it up till a better one supplies its
-      place, and that I think hardly possible, &c.’ Now his foregoing
-      [italicised] words express my sentiments exactly and fully:
-      though perhaps I feel the relief extra strongly from having
-      during many years vainly attempted to form some hypothesis.
-      When you or Huxley say that a single cell of a plant, or stump
-      of an amputated limb, has the ‘potentiality’ of reproducing
-      the whole--or ‘diffuses an influence,’ these words give me no
-      positive idea;--but, when it is said that the cells of a plant,
-      or stump, include atoms derived from every other cell of the
-      whole organism and capable of development, I gain a distinct
-      idea. But this idea would not be worth a rush, if it applied to
-      one case alone; but it seems to me to apply to all the forms
-      of reproduction--inheritance--metamorphosis--to the abnormal
-      transposition of organs--to the direct action of the male
-      element on the mother plant, &c. Therefore I fully believe that
-      each cell does _actually_ throw off an atom or gemmule of its
-      contents;--but whether or not, this hypothesis serves as a useful
-      connecting link for various grand classes of physiological facts,
-      which at present stand absolutely isolated.”
-
-_To_ V. CARUS, _March 21st_ [1868].
-
-      “... Sir C. Lyell says to every one, ‘You may not believe in
-      “Pangenesis,” but if you once understand it, you will never get
-      it out of your mind.’ And with this criticism I am perfectly
-      content. All cases of inheritance and reversion and development
-      now appear to me under a new light.”
-
-_To_ FRITZ MÜLLER, _June, 1868_.
-
-      “I have yet hopes that you will think well of Pangenesis. I feel
-      sure that our minds are somewhat alike, and I find it a great
-      relief to have some definite, though hypothetical view, when
-      I reflect on the wonderful transformations of animals,--the
-      re-growth of parts,--and especially the direct action of pollen
-      on the mother-form, &c. It often appears to me almost certain
-      that the characters of the parents are ‘photographed’ on the
-      child, only by means of material atoms derived from each cell in
-      both parents, and developed in the child.”
-
-_To_ ASA GRAY, _May 8th_ [1868].
-
-      “Your article in the _Nation_ [March 19th] seems to me very good,
-      and you give an excellent idea of Pangenesis--an infant cherished
-      by few as yet, except his tender parent, but which will live a
-      long life. There is parental presumption for you!”
-
-_To_ E. RAY LANKESTER, _March 15th_ [1870].
-
-      “I was pleased to see you refer[L] to my much despised child,
-      ‘Pangenesis,’ who I think will some day, under some better nurse,
-      turn out a fine stripling.”
-
-_To_ WALLACE, _August 28th, 1872_.
-
-      “Notwithstanding all his [Dr. Bastian’s] sneers I do not strike
-      my colours as yet about Pangenesis.”
-
-In the second edition of “Animals and Plants,” Beale’s criticism
-of the hypothesis is alluded to with characteristic candour and
-humour:--“Dr. Lionel Beale (_Nature_, May 11th, 1871, p. 26) sneers
-at the whole doctrine with much acerbity and some justice.” Galton’s
-paper before the Royal Society (March 30th, 1871), upon the results of
-inter-transfusion of blood as destructive of pangenesis, was answered
-by Darwin in _Nature_ (April 27th, 1871). He did “not allow that
-pangenesis has as yet received its death-blow, though from presenting
-so many vulnerable points its life is always in jeopardy.”
-
-Galton had argued that the gemmules present in the blood of one
-individual would be expected to pass into the other individual and to
-produce hereditary effects on its offspring. This, however, did not
-occur. Romanes repeated these experiments under more rigid conditions,
-but with the same negative results; equally negative were the effects
-of his transplantation of skin from one animal to another, although the
-skin grew quite successfully in its new position.
-
-
-
-
-CHAPTER XXIII.
-
-DESCENT OF MAN--EXPRESSION OF EMOTIONS--EARTH-WORMS (1871–81).
-
-
-The work on “The Descent of Man” was begun as soon as Darwin had sent
-the manuscript of “Animals and Plants” to the printers, although
-notes on the subject had been collected from time to time during the
-previous thirty years--in fact, ever since Darwin had come to definite
-conclusions on evolution.
-
-The book was published February 24th, 1871, but, as in the case of
-his other publications, continuous work upon the manuscript had been
-impossible. The volume attracted great interest, and 5,000 copies were
-printed in 1871 in addition to the first 2,500.
-
-The full title of the book is “The Descent of Man, and Selection in
-Relation to Sex,” and, as this title almost implies, it is made up of
-two distinct works, which might well have been issued separately. The
-first part, dealing with man, is far shorter than the other. Darwin
-had from the first considered that his theory of evolution by natural
-selection would involve man as well as the other animals, and, that no
-one might accuse him of want of candour, he had said in the “Origin”
-that by this work “light would be thrown on the origin of man and his
-history.” But he was anxious to justify this statement, which was, of
-course, distasteful to very many in those days, by a most complete
-treatment of the subject.
-
-[Sidenote: DESCENT OF MAN.]
-
-He opens this part of the work, which he calls “The Descent or Origin
-of Man,” by discussing the structures which are common to man and
-animals, including those which are represented in man in a rudimentary
-state, and by showing the similarity of the phases through which man
-and animals pass during their embryological development.
-
-Having thus shown that man was probably descended from some lower
-form, he considers the mode by which the process was effected, showing
-that man possesses variability in body and mind, and is, like other
-animals, subject to all the laws of inheritance and variation, and to
-the direct action of surrounding conditions, and to the effect of the
-use and disuse of parts, and that his rate of increase is such as to
-render a large amount of extermination inevitable. In other words, he
-presents the same facilities for the operation of natural selection as
-those presented by other animals. The points in which man differs from
-other animals are then considered in relation to their possible origin
-by natural selection. The differences and resemblances between the mind
-of man and animals are discussed in much detail, and the origin of the
-former through natural selection is defended. This part concludes with
-the consideration of the position of man in the animal series, his
-birthplace and antiquity, and with an account of the formation of races.
-
-In the second part Darwin brings forward a large body of evidence in
-favour of his hypothesis of sexual selection--viz. the view that, in
-the higher animals, some alteration, especially of the secondary sexual
-characters, is produced by the preferences and rejections of the sex
-which is sought by the other. Such results are commonly found in the
-males as a result of the preferences of the females accumulated through
-countless generations; but in some species the females court the males,
-and are themselves subject to the same process of improvement by
-selection.
-
-Opinion is still divided on this most interesting question. Wallace,
-more convinced than ever as to the efficiency and scope of natural
-selection, after first doubting, has finally come to reject sexual
-selection altogether. Probably the majority of naturalists are
-convinced by Darwin’s arguments and his great array of facts that
-the principle of sexual selection is real, and accounts for certain
-relatively unimportant features in the higher animals, and they further
-accept Darwin’s opinion that its action has always been entirely
-subordinate to natural selection.
-
-A brief third part considers sexual selection in relation to man.
-
-Darwin says, in his “Autobiography,” that sexual selection and “the
-variation of our domestic productions, together with the causes and
-laws of variation, inheritance, and the intercrossing of plants, are
-the sole subjects which I have been able to write about in full, so as
-to use all the materials which I have collected.”
-
-[Sidenote: EXPRESSION OF EMOTIONS.]
-
-“The Expression of the Emotions,” at first intended as a chapter of the
-“Descent,” was begun, only two days after the proofs of the latter had
-been corrected, on January 15th, 1871. The book was published in the
-autumn of the following year; the edition consisted of 7,000 copies,
-and 2,000 were printed at the end of the year; and this, we are told,
-was a mistake, as it prevented the appearance of a second edition, with
-notes and corrections, during the author’s lifetime. Darwin had begun
-to take notes on this subject when his first child was born, December
-27th, 1839, for he tells us that, even then, he felt convinced “that
-the most complex and fine shades of expression must all have had a
-gradual and natural origin.”--(“Autobiography.”)
-
-In this work Darwin argues with great wealth of illustration and the
-record of numberless interesting observations, that the movements of
-expression are to be explained by three principles. The first of these
-is that movements made in gratifying some desire become by repetition
-so habitual that the slightest feeling of desire leads to their
-performance, however useless they may then be. The second principle
-is that of antithesis--“the habit of voluntarily performing opposite
-movements under opposite impulses.” The third principle is “the direct
-action of the excited nervous system on the body, independently of the
-will, and independently, in large part, of habit.”
-
-By showing that the expressions of emotions could thus be explained
-naturally, Darwin undermined the position taken up by Sir Charles Bell,
-that the muscles used in producing expression were created for this
-special end.
-
-In 1876 he re-commenced geological work, bringing out his previous
-works on “Volcanic Islands,” and on “South America,” as a single
-volume. In this year too he wrote (November 16th) a most interesting
-letter to James Geikie, offering an explanation of the large stones
-standing in an upright position in the drift of the south of England.
-He had noticed the same thing with the flints in the red clay left
-upon the chalk as a residuum after the action of solvent agencies
-on the latter. This position he explained was due to the movement
-following the slow subsidence of parts of the clay as the chalk beneath
-dissolved, the flints arranging themselves along the lines of least
-resistance. This suggested to him the view that the flints in the drift
-are to be explained by the subsidence, during the warmer climate which
-followed the glacial period, of alternate layers of snow and drift
-accumulated during the winters and summers respectively, of the cold
-period itself.
-
-This interesting view will, Geikie believes, come to be accepted as the
-truth.
-
-[Sidenote: WORK OF EARTH-WORMS.]
-
-The book upon “The Formation of Vegetable Mould Through the Action
-of Worms,” must be included among his geological works, although it
-contains a great many observations of deep zoological interest. It
-has been stated already that he wrote a paper on this subject for
-the Geological Society in 1838. In 1877 he studied the mode by which
-Roman remains gain their protective covering of mould; again towards
-the end of 1880 he began systematically to prepare the book, which
-was published on October 10th of the following year. It was extremely
-successful, 8,500 copies being sold in three years.
-
-This interesting work affords a good illustration of the tremendous
-results obtained, even in a moderate time, by an immense number of
-workers all using their powers in one direction. Each single earth-worm
-swallows earth in the excavation of its burrow and for the nutriment
-it contains, the waste material being ejected as “castings” at the
-surface, and as a lining to the burrow. But although the amount of
-earth thus swallowed by a single worm is not large, worms are so
-numerous that “the whole of the superficial mould ... has passed, and
-will again pass, every few years through the bodies of worms.” The
-result of this unceasing transport of the deeper mould to the surface
-is shown to be the burial of stones, either singly or in layers (as in
-paths), the covering and consequent protection of ancient buildings,
-and the preparation of soil for plants. In addition to this, the
-geological denuding agencies are assisted by the manner in which the
-deeper soil is brought into a position in which it is exposed to their
-action.
-
-In 1879 he wrote and published a life of his grandfather, Erasmus
-Darwin, as “a preliminary notice” to the English translation of E.
-Krause’s Life; but Darwin’s contribution forms the larger part of the
-volume.
-
-
-
-
-CHAPTER XXIV.
-
-BOTANICAL WORKS (1862–86).
-
-
-Darwin’s botanical works are referred to separately, and receive more
-systematic treatment than the others, in the great “Life and Letters.”
-They form, together with the botanical letters, the subject of the
-seventh to the twelfth chapters in the last volume. It will therefore
-be unnecessary to treat them in any detail, although they form some of
-the most important and interesting of all his biological investigations.
-
-_Fertilisation of flowers._--“The Fertilisation of Orchids” was the
-first published of the botanical works, appearing in 1862, followed
-by a second and greatly altered edition in 1877. The object of the
-work “is to show that the contrivances by which orchids are fertilised
-are as varied and almost as perfect as any of the most beautiful
-adaptations in the animal kingdom; and secondly, to show that these
-contrivances have for their main object the fertilisation of the
-flowers with pollen brought by insects from a distant plant.” Even
-in 1837 Darwin had written in his note-book, “Do not plants which
-have male and female organs together [_i.e._ in the same flower] yet
-receive influence from other plants? Does not Lyell give some argument
-about varieties being difficult to keep [true] on account of pollen
-from other plants? Because this may be applied to show all plants do
-receive intermixture.” (Quoted in the “Life and Letters.”) In 1841,
-Robert Brown, the distinguished botanist, advised Darwin to read
-Sprengel’s “Secret of Nature Displayed” (Berlin, 1793). The result was
-to encourage and assist Darwin in his work on fertilisation of flowers
-by insects, and to bring about the first due recognition of Sprengel’s
-merits, long after his death.
-
-“_The Effects of Cross- and Self-fertilisation in the Vegetable
-Kingdom._”--This work has a very direct bearing on that last mentioned.
-Darwin speaks in the Autobiography “of having come [in 1839] to the
-conclusion in my speculations on the origin of species, that crossing
-played an important part in keeping specific forms constant.” Later
-on he came to see that the advantage of crossing is more direct,
-and results from the greater vigour of the offspring over those of
-self-fertilised plants. The object of this work, published in 1876,
-was to prove this point by experimental evidence of sufficient amount,
-and to show in numerous cases, by measurements of height or weight,
-or by counting the number of seeds produced, that cross-fertilisation
-invariably tends towards the greater vigour of offspring.
-
-Hence the motive cause for the marvellous adaptations by which
-cross-fertilisation is ensured was supplied.
-
-[Sidenote: FORMS OF FLOWERS.]
-
-“_Different Forms of Flowers on Plants of the Same Species_” was
-published in 1877, and a second edition in 1880. This work, like so
-many others, had been largely anticipated by the author’s original
-papers to scientific societies, in this case to the Linnean. The papers
-were combined, brought up to date, and with the addition of much new
-matter constituted the volume. The chief part of the work is concerned
-with heterostyled plants, viz. species which bear different kinds of
-flowers chiefly distinguished by the lengths of the pistil and stamens.
-As many as three different forms occur in Lythrum. In this work it
-is shown that each of the forms, although possessing both kinds of
-sexual organs, is adapted to be fertilised by the pollen of another
-form, and that such offspring are more vigorous than those produced
-by fertilisation by the same form. He furthermore showed that the
-offspring of “illegitimate” parentage (viz. those which were fertilised
-by the same form) possessed, in certain respects, a close resemblance
-to hybrids among animals. He remarks in his Autobiography, “No little
-discovery of mine ever gave me so much pleasure as the making out the
-meaning of heterostyled flowers.”
-
-In addition to the heterostyled flowers, the other differing forms
-borne by the same plants are considered, including the cleistogamic
-species, in which minute closed flowers are borne as well as the
-ordinary open ones. The former are wanting in the scents and colours
-of ordinary flowers, and are specially adapted for self-fertilisation,
-and the production of “an abundant supply of seeds with little
-expenditure.”
-
-“_Climbing Plants._”--The subject of this volume was published as a
-paper before the Linnean Society in 1864. After being corrected, the
-material was brought out as a volume in 1875. Darwin, as he tells us in
-the Autobiography, was first led to study the subject by a paper by Asa
-Gray, which appeared in 1858 (Proc. Amer. Acad. of Arts and Sciences).
-Writing to Asa Gray, August 4th, 1863, he said, “My present hobby-horse
-I owe to you, viz. the tendrils.” One of the most interesting results
-brought forward in this work is the fact that the upper growing part
-of a twining stem bends to one side and then travels slowly round,
-between two and three hours being required for each revolution, in the
-case of the hop growing in a room and observed at the period of most
-active movement. The circle swept at the 27th revolution was 19 inches
-in diameter. In the case of this plant the three youngest internodes
-(or joints), and never less than two of them, were concerned in the
-movement; “by the time the lower one ceased to revolve, the one above
-was in full action, with a terminal internode just commencing to move.”
-The object of this movement is to strike some object round which
-the plant may twine. A much grander example was seen in _Ceropegia
-Gardnerii_, in which three long internodes and two short ones swept a
-circle over 5 feet in diameter, “at the rate of 32 or 33 inches per
-hour, in search of some object round which to twine.” The stem of the
-plant is not in the least twisted by this movement. Nearly all of the
-great divisions of twining plants, leaf-climbers, and tendril-bearers
-“have the same remarkable power of spontaneously revolving.”
-
-[Sidenote: MOVEMENT IN PLANTS.]
-
-“_The Power of Movements in Plants_” was published on November 6th,
-1880. It embodies a vast amount of work carried on in conjunction with
-Francis Darwin. This volume bears a very direct relation to that last
-mentioned, as Darwin has explained in his Autobiography:--
-
-      “In accordance with the principle of evolution it was impossible
-      to account for climbing plants having been developed in so many
-      widely different groups unless all kinds of plants possess
-      some slight power of movement of an analogous kind. This I
-      proved to be the case; and I was further led to a rather wide
-      generalisation, viz. that the great and important classes of
-      movements, excited by light, the attraction of gravity, &c., are
-      all modified forms of the fundamental movement of circumnutation.”
-
-An extreme example of circumnutation has already been described in the
-revolving movements of the youngest parts of the stem of a twining
-plant.
-
-The work evoked very great interest in this country, but was severely
-criticised by certain German botanists. The immense number of new
-observations must always have a very high value, whatever be the fate
-of the general conclusions, concerning which it may be remarked that
-Darwin’s conclusions have often been criticised before, but time has
-shown that he was right.
-
-“_Insectivorous Plants_” was published July 2nd, 1875, but I consider
-it last, as the subject stands somewhat apart from the rest of his
-botanical works. The subject was suggested to him by noticing the
-insects caught by the leaves of the Sun-dew (_Drosera_) near Hartfield.
-He then studied in great detail the causes of the movement, and the
-sensitiveness of the gland-tipped hairs, finding that a piece of hair
-weighing 1/78000 of a grain causes one of them to curve inwards, and
-alters “the condition of the contents of every cell in the foot-stalk
-of the gland.”
-
-The greater part of the work deals with the experiments on _Drosera_,
-which were extremely numerous and detailed. The remainder treats of
-other insectivorous plants, such as Dionæa, Pinguicula, Utricularia,
-etc. The methods of capture, the movements of the plants under the
-stimulus supplied by the living insect (or other animal), and the
-resulting changes in the plant-cells were not the only points studied.
-He also investigated the digestive secretion and its action upon the
-food absorbed by the leaves.
-
-
-
-
-CHAPTER XXV.
-
-LETTERS FROM DARWIN TO PROFESSOR MELDOLA (1871–82).
-
-
-By the kindness of my friend Professor Meldola, and the courtesy of
-Mr. Francis Darwin, I am enabled to publish for the first time a
-series of letters written by Charles Darwin to the former. The whole
-series consists of 33 letters, written between January 28th, 1871, and
-February 2nd, 1882, only a few weeks before his death.
-
-When we remember the immense amount of correspondence with which Darwin
-had to cope, the constant attention required by his investigations and
-publications, and the state of his health, it is deeply interesting
-to read these letters, written with such unfailing courtesy, to a
-younger worker in the lines that he had suggested, and who was thereby
-stimulated and encouraged to undertake the researches which are now so
-well known.
-
-Reading these letters and remembering the circumstances of the writer,
-we can understand how it is that, although ill-health prevented his
-presence on occasions at which the younger scientific men are wont
-to meet--although he was known to but few of them--nevertheless the
-charm of his noble and generous nature was a most potent force in
-influencing and attracting men; and it was this, no less than his
-epoch-making discoveries, which has made it one of the chief regrets of
-many a scientific worker that he never saw Charles Darwin.
-
-[Sidenote: LETTERS.]
-
-The correspondence was opened by a letter from Meldola informing Darwin
-of a case of hexadactylism in a man at Turnham Green.
-
-      “_Jan. 28 [1871]._
-
-                                                  “Down.
-
-      “DEAR SIR,--I am much obliged for your kindness in informing me
-      of the hexadactylous case; but so many have been recorded that I
-      do not think, except under very special circumstances, it would
-      be worth your while further to investigate it.
-
-      “With my thanks, yours faithfully and obliged,
-
-                                                  “CH. DARWIN.”
-
-
-The next letter refers to Meldola’s communication to _Nature_ (he
-had recently written upon pangenesis and upon sexual selection),
-and his work on mimicry, protective resemblance, etc. In the latter
-part we meet with an interesting reference to the researches on
-cross-fertilisation which are now so famous.
-
-      “_June 9th [1871]._
-
-                                                  “Down.
-
-      “DEAR SIR,--I am greatly obliged by your note. I have read with
-      much interest and carefully perused your letter in Nature, and
-      am looking out for a paper announced for Linn. Soc. Your remarks
-      shall all be in due time fully considered. With respect to the
-      separation of the sexes, I have often reflected on the subject;
-      but there is much difficulty, as it seems to me and as Nageli has
-      insisted, inasmuch as a strong case can be made out in favour of
-      the view that with plants at least the sexes were primordially
-      distinct, then became in many cases united, and in not a few
-      cases re-separated. I have during the last 5 or 6 years been
-      making a most laborious series of experiments, by which I shall
-      be able, I think, to demonstrate the wonderful good derived from
-      crossing, and I am almost sure but shall not know till the end
-      of the summer that I shall be able to prove that the good is
-      precisely of the same kind which the adult individual derives
-      from _slight_ changes of conditions.
-
-      “With my sincere thanks for your interest in my work, I remain,
-      dear Sir, Yours very faithfully,
-
-                                                  “CH. DARWIN.”
-
-
-The following letter is of great interest in relation to many problems
-of sexual selection, protective resemblance, mimicry, etc.:--
-
-      “_Jan. 23, 1872._
-
-                                                  “Down.
-
-      “DEAR SIR--The point to which you refer seems to me a very
-      difficult one. 1^{st} the comparison of the amount of variability
-      in itself would be difficult. 2^{ndly} of all characters,
-      colour seems to be the most variable, as we see in domesticated
-      productions. (3) I fully agree that selection if long continued
-      gives fixity to characters. We see the reverse of this in the
-      great variability of fancy races, now being selected by man.
-      But to give fixity, selection must be continued for a very long
-      period: pray consider on this head what I have said in the Origin
-      about the variability of characters developed in an extraordinary
-      manner, in comparison with the same characters in allied species.
-      The selection must also be for a definite object, and not for
-      anything so vague as beauty, or for the superiority of one male
-      in its weapons over another male, which can in like manner be
-      modified. This at least seems to me partly to account for the
-      general variability of secondary sexual characters. In the case
-      of mimetic insects, there is another element of doubt, as the
-      imitated form may be undergoing change which will be followed by
-      the imitating form. This latter consideration seems to me, as
-      remarked in my ‘Descent of Man,’ to throw much light on how the
-      process of imitation first began.
-
-      “I enclose a letter from Fritz Müller which I think is well worth
-      reading, and which please to return to me.
-
-      “You will see he lays much stress on the difficulty of several
-      remotely allied forms all imitating some one species. Mr. Wallace
-      did not think that there was so much weight in this objection
-      as I do. It is, however, possible that a few species in widely
-      different groups, before they had diverged much, should have
-      accidentally resembled, to a certain extent, some one species.
-      You will also see in this letter a strange speculation, which I
-      should not dare to publish, about the appreciation of certain
-      colours being developed in those species which frequently behold
-      other forms similarly ornamented. I do not feel at all sure that
-      this view is as incredible as it may at first appear. Similar
-      ideas have passed through my mind when considering the dull
-      colours of all the organisms which inhabit dull-coloured regions,
-      such as Patagonia and the Galapagos Is. I suppose you know Mr.
-      Riley’s excellent essay on mimicry in the last report on the
-      noxious insects of Missouri or some such title.
-
-      “I hope your work may be in every way successful.
-
-          “I remain, dear Sir, yours faithfully,
-                                                  “CHARLES DARWIN.”
-
-
-The next letter deals with mimetic resemblance:--
-
-      “_Mar. 28, 1872._
-
-                                                  “Down.
-
-      “DEAR SIR--I thank you for your information on various subjects.
-      The point to which you allude seems to me very obscure, and I
-      hardly venture to express an opinion on it. My first impression
-      is that the colour of an imitating form might be modified to
-      any extent without any tendency being given to the retention
-      of ancient structural peculiarities. The difficulty of the
-      subject seems to me to follow from our complete ignorance of the
-      causes which have led to the generic differences between the
-      imitating and imitated forms. The subject however seems worth
-      investigating. If the imitator habitually lives in company with
-      the imitated, it would be apt to follow in some respects the same
-      habits of life, and this perhaps would lead to the retention or
-      acquirement of some of the same structural characters.
-
-      “I wish you all success in your essay, and remain, dear Sir,
-      yours very faithfully,
-
-                                                  “CH. DARWIN.”
-
-
-The next very brief letter, acknowledging the receipt of a note, was
-written from Down, March 26th, 1873. It contained some sympathetic
-remarks upon the progress of Meldola’s work upon Mimicry. In the
-succeeding letter, printed below, we find a very definite statement of
-opinion as to the _rôle_ of monstrosities in evolution:--
-
-      “_Aug. 13th_ [1873].
-
-                                                  “Down.
-
-      “DEAR SIR--I am much obliged for your present which no doubt I
-      shall find at Down on my return home....
-
-      “I am sorry to say that I cannot answer your question; nor do
-      I believe that you could find it anywhere even approximately
-      answered. It is very difficult or impossible to define what is
-      meant by a larger variation. Such graduate into monstrosities
-      or generally injurious variations. I do not myself believe that
-      these are often or ever taken advantage of under nature. It is a
-      common occurrence that _abrupt_ and considerable variations are
-      transmitted in an unaltered state, or not at all transmitted,
-      to the offspring or to some of them. So it is with tailless or
-      hornless animals, and with sudden and great changes of colour in
-      flowers.--I wish I could have given you any answer.
-
-            “Dear Sir, yours very faithfully,
-                                                  “CH. DARWIN.”
-
-
-The succeeding three letters show Darwin’s scrupulous care as regards
-the publication, although with every acknowledgment, of the results
-obtained by others. They refer to a letter from Fritz Müller which
-he had forwarded to Meldola. The latter had written to ask Darwin’s
-permission and advice as to the inclusion of some of F. Müller’s
-observations in his most interesting paper, “Entomological Notes
-bearing on Evolution” (_Ann. and Mag. Nat. Hist._, 1878, 5th series,
-Vol. I. p. 155), which he was then preparing:--
-
-      “_Sept. 14, 1877._
-
-                                                  “Down.
-
-      “DEAR SIR--I have some doubts whether Fritz Müller would like
-      extracts from his letters being published after so long an
-      interval,--that is if the letter relates to the origin of
-      mimicry; for he published about a year ago an excellent paper on
-      this subject. I believe it was in the Jenaische Zeitschrift, but
-      the paper is out of its proper place in my library and I cannot
-      find it. If you thought it worth while to send me your copy I
-      could then judge about the publication of extracts.
-
-      “I fear it is not likely that I shall have anything to
-      communicate to the Entomological Soc. I quite agree with you
-      that it is a great pity that our Entomologists should confine
-      themselves to describing species.
-
-              “Dear Sir, yours faithfully,
-                                                  “CH. DARWIN.”
-
-
-       *       *       *       *       *
-
-      “_Sept. 22nd_ [1877].
-
-                                                  “Down.
-
-      “MY DEAR SIR--I am doubtful whether speculations in a letter
-      ought to be published, especially after a long interval of time.
-      Any fact which he states, I feel pretty sure he would not at
-      all object being used by anyone.--Pray do the best you can.--I
-      should grieve beyond measure to be accused of a breach of
-      confidence.--He has lately, as I mentioned, thrown much light on
-      the first steps in mimicry.
-
-      “With respect to dimorphic Butterflies, those about which I have
-      read appear at different seasons, and have been the subject of an
-      _admirable_ essay by Prof. Weismann. It is some little time since
-      I read the essay and one subject drives another out of my head,
-      but I think he explains all such cases by the direct inherited
-      effects of temperature. He tried experiments. If you read
-      German, I believe I could find Weismann’s essays and lend them to
-      you. In your present interesting case I really do not know what
-      to think: it seems rather bold to attribute the 2 coloured forms
-      to nat. selection, before some advantage can be pointed out.--May
-      not the female revert in some cases? I do not doubt that the
-      intermediate form could be eliminated as you suggest.
-
-      “I wish that my opinion could have been of any value....
-
-              “I remain yours very faithfully,
-                                                  “CH. DARWIN.”
-
-
-This last letter, with others that followed it, directing Meldola’s
-attention to Weismann’s “Studies in the Theory of Descent,” resulted
-in the English translation which is so admirably rendered and edited.
-Many of the later letters are concerned with the progress of this
-publication. The remarks about dimorphic butterflies referred to
-Meldola’s observation, that in one of those years in which _Colias
-edusa_ was extremely abundant, a whole series of forms had been taken
-transitional between the normal orange female and the white variety
-_helice_:--
-
-      “_Sept. 27_ [1877].
-
-                                                  “Down.
-
-      “MY DEAR SIR,--It is impossible for F. M. [Fritz Müller] to
-      object to anything which you have said in your very interesting
-      little essay.--I just allude to Butterflies preferring certain
-      colours at p. 317 of 2nd Edit^{n.} of the Descent and to the case
-      of the species of Castnia p. 315 which has ornamented hinder
-      wings and displays them, whilst 2 other species have plain
-      hind wings and do not display them. My son, who has charge of
-      my library, returns home to-night and then we will search for
-      Weismann. He gives splendid case of caterpillar with coloured
-      ocelli like true eyes, _and which frightened away birds_.
-
-              “Yours sincerely,
-                                                  “CH. DARWIN.”
-
-
-The reference in this letter is to Meldola’s paper, “Entomological
-Notes bearing on Evolution,” soon afterwards published in the _Annals
-and Magazine of Natural History_, 1878, Vol. I. p. 155. The caterpillar
-referred to is the well-known larva of the Large Elephant Hawk Moth
-(_Chærocampa elpenor_).
-
-Darwin then wrote a brief note (October 19th, 1877) referring to a
-number of _Kosmos_ containing an article on “Sexual Selection.” He
-offered to send the number if it would interest his correspondent. The
-number was sent, as the succeeding letter shows:--
-
-      “_Oct. 22nd [1877]._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--I send Kosmos by this post....
-
-      “Prof. Weismann’s address is Freiburg.--I should think he
-      would be glad of translation, and would probably arrange for
-      stereotypes of Plates.--You could say as an introduction that I
-      had lent you his book.--To find a publisher will be perhaps a
-      difficulty. Should it be translated I must beg you to get another
-      copy, as I cannot spare mine for such a length of time.--Wallace
-      sent me his article and I was quite dissatisfied with it.--To
-      explain a peacock’s tail by vital activity seems to me mere
-      verbiage--a mere metaphysical principle.
-
-              “My dear Sir, yours faithfully,
-                                                  “CH. DARWIN.
-
-      “It will be a public benefit to bring out a translation.”
-
-Then followed three letters, January 3rd, March 24th, and March 27th,
-1878; the first written when Darwin was sending another number of
-_Kosmos_, the second when sending his photograph, the third enclosing a
-letter from Fritz Müller containing some very interesting observations
-on mimicry in South American butterflies.
-
-He then wrote as follows:--
-
-      “_April 17/78._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--I should be very much obliged if you could get
-      some one to name the photographs of the enclosed insect and read
-      the enclosed letter. It seems a pretty, but I think not new
-      case of protective resemblance. One might fancy that the large
-      ocelli on the under wings were a sexual ornament.--Perhaps these
-      photographs might be worth exhibiting at the Entomolog. Soc.--I
-      do not want them returned (unless indeed Dr. Zacharias wants them
-      back, which is not probable) or the enclosed letter.
-
-      “A single word with the name of the genus and if possible of the
-      species, would suffice.--
-
-      “Pray forgive my troubling you and believe me
-
-              “Yours faithfully,
-                                                  “CH. DARWIN.
-
-      “I am glad that F. Müller’s letter interested you. He has
-      published a paper with plates on the shape of the hairs or scales
-      on the odoriferous glands of many butterflies, which I could send
-      you, but I doubt whether you would care for it.”
-
-Darwin then sent another letter from Fritz Müller containing some
-interesting notes on odoriferous organs in butterflies, and on the
-occasional failure of the female insect to deposit her eggs on a plant
-which can serve as the food of the young larvæ. The beetles alluded to
-were a species of _Spermophagus_. The two letters printed below refer
-to the same subjects:--
-
-      “_May 15 [1878]._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--I think the enclosed will interest you.--The
-      letter to me need not be returned as I have had the only
-      important passage for my work copied out.--In the letter F. M.
-      [Fritz Müller] sent me seeds of _Cassia neglecta_ and several
-      beetles arrived alive, having formed their cocoons, and gnawed
-      their way out of the little peas or seeds.--These elegant
-      beetles, with the knowledge of their manner of development may
-      interest some Coleopterist.
-
-      “I hope to hear some time about Dr. Zacharias’ photographs. I
-      received your obliging letter from Paris.
-
-              “Yours sincerely,
-                                                  “CH. DARWIN.”
-
-
-       *       *       *       *       *
-
-      “_May 25 [1878]._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--The living beetles and the cocoons were found in
-      a small paper packet containing the seeds. Those from which the
-      beetles had emerged were much broken, and the larvæ had evidently
-      attacked some of the other seeds. I am sorry to say that some of
-      the injured ones were thrown away. I am glad that you are going
-      to draw up a paper from Fritz Müller’s letters.
-
-              “Yours sincerely,
-                                                  “CH. DARWIN.”
-
-
-After another short note, dated July 24th, 1878, Darwin wrote the
-following letter, which explains how it was that he came to write the
-preface to the translation of Weismann’s “Studies”:--
-
-      “_October 31 [1878]._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--As you are inclined to be so very liberal as to
-      have a translation made of Weismann’s Essays on your own risk,
-      I feel bound to aid you to the small extent of writing a short
-      prefatory notice. But this is a kind of job, which I do not
-      feel that I can do at all well and therefore do not like; but I
-      will do my best. It must, however, be short for I am at present
-      working very hard. I do not quite understand whether you intend
-      asking some Publisher to bring out the book on commission at
-      your cost for if so there will be no difficulty in finding a
-      Publisher. But if you expect any Publisher to publish at his
-      risk and cost; I think from recent experience you will have
-      much difficulty in finding one.--I suppose that you have asked
-      Weismann’s concurrence.
-
-      “Down is rather an awkward place to reach, as we are 4 miles
-      from nearest station, Orpington. But I shall be in London for a
-      week on Nov^r 17th or 18th and could see you then at any time,
-      and perhaps you could come to luncheon.
-
-      “But if you would prefer to come here, I shall be very happy
-      to see you either Saturday or Sunday, if you would let me know
-      hour.--I am, however, bound to tell you that my health is always
-      doubtful, and that my head does not allow me to converse long
-      with anyone.
-
-      “With the most cordial sympathy in your undertaking, I remain, my
-      dear Sir, yours very faithfully,
-
-                                                  “CH. DARWIN.”
-
-
-In November, 1878, Darwin was in London, staying at his daughter’s
-house at 4, Bryanston Street. On the 19th he wrote asking Meldola to
-lunch to talk over the proposed English edition of Weismann, and on the
-25th sent the MS. of the Preface with the following letter:--
-
-
-                                                  “4 Bryanston St.,
-                                                      “Portman Sq^{re}.
-
-      “_Nov. 25_ [1878].
-
-      “MY DEAR SIR,--I send my little Preface, which I do not at all
-      like, but which I cannot improve. I should like hereafter to
-      see it in type. Mr. Bates tells me that Hardwick and Bohn of
-      Piccadilly intend to go in for publishing solid books; and if
-      your present publisher should change his mind: Mr. Bohn might be
-      worth applying to.
-
-              “Yours sincerely,
-                                                  “CH. DARWIN.”
-
-Professor Meldola then wrote, suggesting that Darwin should, in his
-Preface, point out, by references to the “Origin of Species” and his
-other writings, how far he had already traced out the lines which
-Weismann had pursued in his researches. The suggestion was made because
-in a great many of the Continental writings upon the theory of descent
-a number of the points which had been clearly foreshadowed, and in
-some cases even explicitly stated, by Darwin had been independently
-rediscovered and published as though original. In the editorial notes
-to Meldola’s translation full justice to Darwin has been done in this
-respect. Darwin’s characteristic reply is deeply interesting.
-
-      “_Nov 26^{th}_ [1878].
-
-                                                  “4 Bryanston St.
-
-      “MY DEAR SIR,--I am very sorry to say that I cannot agree to your
-      suggestion.--An author is never a fit judge of his own work, and
-      I should dislike extremely pointing out when and how Weismann’s
-      conclusions and work, agreed with my own.--I feel sure that I
-      ought not to do this, and it would be to me an intolerable task.
-      Nor does it seem to me the proper office of the Preface, which
-      is to show what the book contains and that the contents appear
-      to me valuable. But I can see no objection for you, if you think
-      fit, to write an introduction with remarks or criticisms of any
-      kind. Of course I would be glad to advise you on any point as far
-      as lay in my power, but as a whole I could have nothing to do
-      with it, on the grounds above specified that an author cannot and
-      ought not to attempt to judge his own works or compare them with
-      others. I am sorry to refuse to do anything which you wish.--
-
-      “We return home early to-morrow morning.--Your green silk seems
-      to me a splendid colour, whatever the æsthetics may say.--My dear
-      Sir, yours faithfully,
-
-                                                  “CH. DARWIN.”
-
-
-The “green silk” referred to some specimens of coal-tar colours sent
-to show Darwin what modern chemistry had been able to accomplish in
-the way of artificial colouring matters. They were at that time of
-particular interest in connection with a discussion which had arisen
-in Bryanston Street about the so-called “æsthetic” school, which
-had become rather predominant at the period, and which affected an
-abhorrence of all brilliant colouring, in spite of the circumstance
-that nature abounds in the most gorgeous hues, especially in the
-tropics.
-
-The next letter refers to the adoption of the word “phyletic” in the
-translation of Weismann.
-
-      “_Dec. 14_ [1878].
-
-                                                  “Down.
-
-      “MY DEAR SIR,--I am very glad that you are making good progress
-      with the book.--You could not apply to a worse person than myself
-      on any philological question. I presume that ‘phyletische’ has
-      been adopted or modified from Häckel. As the latter uses the
-      word, it has nearly the sense of genealogical. It always applies
-      to the lines of descent, and therefore differs somewhat from
-      ‘innate’; for an inherited character, though derived from the
-      father alone or only a single generation, would be innate in the
-      child. I should think ‘phyletic’ would do very well, if you gave
-      the German word and an explanation, in a foot-note.
-
-      “There has been a delay in answering your letter, but I have just
-      heard from my son who is away from home, and he says that he is
-      sorry but he cannot well spare the time to lecture.
-
-              “My dear Sir, yours very faithfully,
-                                                  “CH. DARWIN.”
-
-
-Then followed two letters (January 20th, and February 7th, 1879), the
-first written when Darwin was sending a number of _Kosmos_; the second
-referring to it and other papers, and asking that his name should be
-put down as a subscriber to the forthcoming translation of Weismann.
-
-Later on the number of _Kosmos_ for May, 1879, was sent, containing
-(p. 100) Fritz Müller’s paper “_Ituna_ and _Thyridia_.” This paper,
-although it did not attract sufficient attention at the time, was of
-the highest importance in relation to the theory of mimicry, as Meldola
-at once perceived.
-
-Bates in his epoch-making paper in the Transactions of the Linnean
-Society (Vol. XXIII. 1862) had founded the theory of mimicry.
-Those rarer forms which have diverged from their near allies and,
-in superficial appearance, approached some distantly related, but
-abundant, species inhabiting the same tract have been, according to
-Bates’s theory, benefiting themselves in the struggle for existence.
-The mimicked species are, he suggested, abundant because they possess
-some special means of protection, such as an unpleasant taste or smell,
-and they have an unpleasant reputation which greatly aids them in the
-struggle for life; while the mimicking species, by their superficial
-resemblance, are enabled to live upon that reputation without
-possessing the special means of defence.
-
-Certain facts well-known to Bates, and brought forward in his paper,
-were not explicable by this theory, viz. the resemblance that
-often exists between the abundant and specially protected species
-themselves. Although a few tentative suggestions were made, such as the
-production of a common appearance by similarity of climate, or food,
-etc., these facts remained an unexplained mystery until this paper
-of Fritz Müller’s in the May number of _Kosmos_. He there suggests
-that the mutual resemblance between the specially protected forms is
-advantageous, in reducing for each of them the number of individuals
-which must be sacrificed during the process of education which their
-youthful enemies must undergo, before they learn what is fit and what
-unfit for food. The arrangement is, in fact, much like that between a
-couple of firms that issue a common advertisement, and so save about
-half the expense of advertising alone. It is only another added to the
-numerous examples of the production by natural selection, and without
-the introduction of consciousness, of a result which could not be
-bettered by the deliberate action of the most acute intelligence.
-
-Meldola at once wrote to Darwin asking his advice about the translation
-of F. Müller’s paper, and received the following reply:--
-
-      “_June 6th, 1879._
-
-                                                  “Down.
-
-      “MY DEAR MR. MELDOLA,--Your best plan will be to write to ‘Dr.
-      Ernst Krause, Friedenstrasse, 10 II. Berlin.’ He is one of the
-      editors with whom I have corresponded. You can say that I sent
-      you the Journal and called your attention to the paper, but I
-      cannot take the liberty of advising the supply of clichés. He is
-      a very obliging man. Had you not better ask for permission to
-      translate, saying the source will be fully acknowledged?
-
-      “F. Müller’s view of the mutual protection was quite new to me.
-
-              “Yours sincerely,
-                                                  “CH. DARWIN.”
-
-
-The clichés were obtained and Meldola’s translation published in the
-Proceedings of the Entomological Society for 1879, p. 20. The new
-contribution to the theory of mimicry was at first somewhat severely
-criticised, even Bates being adverse to it. Subsequent work has
-abundantly justified it as by far the most important addition to the
-subject since Bates’s original paper. In fact, many cases which have
-been up to the present explained under the theory of true (Batesian)
-mimicry are now believed to come under that which we owe to F.
-Müller--viz. convergence between specially protected forms for mutual
-benefit.
-
-An interesting paper by Dr. F. A. Dixey, published in the Transactions
-of the Entomological Society for the present year (1896), contains
-convincing arguments in favour of this view as regards some of the
-_Pieridæ_ of South America in relation to the _Heliconidæ_ and
-_Papilionidæ_ which they resemble.
-
-It is of the highest interest to learn that the first introduction
-of this new and most suggestive hypothesis into this country was due
-to the direct influence of Darwin himself, who brought it before the
-notice of the one man who was likely to appreciate it at its true value
-and to find the means for its presentation to English naturalists.
-
-In the next year Meldola wished to translate further papers of Fritz
-Müller’s, and received the following letter on the subject:--
-
-      “_Nov. 25/80._
-
-                                                  “Down.
-
-      “MY DEAR SIR,--I can well believe that your labour must have been
-      great, and everyone is bound to aid you in any way.
-
-      “No. I. of F. Müller’s paper is in the August no. for 1877.
-
-      “No. II.--is in the October no. for 1877.
-
-      “Both these articles I remember thinking excellent.
-
-      “I am not one of the editors of Kosmos, only a kind of patron(!)
-      and therefore cannot give permission; but when you write to the
-      editors you can say that I have expressed a hope that permission
-      would be granted, you acknowledging source of papers.
-
-      “Heartily wishing you success and in haste to catch first post, I
-      remain yours very faithfully,
-
-                                                  “CH. DARWIN.”
-
-
-Shortly after the date of the last letter Professor Meldola came across
-a copy of Thomson’s “Annals of Philosophy” on a bookstall. It bore the
-name “Erasmus Darwin” on the first page, and Meldola offered it to
-Charles Darwin, thinking it might have belonged to his grandfather.
-
-      “_March 12th, 1881_ [The date was evidently May, and not March].
-
-                                                  “Down.
-
-      “DEAR MR. MELDOLA,--It is very kind of you to offer to send me
-      the book, but I feel sure that it could not have belonged to
-      my grandfather.--My eldest brother’s name is Erasmus and he
-      attended to chemistry when young, and I suppose that the ‘Annals
-      of Philosophy’ was left at my Father’s house and sold with the
-      Library which belonged to my sisters.--I will look to the few
-      words of Preface to Wiesmann [_sic_], whenever I receive a
-      proof.--With many thanks.--
-
-              “Yours very faithfully,
-                                                  “CH. DARWIN.”
-
-
-Then followed a brief note dated “Aug. 8, 1881,” referring to some
-point in the work upon which Meldola was then engaged, and which cannot
-now be ascertained. Another letter of the same date referred to the
-translation of Weismann, and contained some encouraging words upon the
-interest created by the work and upon the success of the Essex Field
-Club, in which Meldola had taken a leading part. Another brief note of
-August 10th, 1881, apparently refers to some paper which cannot now be
-identified.
-
-The following interesting letter is of uncertain date:--
-
-      “_? 19th, ? 1881._
-
-                                                  “Down.
-
-      “DEAR MR. MELDOLA,--When I read the F. M. [Fritz Müller] paper
-      your doubt occurred to me and I must say this, I would rather
-      have expected that the knowledge of distasteful caterpillars
-      would have been inherited, but I distinctly remember an account
-      (when Wallace first propounded his warning colors) published of
-      some birds, I think turkeys, being experimented upon and they
-      shook their heads after trying some caterpillars as if they had a
-      horrid taste in their mouths. I fancied this thing was published
-      by Mr. Weir or could it have been by Mr. Butler? It would be well
-      to look in Mr. Belt’s ‘Nicaragua’ as he tried some experiments. I
-      am not sure that there is not some statement of the kind in it.
-
-              “Yours faithfully,
-                                                  “CHARLES DARWIN.
-
-      “I daresay Mr. Wallace or Bates would remember the statement of
-      some birds shaking their heads to which I refer.”
-
-The statement about the turkeys evidently refers to Stainton’s
-experiment with young birds of this kind, which immediately devoured
-numerous protectively coloured moths, but, after seizing, invariably
-rejected, a conspicuous white species (_Spilosoma menthastri_). It was
-Belt’s ducks which shook their heads after tasting a very conspicuous
-Nicaraguan frog. Darwin wished to show by this evidence that there was
-no instinctive knowledge such as would have saved the birds from an
-evidently unpleasant experience.
-
-The last letter, deeply interesting both on its own account and because
-it was written so near the end of Darwin’s life, was a reply to one
-from Meldola in which he had said that the publishers were complaining
-that the list of subscribers was disappointing, and that they had
-expressed the wish that Mr. Darwin could see his way to writing a much
-longer introductory notice than he had done.
-
-      “_Feb. 2nd [1882]._
-
-                                                  “Down.
-
-      “DEAR MR. MELDOLA,--I am very sorry that I can add nothing to
-      my very brief notice without reading again Weismann’s work and
-      getting up the whole subject by reading my own and other books,
-      and for so much labour I have not strength. I have now been
-      working at other subjects for some years, and when a man grows
-      as old as I am, it is a great wrench to his brain to go back to
-      old and half-forgotten subjects. You would not readily believe
-      how often I am asked questions of all kinds, and quite lately I
-      have had to give up much time to do a work, not at all concerning
-      myself, but which I did not like to refuse. I must however
-      somewhere draw the line, or my life will be a misery to me.
-
-      “I have read your Preface and it seems to me _excellent_. I
-      am sorry in many ways, including the honour of England as a
-      scientific country, that your translation has as yet sold badly.
-      Does the publisher or do you lose by it? If the publisher, though
-      I should be sorry for him, yet it is in the way of business; but
-      if you yourself lose by it, I earnestly beg you to allow me to
-      subscribe a trifle, viz. ten guineas, towards the expense of this
-      work, which you have undertaken on public grounds.
-
-              “Pray believe me, yours very faithfully,
-                                                  “CH. DARWIN.”
-
-
-Darwin’s generous offer, although gratefully declined, was a warm
-encouragement in the laborious, and in some respects thankless, task of
-translator and editor--a task which, in the case of the English edition
-of Weismann’s “Studies in the Theory of Descent,” was carried out in so
-admirable a manner.
-
-
-
-
-CHAPTER XXVI.
-
-HIS LAST ILLNESS (1882).
-
-
-In the last few months of his life, towards the end of 1881 and
-beginning of 1882, Darwin began to suffer from his heart, causing
-attacks of pain and faintness which increased in number. On March 7th,
-1882, he had one of these seizures when walking, “and this was the last
-time that he was able to reach his favourite ‘sand-walk’” (“Life and
-Letters”). After this he became rather better, and on April 17th was
-able to record the progress of an experiment for his son Francis. The
-following sentences are quoted from the “Life and Letters”:--
-
-      “During the night of April 18th, about a quarter to twelve, he
-      had a severe attack and passed into a faint, from which he was
-      brought back to consciousness with very great difficulty. He
-      seemed to recognise the approach of death, and said, ‘I am not
-      the least afraid to die.’ All the next morning he suffered from
-      terrible nausea and faintness, and hardly rallied before the end
-      came.
-
-      “He died at about four o’clock on Wednesday, April 19th, 1882.”
-
-He was buried in Westminster Abbey on April 26th.
-
-Thus died one of the greatest of men, after a life of patient and
-continuous work interrupted only by ill-health; a man who was, perhaps,
-more widely attacked and more grossly misrepresented than any other,
-but who lived to see his teachings almost universally received; a
-man whose quiet, peaceful life of work, and whose precarious health,
-prevented that large intercourse with his fellow-men which is generally
-forced upon greatness, but who was so beloved by his circle of intimate
-friends that, through their contagious enthusiasm, and through the
-glimpses of his nature revealed in his writings, he was in all
-likelihood more greatly loved than any other man of his time by those
-who knew him not.
-
-And for all those of us who have loved Darwin, although we have never
-seen him, we can at any rate remember that we have lived in his time
-and have heard the echoes of his living voice; he has been even more
-to us than he will be to future generations of mankind--a mighty
-tradition, gaining rather than losing in force and in overwhelming
-interest as each passing age, inspired by his example, guided by his
-teachings, adds to the knowledge of nature, and in so doing gives an
-ever deeper meaning to his life and work.
-
-
-
-
-FOOTNOTES
-
-
-[A] See Professor Meldola’s interesting Presidential Address to the
-Entomological Society of London (January, 1896) on the use of the
-imagination in science, printed in the Transactions of the Society and
-in _Nature_. See also “The Advancement of Science” (London, 1890), in
-which Professor Lankester maintains (p. 4): “All true science deals
-with speculation and hypothesis, and acknowledges as its most valued
-servant--its indispensable ally and helpmeet--that which our German
-friends call ‘Phantasie’ and we ‘the Imagination.’” Consult also
-Professor Tyndall’s essay “On the Scientific Use of the Imagination”
-(“Fragments of Science,” 1889, vol. ii., p. 101).
-
-[B] We are told in the “Life and Letters” that the last proof of the
-“Journal” was finished in 1837. The Diary, as stated above, was written
-between July, 1837, and February, 1838.
-
-[C] Professor H. F. Osborn has rightly urged that this essay should be
-published (“From the Greeks to Darwin,” 1894, p. 235).
-
-[D] My friend Mr. J. J. Walker, R.N., tells me that the house in which
-Wallace lived in Ternate, and in which the essay was written, is still
-pointed out by the natives as one of the features of the place. It is,
-unfortunately, much dilapidated.
-
-[E] Wallace has added the following note to the reprint in “Natural
-Selection and Tropical Nature,” London, 1891, p. 31: “That is, they
-will vary, and the variations which tend to adapt them to the wild
-state, and therefore approximate them to wild animals, will be
-preserved. Those individuals which do not vary sufficiently will
-perish.”
-
-[F] Since the above paragraph was written I have again read Professor
-Newton’s eloquent Address to the Biological Section of the British
-Association at Manchester in 1887, and find that he says on the
-same subject--“If in future you should meet with any cynic who may
-point the finger of scorn at the petty quarrels in which naturalists
-unfortunately at times engage, particularly in regard to the priority
-of their discoveries, you can always refer him to this greatest of all
-cases, where scientific rivalry not only did not interfere with, but
-even strengthened, the good-feeling which existed between two of the
-most original investigators” (Report of Meeting, p. 731).
-
-[G] “There is grandeur in this view of life, with its several powers,
-having been originally breathed by the Creator into a few forms or into
-one;...”--(Concluding paragraph of “Origin,” 1860, p. 490.)
-
-[H] “Life of Lord Sherbrooke,” Vol. II. (pp. 205–206), Longmans & Co.
-London, 1893.
-
-[I] Proc. Roy. Soc. Edin., Jan. 16th, 1860.
-
-[J] Presidential address to the British Association at Belfast, 1874.
-Report, p. lxxxvii.
-
-[K] See H. F. Osborn, “From the Greeks to Darwin” (1894).
-
-[L] In “Comparative Longevity.”
-
-
-
-
-INDEX.
-
-
-  Abnormal Transposition, or Multiplication of Parts, 172
-
-  Acquired Characters, Transmission of, 179, 180
-
-  Agassiz, Prof. L., and Darwin, 157, 158
-
-  Animals, Variation of, under Domestication, 75, 115, 161, _et seq._;
-    Abnormal Transposition or Multiplication of Parts, 172;
-    Instinctive Knowledge in, denied, 216
-
-  Argyll, Duke of, on Natural Selection, 144
-
-  Atlantis Hypothesis, The, Darwin’s Objections to, 53–55
-
-
-  Bastian, Dr. H. C., 160
-
-  Bates on Mimicry, 212
-
-  Bateson on Speculation and Hypothesis in Science, 14–15
-
-  “Beagle,” Darwin’s Voyage in the, 21–24;
-    Important Observations and Discoveries, 23;
-    Countries and Islands visited, 23–24;
-    Completion of “A Naturalist’s Voyage,” 30;
-    Zoology of, 31;
-    Geology of, 35
-
-  Beale, Dr. Lionel, 184
-
-  Bear and Whale, a Hypothetical Illustration of Natural Selection, 151
-
-  Beetles, Wingless, 51
-
-  Birds, Experimenting with Distasteful Caterpillars, &c., 216
-
-  Botanical Works of Darwin, 193, _et seq._
-
-  Bree, Dr., “Species not Transmutable,” 149
-
-  Butler, Dr., School at Shrewsbury, Darwin’s Education at, 16, 17
-
-  Butterflies, Dimorphic, 204, 205
-
-
-  Cambridge, Darwin studying at, 18–20;
-    Revisited, 25
-
-  Carpenter, Dr., 159
-
-  Carus, V., 183
-
-  Case, Mr., Darwin attends his School at Shrewsbury, 16
-
-  “Challenger” Expedition, The, 53, 55
-
-  Cirripedia, Monographs on the, 36
-
-  Climbing Plants, 196;
-    Revolution of the Upper Part, 196
-
-  Copley Medal of the Royal Society awarded to Charles Darwin, 109;
-    to Sir Joseph Hooker, 111
-
-  Coral Reefs, Work upon the, 32;
-    Theory of Origin, 33;
-    Dr. John Murray rejects the Darwinian Theory, 33
-
-  Creative Hypothesis, Huxley on the, 135
-
-  Crossing in Plants, The Advantages of, 194
-
-  Cross-fertilisation in Plants, 201
-
-
-  Darwin, Charles, Birthplace, 9;
-    His Parentage, 10;
-    Family Genius, 10;
-    Secret of his Strength, 13–15;
-    his high Valuation of Hypothesis, 14;
-    Boyhood, 16–17;
-    School-life, 16;
-    Love of Sport, 16;
-    at Edinburgh, 17;
-    Dislike of Dissection, 17;
-    First Scientific Discovery and Paper, 17, 18;
-    at Cambridge, 18–20;
-    his Friendship with Professors Henslow and Sedgwick, 19;
-    Voyage of the “Beagle,” 21, _et seq._;
-    Preparation for and Effects of the Voyage, 22;
-    the Most Important Discoveries during, 23;
-    Places Visited, 23, 24;
-    Re-visits Cambridge, 25;
-    Work upon the Collections, and the “Naturalist’s Voyage,” 25;
-    at London, 25;
-    Origin of Species, 25–29;
-    Geological Work, 29, 33;
-    Completion of “A Naturalist’s Voyage,” 30;
-    Zoology of the Voyage of the “Beagle,” 31;
-    Papers on Earth-Worms, 31;
-    Marriage, 32;
-    Book on the Coral Reefs, 32;
-    Ill-health, 32;
-    at Down, 35;
-    his Career as a Biologist, 37;
-    Systematic Work, 37;
-    his Dislike of Species-mongers, 39, 40;
-    Death of his Father and Daughter, 41;
-    Growth of the Origin of Species Theory, 42–59;
-    Correspondence with Friends, 50–59;
-    Experiments with Seeds in Salt Water, 51, 52;
-    Letter to Wedgwood, 52;
-    Objections to the Atlantis Hypothesis, 53, 55;
-    Letter to Lyell, 53;
-    Friendship and Correspondence with Wallace, 60–64, 81–86;
-    their Joint Papers Presented to the Linnean Society, 46, 62;
-    Letter to Asa Gray on Selection, 68–70;
-    Comparison and Reception of the Joint Papers, 78–82;
-    Delay in Publishing his Discoveries, 90;
-    Preparation of Origin of Species, 95, _et seq._;
-    Observations, 96;
-    Appeals to Lyell, 97;
-    Letter to John Murray, 97;
-    his Influence upon Lyell, 105;
-    Receives the Copley Medal of the Royal Society, 109;
-    his Indebtedness to Lyell’s Teaching, 110;
-    Influence upon Hooker and Asa Gray, 111;
-    his Controversy with Asa Gray, 114–118;
-    his Influence upon Huxley, 119–143;
-    his Views of Natural Selection as the Cause of Evolution not
-        accepted by Huxley, 121–128;
-    Extracts from Letters showing Difficulty with which Natural
-        Selection was Understood, 145, _et seq._;
-    on Spontaneous Generation, 108, 159;
-    and Bastian, 160;
-    his Later Works, 161;
-    his Theory of Pangenesis, 163, _et seq._;
-    Variation of Animals and Plants under Domestication, Outline of the
-        Book, 163;
-    on Sexual and Asexual Reproductions, 164, _et seq._;
-    Extracts from Letters to Friends on Pangenesis, 178, _et seq._;
-    “The Descent of Man,” 186;
-    “The Expression of the Emotions,” 189;
-    “Volcanic Islands,” 190;
-    “South America,” 190;
-    “The Formation of Vegetable Mould through the Action of Worms,” 191;
-    his Life of Erasmus Darwin, 192;
-    “Fertilisation of Orchids,” 193;
-    Cross- and Self-Fertilisation in the Vegetable Kingdom, 194;
-    Different Forms of Flowers on Plants of Same Species, 194;
-    Climbing Plants, 196;
-    “Power of Movement in Plants,” 197;
-    “Insectivorous Plants,” 198;
-    Letters to Prof. Meldola, 199, _et seq._;
-    his Last Illness, 219;
-    and Death, 220
-
-  Darwin, Erasmus, Brother of Charles, 11
-
-  Darwin, Erasmus, Grandfather of Charles, 10, 192
-
-  Darwin, Prof. George, Brother of Charles, 11
-
-  Darwin, Robert Waring, Father of Charles, 10;
-    Profession and Character, 10;
-    his Dislike to the “Beagle” Expedition, 21–22;
-    Death of, 41
-
-  Darwin Medal of the Royal Society awarded to Huxley, The, 140
-
-  Darwinism not Evolution, Huxley’s Speeches, 139–141
-
-  Deposits, Oceanic, 55
-
-  Descent of Man, The, 186
-
-  Development, 166, 171
-
-  Dixey, Dr. F. A., Paper on Mimicry, 214
-
-  Domestication, Variation by, of Animals and Plants, 115, 161, _et
-        seq._;
-    of Animals, 75
-
-  Down, Darwin’s Home at, 35
-
-  Drosera and Other Insectivorous Plants, 198
-
-
-  Earthworms, 191;
-    Castings of, 191;
-    Papers on the, 31
-
-  Edinburgh, Darwin studying for Medicine at, 17
-
-  “Emotions, The Expression of the,” 189, 190
-
-  Evolution, First Recorded Thoughts upon, 28;
-    Natural Selection as a Cause not accepted by Huxley, 121, _et seq._;
-    the Argument for, 100;
-    supported by Huxley, 121;
-    Huxley agrees with Darwin, 121, _et seq._;
-    Discussion at Meeting of the British Association, 82, 138;
-    not Darwinism, 139–141
-
-  “Expression of the Emotions, The,” 189, 190
-
-  Extinction, 43–45
-
-
-  Fertilisation of Germ Cells, 165;
-    “of Orchids, The,” 193;
-    of Flowers by Insects, 193;
-    Effects of Cross- and Self-, 194
-
-  Fitzroy, Capt., of the “Beagle,” 21, 22
-
-  Flowers, The Fertilisation of, by Insects, 193;
-    Effects of Cross- and Self-Fertilisation compared, 194;
-    Different Forms on the same Plant, 195
-
-  Flustra, Darwin’s Discovery of the Free-Swimming Larvæ of, 18
-
-  Forbes, Edward, and the Atlantis Hypothesis, 53
-
-  “Formation of Vegetable Mould through the Action of Worms, The,” 191
-
-  Fox, W. Darwin, 19
-
-
-  Galapagos Archipelago, The Animals, etc., of the, 26, 27, 42
-
-  Galton, F., 184
-
-  Geikie, James, 190
-
-  Geological Society, The, Darwin appointed Secretary, 29;
-    Papers on the Earthworms, 31
-
-  Geology of the Voyage of the “Beagle,” 35
-
-  Glacial Phenomena, Darwin’s Paper upon, 33
-
-  Graft-Hybrids, 166
-
-  Grafting, Production of Hybrids by, 168
-
-  Gray, Asa, Darwin’s Correspondence with, 51, 55, 107, 181, 184;
-    his Influence upon, 112;
-    Darwin’s Controversy with, 114–118
-
-  Gray, Dr., 146, 149
-
-
-  Henslow, Prof., Friendship with Darwin, 18–21
-
-  Herbert, J. M., on Darwin’s Character, 19, 20
-
-  Hereditary Genius, Evidences in the Darwin Family, 10, 11
-
-  Heredity, Theories of, 167, 174
-
-  Hermaphroditism, 175
-
-  Holmes, Dr. Oliver Wendell, his References to Darwin, 9;
-    his Correction of Darwin, 9
-
-  Hooker, Sir Joseph, 37, 48;
-    Darwin’s Letters to, on Species-mongers, 39–40;
-    Darwin’s Opinion of, 48;
-    Friendship and Correspondence with Darwin, 50;
-    Lyell’s Correspondence with, as to Specific Centres, 57;
-    Darwin’s Influence upon, 110, _et seq._;
-    awarded the Copley Medal of the Royal Society, 111;
-    and Darwin, 146;
-    Darwin Writing on Pangenesis, 181, 182
-
-  Huxley, Prof., Criticisms of Darwin’s Theory, 46, 48;
-    on Teleology, 113;
-    Darwin’s Influence upon, 119–143;
-    agrees with Darwin on Evolution, 121;
-    Views on Natural Selection, 121, 124, 126, 138;
-    Article in the _Times_ on the Origin of Species, 124;
-    his Article in the _Westminster Review_, 125;
-    Lectures on the Causes of the Phenomena of Organic Nature, 128, 142;
-    Views as to Natural Selection not changed, 137, 138;
-    Speech at the British Association Meeting at Oxford, 139;
-    awarded the Darwin Medal of the Royal Society, 140;
-    Darwinism, not Evolution, 140, 141;
-    and the Bishop of Oxford, 155
-
-  Hybrid Grafts, 166
-
-  Hybridism, 175, 176
-
-  Hybrids, Tendency to Resemble one Parent, 171;
-    Sterility of, 171;
-    Produced by Grafting, 168
-
-  Hypothesis and Speculation, Bearing on Science, 14, 15
-
-
-  Inheritance, The Theories of, 167, 174
-
-  Insectivorous Plants, 198
-
-  Instinctive Knowledge in Animals denied by Darwin, 216
-
-
-  Jenkin, Fleming, 81
-
-
-  Lamarck’s Theory of Evolution, 99;
-    Comparison with Darwin’s, 148, 150
-
-  Lankester, Prof. E. Ray, 99, 184
-
-  Linnean Society, Joint Memoirs by Darwin and Wallace, read before,
-        65, _et seq._
-
-  Lowe, Robert, 150
-
-  Lyell, Sir Charles, Influence on Darwin, 29, 30, 51;
-    and Continental Extensions, 53;
-    and Hooker’s Agreement on the Specific Centres Theory, 57;
-    Darwin’s Appeal to, on the Natural Selection, 97;
-    Influence of Darwin upon, 105;
-    Accepts Darwin’s Views, 108, 109;
-    Death of, 109;
-    Darwin’s Letter on Pangenesis, 181
-
-  Lythrum, Different Forms of Flowers on the, 195
-
-
-  Macleay, W. S., 150
-
-  Malthus on Population, its Influence on Darwin, 46;
-    and on Wallace, 88, 89
-
-  Man, The Descent of, 186
-
-  Meldola, Prof., on Systematic Work, 37;
-    and Darwin, 199, _et seq._
-
-  Metamorphosis, 171
-
-  Mimetic Resemblance, 202
-
-  Mimicry, 202, 204;
-    Bates’ Theory, 212;
-    Fritz Müller’s Theory, 212;
-    Dixey’s paper on, 214
-
-  Müller, Fritz, Darwin’s Letters to, 181, 183;
-    on Mimicry, 212–214;
-    his Paper Translated, 213
-
-  Murray, Andrew, 152
-
-  Murray, Dr. John, Controversy as to the Origin of Coral Reefs, 33
-
-
-  Naming of Species, Darwin on the, 39, 40
-
-  Natural Selection, Early Impressions on Darwin, 30, 45, 46;
-    Survival of the Fittest, 56;
-    Specific Centres, 57;
-    Darwin’s Paper on, 65;
-    Theory of, 68–70;
-    Wallace’s Discovery of, 88–91;
-    Lord Salisbury’s Attack on, 82, 138;
-    Canon Tristram, the First Publicly to Accept the Theory, 92–94;
-    Argument for, 100–103;
-    Huxley not convinced as to Sufficiency of the Evidence of, 121,
-        123, 124, 126;
-    as the Highest Attempt to Account for Evolution, 129;
-    Huxley’s Description of the Theory, 136, 137;
-    H. C. Watson on, 144;
-    Hostile Criticisms, 144, _et seq._;
-    Why the Term was Chosen, 147
-
-  “Naturalist’s Voyage, A,” Completion of, 30
-
-  Newton, Prof., Speech at the British Association, 153
-
-  _Nineteenth Century_, The Duke of Argyll’s Article in the, 144
-
-
-  Orchids, the Fertilisation of, 193
-
-  Origin of Species, Darwin’s Theory of the;
-    Early Reflections upon, 25–29;
-    Growth of the Theory, 42;
-    Separate Creation Theory Inadequate, 42;
-    Principles of Development, 45;
-    First Account of Darwin’s Theory, 46;
-    the Sketch Enlarged, 46;
-    Profs. Huxley and Newton’s Criticisms, 46, 47;
-    Divergence of Character, 47, 48;
-    Competition, 47, 56;
-    Darwin’s Arrangements for the Publication in case of his Death, 48;
-    Darwin and Wallace’s Joint Paper Presented to the Linnean Society,
-        46, 62;
-    his Confidence, 48;
-    Correspondence with Friends, 50;
-    Immutability of Species denied, 50;
-    Theory not understood by Naturalists, 55;
-    the Polyphyletic Theory, 57;
-    Specific Centres, 57;
-    Darwin and Wallace, 60;
-    their Papers before the Linnean Society, 62–77;
-    Struggle for Life, 65–77;
-    Principles of, 68–70;
-    Comparison of the Joint Memoir, 78, _et seq._;
-    Preparation of the Work on, 95, _et seq._;
-    Interest of Lyell and Hooker in its Publication, 95;
-    Letters to John Murray, the Publisher, 97;
-    full Title of the Volume, 98;
-    Outline of the Book and its Various Editions, 100–104;
-    its Reception by Lyell, 105;
-    by Hooker, 111;
-    by Asa Gray, 112;
-    and by Huxley, 119;
-    Huxley’s Article in the _Times_, 124;
-    and in the _Westminster Review_, 125;
-    Huxley’s high Tribute to Darwin’s Theory, 130;
-    Difficulty with which Understood, 144, _et seq._;
-    Regarded by Darwin as an Abstract of a Larger Work, 162
-
-  Osborn, Prof., 79, 80
-
-  Oxford, the Bishop of, and Huxley, 155
-
-
-  Pangenesis, Darwin’s Hypothesis of, 164, _et seq._;
-    his Confidence in the Theory, 180, _et seq._
-
-  Parallel Roads of Glen Roy, The, 31
-
-  Parthenogenesis, 164
-
-  Petrels at St. Kilda, West Indian nuts found in, 96
-
-  Plants and Animals, Variation of, under Domestication, 161;
-    Production of Abnormal Parts, 172;
-    Separate forms on same Individual, 175;
-    Different forms of Flowers on the same Species, 194;
-    Climbing, 196;
-    Power of Movements in, 197;
-    Insectivorous, 198
-
-  Pollen, Fertilisation of Ovule, 166
-
-  “Power of Movements in Plants, The,” 197
-
-  Protective Mimicry, 203
-
-
-  Reproduction of an Amputated Limb or part, 170
-
-  Reproduction, Sexual and Asexual, 164, _et seq._
-
-  Reversion, 167, 175
-
-  Rolleston, Prof., 155, 156
-
-  Romanes, Prof. G. J., 185
-
-
-  Salisbury, Lord, Speech at the British Association Meeting at Oxford,
-        82, 83, 138
-
-  Scientific Discoverer, The Qualifications of a, 12
-
-  Seeds, Experiments on the Vitality of, in Salt-Water, 51, 52
-
-  Sedgwick, Prof., Darwin’s Friendship with, 18;
-    his Excursions with, 20
-
-  Sexual and Asexual Reproduction, 164, _et seq._;
-    Advantages of, 165;
-    Cross-Fertilisation in Plants, 166;
-    Characters, 174–177;
-    Selection Theory, 67, 188, _et seq._;
-    rejected by Wallace, 188;
-    Darwin’s Letter to Meldola, 201
-
-  Shrewsbury, Darwin’s Birthplace, 9;
-    and School-life at, 16;
-    Re-visited, 25
-
-  “South America,” 190
-
-  South America, Some Observations on the Geology of, 26
-
-  Species, New, The Origin of, 56, _et seq._;
-    “Species not Transmutable,” Dr. Bree’s Book, 149
-
-  Species-mongers, Darwin’s Dislike of, 39, 40
-
-  Speculation and Hypothesis, 14, 15
-
-  Spencer, Herbert, Term of Survival of the Fittest, 148
-
-  Spontaneous Generation, 108, 159
-
-  Sterility of Hybrids, 171
-
-  Struggle for Existence, The, 65–67, 71–77
-
-  Survival of the Fittest, The, 148
-
-
-  Teleology, 113, 114
-
-  Ternate, Wallace’s house at, 63
-
-  _Times_, Huxley’s Article on the Origin of Species in, 124
-
-  Transmutation of Species, 26, 149
-
-  Tristram, Canon, 92–94;
-    Paper on Ornithology of Northern Africa, 92
-
-  Tuckwell, Rev. W., 155
-
-  Turkeys, Experimenting upon with Distasteful Caterpillars, 216
-
-  Tyndall, Prof., 157
-
-
-  Use and Disuse, The Inherited Effects of, 167, 179
-
-
-  Variability, 167, 173
-
-  Variation, of Organic Being, Darwin’s Papers upon, 65;
-    Wallace’s Paper on, 71, _et seq._;
-    and Selection Relative Importance of, 96;
-    Under Domestication, 115, 161
-
-  Varieties, Departure from the Original Type, 71–77
-
-  “Volcanic Islands,” 190
-
-
-  Wallace, Alfred Russel, and Darwin’s Joint Paper Presented to Linnean
-        Society, 46, 62;
-    and Darwin, 53, 60–64, 81–86, 134;
-    Paper Published on the Law Regulating new Species, 60;
-    Essays on Variations from Original Type, 61, 71–77;
-    house at Ternate, 63;
-    Comparison of the Joint Memoir, 78–86;
-    his Discovery of Natural Selection, 87–91;
-    Darwin’s Letter on Bastian’s Theory of Archebiosis, 160;
-    Darwin’s Letter to, on Pangenesis, 182
-
-  Watson, H. C., 144
-
-  Wedgwood, Josiah, 18
-
-  Weismann, Prof., on Germ-Plasm, 179;
-    “Studies in the Theory of Descent,” Meldola’s Translation, 205–210
-
-  _Westminster Review_, Huxley’s Article on Origin of Species in, 125
-
-  Wilberforce, Bishop, 149
-
-
-  Zoology of the Voyage of the “Beagle,” The, 31
-
-
-PRINTED BY CASSELL & COMPANY, LIMITED, LA BELLE SAUVAGE, LONDON, E.C.
-
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-      *      *      *      *      *      *
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-
-
-Transcriber’s note:
-
-Punctuation, hyphenation, and spelling were made consistent when a
-predominant preference was found in the original book; otherwise they
-were not changed.
-
-Simple typographical errors were corrected; unpaired quotation
-marks were remedied when the change was obvious, and otherwise left
-unpaired.
-
-Running page headers in the original book are shown here as sidenotes.
-
-Dates and locations in the headings of letters usually were on the same
-line in the original book, but have been placed on separate lines here.
-
-Footnotes, originally at the bottoms of pages, have been collected,
-resequenced, and placed just above the Index.
-
-The Index was not checked for proper alphabetization or correct page
-references.
-
-Cover created by Transcriber and placed into the Public Domain.
-
-Page 197: The correct title of “The Power of Movements in Plants” is
-“The Power of Movement in Plants.”
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-***END OF THE PROJECT GUTENBERG EBOOK CHARLES DARWIN AND THE THEORY OF
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-<body>
-<h1 class="pgx" title="">The Project Gutenberg eBook, Charles Darwin and the Theory of Natural
-Selection, by Sir Edward Bagnall Poulton</h1>
-<p>This eBook is for the use of anyone anywhere in the United States
-and most other parts of the world at no cost and with almost no
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-under the terms of the Project Gutenberg License included with this
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-href="https://www.gutenberg.org">www.gutenberg.org</a>. If you are not
-located in the United States, you'll have to check the laws of the
-country where you are located before using this ebook.</p>
-<p>Title: Charles Darwin and the Theory of Natural Selection</p>
-<p>Author: Sir Edward Bagnall Poulton</p>
-<p>Release Date: July 6, 2021  [eBook #65779]</p>
-<p>Language: English</p>
-<p>Character set encoding: UTF-8</p>
-<p>***START OF THE PROJECT GUTENBERG EBOOK CHARLES DARWIN AND THE THEORY OF NATURAL SELECTION***</p>
-<p>&nbsp;</p>
-<h4 class="pgx" title="">E-text prepared by Fay Dunn, Charlie Howard,<br />
-    and the Online Distributed Proofreading Team<br />
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-    from page images generously made available by<br />
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-    (https://archive.org)</h4>
-<p>&nbsp;</p>
-<table border="0" style="background-color: #ccccff;margin: 0 auto;" cellpadding="10">
-  <tr>
-    <td valign="top">
-      Note:
-    </td>
-    <td>
-      Images of the original pages are available through
-      Internet Archive. See
-      https://archive.org/details/charlesdarwinthe00poulrich
-    </td>
-  </tr>
-</table>
-<div class="transnote">
-<p class="center larger">Transcriber’s Note</p>
-<p>Larger versions of the illustrations may be seen by right-clicking them
-and selecting an option to view them separately, or by double-tapping and/or
-stretching them.</p>
-</div>
-<p>&nbsp;</p>
-<hr class="pgx" />
-<p>&nbsp;</p>
-<p>&nbsp;</p>
-<p>&nbsp;</p>
-
-<p><span class="pagenum" id="Page_i">i</span></p>
-
-<div class="center">
-<p class="newpage p4"><i class="u">THE CENTURY SCIENCE SERIES</i></p>
-
-<p><span class="u"><span class="smcap">Edited by</span> SIR HENRY E. ROSCOE, D.C.L., LL.D., F.R.S.</span></p>
-</div>
-
-<h1 class="p4 wspace">CHARLES DARWIN<br />
-<span class="xsmall">AND THE</span><br />
-<span class="smaller">THEORY OF NATURAL SELECTION</span>
-</h1>
-
-<hr />
-
-<div class="chapter"><div class="bbox" id="ad">
-<p class="center xlarge wspace">The Century Science Series.</p>
-
-<p class="center smaller">EDITED BY</p>
-
-<p class="center wspace">SIR HENRY E. ROSCOE, D.C.L., F.R.S.</p>
-
-<hr class="narrow" />
-
-<p class="bold hang">John Dalton and the Rise of Modern Chemistry.</p>
-
-<div class="blockquot">
-
-<p>By Sir <span class="smcap">Henry E. Roscoe</span>, F.R.S., &amp;c.</p>
-</div>
-
-<p class="bold hang">Major Rennell, F.R.S., and the Rise of Modern
-English Geography.</p>
-
-<div class="blockquot">
-
-<p>By Sir <span class="smcap">Clements R. Markham</span>, C.B., F.R.S., President
-of the Royal Geographical Society.</p>
-</div>
-
-<p class="bold hang">Justus von Liebig: his Life and Work (1803–1873).</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">W. A. Shenstone</span>, F.I.C., Lecturer on Chemistry in
-Clifton College.</p>
-</div>
-
-<p class="bold hang">The Herschels and Modern Astronomy.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">Agnes M. Clerke</span>, Author of “A Popular History
-of Astronomy during the 19th Century,” &amp;c.</p>
-</div>
-
-<p class="bold hang">Charles Lyell and Modern Geology.</p>
-
-<div class="blockquot">
-
-<p>By Professor <span class="smcap">T. G. Bonney</span>, F.R.S., &amp;c.</p>
-</div>
-
-<p class="bold">James Clerk Maxwell and Modern Physics.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">R. T. Glazebrook</span>, F.R.S., Fellow of Trinity College,
-Cambridge.</p>
-</div>
-
-<p class="bold hang">Humphry Davy, Poet and Philosopher.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">T. E. Thorpe</span>, LL.D., F.R.S.</p>
-</div>
-
-<p class="bold hang">Charles Darwin and the Theory of Natural
-Selection.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">Edward B. Poulton</span>, M.A., F.R.S., Hope Professor
-of Zoology at the University of Oxford, &amp;c.</p>
-</div>
-
-<p class="p1 b1 center"><i>In Preparation.</i></p>
-
-<p class="bold hang">Michael Faraday: his Life and Work.</p>
-
-<div class="blockquot">
-
-<p>By Professor <span class="smcap">Silvanus P. Thompson</span>, F.R.S.</p>
-</div>
-
-<p class="bold hang">Pasteur: his Life and Work.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">M. Armand Ruffer</span>, M.D., Director of the British
-Institute of Preventive Medicine.</p>
-</div>
-
-<p class="bold hang">Hermann von Helmholtz.</p>
-
-<div class="blockquot">
-
-<p>By <span class="smcap">A. W. Rücker</span>, F.R.S., Professor of Physics in the
-Royal College of Science, London.</p>
-</div>
-
-<p class="p1 center">CASSELL &amp; COMPANY, <span class="smcap">Limited</span>, <i>London; Paris &amp; Melbourne</i>.</p>
-</div></div>
-
-<div id="if_i_001" class="figcenter" style="max-width: 30em;">
-  <img src="images/i_001.jpg" width="1747" height="2308" alt="" />
-    <div class="captionr">
-  <i>Photo by Mr. James C. Christie, F.G.S., Glasgow.</i>
-  </div>
-  <div class="caption vspace wspace">
-
-  <p class="p1">STATUE OF CHARLES DARWIN.</p>
-
-  <p class="smaller">(<i>By Boehm.</i>)</p>
-
-  <p class="smaller">CENTRAL HALL OF THE BRITISH MUSEUM OF NATURAL HISTORY.</p>
-</div></div>
-
-<hr />
-
-<div class="chapter"><div class="newpage p4 center vspace wspace larger">
-
-<p><i class="u">THE CENTURY SCIENCE SERIES</i></p>
-
-<p class="p4 vspace3 wspace"><span class="smcap xxlarge">Charles Darwin</span><br />
-<span class="xsmall">AND THE</span><br />
-<span class="larger">THEORY OF NATURAL SELECTION</span></p>
-
-<p class="p4 vspace"><span class="small">BY</span><br />
-<span class="larger gesperrt">EDWARD B. POULTON</span><br />
-<span class="smaller">M.A., F.R.S., F.G.S., F.L.S., ETC.</span></p>
-
-<p class="xsmall">HOPE PROFESSOR OF ZOOLOGY AT THE UNIVERSITY OF OXFORD<br />
-CORRESP. MEMB. OF THE NEW YORK ACADEMY OF SCIENCES<br />
-CORRESP. MEMB. OF THE BOSTON SOCIETY OF NAT. HIST.</p>
-
-<p class="p4"><span class="smcap vspace larger gesperrt1">CASSELL and COMPANY, Limited</span><br />
-<span class="smaller"><i>LONDON, PARIS &amp; MELBOURNE</i></span><br />
-<span class="smaller">1896</span><br />
-<span class="small">ALL RIGHTS RESERVED</span>
-</p>
-</div></div>
-
-<hr />
-<div id="if_i_004" class="newpage p4 figcenter" style="max-width: 10em;">
-  <img src="images/i_004.png" width="527" height="527" alt="logo" />
-</div>
-
-<hr />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_v">v</span></p>
-
-<h2 class="nobreak" id="INTRODUCTION">INTRODUCTION</h2>
-</div>
-
-<p class="in0"><span class="firstword">In</span> the following pages I have tried to express a sense
-of the greatness of my subject by simplicity and
-directness of statement. The limits of the work
-necessarily prevented any detailed treatment, the
-subject of the work prevented originality. We have
-had the great “Life and Letters” with us for nine
-years, and this I have used as a mine, extracting
-what I believed to be the statements of chief importance
-for the work in hand, and grouping them
-so as to present what I hope is a connected account
-of Darwin’s life, when considered in relation to his
-marvellous work; and especially to the great central
-discovery of Natural Selection and its exposition in
-the “Origin of Species.”</p>
-
-<p>In addition to the invaluable volumes which we
-owe to the industry, taste, and skill of Francis
-Darwin, an immense number of other works have
-been consulted. We live in an age of writing, and
-of speeches and addresses; and the many sides of
-Darwin’s life and work have again and again inspired
-the ablest men of our time to write and speak their
-best—a justification for the freedom with which
-quotations are spread over the following pages.</p>
-
-<p><span class="pagenum" id="Page_vi">vi</span></p>
-
-<p>It is my pleasant duty to express my hearty
-thanks to many kind friends who have helped in
-the production of this little work. Mr. Francis
-Darwin has kindly permitted the use of many of
-Darwin’s letters, which have not as yet been published,
-and he has given me valuable information and
-criticism on many points. I have also gained much
-by discussion and correspondence with my friends
-Dr. A. R. Wallace, Professor E. Ray Lankester, and
-Professor Meldola. The latter has freely given me
-the use of his valuable series of letters; and I owe
-to my friend, Mr. Rowland H. Wedgwood, the opportunity
-of publishing a single letter of very great
-interest.</p>
-
-<p>The greater part of the volume formed the subject
-of two short courses of lectures delivered in the Hope
-Department of the Oxford University Museum in
-Michaelmas Term 1894 and Lent Term 1895.</p>
-
-<p class="sigright">
-<span class="smcap">Edward B. Poulton.</span>
-</p>
-
-<p class="p0 smaller">Oxford, <i>October, 1896</i>.</p>
-
-<hr />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_vii">vii</span></p>
-<h2 class="nobreak" id="CONTENTS">CONTENTS</h2>
-</div>
-
-<table id="toc" summary="Contents">
-<tr class="small">
-  <td class="tdr">CHAPTER</td>
-  <td> </td>
-  <td class="tdr">PAGE</td>
-</tr>
-<tr>
-  <td class="tdr top">I.—</td>
-  <td class="tdl"><span class="smcap">The Secret of Darwin’s Greatness</span></td>
-  <td class="tdr"><a href="#toclink_9">9</a></td>
-</tr>
-<tr>
-  <td class="tdr top">II.—</td>
-  <td class="tdl"><span class="smcap">Boyhood—Edinburgh—Cambridge (1817–31)</span></td>
-  <td class="tdr"><a href="#toclink_16">16</a></td>
-</tr>
-<tr>
-  <td class="tdr top">III.—</td>
-  <td class="tdl"><span class="smcap">Voyage of the “Beagle” (1831–36)</span></td>
-  <td class="tdr"><a href="#toclink_21">21</a></td>
-</tr>
-<tr>
-  <td class="tdr top">IV.—</td>
-  <td class="tdl"><span class="smcap">Cambridge—London—Work upon the Collections—Marriage—Geological Work—Journal of the Voyage—Coral Reefs—First Recorded Thoughts on Evolution (1837–42)</span></td>
-  <td class="tdr"><a href="#toclink_25">25</a></td>
-</tr>
-<tr>
-  <td class="tdr top">V.—</td>
-  <td class="tdl"><span class="smcap">Down—Geology of the Voyage—Work on Cirripedes (1842–54)</span></td>
-  <td class="tdr"><a href="#toclink_35">35</a></td>
-</tr>
-<tr>
-  <td class="tdr top">VI.—</td>
-  <td class="tdl"><span class="smcap">The Growth of the “Origin of Species” (1837–58)</span></td>
-  <td class="tdr"><a href="#toclink_42">42</a></td>
-</tr>
-<tr>
-  <td class="tdr top">VII.—</td>
-  <td class="tdl"><span class="smcap">Growth of the “Origin”</span> (<i>continued</i>)—<span class="smcap">Correspondence with Friends</span></td>
-  <td class="tdr"><a href="#toclink_50">50</a></td>
-</tr>
-<tr>
-  <td class="tdr top">VIII.—</td>
-  <td class="tdl"><span class="smcap">Darwin and Wallace (1858)</span></td>
-  <td class="tdr"><a href="#toclink_60">60</a></td>
-</tr>
-<tr>
-  <td class="tdr top">IX.—</td>
-  <td class="tdl"><span class="smcap">Darwin’s Section of the Joint Memoir read before the Linnean Society July 1, 1858</span></td>
-  <td class="tdr"><a href="#toclink_65">65</a></td>
-</tr>
-<tr>
-  <td class="tdr top">X.—</td>
-  <td class="tdl"><span class="smcap">Wallace’s Section of the Joint Memoir read before the Linnean Society July 1, 1858</span></td>
-  <td class="tdr"><a href="#toclink_71">71</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XI.—</td>
-  <td class="tdl"><span class="smcap">Comparison of Darwin’s and Wallace’s Sections of the Joint Memoir—Reception of their Views—Their Friendship</span></td>
-  <td class="tdr"><a href="#toclink_78">78</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XII.—</td>
-  <td class="tdl"><span class="smcap">The Growth of Wallace’s Convictions on Evolution and Discovery of Natural Selection—Borneo 1855—Ternate 1858</span></td>
-  <td class="tdr"><a href="#toclink_87">87</a><span class="pagenum" id="Page_viii">viii</span></td>
-</tr>
-<tr>
-  <td class="tdr top">XIII.—</td>
-  <td class="tdl"><span class="smcap">Canon Tristram the First Publicly to Accept the Theory of Natural Selection (1859)</span></td>
-  <td class="tdr"><a href="#toclink_92">92</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XIV.—</td>
-  <td class="tdl"><span class="smcap">The Preparation of the “Origin of Species” (1858–59)</span></td>
-  <td class="tdr"><a href="#toclink_95">95</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XV.—</td>
-  <td class="tdl"><span class="smcap">The Origin of Species (1859)</span></td>
-  <td class="tdr"><a href="#toclink_100">100</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XVI.—</td>
-  <td class="tdl"><span class="smcap">The Influence of Darwin upon Lyell (1859–64)</span></td>
-  <td class="tdr"><a href="#toclink_105">105</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XVII.—</td>
-  <td class="tdl"><span class="smcap">Influence of Darwin upon Hooker and Asa Gray—Natural Selection and Design in Nature (1860–68)</span></td>
-  <td class="tdr"><a href="#toclink_111">111</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XVIII.—</td>
-  <td class="tdl"><span class="smcap">Influence of Darwin upon Huxley</span></td>
-  <td class="tdr"><a href="#toclink_119">119</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XIX.—</td>
-  <td class="tdl"><span class="smcap">The Difficulty with which the “Origin” was Understood</span></td>
-  <td class="tdr"><a href="#toclink_144">144</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XX.—</td>
-  <td class="tdl"><span class="smcap">The Difficulty with which the “Origin” was Understood</span> (<i>continued</i>)—<span class="smcap">Views on Spontaneous Generation</span></td>
-  <td class="tdr"><a href="#toclink_153">153</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXI.—</td>
-  <td class="tdl"><span class="smcap">Variation Of Animals and Plants Under Domestication: Pangenesis (1868)</span></td>
-  <td class="tdr"><a href="#toclink_161">161</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXII.—</td>
-  <td class="tdl"><span class="smcap">Pangenesis and Continuity of the Germ-Plasm: Darwin’s Confidence in Pangenesis</span></td>
-  <td class="tdr"><a href="#toclink_178">178</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXIII.—</td>
-  <td class="tdl"><span class="smcap">Descent of Man—Expression of Emotions—Earth-Worms (1871–81)</span></td>
-  <td class="tdr"><a href="#toclink_186">186</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXIV.—</td>
-  <td class="tdl"><span class="smcap">Botanical Works (1862–86)</span></td>
-  <td class="tdr"><a href="#toclink_193">193</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXV.—</td>
-  <td class="tdl"><span class="smcap">Letters from Darwin to Professor Meldola (1871–82)</span></td>
-  <td class="tdr"><a href="#toclink_199">199</a></td>
-</tr>
-<tr>
-  <td class="tdr top">XXVI.—</td>
-  <td class="tdl"><span class="smcap">His Last Illness (1882)</span></td>
-  <td class="tdr"><a href="#toclink_219">219</a></td>
-</tr>
-<tr>
-  <td class="tdl" colspan="2">INDEX</td>
-  <td class="tdr"><a href="#toclink_221">221</a></td>
-</tr>
-</table>
-
-<hr />
-
-<div id="toclink_9" class="chapter">
-<p><span class="pagenum" id="Page_9">9</span></p>
-
-<h2 class="nobreak vspace" id="Charles_Darwin"><span class="smcap large">Charles Darwin</span><br />
-<span class="small">AND THE</span><br />
-<span class="larger">THEORY OF NATURAL SELECTION.</span></h2>
-</div>
-
-<hr class="narrow" />
-
-<div class="chapter">
-<h2 class="nobreak" id="CHAPTER_I">CHAPTER I.<br />
-
-<span class="subhead">THE SECRET OF DARWIN’S GREATNESS.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Charles Robert Darwin</span> was born at Shrewsbury
-on February 12th, 1809, the year which witnessed
-the birth of Alfred Tennyson, W. E. Gladstone, and
-Abraham Lincoln.</p>
-
-<p>Oliver Wendell Holmes, born in the same year,
-delighted to speak of the good company in which
-he came into the world. On January 27th, 1894,
-I had the great pleasure of sitting next to him at a
-dinner of the Saturday Club in Boston, and he then
-spoke of the subject with the same enthusiasm with
-which he deals with it in his writings; mentioning
-the four distinguished names, and giving a brief
-epigrammatic description of each with characteristic
-felicity. Dr. Holmes further said that he remembered
-with much satisfaction an occasion on which he was
-able to correct Darwin on a matter of scientific fact.
-He could not remember the details, but we may hope<span class="pagenum" id="Page_10">10</span>
-for their ultimate recovery, for he said that Darwin
-had written a courteous reply accepting the correction.</p>
-
-<div class="sidenote">HIS FAMILY.</div>
-
-<p>Charles Darwin’s grandfather, Erasmus Darwin
-(1731–1802), was a man of great genius. He
-speculated upon the origin of species, and arrived
-at views which were afterwards independently enunciated
-by Lamarck. He resembled this great zoologist
-in fertility of imagination, and also in the boldness
-with which he put forward suggestions, many of
-which were crude and entirely untested by an appeal
-to facts. The poetical form in which a part of
-his work was written was, doubtless, largely due
-to the traditions and customs of the age in which
-he lived.</p>
-
-<p>Robert Waring (1766–1848), the father of Charles
-Darwin, was the second son of Erasmus. He married
-a daughter of the great Josiah Wedgwood. Although
-his mother died when he was only eight years old,
-and Darwin remembered very little of her, there is
-evidence that she directed his attention to Nature
-(“Autobiography,” p. 28, footnote). Dr. Darwin followed
-his father’s profession, commencing a very
-successful medical practice at Shrewsbury before he
-was twenty-one. He was a man of great penetration,
-especially in the discernment of character—a power
-which was of the utmost value to him in his profession.
-Dr. Darwin had two sons and four daughters:
-Charles was the younger son and fourth child, his
-brother Erasmus being the third.</p>
-
-<p>Even in this mere outline there is evidence of<span class="pagenum" id="Page_11">11</span>
-hereditary genius in the Darwin family—evidence
-which becomes irresistible when all available details
-of every member of the family are brought together,
-as they are in the great “Life and Letters.” When
-it is further remembered that two of Charles Darwin’s
-sons have achieved distinction as scientific investigators,
-it will be admitted that the history of the
-family affords a most striking example of hereditary
-intellectual power.</p>
-
-<p>There is nothing in this history to warrant the
-belief that the nature and direction of hereditary
-genius receive any bias from the line of intellectual
-effort pursued by a parent. We recognise the
-strongest evidence for hereditary capacity, but none
-at all for the transmission of results which follow
-the employment of capacity. Thus Erasmus inherited
-high intellectual power, with a bias entirely different
-from that of his younger brother Charles—his interests
-being literary and artistic rather than scientific.
-The wide difference between the brothers seems to
-have made a great impression upon Charles, for he
-<span class="locked">wrote:—</span></p>
-
-<div class="blockquot">
-
-<p>“Our minds and tastes were, however, so different, that I
-do not think I owe much to him intellectually. I am inclined
-to agree with Francis Galton in believing that education and
-environment produce only a small effect on the mind of anyone,
-and that most of our qualities are innate” (“Life and
-Letters,” 1887, p. 22).</p>
-</div>
-
-<p class="in0">Equally significant is the fact that Professor George
-Darwin’s important researches in mathematics have<span class="pagenum" id="Page_12">12</span>
-been applied to astronomy—subjects which were
-not pursued by his father.</p>
-
-<div class="sidenote">CHARACTER AND POWERS.</div>
-
-<p>It appears probable that Charles Darwin’s unique
-power was largely due to the inheritance of the
-imagination of his grandfather combined with the
-acute observation of his father. Although he possessed
-an even larger share of both these qualities than his
-predecessors, it is probable that he owed more to
-their co-operation than to the high degree of their
-development.</p>
-
-<p>It is a common error to suppose that the intellectual
-powers which make the poet or the
-historian are essentially different from those which
-make the man of science. Powers of observation,
-however acute, could never make a scientific discoverer;
-for discovery requires the creative effort of
-the imagination. The scientific man does not stumble
-upon new facts or conclusions by accident; he finds
-what he looks for. The problem before him is
-essentially similar to that of the historian who tries
-to create an accurate and complete picture of an
-epoch out of scattered records of contemporary impressions
-more or less true, and none wholly true.
-Fertility of imagination is absolutely essential for
-that step from the less to the more perfectly known
-which we call discovery.</p>
-
-<p>But fertility of imagination alone is insufficient
-for the highest achievement in poetry, history, or
-science; for in all these subjects the strictest self-criticism
-and the soundest judgment are necessary in<span class="pagenum" id="Page_13">13</span>
-order to ensure that the results are an advance in the
-direction of the truth. A delicately-adjusted balance
-between the powers of imagination and the powers
-which hold imagination in check, is essential in the
-historian who is to provide us with a picture of a
-past age, which explains the mistaken impression
-gained by a more or less prejudiced observer who
-saw but a small part of it from a limited standpoint,
-and has handed down his impression to us. A poem
-which sheds new light upon the relation between
-mind and mind, requires to be tested and controlled
-by constant and correct observation, like a hypothesis
-in the domain of the natural sciences.</p>
-
-<p>It is probable, then, that the secret of Darwin’s
-strength lay in the perfect balance between his powers
-of imagination and those of accurate observation, the
-creative efforts of the one being ever subjected to the
-most relentless criticism by the employment of the
-other. We shall never know, I have heard Professor
-Michael Foster say, the countless hypotheses which
-passed through the mind of Darwin, and which, however
-wild and improbable, were tested by an appeal
-to Nature, and were then dismissed for ever.</p>
-
-<p>Darwin’s estimate of his own powers is given
-with characteristic candour and modesty in the concluding
-paragraph of his “Autobiography” (“Life and
-Letters,” 1887, p. <span class="locked">107):—</span></p>
-
-<div class="blockquot">
-
-<p>“Therefore my success as a man of science, whatever this
-may have amounted to, has been determined, as far as I can
-judge, by complex and diversified mental qualities and<span class="pagenum" id="Page_14">14</span>
-conditions. Of these, the most important have been—the love
-of science—unbounded patience in long reflecting over any
-subject—industry in observing and collecting facts—and a
-fair share of invention as well as of common sense. With
-such moderate abilities as I possess, it is truly surprising that
-I should have influenced to a considerable extent the belief of
-scientific men on some important points.”</p>
-</div>
-
-<p class="in0">We also know from other sources that Darwin looked
-upon the creative powers as essential to scientific
-progress. Thus he wrote to Wallace in 1857: “I
-am a firm believer that without speculation there is
-no good and original observation.” He also says in
-the “Autobiography”: “I have steadily endeavoured
-to keep my mind free so as to give up any hypothesis,
-however much beloved (and I cannot resist forming
-one on every subject), as soon as facts are shown to
-be opposed to it.”</p>
-
-<div class="sidenote">VALUE OF HYPOTHESIS.</div>
-
-<p>I have thought it worth while to insist thus
-strongly on the high value attached by Darwin to
-hypothesis, controlled by observation, in view of
-certain recent attacks upon this necessary weapon
-for scientific advance. Thus Bateson, in his “Materials
-for the Study of Variation” (London, 1894), p. 7,
-says: “In the old time the facts of Nature were
-beautiful in themselves and needed not the rouge of
-speculation to quicken their charm, but that was long
-ago before Modern Science was born.” The author
-does not specify the period in the history of science
-when discovery proceeded without hypothesis. A
-study of the earlier volumes of the <i>Philosophical
-Transactions</i> reveals a far greater interest in speculation<span class="pagenum" id="Page_15">15</span>
-than in the facts of Nature. We can hardly call
-those ages anything but speculative which received
-with approval the suggestions that geese were developed
-from barnacles which grew upon trees; that
-swallows hibernated at the bottom of lakes; that the
-Trade-winds were due to the breath of a sea-weed.
-Bateson’s statement requires to be reversed in order
-to become correct. Modern science differs from the
-science of long ago in its greater attention to the
-facts of Nature and its more rigid control over the
-tendency to hypothesis; although hypothesis remains,
-and must ever remain, as the guide and inspirer of
-observation and the discovery of fact.<a id="FNanchor_1" href="#Footnote_1" class="fnanchor">A</a> Although
-Darwin has kindled the imagination of hundreds of
-workers, and has thus been the cause of an immense
-amount of speculation, science owes him an even
-larger debt for the innumerable facts discovered
-under the guidance of this faculty.</p>
-
-<hr />
-
-<div id="toclink_16" class="chapter">
-<p><span class="pagenum" id="Page_16">16</span></p>
-
-<h2 class="nobreak" id="CHAPTER_II">CHAPTER II.<br />
-
-<span class="subhead">BOYHOOD—EDINBURGH—CAMBRIDGE (1817–31).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Of</span> Darwin’s boyhood and school-life we only know
-the facts given in his brief “Autobiography,” written
-when he was sixty-seven, together with those collected
-by his son Francis and appended in the form of notes.
-He first went to Mr. Case’s day-school in Shrewsbury
-in 1817, the year of his mother’s death. At this
-time, although only eight years old, his interest in
-natural history and in collecting was well established.
-“The passion for collecting, which leads a man to be
-a systematic naturalist, a virtuoso, or a miser, was
-very strong in me, and was clearly innate, as none of
-my sisters or brother had this taste.”</p>
-
-<p>In the following year he went to Dr. Butler’s
-school in Shrewsbury, where he remained seven years.
-He does not appear to have profited much by the
-classical instruction which at that time received
-almost exclusive attention. His interest seems to
-have been chiefly concentrated upon sport; but
-whenever a subject attracted him he worked hard
-at it, and it is probable that he would have conveyed
-a very different impression of his powers to the
-masters and his father if scientific subjects had been
-taught, as they are now to a moderate extent in
-many schools.</p>
-
-<p><span class="pagenum" id="Page_17">17</span></p>
-
-<p>That he was a keen observer for his age is clear
-from the fact that, when he was only ten, he was
-much interested and surprised to notice that the
-insects he found on the Welsh coast were different
-from those in Shropshire. His most valuable education
-was received out of school hours—collecting,
-and working at chemistry with his brother Erasmus,
-although this latter study drew down upon him
-the rebukes of Dr. Butler for wasting time on such
-useless subjects.</p>
-
-<div class="sidenote">AT EDINBURGH.</div>
-
-<p>He was removed from school early, and in 1825
-went to Edinburgh to study medicine—a subject for
-which he seemed to be unfitted by nature. The
-methods of instruction by lectures did not benefit
-him; he was disgusted at dissection, and could not
-endure to witness an operation. And yet here it was
-evident, as it became afterwards at Cambridge, that
-Darwin—although seeming to be by no means above
-the average when judged by ordinary standards—possessed
-in reality a very remarkable and attractive
-personality. There can be no other explanation of
-the impression he made upon distinguished men who
-were much older than himself, and the friendships
-he formed with those of his own age who were
-afterwards to become eminent.</p>
-
-<p>Thus at Edinburgh he was well acquainted with
-Dr. Grant and Mr. Macgillivray, the curator of the
-museum, and worked at marine zoology in company
-with the former. Here, too, in 1826, he made his
-first scientific discovery, and read a paper before the<span class="pagenum" id="Page_18">18</span>
-Plinian Society, proving that so-called eggs of Flustra
-were in reality free-swimming larvæ. And it is
-evident from his “Autobiography” that he took
-every opportunity of hearing and learning about
-scientific subjects.</p>
-
-<p>Darwin’s love of sport remained as keen as ever
-at this period and at Cambridge, and he speaks with
-especial enthusiasm of his visits in the autumn to
-Maer, the home of his uncle, Josiah Wedgwood, who
-afterwards exerted so important an influence upon
-his life.</p>
-
-<div class="sidenote">AT CAMBRIDGE.</div>
-
-<p>After Darwin had been at Edinburgh for two
-sessions, his father realised that he did not like the
-thought of the medical profession, and suggested
-that he should become a clergyman. With this
-intention he was sent to Cambridge in the beginning
-of 1828, after spending some months in recovering
-the classics he had learnt at school.</p>
-
-<p>He joined Christ’s College, and passed his final
-examination in January, 1831, being tenth in the list
-of those who do not seek honours. The immense,
-and in many respects disastrous, development of the
-competitive examination system since that time has
-almost banished from our universities the type of
-student represented by Darwin—the man who takes
-the easiest road to a degree and obtains it with the
-minimum of effort, but who all the time is being
-benefited by residence, studying, without any thought
-of examinations, the subjects which are of special
-interest to him, and seeking personal contact with<span class="pagenum" id="Page_19">19</span>
-older men who have reached the highest eminence
-in those subjects.</p>
-
-<p>He seems to have led a somewhat double life at
-Cambridge, his intense love of sport taking him into
-a pleasure-loving set, while his intellectual interests
-made him the intimate friend of Whitley, who became
-Senior Wrangler, and of Professor Henslow, to whom
-he was introduced by his second cousin, W. Darwin
-Fox, who also first interested him in entomology. He
-became so keen a collector of beetles that his successes
-and experiences in this direction seem to have
-impressed him more deeply than anything else at
-Cambridge. Entomology, and especially beetles, form
-the chief subject of those of his Cambridge letters
-which have been recovered.</p>
-
-<p>Darwin’s friendship with Henslow, which was to
-have a most important effect on his life, very soon
-deepened. They often went long walks together, so
-that he was called “the man who walks with Henslow.”
-This fact and the subsequent rapidly formed
-intimacy with Professor Adam Sedgwick, indicate
-that he was remarkable among the young men of his
-standing.</p>
-
-<p>One of his undergraduate friends, J. M. Herbert,
-afterwards County Court Judge for South Wales,
-retained the most vivid recollection of Darwin at
-Cambridge, and contributed the following impression
-of his character to the “Life and <span class="locked">Letters”:—</span></p>
-
-<div class="blockquot">
-
-<p>“It would be idle for me to speak of his vast intellectual
-powers ... but I cannot end this cursory and rambling<span class="pagenum" id="Page_20">20</span>
-sketch without testifying, and I doubt not all his surviving
-college friends would concur with me, that he was the most
-genial, warm-hearted, generous and affectionate of friends;
-that his sympathies were with all that was good and true;
-and that he had a cordial hatred for everything false, or vile,
-or cruel, or mean, or dishonourable. He was not only great,
-but pre-eminently good, and just, and loveable.”</p>
-</div>
-
-<p>Two books greatly influenced Darwin—Herschel’s
-“Introduction to the Study of Natural Philosophy,”
-which, he said, “stirred up in me a burning zeal to
-add even the most humble contribution to the
-noble structure of Natural Science”; and Humboldt’s
-“Personal Narrative,” which roused in him the
-longing to travel—a desire which was soon afterwards
-gratified by his voyage in the <i>Beagle</i>.</p>
-
-<p>“Upon the whole,” he says, “the three years
-which I spent at Cambridge were the most joyful in
-my happy life; for I was then in excellent health,
-and almost always in high spirits.”</p>
-
-<p>After passing his last examination, Darwin had
-still two terms’ residence to keep, and was advised by
-Henslow to study geology. To this end Henslow
-asked Sedgwick to allow Darwin to go with him on
-a geological excursion in North Wales in August,
-1831. He thus gained experience which was of the
-utmost value during the voyage of the <i>Beagle</i>.</p>
-
-<hr />
-
-<div id="toclink_21" class="chapter">
-<p><span class="pagenum" id="Page_21">21</span></p>
-
-<h2 class="nobreak" id="CHAPTER_III">CHAPTER III.<br />
-
-<span class="subhead">VOYAGE OF THE “BEAGLE” (1831–36).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">About</span> the time of the excursion with Sedgwick (the
-exact date is uncertain) Professor Henslow received
-a letter from George Peacock (formerly Dean of Ely
-and Lowndean Professor of Astronomy at Cambridge)
-stating that he had the offer to recommend a young
-man as naturalist to accompany Captain Fitzroy on
-a surveying expedition to many parts of the world.
-Leonard Jenyns (afterwards Blomefield) was evidently
-considered to be the most suitable person
-for the position, but he was unable to accept it.
-Henslow at once wrote (August 24th, 1831) to Darwin,
-and advised him to do his utmost to obtain the
-position, and Darwin found the letter waiting for him
-on his return home after the geological excursion
-with Sedgwick. As his father greatly disliked the
-idea, Darwin at once wrote (August 30th) and declined,
-and the next day went to Maer to be ready for the
-shooting on September 1st. Here, however, his
-uncle, Josiah Wedgwood, took a very different view
-from that adopted by his father, with the result that
-both he and Darwin wrote (August 31st) to Shrewsbury
-and reopened the question. Darwin’s letter
-shows the most touching deference to his father’s
-wishes, and the gravest apprehension lest he should<span class="pagenum" id="Page_22">22</span>
-be rendered “uncomfortable” or “uneasy” by any
-further suggestion as to the possibility of the voyage,
-although his father had said, “If you can find any
-man of common-sense who advises you to go, I will
-give my consent.” We also learn from the “Autobiography”
-that his uncle sent for him whilst out
-shooting and drove him the thirty miles to Shrewsbury,
-in order that they might talk with his father,
-who then at once consented. This must have been
-on September 1st, 1831.</p>
-
-<p>From this time until he went to Plymouth, on
-October 24th—the final start was not until December
-27th—his letters show that he had a very busy time
-making purchases and preparing for the voyage.
-These letters breathe the warmest affection to the
-members of his family and his friends, together with
-the keenest enthusiasm for Captain Fitzroy, the ship,
-and the voyage.</p>
-
-<p>The voyage of the <i>Beagle</i> lasted from December
-27th, 1831, to October 2nd, 1836. Darwin says that
-it was “by far the most important event in my life,
-and has determined my whole career.... I have
-always felt that I owe to the voyage the first real
-training or education of my mind” (<i>l. c.</i>, p. 61). He
-attributes the greatest share in this training to
-geology, among the special sciences, because of the
-reasoning involved in making out the structure of
-a new and unknown district; but he considers that
-the habits of “energetic industry and of concentrated
-attention” which he then acquired were of the utmost<span class="pagenum" id="Page_23">23</span>
-importance, and the secret of all his success in science.
-He tells us that the love of sport was present at first
-in all its keenness, but that he gradually abandoned
-it for scientific work.</p>
-
-<p>Among his numerous observations and discoveries
-during the voyage, those which appear to stand out
-in his mind so that he quotes them in his “Autobiography”
-are—the explanation of the forms of coral
-islands, the geological structure of St. Helena and
-other islands, and the relations between the animals
-and plants of the several Galapagos islands to each
-other and to those of South America. His letters
-and the collections which he sent home attracted
-much attention; and Sedgwick told Dr. Darwin that
-his son would take a place among the leading scientific
-men. When Darwin heard this from his sisters, he
-says, “I clambered over the mountains of Ascension
-with a bounding step, and made the volcanic rocks
-resound under my geological hammer.” His letters
-during the voyage are full of enthusiasm and of
-longing to return to his family and friends.</p>
-
-<p>There was the same conflict between the naval
-and scientific departments of the <i>Beagle</i> on the untidiness
-of the decks which was afterwards repeated on
-the <i>Challenger</i>, where I have been told that one of the
-naval authorities used to say, with resigned disgust,
-“Oh, no, we’re not a man-of-war, we’re only a ——
-dredger!”</p>
-
-<p>In the course of the voyage the following countries
-and islands were visited in the order given:—The<span class="pagenum" id="Page_24">24</span>
-Cape de Verde Islands, St. Paul’s Rocks, Fernando
-Noronha, South America (including the Galapagos
-Archipelago, the Falkland Islands, and Tierra del
-Fuego), Tahiti, New Zealand, Australia, Tasmania,
-Keeling Island, Maldive Coral Atolls, Mauritius, St.
-Helena, Ascension. Brazil was then visited again
-for a short time, the <i>Beagle</i> touching at the Cape de
-Verde Islands and the Azores on the voyage home.</p>
-
-<p>Darwin says, concerning the intellectual effect of
-his work during the <span class="locked">voyage:—</span></p>
-
-<div class="blockquot">
-
-<p>“That my mind became developed through my pursuits
-during the voyage is rendered probable by a remark made by
-my father, who was the most acute observer whom I ever saw,
-of a sceptical disposition, and far from being a believer in
-phrenology; for on first seeing me after the voyage he turned
-round to my sisters, and exclaimed, ‘Why the shape of his
-head is quite altered!’” (<i>l. c.</i>, pp. 63, 64).</p>
-</div>
-
-<hr />
-
-<div id="toclink_25" class="chapter">
-<p><span class="pagenum" id="Page_25">25</span></p>
-
-<h2 class="nobreak" id="CHAPTER_IV">CHAPTER IV.<br />
-
-<span class="subhead">CAMBRIDGE—LONDON—WORK UPON THE COLLECTIONS—MARRIAGE—GEOLOGICAL
-WORK—JOURNAL OF THE VOYAGE—CORAL REEFS—FIRST RECORDED
-THOUGHTS ON EVOLUTION (1837–42).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Darwin</span> reached England October 2nd, 1836, and
-was home at Shrewsbury October 5th (according to
-his Letters; the 4th is the date given by Francis
-Darwin in the “Life and Letters”). The two years
-and three months which followed he describes as
-the most active ones he ever spent. After visiting
-his family, he stayed three months in Cambridge,
-working at his collection of rocks, writing his
-“Naturalist’s Voyage,” and one or two scientific
-papers. He then (March 7th, 1837) took lodgings
-in 36, Great Marlborough Street, London, where he
-remained until his marriage, January 29th, 1839.
-The apathy of scientific men—even those in charge
-of museums—caused him much depression, and he
-found great difficulty in getting specialists to work
-out his collections, although the botanists seem to
-have been keener than the zoologists.</p>
-
-<p>The commencement of his London residence is of
-the deepest interest, as the time at which he began
-to reflect seriously on the origin of species. Thus he<span class="pagenum" id="Page_26">26</span>
-says in the “Autobiography”:—“In July I opened
-my first note-book for facts in relation to the Origin
-of Species, about which I had long reflected, and
-never ceased working for the next twenty years.”
-Furthermore, his pocket-book for 1837 contained
-the words:—“In July opened first note-book on
-Transmutation of Species. Had been greatly struck
-from about the month of previous March” (he was
-then just over twenty-eight years old) “on character
-of South American fossils, and species on Galapagos
-Archipelago. These facts (especially latter) origin of
-all my views.” It is, perhaps, worth while to explain
-in greater detail the nature of this evidence which
-appealed so strongly to Darwin’s mind. The Edentata
-(sloths, ant-eaters, armadilloes, etc.) have their metropolis
-in South America, and in the later geological
-formations of this country the skeletons of gigantic
-extinct animals of the same order (Megatherium,
-Mylodon, Glyptodon, etc.) are found; and Darwin
-was doubtless all the more impressed by discovering
-such remains for himself. In his “Autobiography”
-he says: “During the voyage of the <i>Beagle</i> I had
-been deeply impressed by discovering in the Pampean
-formation great fossil animals covered with armour
-like that on existing armadilloes;...”</p>
-
-<p>Darwin was thus led to conclude that there was
-some genetic connection between the animals which
-have succeeded each other in the same district; for
-in a theory of destructive cataclysms, followed by
-re-creations—or, indeed, in any theory of special<span class="pagenum" id="Page_27">27</span>
-creation—there seemed no adequate reason why the
-successive forms should belong to the same order. In
-his “Naturalist’s Voyage Round the World” he says,
-speaking of this subject: “This wonderful relationship
-in the same continent between the dead and the
-living will, I do not doubt, hereafter throw more light
-on the appearance of organic beings on our earth, and
-their disappearance from it, than any other class of
-facts” (p. 173 in the third edition).</p>
-
-<div class="sidenote">THE GALAPAGOS.</div>
-
-<p>The other class of evidence which impressed him
-even more strongly was afforded by the relations
-between the animals and plants of the several islands
-of the Galapagos Archipelago and between those of
-the Archipelago and of South America, nearly 600
-miles to the East. Although the inhabitants of the
-separate islands show an astonishing amount of
-peculiarity, the species are nearly related, and also
-exhibit American affinities. Concerning this, Darwin
-writes in his “Voyage” (p. 398 in the third edition):
-“Reviewing the facts here given, one is
-astonished at the amount of creative force—if such
-an expression may be used—displayed on these
-small, barren, and rocky islands; and still more so
-at its diverse and yet analogous action on points so
-near each other.” Here, too, the facts were unintelligible
-on a theory of separate creation of species, but
-were at once explained if we suppose that the inhabitants
-were the modified descendants of species
-which had migrated from South America—the
-migrations to the Archipelago and between the<span class="pagenum" id="Page_28">28</span>
-separate islands being rendered extremely rare from
-the depth of the sea, the direction of the currents,
-and the absence of gales. In this way time for
-specific modification was provided before the partially
-modified form could interbreed with the parent
-species and thus lose its own newly-acquired
-characteristics.</p>
-
-<p>Although Darwin made these observations on the
-<i>Beagle</i>, they required, as Huxley has suggested
-(Obituary [1888], “Darwiniana”: Collected Essays,
-vol. ii., pp. 274–275. London, 1893), careful and
-systematic working out before they could be trusted
-as a basis on which to speculate; and this could not
-be done until the return home. The following letter
-written by Darwin to Dr. Otto Zacharias in 1877
-confirms this opinion. It was sent to Huxley by
-Francis Darwin, and is printed in “Darwiniana”
-(<i>l. c.</i>, p. <span class="locked">275):—</span></p>
-
-<div class="blockquot">
-
-<p>“When I was on board the ‘Beagle,’ I believed in the
-permanence of species, but, as far as I can remember, vague
-doubts occasionally flitted across my mind. On my return
-home in the autumn of 1836, I immediately began to prepare
-my journal for publication, and then saw how many facts
-indicated the common descent of species, so that in July, 1837,
-I opened a note-book to record any facts which might bear on
-the question. But I did not become convinced that species
-were mutable until I think two or three years had elapsed.”</p>
-</div>
-
-<p>It is interesting to note that both the lines of
-evidence which appealed to Darwin so strongly,
-point to evolution, but not to any causes of
-evolution. The majority of mankind were only convinced<span class="pagenum" id="Page_29">29</span>
-of this process when some conception as to
-its causes had been offered to them; Darwin took
-the more logical course of first requiring evidence
-that the process takes place, and then inquiring for
-its causes.</p>
-
-<div class="sidenote">EARLY NOTES ON SPECIES.</div>
-
-<p>The first indication of these thoughts in any of
-his published letters is in one to his cousin Fox
-written in June, 1838, in which, after alluding to
-some questions he had previously asked about the
-crossing of animals, he says, “It is my prime hobby,
-and I really think some day I shall be able to do
-something in that most intricate subject—species
-and varieties.”</p>
-
-<p>He is rather more definite in a letter to Sir
-Charles Lyell, written September 13th in the same
-<span class="locked">year:—</span></p>
-
-<div class="blockquot">
-
-<p>“I have lately been sadly tempted to be idle—that is, as far
-as pure geology is concerned—by the delightful number of new
-views which have been coming in thickly and steadily,—on the
-classification and affinities and instincts of animals—bearing on
-the question of species. Note-book after note-book has been
-filled with facts which begin to group themselves <em>clearly</em>
-under sub-laws.”</p>
-</div>
-
-<p>On February 16th, 1838, he was appointed
-Secretary of the Geological Society, a position which
-he retained until February 1st, 1841. During these
-two years after the voyage he saw much of Sir
-Charles Lyell, whose teachings had been of the
-greatest help to him during the voyage, and whose
-method of appealing to natural causes rather than
-supernatural cataclysms undoubtedly had a most<span class="pagenum" id="Page_30">30</span>
-important influence on the development of Darwin’s
-mind. This influence he delighted to acknowledge,
-dedicating to Lyell the second edition of his
-“Voyage,” “as an acknowledgment that the chief
-part of whatever scientific merit this ‘Journal’
-and the other works of the author may possess has
-been derived from studying the well-known and
-admirable ‘Principles of Geology.’”</p>
-
-<div class="sidenote">EARLY WORKS.</div>
-
-<p>At this period he finished his “Journal,” which
-was published in 1839 as Vol. III. of the “Narrative
-of the Surveying Voyages of Her Majesty’s Ships
-<i>Adventure</i> and <i>Beagle</i>.” A second edition was published
-in a separate form in 1845 as the “Journal of
-Researches into the Natural History and Geology of
-the Countries visited during the Voyage of H.M.S.
-<i>Beagle</i> round the World, under the command of
-Captain Fitz-Roy, R.N.”; and a third edition—but
-very slightly altered—in 1860, under the title “A
-Naturalist’s Voyage: Journal of Researches, etc.”
-This book is generally admitted to deserve above all
-others the generous description which Darwin gave
-to Sir Joseph Hooker of Belt’s admirable “Naturalist
-in Nicaragua”—as “the best of all Natural History
-journals which have ever been published.”</p>
-
-<p>A comparison between the first and second
-editions indicates, but by no means expresses, his
-growing convictions on evolution and natural selection.
-Natural selection he had not discovered when
-the MS. of the first edition was complete; and if we
-had no further evidence we could not, from any<span class="pagenum" id="Page_31">31</span>
-passage in the work, maintain that he was convinced
-of evolution. His great caution in dealing with so
-tremendous a problem explains why the second
-edition does not reflect the state of his mind at the
-time of its publication. He tells us (“Autobiography”)
-that in the preparation of this second edition he
-“took much pains,” and we may feel confident that
-much of this care was given to the decision as to
-how much he should reveal and how much withhold
-of the thoughts which were occupying his mind, and
-the conclusions to which he had at that time arrived.
-That he did attribute much importance to the evolutionary
-passages added in the second edition is shown
-by his letter to Lyell (July, 1845), in which he alludes
-to some of them, and specially asks Lyell to read the
-pages on the causes of extinction.</p>
-
-<p>He also edited and superintended the “Zoology
-of the Voyage of H.M.S. <i>Beagle</i>,” the special parts of
-which were written by various eminent systematists,
-and appeared separately between 1839 and 1843.</p>
-
-<p>He also read several papers before the Geological
-Society, including two (1838 and 1840) on the Formation
-of Mould by the Action of Earth-Worms—a
-subject to which he returned, and upon which his
-last volume (published in 1881) was written. He also
-read a paper on the Parallel Roads of Glen Roy before
-the Royal Society (published in the <i>Phil. Trans.</i>,
-1839). These wonderful parallel terraces are now
-admitted to be due to the changes of level in a lake
-following those of an ice-barrier at the mouth of<span class="pagenum" id="Page_32">32</span>
-the valley. At the time Darwin studied them, the
-terraces were believed to have been formed by a lake
-dammed back by a barrier of rock and alluvium;
-this he proved to be wrong, and as no other barrier
-was then available—for the evidences of glaciation
-had not then been discovered by Agassiz—he was
-driven, on the method of exclusion, to the action of
-the sea. Upon this subject he says, in the “Autobiography,”
-“My error has been a good lesson to
-me never to trust in science to the principle of
-exclusion.”</p>
-
-<p>On January 29th, 1839, he married his cousin,
-Emma Wedgwood, the daughter of Josiah Wedgwood,
-of Maer. They resided at 12, Upper Gower Street
-until September 14th, 1842, when they settled at
-Down.</p>
-
-<p>The few graceful and touching words in which
-Francis Darwin, in the “Life and Letters,” alludes to
-his father’s married life show how deep is the debt of
-gratitude which the world owes to Mrs. Darwin; for
-without her constant and loving care it would have
-been impossible for Darwin to have accomplished his
-life-work.</p>
-
-<div class="sidenote">ON CORAL REEFS.</div>
-
-<p>During these years in London his health broke
-down many times; so that he says, in the “Autobiography”:
-“I did less scientific work, though I
-worked as hard as I possibly could, than during any
-other equal length of time in my life.” He chiefly
-worked at his book on “The Structure and Distribution
-of Coral Reefs,” published in 1842 (second<span class="pagenum" id="Page_33">33</span>
-edition in 1874). This work contains an account of
-Darwin’s well-known theory upon the origin of the
-various coral formations—fringing reefs, barrier reefs,
-and atolls—by the upward growth of the reef keeping
-pace with the gradual sinking of the island upon
-which it is based, so that the living corals always
-remain at the surface under the most favourable
-conditions, while beneath them is an ever-thickening
-reef formed of dead coral, until at length, by continuing
-this process, the climax is reached in the
-atoll, in which the original island has altogether
-disappeared beneath the surface of a central lagoon
-enclosed in a ring formed by the living edge of the
-reef. This theory, after being accepted for many
-years, has recently been disputed, chiefly as the
-result of the observations made on the <i>Challenger</i>
-expedition. It is contended by Dr. John Murray
-“that it is not necessary to call in subsidence to
-explain any of the characteristic features of barrier
-reefs or atolls, and that all these features would exist
-alike in areas of slow elevation, of rest, or of slow
-subsidence” (<cite>Nature</cite>, August 12th, 1880, p. 337).
-It cannot be said that this controversy is yet settled,
-or that the supporters of either theory have proved
-that the other does not hold—at any rate, in certain
-cases.</p>
-
-<p>Among his geological papers written at this time
-was one describing the glacial phenomena observed
-during a tour in North Wales. This paper (<i>Philosophical
-Magazine</i>, 1842, p. 352) is placed by Sir<span class="pagenum" id="Page_34">34</span>
-Archibald Geikie “almost at the top of the long list
-of English contributions to the history of the Ice
-Age.”</p>
-
-<p>At this time, too, he was reflecting and collecting
-evidence for the great work of his life. Thus in
-January, 1841, he writes to his cousin, Darwin Fox,
-asking for “all kinds of facts about ‘Varieties and
-Species.’”</p>
-
-<hr />
-
-<div id="toclink_35" class="chapter">
-<p><span class="pagenum" id="Page_35">35</span></p>
-
-<h2 class="nobreak" id="CHAPTER_V">CHAPTER V.<br />
-
-<span class="subhead">DOWN—GEOLOGY OF THE VOYAGE—WORK ON
-CIRRIPEDES (1842–54).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">From</span> September 14th, 1842, until his death, Darwin
-resided at Down, living a very retired life, and almost
-exclusively engaged in his scientific researches. Although
-Down is only twenty miles from London, it
-is three miles from the nearest railway station (Orpington),
-and is only now for the first time receiving
-a telegraph office. A home in such a place enabled
-Darwin to pursue his work without interruption,
-remaining, at the same time, within easy reach of
-all the advantages of London. Here, too, he had
-no difficulty in avoiding social engagements, which
-always injured his very precarious health, and thus
-interfered with work; although, at the same time,
-he could entertain in his own house at such times
-as he felt able to do so.</p>
-
-<p>In 1844, and again in 1846, he published works
-on the geology of the voyage of the <i>Beagle</i>; the first
-on the Volcanic Islands visited, the second on South
-America. A second edition, in which both were combined
-in a single work, appeared in 1876. He seemed
-somewhat disappointed at the small amount of attention
-they at first attracted, and wrote with much<span class="pagenum" id="Page_36">36</span>
-humour to J. M. Herbert:—“I have long discovered
-that geologists never read each other’s works, and
-that the only object in writing a book is a proof of
-earnestness, and that you do not form your opinions
-without undergoing labour of some kind.” All geologists
-were, nevertheless, soon agreed in attaching the
-highest value to these researches.</p>
-
-<div class="sidenote">ON CIRRIPEDES.</div>
-
-<p>From this time forward his work was almost
-exclusively zoological. The four monographs on the
-Cirripedia, recent and fossil, occupied eight years—from
-October, 1846, to October, 1854. The works on
-the recent forms were published by the Ray Society
-(1851 and 1854), and those on the fossil forms by the
-Palæontographical Society (1851 and 1854). These
-researches grew directly out of his observations on
-the <i>Beagle</i>, but it is evident that they reached far
-greater dimensions than he had at first intended.
-Thus, at the very beginning of the work, he wrote
-(October, 1846) to <span class="locked">Hooker:—</span></p>
-
-<div class="blockquot">
-
-<p>“I am going to begin some papers on the lower marine
-animals, which will last me some months, perhaps a year, and
-then I shall begin looking over my ten-year-long accumulation
-of notes on species and varieties, which, with writing, I
-dare say will take me five years, and then, when published, I
-dare say I shall stand infinitely low in the opinion of all sound
-Naturalists—so this is my prospect for the future.”</p>
-</div>
-
-<p>Darwin himself, at any rate towards the end of
-his life, when he wrote his “Autobiography,” doubted
-“whether this work was worth the consumption of
-so much time,” although admitting that it was of
-“considerable value” when he had “to discuss in<span class="pagenum" id="Page_37">37</span>
-the ‘Origin of Species’ the principles of a natural
-classification.” Sir Joseph Hooker remembers that
-Darwin at an earlier time “recognised three stages
-in his career as a biologist: the mere collector at
-Cambridge; the collector and observer in the <i>Beagle</i>
-and for some years afterwards; and the trained
-naturalist after, and only after, the Cirripede work”
-(Letter to F. Darwin).</p>
-
-<p>Professor Huxley considers that just as by Darwin’s
-practical experience of physical geography, geology,
-etc., on the <i>Beagle</i>, “he knew of his own knowledge
-the way in which the raw materials of these branches
-of science are acquired, and was, therefore, a most
-competent judge of the speculative strain they would
-bear,” so his Cirripede work fitted him for his subsequent
-speculations upon the deepest biological
-problems. “It was a piece of critical self-discipline,
-the effect of which manifested itself in everything
-your father wrote afterwards, and saved him from
-endless errors of detail” (Letter to F. Darwin, “Life
-and Letters”). The history of Darwin’s career has
-often been used as an argument against those who,
-not having passed through a similar training as
-regards systematic zoological work, have ventured
-to concern themselves with the problems of evolution.
-Professor Meldola has recently treated of this subject
-in his interesting presidential address to the Entomological
-Society (1896). He <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“It used formerly to be asserted that he only is worthy of
-attention who has done systematic, <i>i.e.</i> taxonomic, work. I<span class="pagenum" id="Page_38">38</span>
-do not know whether this view is still entertained by entomologists;
-if so, I feel bound to express my dissent. It has been
-pointed out that the great theorisers have all done such work—that
-Darwin monographed the Cirripedia, and Huxley the
-oceanic Hydrozoa, and it has been said that Wallace’s and
-Bates’s contributions in this field have been their biological
-salvation. I yield to nobody in my recognition of the value
-and importance of taxonomic work, but the possibilities of
-biological investigation have developed to such an extent since
-Darwin’s time that I do not think this position can any
-longer be seriously maintained. It must be borne in mind
-that the illustrious author of the ‘Origin of Species’ had
-none of the opportunities for systematic training in biology
-which any student can now avail himself of. To him the
-monographing of the Cirripedia was, as Huxley states in a
-communication to Francis Darwin, ‘a piece of critical self-discipline,’
-and there can be no reasonable doubt that this
-value of systematic work will be generally conceded. That
-this kind of work gives the sole right to speculate at the
-present time is, however, quite another point.”</p>
-</div>
-
-<p class="in0">Meldola then goes on to argue that the systematic
-work of those who know nothing of the living state
-of the species they are describing does not specially
-fit them for theorising, and he concludes by quoting
-the following passage from a letter recently received
-from A. R. <span class="locked">Wallace:—</span></p>
-
-<div class="blockquot">
-
-<p>“I do not think species-describing is of any special use to
-the philosophical generaliser, but I do think the collecting,
-naming, and classifying some extensive group of organisms is
-of great use, is, in fact, almost essential to any thorough grasp
-of the whole subject of the evolution of species through
-variation and natural selection. I had described nothing when
-I wrote my papers on variation, etc. (except a few fishes and
-palms from the Amazon), but I had collected and made out
-species very largely and had seen to some extent how curiously
-useful and protective their forms and colours often were, and
-all this was of great use to me.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_39">39</span></p>
-
-<p>Towards the end of this long period of hard
-taxonomic labour, we know from Darwin’s letters
-that he was extremely tired of the work; but with
-marvellous resolution—and in spite of the trouble
-of his health, which was perhaps worse than at
-any other time—he clung to and carried through
-this stupendous task, although all the time attracted
-away from it by the weightier problems which he
-could never thrust aside after they had once made
-their claim upon him.</p>
-
-<div class="sidenote">ON NAMING SPECIES.</div>
-
-<p>Darwin was evidently greatly disconcerted at the
-task of making out those special difficulties which
-man has added to the difficulties of Nature herself—the
-disheartening tangle of nomenclature. He thought
-that the custom of appending the name of the systematist
-after that of the species or genus he had
-named was injurious to the interests of science—inducing
-men to name quickly rather than describe
-accurately. Some of his remarks on this subject
-indicate the state of his mind. Thus he wrote to
-Hooker, October 6th, <span class="locked">1848:—</span></p>
-
-<div class="blockquot">
-
-<p>“I have lately been trying to get up an agitation ...
-against the practice of Naturalists appending for perpetuity
-the name of the <em>first</em> describer to species. I look at this as a
-direct premium to hasty work, to <em>naming</em> instead of <em>describing</em>.
-A species ought to have a name so well known that the
-addition of the author’s name would be superfluous, and ...
-empty vanity.... Botany, I fancy, has not suffered so
-much as zoology from mere <em>naming</em>; the characters, fortunately,
-are more obscure.... Why should Naturalists
-append their own names to new species, when Mineralogists
-and chemists do not do so to new substances?”</p>
-</div>
-
-<p><span class="pagenum" id="Page_40">40</span></p>
-
-<p>And again he wrote to Hugh Strickland, January
-29th, <span class="locked">1849:—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“I have come to a fixed opinion that the plan of the first
-describer’s name, being appended for perpetuity to a species,
-has been the greatest curse to Natural History.... I feel sure
-as long as species-mongers have their vanity tickled by seeing
-their own names appended to a species, because they miserably
-described it in two or three lines, we shall have the same <em>vast</em>
-amount of bad work as at present, and which is enough to
-dishearten any man who is willing to work out any branch
-with care and time.”</p>
-</div>
-
-<p class="in0">And in another letter (February 4th) to the same
-<span class="locked">correspondent:—</span></p>
-
-<div class="blockquot">
-
-<p>“In mineralogy I have myself found there is no rage to
-merely name; a person does not take up the subject without
-he intends to work it out, as he knows that his <em>only</em> claim to
-merit rests on his work being ably done, and has no relation
-whatever to <em>naming</em>.... I do not think more credit is due
-to a man for defining a species, than to a carpenter for making
-a box. But I am foolish and rabid against species-mongers, or
-rather against their vanity; it is useful and necessary work
-which must be done; but they act as if they had actually
-made the species, and it was their own property.”</p>
-</div>
-
-<p>A little later in the same year (1849) his health
-seems to have determined him to give up the crusade,
-for he writes to Hooker (April <span class="locked">29th):—</span></p>
-
-<div class="blockquot">
-
-<p>“With health and vigour, I would not have shewn a white
-feather, [and] with aid of half-a-dozen really good Naturalists,
-I believe something might have been done against the
-miserable and degrading passion of mere species naming.”</p>
-</div>
-
-<p>Anyone whose researches have been among the
-species of any much-worked and much-collected
-zoological group will quite agree that synonymy is, as<span class="pagenum" id="Page_41">41</span>
-Darwin found it, heart-breaking work; and although
-there may be good reasons why the system of appending
-the describer’s name must be retained, such
-a protest as that raised in these letters cannot fail to
-do good in drawing attention to an abuse which is
-only too common, and which introduces unnecessary
-difficulty and gratuitous confusion into the study of
-Nature.</p>
-
-<div class="sidenote">DEATH OF HIS FATHER.</div>
-
-<p>His father, Dr. Darwin, died November 13th,
-1848, at the age of eighty-three, when he was so
-much out of health that he was unable to attend the
-funeral. In 1851 he lost his little daughter Annie,
-who died at Malvern, April 23rd. A few days after
-her death he wrote a most affecting account of her—a
-composition of great beauty and pathos.</p>
-
-<hr />
-
-<div id="toclink_42" class="chapter">
-<p><span class="pagenum" id="Page_42">42</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VI">CHAPTER VI.<br />
-
-<span class="subhead">THE GROWTH OF THE “ORIGIN OF SPECIES” (1837–58).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">In</span> dealing with this subject in his “Autobiography,”
-Darwin tells us of his reflections whilst on the voyage
-of the <i>Beagle</i>, and here mentions another observation
-which deeply impressed him in addition to those which
-he again repeats, on the relation between the living
-and the dead in the same area and on the productions
-of the Galapagos Archipelago—viz. “the manner in
-which closely allied animals replace one another in
-proceeding southwards over the continent” (of South
-America). On the theory of separate creation the
-existence of such representative species received no
-explanation, although it became perfectly intelligible
-on the theory that a single species may be modified
-into distinct, although nearly related, species in the
-course of its range over a wide geographical area.
-Here, too, the evidence is in favour of evolution simply,
-and does not point to any cause of evolution.</p>
-
-<p>He also implies that even at this time he regarded
-the beautiful adaptations or contrivances of nature
-by which organisms are fitted to their habits of life—“for
-instance, a woodpecker or a tree-frog to climb
-trees, or a seed for dispersal by hooks or plumes”—as
-the most striking and important phenomena of the
-organic world, and the one great difficulty in the path<span class="pagenum" id="Page_43">43</span>
-of any naturalist who should attempt to supply a motive
-force for evolution. And he regarded the previous
-attempts at an explanation—the direct action of surroundings
-and the will of the organism—as inadequate
-because they could not account for such adaptations.</p>
-
-<p>Therefore being convinced of evolution, but as yet
-unprovided with a motive cause which in any way
-satisfied him, he began in July, 1837, shortly after his
-return home from the <i>Beagle</i>, to collect all facts which
-bore upon the modifications which man has induced in
-the animals and plants which he has subjugated, following,
-as he tells us, the example of Lyell in geology.
-He goes on to say in his <span class="locked">“Autobiography”:—</span></p>
-
-<div class="blockquot">
-
-<p>“I soon perceived that selection was the key-stone of man’s
-success in making useful races of animals and plants. But
-how selection could be applied to organisms living in a state of
-nature remained for some time a mystery to me.”</p>
-</div>
-
-<div class="sidenote">COLLECTION OF NOTES.</div>
-
-<p>We see indications in the extracts from his note-book
-at this period (viz. between July, 1837, and
-February, 1838), and before he had arrived at the
-conception of Natural Selection, that he had the idea
-of “laws of change” affecting species to some extent
-like the laws of change which compel the individuals
-of every species to work out their own development,
-the extinction of the one corresponding in a measure
-to the death of the other. Thus he says, “It is a wonderful
-fact, horse, elephant, and mastodon dying out
-about the same time in such different quarters. Will
-Mr. Lyell say that some [same?] circumstance killed
-it over a tract from Spain to South America?<span class="pagenum" id="Page_44">44</span>
-Never.” We know that a few months later he would
-have himself accepted the view he imputes to Lyell, and
-would have regarded the extinction as due to some circumstance
-affecting the competition for food or some
-other relationship with the organic life of the same
-district. It is probable that the above quotation from
-his Diary was written in connection with the conclusion
-of Chapter IX. of the first edition of the “Journal of
-the Voyage” (pp. 211, 212); for the latter is a fuller
-exposition of the same argument.<a id="FNanchor_2" href="#Footnote_2" class="fnanchor">B</a></p>
-
-<div class="blockquot">
-
-<p>“One is tempted to believe,” he says, “in such simple relations,
-as variation of climate and food, or introduction of
-enemies, or the increased numbers of other species, as the cause
-of the succession of races. But it may be asked whether it is
-probable that [“than” is an evident misprint in the original] any
-such cause should have been in action during the same epoch
-over the whole northern hemisphere, so as to destroy the
-<i>Elephas primigenius</i> on the shores of Spain, on the plains of
-Siberia, and in Northern America.... These cases of
-extinction forcibly recall the idea (I do not wish to draw any
-close analogy) of certain fruit-trees, which, it has been asserted,
-though grafted on young stems, planted in varied situations,
-and fertilized by the richest manures, yet at one period have
-all withered away and perished. A fixed and determined length
-of life has in such cases been given to thousands and thousands
-of buds (or individual germs), although produced in long
-succession.”</p>
-</div>
-
-<p>He then concludes that the animals of one species,
-although “each individual appears nearly independent
-of its kind,” may be bound together by common laws.<span class="pagenum" id="Page_45">45</span>
-He ends by arguing that the adaptations of animals
-confined to certain areas cannot be related to the
-peculiarities of climate or country, because other
-animals introduced by man are often so much more
-successful than the aborigines. As to the causes of
-extinction, “all that at present can be said with certainty
-is that, as with the individual, so with the
-species, the hour of life has run its course, and is
-spent.”</p>
-
-<div class="sidenote">EARLY VIEWS.</div>
-
-<p>At this time he had the conception—as we see in
-the succeeding extracts from his Diary—of species
-being so constituted that they must give rise to other
-species; or, if not, that they must die out, just as an
-individual dies unrepresented if it has no offspring;
-that change—and evidently change in some fixed
-direction—or extinction, is inevitable in the history
-of a species after a certain period of time. With this
-view, which presented much resemblance to that of
-the author of the “Vestiges,” and which seemed uppermost
-in his mind at this time, there are traces of others.
-Thus in one extract the “wish of parents” was thought
-of as a very doubtful explanation of adaptation, while
-in another we meet a tolerably clear indication of
-natural selection, a variety which is not well adapted
-being doomed to extinction, while a favourable one
-is perpetuated, the death of a species being regarded
-as “a consequence ... of non-adaptation of circumstances.”</p>
-
-<p>It seems certain that for fifteen months after
-July, 1837, he was keenly considering the various<span class="pagenum" id="Page_46">46</span>
-causes of evolution which were suggested to him by
-the facts of nature, and that some general idea of
-natural selection presented itself to him at times,
-although without any of the force and importance
-it assumed in his mind at a later time.</p>
-
-<p>In October, 1838, he read “Malthus on Population,”
-and as he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“Being well prepared to appreciate the struggle for
-existence which everywhere goes on from long-continued
-observation of the habits of animals and plants, it at once
-struck me that under these circumstances favourable variations
-would tend to be preserved, and unfavourable ones to be
-destroyed. The result of this would be the formation of new
-species. Here then I had a theory by which to work.”</p>
-</div>
-
-<div class="sidenote">SKETCH OF THE “ORIGIN.”</div>
-
-<p class="in0">In June, 1842, he wrote a brief account of the theory,
-occupying thirty-five pages. In Lyell’s and Hooker’s
-introduction to the joint paper by Darwin and
-Wallace in the Linnean Society’s Journal (1858) it
-is stated that the first sketch was made in 1839, but
-Francis Darwin shows (“Life and Letters,” 1887,
-Vol. II. pp. 11, 12) that in all probability this is an
-error—a note of Darwin’s referring to the first complete
-grasp of the theory after reading Malthus, being
-mistaken for a reference to the first written account.</p>
-
-<p>In 1844 the sketch was enlarged to a written
-essay occupying 231 pages folio—“a surprisingly
-complete presentation of the argument afterwards
-familiar to us in the ‘Origin of Species’” published
-fifteen years later. Professor Huxley, after reading
-this essay, observed that “much more weight is
-attached to the influence of external conditions in<span class="pagenum" id="Page_47">47</span>
-producing variation, and to the inheritance of acquired
-habits than in the ‘Origin,’” while Professor Newton
-pointed out that the remarks on the migration of
-birds anticipate the views of later writers.<a id="FNanchor_3" href="#Footnote_3" class="fnanchor">C</a></p>
-
-<p>The explanation of divergence of species during
-modification (divergence of character) had not then
-occurred to him, and he tells us in the <span class="locked">“Autobiography”:—</span></p>
-
-<div class="blockquot">
-
-<p>“I can remember the very spot in the road, whilst in my
-carriage, when to my joy the solution occurred to me; and
-this was long after I had come to Down. The solution, as I
-believe, is that the modified offspring of all dominant and
-increasing forms tend to become adapted to many and highly
-diversified places in the economy of nature.”</p>
-</div>
-
-<p>A good example of this tendency is seen in
-the relations of three great vertebrate classes—mammals,
-birds, and fishes—to the environments
-for which they are respectively fitted: earth, air,
-and water. Competition is most severe between
-forms most nearly alike, and hence some measure
-of relief from competition is afforded when certain
-members of each of these classes enter the domain
-of one of the others. Hence, we observe that although
-mammals as a whole are terrestrial, a small minority
-are aërial and aquatic; although birds are aërial, a
-minority are terrestrial and aquatic; although fishes
-are aquatic, a minority tend to be, at any rate largely,
-terrestrial and aërial.</p>
-
-<p><span class="pagenum" id="Page_48">48</span></p>
-
-<p>Huxley considered it “curious that so much
-importance should be attached to this supplementary
-idea. It seems obvious that the theory of the origin
-of species by natural selection necessarily involves the
-divergence of the forms selected” (“Obituary,” 1888,
-reprinted in “Darwiniana,” 1893; see pp. 280, 281).
-But Darwin showed that divergence might be a great
-advantage in itself, and would then be directly (and
-not merely incidentally and indirectly) encouraged
-and increased by natural selection.</p>
-
-<div class="sidenote">RESOLVE TO PUBLISH.</div>
-
-<p>As soon as the 1844 sketch was finished, Darwin
-wrote a letter (July 5th) as his “solemn and last
-request” that his wife would, in the case of his
-death, devote £400, or if necessary £500, in publishing
-it, and would take trouble in promoting it. He suggests
-Lyell as the best editor, then Edward Forbes, then
-Henslow (“quite the best in many respects”), then
-Hooker (“would be <em>very</em> good”), then Strickland.
-After Strickland he had thought of Owen as “very
-good,” but added, “I presume he would not undertake
-such a work.” If no editor could be obtained,
-he requested that the essay should be published as
-it was—stating that it was not intended for publication
-in its present form. In August, 1854, he wrote
-on the back of the letter: “Hooker by far best man
-to edit my Species volume.”</p>
-
-<p>All this shows how certain he felt that he
-was on firm ground, and that his theory of
-natural selection was of vast importance to science.
-This same strong conviction appears clearly in the<span class="pagenum" id="Page_49">49</span>
-first edition of the “Origin,” and is undoubtedly one
-of the secrets of its power to move the minds of men.
-Although the author is above all others fair-minded;
-although he is most keen to discover and to bring
-forward all opposing evidence, and to criticise most
-minutely everything favourable; nevertheless, looking
-at the evidence as a whole, he has no doubt as to
-its bearing, and feels, and shows that he feels, a
-magnificent confidence in the truth and the importance
-of his theory.</p>
-
-<hr />
-
-<div id="toclink_50" class="chapter">
-<p><span class="pagenum" id="Page_50">50</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VII">CHAPTER VII.<br />
-
-<span class="subhead">GROWTH OF THE “ORIGIN” (<i>continued</i>)—CORRESPONDENCE
-WITH FRIENDS.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">The</span> great periods of Darwin’s scientific career are
-marked by intimate friendships, which must be
-taken into account in attempting to trace his mental
-development. Henslow was his intimate friend at
-Cambridge and during the voyage of the <i>Beagle</i>.
-The influence of Lyell, through his writings, was of
-the utmost importance during the voyage, and was
-deepened by the close personal contact which took
-place on Darwin’s return. Sir Joseph Hooker was
-his most intimate friend during the growth of the
-“Origin of Species.”</p>
-
-<p>Although Hooker met Darwin in 1839, their
-friendship did not begin until four years later, when
-the former returned from the Antarctic Expedition.
-On January 11th, 1844, Darwin wrote admitting his
-conclusions on the question of evolution:—“At last
-gleams of light have come,” he says, “and I am
-almost convinced (quite contrary to the opinion I
-started with) that species are not (it is like confessing
-a murder) immutable” (“Life and Letters,”
-Vol. II. p. 23).</p>
-
-<div class="sidenote">INQUIRIES AND EXPERIMENTS.</div>
-
-<p>From this point onwards his letters, especially to<span class="pagenum" id="Page_51">51</span>
-Hooker, indicate the course he was following and the
-various problems he was considering as they arose.
-Thus we find that he had finished reading Wollaston’s
-“Insecta Maderensia” in 1855 (writing March 7th),
-and had been struck with the very large proportion
-of wingless beetles, and had interpreted the observation,
-viz. “that powers of flight would be
-injurious to insects inhabiting a confined locality,
-and expose them to be blown to the sea.” It is of
-great interest thus to witness the origin of a theory
-which has since been universally accepted, and
-has received confirmation from many parts of the
-world.</p>
-
-<p>On April 11th of the same year he is experimenting
-on the powers of resistance to immersion in salt
-water possessed by seeds, and he writes an account of
-it to Hooker. The object of these experiments was
-to throw light on the means by which plants have
-been transported to islands.</p>
-
-<p>In the same year began his correspondence with
-Asa Gray, who soon became one of his warmest
-friends. He had numerous questions to ask about
-the geographical range of plants, and in 1857 he
-wrote explaining in some detail the views at which
-he had arrived as to the causes of evolution.</p>
-
-<p>My friend Rowland H. Wedgwood, a nephew of
-Darwin, has given me the following interesting
-letter to his father, which was written, he believes,
-probably before 1855. By kind permission, it is here
-published for the first time. The letter is of great<span class="pagenum" id="Page_52">52</span>
-interest, as throwing light upon his work, and also
-because of this early reference to <span class="locked">Huxley:—</span></p>
-
-<div class="blockquot">
-<p class="sigright">“Down, <i>Sept. 5</i>.</p>
-
-<p>“<span class="smcap">My dear Harry</span>,—I am very much obliged for the
-Columbine seed and for your note which made us laugh
-heartily.</p>
-
-<p>“I had no idea what trouble the counting must have been,
-I had not the least conception that there would have been so
-many pods. I am very much interested on this point, and
-therefore to make assurance sure, I repeat your figures viz.
-560 and 742 pods on two plants and 7200 on another. Does
-the latter number really mean pods and not seeds? Upon
-my life I am sorry to give so much trouble, but I should be
-<span class="allsmcap">VERY MUCH</span> obliged for a few <em>average</em> size pods, put up
-separately that I may count the seeds in each pod: for
-though I counted the seeds in the pods sent before, I hardly
-dare trust them without counting more. Moreover I sadly
-want more seed itself for one of my experiments.</p>
-
-<p>“The young cabbages are coming up already. Thank you
-much about the asparagus seeds; as it is so rare a plant, you
-are my only chance.</p>
-
-<p>“We have been grieved to hear about poor Anne and
-Tom.—Your affect<sup>te</sup> screw</p>
-
-<p class="sigright">
-“<span class="smcap">C. Darwin.</span>
-</p>
-
-<p>“Have you been acquainted with Mr. Huxley; I think
-you would find him a pleasant acquaintance. He is a very
-clever man.”</p>
-</div>
-
-<p>Mr. Francis Darwin believes that the asparagus
-and cabbage seeds were for the experiments to determine
-the time during which immersion in salt water
-could be endured. The object of such experiments
-was to throw light on the means by which plants are
-distributed over the earth’s surface. He also informs
-me that the use of the word “screw” is unique and
-incomprehensible.</p>
-
-<p>Darwin tells us in the “Autobiography” that<span class="pagenum" id="Page_53">53</span>
-“early in 1856 Lyell advised me to write out my
-views pretty fully, and I began at once to do so on a
-scale three or four times as extensive as that which
-was afterwards followed in my ‘Origin of Species.’”
-This work he began on May 14th, and, after working
-steadily until June, 1858, had written about half the
-book, in ten chapters, when he received the celebrated
-letter from Wallace, which altered everything.</p>
-
-<div class="sidenote">ON THE “ATLANTIS” THEORY.</div>
-
-<p>At this period we get interesting evidence of his
-extraordinary insight in the strong protests he makes
-against the Atlantis hypothesis of Edward Forbes,
-and the other vast continental extensions which
-naturalists did not hesitate to make in order to
-explain the existence of species common to countries
-separated by wide tracts of the ocean. These lost
-continents were as generally accepted as they were
-freely proposed. And yet we find that, even then,
-one thinker far ahead of his time saw clearly enough—as
-the <i>Challenger</i> Expedition twenty years later
-proved beyond all doubt—that the geological evidence
-is against such extension, and that the means
-of distribution possessed by animals are such as to
-render the supposition unnecessary.</p>
-
-<p>In June, 1856, he writes to Lyell: “My blood gets
-hot with passion and turns cold alternately at the
-geological strides, which many of your disciples are
-taking”; and after mentioning the extension of
-continents proposed by many leading naturalists, he
-says: “If you do not stop this, if there be a lower
-region for the punishment of geologists, I believe, my<span class="pagenum" id="Page_54">54</span>
-great master, you will go there. Why, your disciples
-in a slow and creeping manner beat all the old
-Catastrophists who ever lived! You will live to be
-the great chief of the Catastrophists.” Lyell wrote
-disagreeing on the subject of continental extension;
-and hence, on June 25th, 1856, Darwin replied in a
-long letter, giving in detail his reasons for rejecting
-the hypothesis. He argued (1) that the supposed extension
-of continents and fusion of islands would be
-vast changes, giving the earth a new aspect, but that
-recent and tertiary molluscs, etc., are distinct on
-opposite sides of the existing continents; so that,
-although he did not doubt <em>great</em> changes of level
-in parts of continents, he concluded that “<em>fundamentally</em>
-they stood as barriers to the sea where
-they now stand” ever since the appearance of living
-species; (2) that if a continent were nearly submerged,
-the last remaining peaks would by no means
-always be volcanic, as are, almost without exception,
-the oceanic islands; (3) that the amount of subsidence
-which took place in continental areas during
-the Silurian and Carboniferous periods—viz. during
-one tolerably uniform set of beings—would not be
-enough to account for the depth of the ocean over
-some parts of the site of the supposed submerged
-continents; (4) that the supposed extensions are
-not consistent with the <em>absence</em> of many groups of
-animals—<i>e.g.</i> mammals, frogs, etc.—from islands.</p>
-
-<p>These arguments did not convince Lyell; and they
-have only received an almost universal acceptance<span class="pagenum" id="Page_55">55</span>
-after the confirmatory evidence afforded by the
-voyage of the <i>Challenger</i>. Dredgings over many
-parts of the ocean showed that all the continental
-deposits are collected on a fringing shelf not more
-than 200 miles wide, and that beyond this in the
-ocean bed proper an entirely different kind of deposit
-is accumulating, composed of the shells, bones, and
-teeth of swimming or floating organisms, or the
-products of their decomposition, of volcanic and
-cosmic dust, and the products—<i>e.g.</i> manganese dioxide—of
-the decomposition of these and of floating
-pumice. Hence, the depths of the ocean afford no
-indications of a lost continental area, but are covered
-by a peculiar deposit unknown among the rocks of
-continents which were formed in comparatively
-shallow water round and not far from coasts, or in
-land-locked or nearly land-locked seas like the
-Mediterranean.</p>
-
-<div class="sidenote">EARLY CORRESPONDENCE.</div>
-
-<p>On July 20th, 1856, he wrote to Asa Gray, giving
-some account of his views, and stating his belief in
-evolution, but only hinting at natural selection.</p>
-
-<p>About this time we meet with evidence of the
-great difficulty with which Darwin’s ideas were
-thoroughly understood, even by his intimate friends,
-to whom he often wrote on the subject. Later on,
-when the “Origin of Species” was published, although
-the arguments in favour of natural selection
-were given in considerable detail, many years passed
-before the theory itself was understood by the
-great body of naturalists. This particular case of<span class="pagenum" id="Page_56">56</span>
-misunderstanding is of such great interest that it
-is desirable to consider it in detail.</p>
-
-<p>In the origin of new species by natural selection,
-the stress of competition determines the survival
-of favourable individual variations, and these, when
-by the continued operation of the process they have
-become constant, are added to those pre-existing
-characters of the species which are inherited from
-a remote past, and are witnesses of the operation of
-natural selection from age to age under ever-changing
-conditions of competition and variation. It follows,
-therefore, that the origin of a species can only take
-place once; for it is infinitely improbable that the
-same variation would be independently submitted
-under the same conditions of competition, and added
-to the mass of inherited characters independently
-gained in two distinct lines by natural selection
-acting in the same manner upon the same variations
-in the same order through all ages. Not only is
-it inconceivable that the same species could arise by
-natural selection from distinct lines of ancestry, but
-it is extremely improbable that the same species
-could arise independently in more than one centre
-among the individuals of a changing species; for in
-this case, too, it is most unlikely that the same
-conditions of competition would co-exist with the
-same favourable variations in the areas inhabited
-by independent colonies of the same species.</p>
-
-<div class="sidenote">EARLY CRITICISM.</div>
-
-<p>Under other theories of evolution—direct action
-of environment, supposed inherited effects of use and<span class="pagenum" id="Page_57">57</span>
-disuse, etc.—an independent origin, even from quite
-distinct lines, would be probable; and we find,
-accordingly, that those who would advance such
-theories believe in what is called the “polyphyletic”
-origin of species (<i>e.g.</i> the horse), and in the principle
-of “convergence” carried far enough to produce the
-same complex character (<i>e.g.</i> vertebrate teeth) twice
-over without any genetic connection between the
-forms in which the character appears.</p>
-
-<p>Under natural selection, however, such a result
-would be infinitely improbable, and hence this theory
-strongly supports, and indeed explains, the theory
-of “specific centres,” viz. that each species has arisen
-in one area only, and has spread from that into the
-other areas over which it now occurs. This view was
-strongly held by Lyell and Hooker after an exhaustive
-study of the facts then known as to the
-geographical distribution of plants and animals; and
-yet both of these distinguished naturalists seem to
-have feared that Darwin, in advancing a theory
-which was entirely consistent with their convictions
-and utterly inconsistent with any other views upon
-the same subject, was in some way undermining
-the conclusions at which they had arrived.</p>
-
-<p>Thus Lyell wrote (July 25th, 1856) to <span class="locked">Hooker:—</span></p>
-
-<div class="blockquot">
-
-<p>“I fear much that if Darwin argues that species are
-phantoms, he will also have to admit that single centres of
-dispersion are phantoms also, and that would deprive me of
-much of the value which I ascribe to the present provinces
-of animals and plants, as illustrating modern and tertiary
-changes in physical geography.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_58">58</span></p>
-
-<p class="in0">And on August 5th of the same year Darwin replied
-to Hooker, who had apparently argued that the origin
-of species by direct action of climate, etc., would mean
-independent and multiple specific <span class="locked">centres:—</span></p>
-
-<div class="blockquot">
-
-<p>“I see from your remarks that you do not understand my
-notions (whether or no worth anything) about modification;
-I attribute very little to the direct action of climate, etc. I
-suppose, in regard to specific centres, we are at cross purposes;
-I should call the kitchen garden in which the red cabbage
-was produced, or the farm in which Bakewell made the
-Shorthorn cattle, the specific centre of these <em>species</em>! And
-surely this is centralisation enough!”</p>
-</div>
-
-<p>As I have argued above, Darwin was all the time
-affording the strongest support to the theory of
-specific centres: support which was entirely wanting
-in the theory of separate creation, in which the origin
-of each species is wrapped in mystery, so that we can
-form no opinion as to whether it took place at one
-centre or at many.</p>
-
-<p>At this time, when the views set forth in the
-“Origin” were gaining shape and expression, we
-cannot estimate too highly the value of the correspondence
-with Hooker. In after years, when the
-“Origin” had to stand the fire of adverse criticism,
-and at first of very general disapproval, it was of
-inestimable advantage that every idea contained in
-it should have been minutely discussed beforehand
-with one who was more critical and more learned
-than the greatest of those who afterwards objected.
-Darwin tells us in his <span class="locked">“Autobiography”:—</span></p>
-
-<p><span class="pagenum" id="Page_59">59</span></p>
-
-<div class="blockquot">
-
-<p>“I think that I can say with truth that in after years,
-though I cared in the highest degree for the approbation of
-such men as Lyell and Hooker, who were my friends, I did
-not care much about the general public.”</p>
-</div>
-
-<p class="in0">But, although Darwin cared nothing for it, it is
-nevertheless true that the approbation of minds such
-as these was a sure indication of the general approbation
-of the intellect of the country, and of the
-world, which was to follow as soon as the new ideas
-were absorbed.</p>
-
-<div class="sidenote">VALUE OF THE DISCUSSION.</div>
-
-<p>And the value which Darwin himself placed on
-these discussions appears again and again in his
-letters. To take a single example, he writes to
-Hooker November 23rd, <span class="locked">1856:—</span></p>
-
-<div class="blockquot">
-
-<p>“I fear I shall weary you with letters, but do not answer
-this, for in truth and without flattery, I so value your letters,
-that after a heavy batch, as of late, I feel that I have been
-extravagant and have drawn too much money, and shall
-therefore have to stint myself on another occasion.”</p>
-</div>
-
-<hr />
-
-<div id="toclink_60" class="chapter">
-<p><span class="pagenum" id="Page_60">60</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VIII">CHAPTER VIII.<br />
-
-<span class="subhead">DARWIN AND WALLACE (1858).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">The</span> history of Darwin’s friendship with Alfred
-Russel Wallace is of quite unique interest, being
-brought about by the fact that both naturalists saw
-in evolution and its causes the great questions of the
-immediate future, and by the agreement in the
-interpretations which they independently offered.
-Wallace was collecting and observing in the Malay
-Archipelago, and wrote to Darwin as the one man
-most likely to sympathise with and understand his
-views and to offer valuable criticism.</p>
-
-<p>In the “Annals and Magazine of Natural History”
-for 1855, Wallace published a paper “On the Law
-that has Regulated the Introduction of New
-Species,” and in this and a letter written from the
-Malay Archipelago Darwin recognised the similarity
-of their views, although the completeness of this
-agreement was to be brought before him with
-startling force a year after his sympathetic reply,
-written May 1st, 1857. He then <span class="locked">wrote:—</span></p>
-
-<div class="blockquot">
-
-<p>“By your letter and even still more by your paper in the
-Annals, a year or more ago, I can plainly see that we have
-thought much alike and to a certain extent have come to
-similar conclusions. In regard to the Paper in the Annals,
-I agree to the truth of almost every word of your paper; and
-I dare say that you will agree with me that it is very rare to<span class="pagenum" id="Page_61">61</span>
-find oneself agreeing pretty closely with any theoretical paper;
-for it is lamentable how each man draws his own different
-conclusions from the very same facts.”</p>
-</div>
-
-<p>On December 22nd he replied to another letter
-from Wallace, again expressing agreement with all
-his conclusions except that upon the supposed continental
-extension to oceanic islands, on which,
-alluding to his previous discussion, he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“You will be glad to hear that neither Lyell nor Hooker
-thought much of my arguments. Nevertheless, for once in my
-life, I dare withstand the almost preternatural sagacity of
-Lyell.”</p>
-</div>
-
-<p class="in0">And he concludes with the <span class="locked">wish—</span></p>
-
-<div class="blockquot">
-
-<p>“May all your theories succeed, except that on Oceanic
-Islands, on which subject I will do battle to the death.”</p>
-</div>
-
-<p>He also said, as regards Wallace’s conclusions: “I
-believe I go much further than you; but it is too
-long a subject to enter on my speculative notions.”</p>
-
-<div class="sidenote">WALLACE’S ESSAY.</div>
-
-<p>Finally, on June 18th, 1858, Darwin received from
-Wallace a manuscript essay bearing the title “On the
-Tendency of Varieties to depart indefinitely from the
-Original Type.” Upon this essay he wanted Darwin’s
-opinion, and asked him, if he thought well of it, to
-forward it to Lyell. Darwin was startled to find in
-the essay a complete account of his own views. That
-very day he wrote to Lyell, enclosing the essay. In
-the letter he <span class="locked">said:—</span></p>
-
-<div class="blockquot">
-
-<p>“Your words have come true with a vengeance—that I
-should be forestalled. You said this, when I explained to you
-here very briefly my views of ‘Natural Selection’ depending<span class="pagenum" id="Page_62">62</span>
-on the struggle for existence. I never saw a more striking
-coincidence; if Wallace had my MS. sketch written out in
-1842, he could not have made a better short abstract! Even
-his terms now stand as heads of my chapters.”</p>
-</div>
-
-<p>A few days later (June 25th) he again wrote to
-Lyell, <span class="locked">saying—</span></p>
-
-<div class="blockquot">
-
-<p>“I should be extremely glad now to publish a sketch of my
-general views in about a dozen pages or so; but I cannot
-persuade myself that I can do so honourably. Wallace says
-nothing about publication, and I enclose his letter. But as
-I had not intended to publish any sketch, can I do so
-honourably, because Wallace has sent me an outline of his
-doctrine? I would far rather burn my whole book, than that
-he or any other man should think that I had behaved in a
-paltry spirit.”</p>
-</div>
-
-<p>He also asked Lyell to send the letter on to
-Hooker, “for then I shall have the opinion of my two
-best and kindest friends.” He was so much distressed
-at the idea of being unfair to Wallace that he
-wrote again the next day to put the case against
-himself in an even stronger light. This must have
-been one of the most trying times in Darwin’s life,
-for, in addition to the cause of trouble and perplexity
-described above, one of his children died of scarlet
-fever, and there was the gravest fear lest the others
-should be attacked.</p>
-
-<div class="sidenote">BOTH ESSAYS PUBLISHED.</div>
-
-<p>Thus appealed to, Lyell and Hooker took an
-extremely wise and fair course. They asked Darwin
-for an abstract of his work, and, accepting the whole
-responsibility, communicated it and Wallace’s essay
-in a joint paper to the Linnean Society, giving an
-account of the circumstances of the case in a preface,<span class="pagenum" id="Page_63">63</span>
-which took the form of a letter to the Secretary of
-the Society. In this letter they introduced to the
-Society “the results of the investigations of the
-indefatigable naturalists, Mr. Charles Darwin and
-Mr. Alfred Wallace.”</p>
-
-<div class="blockquot">
-
-<p>“These gentlemen having, independently and unknown to
-one another, conceived the same very ingenious theory to
-account for the appearance and perpetuation of varieties and
-of specific forms on our planet, may both fairly claim the
-merit of being original thinkers in this important line of
-enquiry; but neither of them having published his views,
-though Mr. Darwin has for many years past been repeatedly
-urged by us to do so, and both authors having now unreservedly
-placed their papers in our hands, we think it would
-best promote the interests of science that a selection from
-them should be laid before the Linnean Society.”</p>
-</div>
-
-<p>After giving a list of these selections, they say of
-Wallace’s <span class="locked">essay—</span></p>
-
-<div class="blockquot">
-
-<p>“This was written at Ternate<a id="FNanchor_4" href="#Footnote_4" class="fnanchor">D</a> in February, 1858, for the
-perusal of his friend and correspondent Mr. Darwin, and sent
-to him with the expressed wish that it should be forwarded to
-Sir Charles Lyell, if Mr. Darwin thought it sufficiently novel
-and interesting. So highly did Mr. Darwin appreciate the
-value of the views therein set forth, that he proposed, in a
-letter to Sir Charles Lyell, to obtain Mr. Wallace’s consent to
-allow the Essay to be published as soon as possible. Of this
-step we highly approved, provided Mr. Darwin did not withhold
-from the public, as he was strongly inclined to do (in
-favour of Mr. Wallace), the memoir which he had himself
-written on the same subject, and which, as before stated, one
-of us had perused in 1844, and the contents of which we had<span class="pagenum" id="Page_64">64</span>
-both of us been privy to for many years. On representing
-this to Mr. Darwin, he gave us permission to make what use
-we thought proper of his memoir, &amp;c.; and in adopting our
-present course, of presenting it to the Linnean Society, we
-have explained to him that we are not solely considering the
-relative claims to priority of himself and his friend, but the
-interests of science generally; for we feel it to be desirable
-that views founded on a wide deduction from facts, and
-matured by years of reflection, should constitute at once a
-goal from which others may start, and that, while the scientific
-world is waiting for the appearance of Mr. Darwin’s complete
-work, some of the leading results of his labours, as well as
-those of his able correspondent, should together be laid before
-the public.”</p>
-</div>
-
-<p>The title of the joint paper was “On the Tendency
-of Species to form Varieties; and on the Perpetuation
-of Varieties and Species by Natural Means of Selection.”
-It was read July 1st, 1858.</p>
-
-<hr />
-
-<div id="toclink_65" class="chapter">
-<p><span class="pagenum" id="Page_65">65</span></p>
-
-<h2 class="nobreak" id="CHAPTER_IX">CHAPTER IX.<br />
-
-<span class="subhead">DARWIN’S SECTION OF THE JOINT MEMOIR READ
-BEFORE THE LINNEAN SOCIETY JULY 1, 1858.</span></h2>
-</div>
-
-<div class="sidenote">FIRST PUBLISHED ESSAY.</div>
-
-<p>The first section of Darwin’s communication consisted
-of extracts from the Second Chapter of the First
-Part of his manuscript essay of 1844. The Part was
-entitled “The Variation of Organic Beings under
-Domestication, and in their Natural State,” and the
-Second Chapter was headed “On the Variation of
-Organic Beings in a State of Nature; on the Natural
-Means of Selection; on the Comparison of Domestic
-Races and True Species.” The extracts first deal
-with the tendency towards rapid multiplication and
-the consequent struggle for life. The average constancy
-of the numbers of individuals is traced to the average
-constancy of the amount of food, “whereas the
-increase of all organisms tends to be geometrical.”
-Practical illustrations are given in the enormous
-increase of the mice in La Plata during the drought
-which killed millions of cattle, and in the well-known
-and rapid increase of the animals and plants introduced
-by man into a new and favourable country.</p>
-
-<p>The checks which operate when the country is
-stocked and the species reaches its average are most
-difficult to detect, but none the less certain. If any
-check is lightened in the case of any organism it will<span class="pagenum" id="Page_66">66</span>
-at once tend to increase. “Nature may be compared
-to a surface on which rest ten thousand sharp wedges
-touching each other and driven inward by incessant
-blows.” Darwin meant by this image to express
-that just as any single wedge would instantly rise
-above the rest when the blows on it were in any
-way lessened as compared with those on the other
-wedges, so it would be with the proportionate number
-of any species when the checks to which it is subjected
-are in any way relaxed.</p>
-
-<p>If the external conditions alter, and the changes
-continue progressing, the inhabitants will be less well
-adapted than formerly. The changed conditions
-would act on the reproductive system and render the
-organisation plastic. Now, can it be doubted, from
-the struggle each individual has to obtain subsistence,
-that any minute variation in structure, habits, or
-instincts adapting that individual better to the new
-conditions would tell upon its vigour and health?
-“Yearly more are bred than can survive; the smallest
-grain in the balance, in the long run, must tell on
-which death shall fall, and which shall survive.” If
-this went on for a thousand generations who will deny
-its effect “when we remember what, in a few years,
-Bakewell effected in cattle, and Western in sheep, by
-this identical principle of selection?”</p>
-
-<p>He gives an imaginary example of a canine animal
-preying on rabbits and hares. If the rabbits, constituting
-its chief food, gradually became rarer,
-and the hares more plentiful, the animal would be<span class="pagenum" id="Page_67">67</span>
-driven to try and catch more hares, and hence would
-be selected in the direction of speed and sharp eyesight.
-“I can see no more reason to doubt that these
-cases in a thousand generations would produce a
-marked effect, and adapt the form of the fox or dog
-to the catching of hares instead of rabbits, than that
-greyhounds can be improved by selection and careful
-breeding.” So also with plants having seeds with
-rather more down, leading to wider dissemination.
-Darwin here added this note: “I can see no more
-difficulty in this, than in the planter improving his
-varieties of the cotton plant. C. D. 1858.”</p>
-
-<p>Then follows a brief sketch of sexual selection and
-a comparison with natural selection, and the conclusion
-is reached—“this kind of selection, however,
-is less vigorous than the other; it does not require
-the death of the less successful, but gives to them
-fewer descendants. The struggle falls, moreover, at a
-time of year when food is generally abundant, and
-perhaps the effect chiefly produced would be the
-modification of the secondary sexual characters,
-which are not related to the power of obtaining food,
-or to defence from enemies, but to fighting with or
-rivalling other males.”</p>
-
-<p>The second section was entitled “Abstract of a
-Letter from C. Darwin, Esq., to Professor Asa Gray,
-Boston, U.S., dated Down, September 5th, 1857.” To
-this letter Darwin attached great importance as a
-convenient and brief account of the essentials of his
-theory, written and sent to Asa Gray many months<span class="pagenum" id="Page_68">68</span>
-before he received Wallace’s essay. A tolerably full
-abstract of the letter, which is itself a very brief
-abstract, is therefore printed below. The epitome
-here given is taken from the letter itself, and is in
-certain respects more full than that published in the
-Linnean Journal.</p>
-
-<p>In the introductory parts Darwin explained that
-“the facts which kept me longest scientifically
-orthodox are those of adaptation—the pollen-masses
-in asclepias—the mistletoe, with its pollen carried by
-insects, and seed by birds—the woodpecker, with its
-feet and tail, beak and tongue, to climb the tree and
-secure insects. To talk of climate or Lamarckian
-habit producing such adaptations to other organic
-beings is futile. This difficulty I believe I have
-surmounted.” Having then stated that the reasons
-which induced him to accept evolution were “general
-facts in the affinities, embryology, rudimentary organs,
-geological history, and geographical distribution of
-organic beings,” he proceeds to give a brief account
-of his “notions on the means by which Nature
-makes her species.” The following is an abstract of
-the account he <span class="locked">gives:—</span></p>
-
-<div class="sidenote">SUMMARY OF THE ESSAY.</div>
-
-<div class="blockquot">
-
-<p>I. The success with which selection has been applied by
-man in making his breeds of domestic animals and plants:
-and this even in ancient times when the selection was unconscious,
-viz. when breeding was not thought of, but the most
-useful animals and plants were kept and the others destroyed.
-“Selection acts only by the accumulation of very slight or
-greater variations,” and man in thus accumulating “<em>may be
-said</em> to make the wool of one sheep good for carpets, and
-another for cloth, &amp;c.”</p>
-
-<p><span class="pagenum" id="Page_69">69</span></p>
-
-<p>II. Slight variations of all parts of the organism occur in
-nature, and if a being could select with reference to the whole
-structure, what changes might he not effect in the almost
-unlimited time of which geology assures us.</p>
-
-<p>III. Animals increase so fast that, but for extermination,
-the earth would not hold the progeny of even the slowest
-breeding animal. Only a few in each generation can live; hence
-the struggle for life, which has never yet been sufficiently
-appreciated. “What a trifling difference must often determine
-which shall survive and which perish!” Thus is supplied the
-“unerring power” of “<em>Natural Selection</em> ... which selects
-exclusively for the good of each organic being.”</p>
-
-<p>IV. If a country were changing the altered conditions
-would tend to cause variation, “not but what I believe most
-beings vary at all times enough for selection to act on.”
-Extermination would expose the remainder to “the mutual
-action of a different set of inhabitants, which I believe to be
-more important to the life of each being than mere climate.”
-In the infinite complexity of the struggle for life “I cannot
-doubt that during millions of generations individuals of a
-species will be born with some slight variation profitable to
-some part of its economy; such will have a better chance of
-surviving and propagating this variation, which again will
-be slowly increased by the accumulative action of natural
-selection; and the variety thus formed will either coexist with,
-or more commonly will exterminate its parent form.” Thus
-complex adaptations like those of woodpecker or mistletoe may
-be produced.</p>
-
-<p>V. Numerous difficulties can be answered satisfactorily
-in time. The supposed changes are only very gradual, and very
-slow, “only a few undergoing change at any one time.” The
-imperfection of the geological record accounts for deficient
-direct evidence of change.</p>
-
-<p>VI. Divergence during evolution will be an advantage.
-“The same spot will support more life if occupied by very
-diverse forms.” Hence during the increase of species into its
-offspring—varieties, or sub-species, or true species, the latter
-“will try (only few will succeed) to seize on as many and as
-diverse places in the economy of nature as possible,” and so<span class="pagenum" id="Page_70">70</span>
-will tend to “exterminate its less well-fitted parent.” This
-explains classification, in which the organic beings “always
-<em>seem</em> to branch and sub-branch like a tree from a common
-trunk; the flourishing twigs destroying the less vigorous—the
-dead and lost branches rudely representing extinct genera
-and families.”</p>
-</div>
-
-<p>In a postscript he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“This little abstract touches only the accumulative power
-of natural selection, which I look at as by far the most important
-element in the production of new forms. The laws
-governing the incipient or primordial variation (unimportant
-except as the groundwork for selection to act on, in which
-respect it is all important), I shall discuss under several heads,
-but I can come, as you may well believe, only to very partial
-and imperfect conclusions.”</p>
-</div>
-
-<p>It is, I think, of especial interest to find Darwin
-at this early period arguing in a most convincing
-manner for the creative power of natural selection.
-The selective power becomes, by accumulation, of
-such paramount importance in the process, as compared
-with the variations, that, although these latter
-are absolutely essential, man may be said to <em>make</em>
-his domestic breeds and Nature her species. The
-man who argued thus had been through and had
-left behind the difficulty that, even now, is often
-raised—that “before anything can be selected it
-must be,” and therefore that selection is of small
-account as compared with variation.</p>
-
-<hr />
-
-<div id="toclink_71" class="chapter">
-<p><span class="pagenum" id="Page_71">71</span></p>
-
-<h2 class="nobreak" id="CHAPTER_X">CHAPTER X.<br />
-
-<span class="subhead">WALLACE’S SECTION OF THE JOINT MEMOIR READ
-BEFORE THE LINNEAN SOCIETY JULY 1, 1858.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">The</span> communication by Alfred Russel Wallace was
-entitled “On the Tendency of Varieties to depart
-indefinitely from the Original Type.” An abstract
-of it is given below.</p>
-
-<div class="sidenote">WALLACE’S ESSAY.</div>
-
-<p><em>Varieties</em> produced in domesticity are more or
-less unstable, and often tend to return to the parent
-form. This is usually thought to be true for all
-varieties, and to be a strong argument for the original
-and permanent distinctness of species.</p>
-
-<p>On the other hand, races forming “permanent
-or true varieties” are well known, and there are
-generally no means of determining which is the
-<em>variety</em> and which the original <em>species</em>. The hypothesis
-of a “permanent invariability of species” is
-satisfied by supposing that, while such varieties
-cannot diverge from the species beyond a certain
-fixed limit, they may return to it.</p>
-
-<p>This argument is founded on the assumption
-that <em>varieties</em> in nature are in all respects identical
-with those of domestic animals. The object of the
-paper is to show that this is false, and “that there
-is a general principle in nature which will cause<span class="pagenum" id="Page_72">72</span>
-many <em>varieties</em> to survive the parent species and
-to give rise to successive variations departing further
-and further from the original type.” The same
-principle explains the tendency of domestic animals
-to return to the parent form.</p>
-
-<p>“The life of wild animals is a struggle for
-existence.” To procure food and escape enemies
-are the primary conditions of existence, and determine
-abundance and rarity, frequently seen in
-closely allied species.</p>
-
-<p>“Large animals cannot be so abundant as small
-ones; the carnivora must be less numerous than the
-herbivora,” eagles and lions than pigeons and antelopes.
-Fecundity has little or nothing to do with
-this. The least prolific animals would increase
-rapidly if unchecked. But wild animals do not
-increase beyond their average; hence there must
-be an immense amount of destruction. The abundance
-of species in individuals bears no relation
-whatever to their fertility. Thus the excessively
-abundant passenger pigeon of the United States
-lays only one or two eggs. Its abundance is explained
-by the widespread supply of food rendered
-available by its powers of flight. The food-supply
-“is almost the sole condition requisite for ensuring
-the rapid increase of a given species.” This explains
-why the sparrow is more abundant than the red-breast,
-why aquatic species of birds are specially
-numerous in individuals, why the wild cat is rarer
-than the rabbit. “So long as a country remains<span class="pagenum" id="Page_73">73</span>
-physically unchanged, the numbers of its animal
-population cannot materially increase.” If one species
-does so, others must diminish. In the immense
-amount of destruction the weakest must die, “while
-those that prolong their existence can only be the
-most perfect in health and vigour—those who are
-best able to obtain food regularly and to avoid their
-numerous enemies. It is, as we commenced by remarking,
-‘a struggle for existence,’ in which the
-weakest and least perfectly organised must always
-succumb.”</p>
-
-<p>This tendency must apply to species as well as
-individuals, the best adapted becoming abundant, the
-others scarce or even extinct. If we knew the whole
-of the conditions and powers of a species “we might
-be able even to calculate the proportionate abundance
-of individuals, which is the necessary result.”</p>
-
-<p>Hence, first, <em>the animal population of a country
-is generally stationary (due to food and other
-checks)</em>; second, <em>comparative abundance or scarcity
-of individuals is entirely due to organisation and
-resulting habits, the varying measure of success in
-the struggle being balanced by a varying population
-in a given area</em>.</p>
-
-<p>Variations from type must nearly always affect
-habits or capacities. Even changes of colour may
-promote concealment, while changes in the limbs
-or any external organs would affect the mode of
-procuring food, etc. “An antelope with shorter or
-weaker legs must necessarily suffer more from the<span class="pagenum" id="Page_74">74</span>
-attacks of the feline carnivora”; the passenger pigeon
-with less powerful wings could not always procure
-sufficient food. Hence species thus modified would
-gradually diminish; but, on the other hand, if
-modified in the direction of increased powers, would
-become more numerous. Varieties will fall under
-these two classes—those which will never rival, and
-those which will eventually outnumber, the parent
-species. If, then, some alteration in conditions
-occurred making existence more difficult to a certain
-species, first the less favourable variety would suffer
-and become extinct, then the parent species, while
-the superior variety would alone remain, “and on a
-return to favourable circumstances would rapidly
-increase in numbers and occupy the place of the
-extinct species and variety.”</p>
-
-<p>The superior <em>variety</em> would thus replace the
-<em>species</em>, to which it <em>could not</em> return, for the latter
-could never compete with the former. Hence a
-tendency to revert would be checked. But the
-superior variety, when established, would in time give
-rise to new varieties, some of which would become
-predominant. Hence <em>progression and continued
-divergence</em> would follow, but not invariably, for the
-criteria of success or failure would vary, and would
-sometimes render a race which was under other
-conditions the most favoured now the least so.
-Variations without any effect on the life-preserving
-powers might also occur. But it is contended that
-certain varieties must, on the average, tend to persist<span class="pagenum" id="Page_75">75</span>
-longer than the parent species, while the scale on
-which nature works is so vast that an average
-tendency must in the end attain its full result.</p>
-
-<p>Comparing domestic with wild animals, the very
-existence of the latter depends upon their senses and
-physical powers. Not so with the former, which are
-defended and fed by man.</p>
-
-<p>Any favourable variety of a domestic animal is
-utterly useless to itself; while any increase of the
-powers and faculties of wild animals is immediately
-available, creating, as it were, a new and superior
-animal.</p>
-
-<p>Again, with domestic animals all variations have
-an equal chance, and those which would be extremely
-injurious in a wild state are, under the artificial
-conditions, no disadvantage. Our domestic breeds
-could never have come into existence in a wild state,
-and if turned wild “<em>must</em> return to something near
-the type of the original wild stock, <em>or become
-altogether extinct</em>.”<a id="FNanchor_5" href="#Footnote_5" class="fnanchor">E</a></p>
-
-<p>Hence we cannot argue from domestic to wild
-animals, the conditions of life in the two being
-completely opposed.</p>
-
-<p>Lamarck’s hypothesis of change produced by the
-attempts of animals to increase the development of<span class="pagenum" id="Page_76">76</span>
-their own organs has been often refuted, but the view
-here proposed depends upon the action of principles
-constantly working in nature. Retractile talons of
-falcons and cats have not been developed by volition,
-but by <em>the survival of those which had the greatest
-facilities for seizing prey</em>. The long neck of the
-giraffe was not produced by constant stretching, but
-by the success which any increase in the length of
-neck ensured to its possessors. Even colours, especially
-of insects, are explained in the same way, for
-among the varieties of many tints, those “having
-colours best adapted to concealment ... would inevitably
-survive the longest.” We can similarly
-explain deficiency of some organs with compensating
-development of others, “great velocity making up for
-the absence of defensive weapons,” etc. Varieties
-with an unbalanced deficiency could not long survive.
-The action of the principle is like the governor of a
-steam-engine, checking irregularities almost before
-they become evident. Such a view accords well with
-“the many lines of divergence from a central type”;
-the increasing efficiency of a particular organ in a
-series of allied species; the persistence of unimportant
-parts when important ones have changed; the “more
-specialised structure,” said by Owen to be characteristic
-of recent as compared with extinct forms.</p>
-
-<p>Hence there is a tendency of certain classes of
-<em>varieties</em> to progress further and further from the
-original type, and there is no reason for assigning any
-limit to this progression. Such gradual changes<span class="pagenum" id="Page_77">77</span>
-“may, it is believed, be followed out so as to agree
-with all the phenomena presented by organised
-beings, their extinction and succession in past ages,
-and all the extraordinary modifications of form,
-instinct, and habits which they exhibit.”</p>
-
-<p>Wallace’s Essay has been reprinted without
-any alteration in his “Essays on Natural Selection,”
-recently re-issued combined with “Tropical Nature.”</p>
-
-<hr />
-
-<div id="toclink_78" class="chapter">
-<p><span class="pagenum" id="Page_78">78</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XI">CHAPTER XI.<br />
-
-<span class="subhead">COMPARISON OF DARWIN’S AND WALLACE’S SECTIONS
-OF THE JOINT MEMOIR—RECEPTION OF THEIR
-VIEWS—THEIR FRIENDSHIP.</span></h2>
-</div>
-
-<div class="sidenote">WALLACE AND DARWIN.</div>
-
-<p>Comparing the essays of these two naturalists, we
-observe that Darwin here first makes public the
-phrase “natural selection,” Wallace the “struggle for
-existence”; although so closely do their lines of
-thought converge that Darwin, using practically the
-same words, speaks of the “struggle for life.” Both
-show, by examples, the tendency of all animals to
-multiply at an enormous rate, and both show that
-their tolerably constant numbers are due to the
-constant supply of food.</p>
-
-<p>Both treat of domesticated animals, but in very
-different ways. Darwin uses them as the practical
-illustration of selection, and argues that if man by
-selection can make such forms, Nature can make her
-species by the same means. Wallace disposes of the
-argument that the reversion of domesticated varieties
-to the wild form is a proof of the permanent distinctness
-of species, by showing in some detail that the
-former are “abnormal, irregular, artificial.”</p>
-
-<p>Neither of them draws any distinction between
-instinct and other qualities, but assumes that the<span class="pagenum" id="Page_79">79</span>
-former is, like the latter, operated upon by natural
-selection.</p>
-
-<p>Wallace makes a special point of protective
-resemblances in the colours of insects, etc.</p>
-
-<p>The important principle of “divergence of character,”
-and the relatively unimportant one of “sexual
-selection,” are both clearly explained by Darwin.</p>
-
-<p>Neither writer speaks of the direct effect of
-external conditions—except as a cause of plasticity
-by Darwin—or the inherited effects of use and disuse.
-Lamarck is mentioned only to be dismissed by
-Wallace. The evolution of the giraffe’s long neck is
-explained by Wallace on the principle of natural
-selection, which is contrasted with Lamarck’s original
-explanation of the same character. This contrast,
-which has been so often drawn, was therefore
-originally contained in the first public statement of
-natural selection.</p>
-
-<p>As has been indicated above, Darwin suggested a
-cause of variation in the direct effect of changed
-external conditions on the reproductive system.</p>
-
-<p>In comparing the two essays it is not unnatural
-to conclude, as Professor Osborn has done (“From
-the Greeks to Darwin,” 1894, p. 245), that the two
-writers held different views upon the material
-utilised by natural selection in the production of
-new species, Darwin relying upon the usual slight
-differences which separate individuals and upon
-variations in single characters, Wallace upon fully
-formed varieties—viz. individuals which departed<span class="pagenum" id="Page_80">80</span>
-conspicuously from the type of the species, and
-which may exist singly or in considerable numbers
-side by side with the parent form.</p>
-
-<p>Professor Osborn’s actual words are as <span class="locked">follows:—</span></p>
-
-<div class="blockquot">
-
-<p>“Darwin dwells upon <em>variations in single characters</em>, as
-taken hold of by Selection; Wallace mentions variations, but
-dwells upon <em>full-formed varieties</em>, as favourably or unfavourably
-adapted. It is perfectly clear that with Darwin the
-struggle is so intense that the chance of survival of each
-individual turns upon a single and even slight variation.
-With Wallace, varieties are already presupposed by causes
-which he does not discuss, a change in the environment occurs,
-and those varieties which happen to be adapted to it survive.
-There is really a wide gap between these two statements and
-applications of the theory.”</p>
-</div>
-
-<p>Further consideration tends to obliterate this
-supposed distinction. Although Wallace used the
-term “variety” as contrasted with “species,” the
-whole context proves that he, equally with Darwin,
-recognised the importance of individual variations
-and of variations in single characters. This becomes
-clear when we remember his argument about the
-neck of the giraffe, the changes of colour and hairiness,
-the shorter legs of the antelope, and the less
-powerful wings of the passenger pigeon. Wallace
-has kindly written to me (May 12th, 1896) stating
-the case as I have given it, and he further <span class="locked">explains—</span></p>
-
-<div class="blockquot">
-
-<p>“I used the term ‘varieties’ because ‘varieties’ were alone
-recognised at that time, individ<sup>l</sup> variability being ignored
-or thought of <em>no importance</em>. My ‘varieties’ therefore included
-‘individual variations.’”</p>
-</div>
-
-<p><span class="pagenum" id="Page_81">81</span></p>
-
-<p>On the other hand, Darwin certainly included
-large single variations (in other words, “varieties”) as
-well as ordinary individual differences, among the
-material for natural selection, and he did not abandon
-the former until he was convinced by the powerful
-reasoning of Fleeming Jenkin (<i>North British Review</i>,
-June, 1867), who argued that single large differences
-of a sudden and conspicuous kind (Darwin’s “variations”)
-would certainly be swamped by intercrossing.
-Upon this review of the “Origin” Francis Darwin
-says (“Life and <span class="locked">Letters”)—</span></p>
-
-<div class="blockquot">
-
-<p>“It is not a little remarkable that the criticisms which my
-father, as I believe, felt to be the most valuable ever made on
-his views should have come, not from a professed naturalist
-but from a Professor of Engineering.”</p>
-</div>
-
-<p>After reading this review, Darwin wrote to
-Wallace (January 22nd, <span class="locked">1869):—</span></p>
-
-<div class="blockquot">
-
-<p>“I always thought individual differences more important
-than single variations, but now I have come to the conclusion
-that they are of paramount importance, and in this I believe
-I agree with you. Fleeming Jenkin’s arguments have convinced
-me.”</p>
-</div>
-
-<p>The ambiguity of this sentence evidently misled
-Wallace into believing that the single variations were
-considered of paramount importance. Darwin therefore
-wrote again (February <span class="locked">2nd):—</span></p>
-
-<div class="blockquot">
-
-<p>“I must have expressed myself atrociously; I meant to say
-exactly the reverse of what you have understood. F. Jenkin
-argued in the ‘North British Review’ (June 1867) against<span class="pagenum" id="Page_82">82</span>
-single variations ever being perpetuated, and has convinced me,
-though not in quite so broad a manner as here put. I always
-thought individual differences more important; but I was
-blind and thought single variations might be preserved much
-oftener than I now see is possible or probable. I mentioned
-this in my former note merely because I believed that you
-had come to a similar conclusion, and I like much to be in
-accord with you. I believe I was mainly deceived by single
-variations offering such simple illustrations, as when man
-selects.”</p>
-</div>
-
-<p>From these two letters to Wallace we see that the
-latter was the first to give up the larger variations in
-favour of ordinary individual differences.</p>
-
-<p>Darwin also wrote to Victor Carus on May 4th,
-<span class="locked">1869:—</span></p>
-
-<div class="blockquot">
-
-<p>“I have been led to ... infer that single variations
-are even of less importance, in comparison with individual
-differences, than I formerly thought.”</p>
-</div>
-
-<p>There has been much misconception on this
-point, and a theory of evolution by the selection of
-large single variations—a view held by many, but
-not by Darwin—has been passed off as the Darwinian
-theory of natural selection. It is surprising that
-this old mistake should have been repeated at so
-recent a date, and on so important an occasion as
-the Presidential Address to the British Association
-at Oxford on August 8th, 1894, and that so ill-aimed
-a criticism should have been quoted with approval
-in a leading article in the <i>Times</i> of the following
-day. The following extracts from Lord Salisbury’s
-address unfortunately leave no doubt on the matter:</p>
-
-<p><span class="pagenum" id="Page_83">83</span></p>
-
-<div class="sidenote">LORD SALISBURY’S CRITICISM.</div>
-
-<div class="blockquot">
-
-<p>“What is to secure that the two individuals of opposite sexes
-in the primeval forest, who have been both accidentally blessed
-with the same advantageous variation shall meet, and transmit
-by inheritance that variation to their successors?... The biologists
-do well to ask for an immeasurable expanse of time, if
-the occasional meetings of advantageously varied couples from
-age to age are to provide the pedigree of modifications which
-unite us to our ancestor the jelly-fish.... There would be
-nothing but mere chance to secure that the advantageously
-varied bridegroom at one end of the wood should meet the
-bride, who by a happy contingency had been advantageously
-varied in the same direction at the same time at the other end
-of the wood. It would be a mere chance if they ever knew of
-each other’s existence—a still more unlikely chance that they
-should resist on both sides all temptations to a less advantageous
-alliance. But unless they did so, the new breed would
-never even begin, let alone the question of its perpetuation
-after it had begun.”</p>
-</div>
-
-<p>It is of interest to reproduce Lord Salisbury’s
-words in close proximity to Darwin’s real statements
-on the subject, as shown in the letters to
-his friends—statements which are also expressed in
-many places in his published works.</p>
-
-<p>The joint paper was read before the Linnean
-Society on July 1st, 1858, about a fortnight
-after Wallace’s essay had been received by Darwin.
-There was no discussion, but the interest and
-excitement at the meeting were very great,
-owing in large part to the influential support with
-which the new theory came before the scientific
-world. Darwin appreciated the importance of this
-support at its true value, for he wrote to Hooker,
-July <span class="locked">5th:—</span></p>
-
-<p><span class="pagenum" id="Page_84">84</span></p>
-
-<div class="blockquot">
-
-<p>“You must know that I look at it, as very important, for
-the reception of the view of species not being immutable, the
-fact of the greatest Geologist and Botanist in England taking
-<em>any sort of interest</em> in the subject: I am sure it will do much
-to break down prejudices.”</p>
-</div>
-
-<p>In the following January Darwin received a letter
-from Wallace, and his reply (on the 25th) shows how
-much relieved and pleased he was at its generous
-spirit. Alluding to Lyell’s and Hooker’s action in his
-“Autobiography” Darwin says:—“I was at first very
-unwilling to consent, as I thought Mr. Wallace
-might consider my doing so unjustifiable, for I did
-not then know how generous and noble was his
-disposition.” It was this letter which conveyed the
-knowledge to him and set his mind at rest on the
-subject.</p>
-
-<p>Thus ended one of the most interesting and
-memorable episodes in the history of science. It was
-sufficiently remarkable that two naturalists in widely-separated
-lands should have independently arrived
-at the theory which was to be the turning-point in
-the history of biology and of many other sciences—although
-such simultaneous discoveries have been
-known before; it was still more remarkable that one
-of the two should unknowingly have chosen the
-other to advise him upon the theory which was to
-be for ever associated with both their names. It
-was a magnificent answer to those who believed that
-the progress of scientific discovery implies continual
-jealousy and bitterness, that the conditions attending<span class="pagenum" id="Page_85">85</span>
-the first publication of the theory of natural selection
-were the beginning of a life-long friendship and of
-mutual confidence and esteem.<a id="FNanchor_6" href="#Footnote_6" class="fnanchor">F</a></p>
-
-<div class="sidenote">FRIENDSHIP WITH WALLACE.</div>
-
-<p>It is justifiable to speak of this episode as the
-<em>beginning</em> of Darwin’s and Wallace’s friendship, for
-the latter writes (February, <span class="locked">1895):—</span></p>
-
-<div class="blockquot">
-
-<p>“I had met him <em>once</em> only for a few minutes at the Brit.
-Mus. before I went to the East.”</p>
-</div>
-
-<p>Later on Darwin, in his letters to Wallace, more
-than once alluded to the simultaneous publication of
-their essays. Thus he wrote, April 18th, 1869, congratulating
-Wallace on his article in the <cite>Quarterly
-Review</cite> for that <span class="locked">month:—</span></p>
-
-<div class="blockquot">
-
-<p>“I was also much pleased at your discussing the difference
-between our views and Lamarck’s. One sometimes sees the
-odious expression, ‘Justice to myself compels me to say,’ &amp;c.,
-but you are the only man I ever heard of who persistently
-does himself an injustice, and never demands justice. Indeed,
-you ought in the review to have alluded to your paper in the
-‘Linnean Journal,’ and I feel sure all our friends will agree
-in this. But you cannot ‘Burke’ yourself however much you
-may try, as may be seen in half the articles which appear.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_86">86</span></p>
-
-<p>And again, on April 20th of the following year,
-he <span class="locked">wrote:—</span></p>
-
-<div class="blockquot">
-
-<p>“I hope it is a satisfaction to you to reflect—and very few
-things in my life have been more satisfactory to me—that we
-have never felt any jealousy towards each other, though in
-one sense rivals. I believe that I can say this of myself with
-truth, and I am absolutely sure that it is true of you.”</p>
-</div>
-
-<hr />
-
-<div id="toclink_87" class="chapter">
-<p><span class="pagenum" id="Page_87">87</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XII">CHAPTER XII.<br />
-
-<span class="subhead">THE GROWTH OF WALLACE’S CONVICTIONS ON EVOLUTION
-AND DISCOVERY OF NATURAL SELECTION—BORNEO
-1855—TERNATE 1858.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">We</span> have already seen in the earlier part of this
-volume, the gradual development of the theory of
-Natural Selection in the mind of Darwin, and the long
-succession of experiments and observations which he
-undertook before he could bring himself to publish anything
-upon the subject, as well as the conditions which
-forced him to a hurried publication in the end. It
-is of the deepest interest to compare with this the
-account which Wallace has given us of the mental
-process by which he arrived at the same conclusions.</p>
-
-<p>This deeply interesting personal history has only
-been known during the last few years; in 1891 Wallace
-republished his “Essays on Natural Selection” in
-one volume, combined with “Tropical Nature,” and
-he has added (on pp. 20, 21) the following introductory
-note to Chapter II., viz. the reprint of his Linnean
-Society Memoir “On the Tendencies of Varieties to
-depart indefinitely from the Original Type.” The
-note is here reprinted in <span class="locked">full:—</span></p>
-
-<div class="blockquot">
-
-<p>“As this chapter sets forth the main features of a theory
-identical with that discovered by Mr. Darwin many years<span class="pagenum" id="Page_88">88</span>
-before but not then published, and as it has thus an
-historical interest, a few words of personal statement may
-be permissible. After writing the preceding paper [“On
-the Law which has Regulated the Introduction of New
-Species”] the question of <em>how</em> changes of species could have
-been brought about was rarely out of my mind, but no
-satisfactory conclusion was reached till February 1858. At
-that time I was suffering from a rather severe attack of
-intermittent fever at Ternate in the Moluccas, and one day,
-while lying on my bed during the cold fit, wrapped in
-blankets, though the thermometer was at 88° Fahr., the
-problem again presented itself to me, and something led me to
-think of the ‘positive checks’ described by Malthus in his
-‘Essay on Population,’ a work I had read several years
-before, and which had made a deep and permanent impression
-on my mind. These checks—war, disease, famine and the like—must,
-it occurred to me, act on animals as well as man. Then
-I thought of the enormously rapid multiplication of animals,
-causing these checks to be much more effective in them than
-in the case of man; and while pondering vaguely on this fact
-there suddenly flashed upon me the <em>idea</em> of the survival of the
-fittest—that the individuals removed by these checks must be
-on the whole inferior to those that survived. In the two hours
-that elapsed before my ague fit was over I had thought out
-almost the whole of the theory, and the same evening I
-sketched the draft of my paper, and in the two succeeding
-evenings wrote it out in full, and sent it by the next post to
-Mr. Darwin. Up to this time the only letters I had received
-from him were those printed in the second volume of his
-<i>Life and Letters</i> (vol. ii., pp. 95 and 108), in which he speaks
-of its being the twentieth year since he ‘opened his first
-note-book on the question how and what way do species and
-varieties differ from each other,’ and after referring to oceanic
-islands, the means of distribution of land-shells, &amp;c., added:
-‘My work, on which I have now been at work more or less for
-twenty years, <em>will not fix or settle anything</em>; but I hope it
-will aid by giving a large collection of facts, with one definite
-end.’ The words I have italicised, and the whole tone of his
-letters, led me to conclude that he had arrived at no definite
-view as to the origin of species, and I fully anticipated that<span class="pagenum" id="Page_89">89</span>
-my theory would be new to him, because it seemed to me to
-settle a great deal. The immediate result of my paper was
-that Darwin was induced at once to prepare for publication his
-book on the <i>Origin of Species</i> in the condensed form in which
-it appeared, instead of waiting an indefinite number of years to
-complete a work on a much larger scale which he had partly
-written, but which in all probability would not have carried
-conviction to so many persons in so short a time. I feel much
-satisfaction in having thus aided in bringing about the publication
-of this celebrated book, and with the ample recognition
-by Darwin himself of my independent discovery of ‘natural
-selection.’ (See <i>Origin of Species</i>, 6th ed., introduction,
-p. 1, and Life and Letters, vol. ii, chap. iv., pp. 115–129
-and 145).”</p>
-</div>
-
-<div class="sidenote">ORIGIN OF WALLACE’S ESSAY.</div>
-
-<p>A very similar account, differing in a few unimportant
-details from that quoted above, was written
-December 3rd, 1887, by Wallace to Professor Newton,
-and is published in the abridged “Life and Letters of
-Charles Darwin” (1892; pp. 189, 190). At the conclusion
-Wallace <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“... I <em>had</em> the idea of working it out, so far as I was
-able, when I returned home, not at all expecting that Darwin
-had so long anticipated me. I can truly say <em>now</em>, as I said
-many years ago, that I am glad it was so; for I have not the
-love of <em>work</em>, <em>experiment</em> and <em>detail</em> that was so pre-eminent in
-Darwin, and without which anything I could have written
-would never have convinced the world.”</p>
-</div>
-
-<p>It is of great interest to learn that Wallace as well
-as Darwin was directed to natural selection by Malthus’
-Essay. Hence, as the late Professor Milnes Marshall
-has pointed out (Lectures on the Darwinian Theory,
-pp. 212, 213), the laws of the multiplication and
-extinction of man suggested to both naturalists<span class="pagenum" id="Page_90">90</span>
-those more general laws by which it was possible to
-understand the development of the whole animal and
-vegetable worlds.</p>
-
-<p>There is a tremendous contrast between these two
-discoverers, in the speed with which they respectively
-developed their ideas on the subject into a shape
-which satisfied them as suitable for publication.
-Wallace, after the inspiration which followed his
-reflections upon Malthus, had “thought out almost
-the whole of the theory” in two hours, and in three
-evenings had completed his essay. Darwin, receiving
-the same inspiration from the same source, in October
-1838, wrote a brief account of it after four years’
-reflection and work, and finished a longer account two
-years later, but was not prepared to give anything to
-the public until he was compelled to do so fourteen
-years later in 1858. All this delay was of the greatest
-advantage when a full exposition of the theory finally
-came before the world in the “Origin of Species”; for
-all difficulties had been fully considered and answered
-beforehand, while the wealth of new facts by which it
-was supported compelled a respectful hearing for the
-theory itself.</p>
-
-<div class="sidenote">WALLACE’S VIEWS.</div>
-
-<p>Wallace, like Darwin, was convinced of evolution
-before he discovered any principle which supplied a
-motive cause for the process. This conviction is
-expressed very clearly in his interesting essay already
-alluded to “On the Law which has regulated the
-Introduction of New Species” (Ann. and Mag., Nat.
-Hist., 1855, p. 184; reprinted without alteration in his<span class="pagenum" id="Page_91">91</span>
-Essays on Natural Selection). The law he states in
-these <span class="locked">words:—</span></p>
-
-<div class="blockquot">
-
-<p>“Every species has come into existence coincident both in
-time and space with a pre-existing closely allied species,”</p>
-</div>
-
-<p class="in0">a law which, as he justly claims for it,</p>
-
-<div class="blockquot">
-
-<p class="in0">“connects together and renders intelligible a vast number of
-independent and hitherto unexplained facts. The natural
-system of arrangement of organic beings, their geographical
-distribution, their geological sequence, the phenomena of
-representative and substituted groups in all their modifications,
-and the most singular peculiarities of anatomical
-structure, are all explained and illustrated by it, in perfect
-accordance with the vast mass of facts which the researches
-of modern naturalists have brought together, and, it is
-believed, not materially opposed to any of them. It also
-claims a superiority over previous hypotheses, on the ground
-that it not merely explains, but necessitates what exists.
-Granted the law, and many of the most important facts in
-Nature could not have been otherwise, but are almost as
-necessary deductions from it, as are the elliptic orbits of the
-planets from the law of gravitation.”</p>
-</div>
-
-<p>This important essay is dated by Wallace from
-Sarawak, Borneo, February, 1855.</p>
-
-<p>The conclusions remind us of the words Darwin
-wrote in his note-book in 1837. “Led to comprehend
-true affinities. My theory would give zest to recent
-and Fossil comparative Anatomy.” By his theory
-Darwin here means evolution and not natural selection,
-which was not discovered by him until the end
-of 1838.</p>
-
-<hr />
-
-<div id="toclink_92" class="chapter">
-<p><span class="pagenum" id="Page_92">92</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XIII">CHAPTER XIII.<br />
-
-<span class="subhead">CANON TRISTRAM THE FIRST PUBLICLY TO ACCEPT THE
-THEORY OF NATURAL SELECTION (1859).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Although</span> the historic meeting at the Linnean
-Society appeared to produce but little effect, one
-distinguished naturalist publicly accepted the theory
-of natural selection before the publication of “The
-Origin of Species,” and therefore as the direct result
-of Darwin’s and Wallace’s joint paper. This great
-distinction belongs to Canon Tristram, as Professor
-Newton has pointed out in his Presidential Address
-to the Biological Section of the British Association at
-Manchester in 1887 (“Reports,” p. 727), at the same
-time expressing the hope “that thereby the study of
-Ornithology may be said to have been lifted above
-its fellows.”</p>
-
-<div class="sidenote">CANON TRISTRAM’S SUPPORT.</div>
-
-<p>Canon Tristram’s paper, “On the Ornithology of
-Northern Africa” (Part iii., The Sahara, continued),
-was published in <i>The Ibis</i>, vol. i., October, 1859. The
-important conclusions alluded to above are contained
-at the end of the section upon the species of desert
-larks (pp. 429–433):</p>
-
-<div class="blockquot">
-
-<p>“Writing with a series of about 100 larks of various species
-from the Sahara before me, I cannot help feeling convinced
-of the truth of the views set forth by Messrs. Darwin and
-Wallace in their communications to the Linnean Society, to
-which my friend Mr. A. Newton last year directed my attention....
-It is hardly possible, I should think, to illustrate
-this theory better than by the larks and chats of North Africa.<span class="pagenum" id="Page_93">93</span>
-In all these birds we trace gradual modifications of coloration
-and of anatomical structure, deflecting by very gentle gradations
-from the ordinary type; but when we take the extremes,
-presenting most marked differences.”</p>
-</div>
-
-<p>These differences, he <span class="locked">concludes—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“have a very direct bearing on the ease or difficulty with
-which the animal contrives to maintain its existence.”</p>
-</div>
-
-<p>He then points out, upon the uniform surface of
-the desert it is absolutely necessary that animals shall
-be protected by their colour:</p>
-
-<div class="blockquot">
-
-<p>“Hence, without exception, the upper plumage of every
-bird, whether Lark, Chat, Sylvian, or Sandgrouse, and also the
-fur of all the small mammals, and the skin of all the Snakes
-and Lizards, is of one uniform isabelline or sand colour. It is
-very possible that some further purpose may be served by
-the prevailing colours, but this appears of itself a sufficient
-explanation. There are individual varieties in depth of hue
-among all creatures. In the struggle for life which we know
-to be going on among all species, a very slight change for the
-better, such as improved means of escaping from its natural
-enemies (which would be the effect of an alteration from a
-conspicuous colour to one resembling the hue of the surrounding
-objects), would give the variety that possessed it a decided
-advantage over the typical or other forms of the species.
-Now in all creatures, from Man downwards, we find a
-tendency to transmit individual varieties or peculiarities to
-the descendants. A peculiarity either of colour or form soon
-becomes hereditary when there are no counteracting causes,
-either from change of climate or admixture of other blood.
-Suppose this transmitted peculiarity to continue for some
-generations, especially when manifest advantages arise from
-its possession, and the variety becomes not only a race, with its
-variations still more strongly imprinted upon it, but it becomes
-the typical form of that country.”</p>
-</div>
-
-<p>Canon Tristram then points out the manner in
-which he imagines that one of the crested larks of<span class="pagenum" id="Page_94">94</span>
-the desert has been produced by the survival of
-the lightest coloured individuals, <i>Galerida abyssinica</i>
-only differing in this respect from <i>G. cristata</i> of
-Europe. Short-billed species of the same genus
-inhabiting hard rocky districts, and long-billed
-inhabiting loose sandy tracts have, he believes, been
-produced by the survival in each case of the forms of
-bill most suited to procure food:</p>
-
-<div class="blockquot">
-
-<p>“Here are only two causes enumerated which might serve
-to <em>create</em> as it were a new species from an old one, yet they
-are perfectly natural causes, and such as, I think, must have
-occurred, and are possibly occurring still. We know so very
-little of the causes which in the majority of cases make species
-rare or common, that there may be hundreds of others at
-work, some even more powerful than these, which go to
-perpetuate and eliminate certain forms ‘according to natural
-means of selection.’ But even these superficial causes appear
-sufficient to explain the marked features of the Desert races,
-which frequently approach so very closely the typical form,
-and yet possess such invariably distinctive characteristics, that
-naturalists seem agreed to elevate them to the rank of
-species.”</p>
-</div>
-
-<p>Although the author also declares his belief in the
-special creation of many species—a view put forward
-as possible by Darwin in the “Origin”<a id="FNanchor_7" href="#Footnote_7" class="fnanchor">G</a>—and also
-believed in some direct influence of locality, climate,
-etc., the above quoted passages are a most complete
-acceptance of natural selection, at the same time
-affording excellent examples of its operation.</p>
-
-<hr />
-
-<div id="toclink_95" class="chapter">
-<p><span class="pagenum" id="Page_95">95</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XIV">CHAPTER XIV.<br />
-
-<span class="subhead">THE PREPARATION OF “THE ORIGIN OF SPECIES”
-(1858–59).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Almost</span> immediately after the Linnean Society meeting,
-and evidently earlier than September, the time
-mentioned in his “Autobiography,” Darwin began
-to prepare a longer and more complete account of
-his work on evolution and natural selection. This
-account was at first intended for the Linnean Society,
-but it was soon found to be too long, and he then
-decided to publish it as an independent volume. In
-thus preparing the manuscript for what afterwards
-became the “Origin of Species,” Darwin tells us
-(“Autobiography”) he acted under “the strong
-advice of Lyell and Hooker,” and his letters also
-show the great interest that they were taking in
-the work.</p>
-
-<p>Darwin seems to have found the “Origin”—or his
-“Abstract,” as he always calls it—very hard work,
-and he ends his letter to Wallace (January 25th,
-1859) with the words:</p>
-
-<div class="blockquot">
-
-<p>“I look at my own career as nearly run out. If I can
-publish my Abstract and perhaps my greater work on the
-same subject, I shall look at my course as done.”</p>
-</div>
-
-<p class="in0">At the same time, so great was his enthusiasm and
-interest, in spite of the hard work and ill-health, that<span class="pagenum" id="Page_96">96</span>
-all through this period he was making fresh observations
-whenever an opportunity occurred. Thus we
-find him writing to Hooker about the thistle-down
-blown out to sea and then back to shore again; about
-the migrations of slave-making ants which he had
-been watching; about the bending of the pistil into
-the line of the gangway leading to the honey when
-this latter “is secreted at one point of the circle of
-the corolla,” etc. And on March 2nd, 1859, he writes
-about “an odd, though very little, fact”:—Large nuts
-had been found in the crops of some nestling Petrels
-at St. Kilda, which he suspected the parent birds had
-picked up from the Gulf Stream. He arranged for
-one of these to be sent, and asked Hooker for the
-name and country. He asks forgiveness for the
-trouble, “for it is a funny little fact after my own
-heart.” The nuts turned out to be West Indian.</p>
-
-<p>When the proposal for publication had been accepted
-by Murray and the manuscript was assuming its
-final form, the letters to Hooker were more frequent
-than ever. Writing on May 11th, 1859, Darwin again
-raises the question of the relative importance of variation
-and selection.</p>
-
-<div class="blockquot">
-
-<p>“I imagine from some expressions ... that you look at
-variability as some necessary contingency with organisms,
-and further that there is some necessary tendency in the
-variability to go on diverging in character or degree. <em>If you
-do</em>, I do not agree.”</p>
-</div>
-
-<p>Darwin’s splendid confidence in the future appears
-in a letter written about this time (September 2, 1859)<span class="pagenum" id="Page_97">97</span>
-in which he begs Lyell not to commit himself “to go
-a certain length and no further; for,” he says, “I am
-deeply convinced that it is absolutely necessary to
-go the whole vast length, or stick to the creation of
-each separate species.” He asks Lyell to remember
-that his verdict will probably be of more importance
-than the book itself in influencing the present acceptance
-or rejection of the views. “In the future,” he
-continues, “I cannot doubt about their admittance,
-and our posterity will marvel as much about the current
-belief as we do about fossil shells having been
-thought to have been created as we now see them.”
-And again writing to Lyell a few days later (September
-20th), he says, “I cannot too strongly express my
-conviction of the general truth of my doctrines, and
-God knows I have never shirked a difficulty.”</p>
-
-<p>I have thought it well to bring strong evidence of
-Darwin’s entire confidence in his conclusions, because
-his writings were so extraordinarily balanced and
-judicial, and the weight he gives to opposing considerations
-so great, that a superficial student might
-imagine that he wrote and argued without any very
-strong convictions.</p>
-
-<p>The letters to Mr. John Murray, the publisher, are
-eminently characteristic, in the expressions of regret
-for trouble given, and of pleasure at the work done, in
-the scrupulous care to prevent the publisher from feeling
-committed, if on further acquaintance with the
-manuscript he did not wish to accept it, and in the
-offer to contribute towards the cost of corrections.</p>
-
-<p><span class="pagenum" id="Page_98">98</span></p>
-
-<div class="sidenote">THE “ORIGIN” PUBLISHED.</div>
-
-<p>The first edition of “The Origin of Species” was
-published November 24th, 1859. The edition consisted
-of 1,250 copies, all of which were sold on the
-day of issue.</p>
-
-<p>The full title of this volume, of which Darwin justly
-says (“Autobiography”), “It is no doubt the chief
-work of my life,” is reproduced below.</p>
-
-<p class="newpage p4 vspace3 wspace center">
-ON<br />
-
-<span class="xxlarge">THE ORIGIN OF SPECIES</span><br />
-
-BY MEANS OF NATURAL SELECTION,<br />
-
-<span class="small">OR THE</span><br />
-
-PRESERVATION OF FAVOURED RACES IN THE STRUGGLE<br />
-FOR LIFE.<br />
-
-<span class="smcap">By</span> CHARLES DARWIN, M.A.,</p>
-
-<p class="p1 xsmall vspace3 wspace center">FELLOW OF THE ROYAL, GEOLOGICAL, LINNEAN, ETC., SOCIETIES;<br />
-AUTHOR OF “JOURNAL OF RESEARCHES DURING H.M.S. ‘BEAGLE’S’ VOYAGE<br />
-ROUND THE WORLD.”
-</p>
-
-<p><span class="pagenum" id="Page_99">99</span></p>
-
-<p class="p2">This title is of interest, as has been pointed out by
-Professor E. Ray Lankester, in relation to the controversy
-upon the exact meaning of the word
-“Darwinism.” Some writers have argued that the
-term “Darwinism” includes the whole of the causes of
-evolution accepted by Darwin—the supposed inherited
-effects of use and disuse and the direct influence of
-environment, which find a subordinate place in the
-“Origin,” as well as natural selection, which is the real
-subject of the book and which is fully defined in the
-title. It would seem appropriate to use the term
-“Darwinism,” as Wallace uses it, to indicate the causes
-of evolution which were suggested by Darwin himself,
-excluding these supposed causes which had been
-previously brought forward by earlier writers, and
-especially by Lamarck. The causes of evolution proposed
-by Lamarck are seriously disputed, and it is
-possible that they may be ultimately abandoned. If
-so, the integrity of “Darwinism,” as interpreted by
-some controversialists, would be impaired; and this,
-it will be generally admitted, would be most unfortunate,
-as well as most unfair to the memory of Darwin.</p>
-
-<hr />
-
-<div id="toclink_100" class="chapter">
-<p><span class="pagenum" id="Page_100">100</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XV">CHAPTER XV.<br />
-
-<span class="subhead">THE ORIGIN OF SPECIES (1859).</span></h2>
-</div>
-
-<div class="sidenote">THE ORIGIN OF SPECIES.</div>
-
-<p>It is very interesting to separate the two arguments
-which occur interwoven in the “Origin”—the argument
-for evolution and the argument for natural
-selection. The paramount importance of Darwin’s
-contributions to the evidences of organic evolution
-are often forgotten in the brilliant theory which
-he believed to supply the motive cause of descent
-with modification. Organic evolution had been
-held to be true by certain thinkers during many
-centuries; but not only were its adherents entirely
-without a sufficient motive cause, but their evidences
-of the process itself were erroneous or extremely
-scanty. It was Darwin who first brought together a
-great body of scientific evidence which placed the process
-of evolution beyond dispute, whatever the causes
-of evolution may have been. And accordingly we find
-that, even at first, natural selection was attacked far
-more generally than the doctrine of descent with
-modification.</p>
-
-<p>In Chapter I., Variation under Domestication and
-man’s power of selection in forming breeds of animals
-and plants are discussed; in Chapter II., Variation
-under Nature; in Chapter III., the Struggle for<span class="pagenum" id="Page_101">101</span>
-Existence; in Chapter IV., which Darwin, in writing
-to his publisher, called “the Keystone of my Arch,”
-the three preceding chapters are carried to their conclusion,
-and the operation of natural selection is
-explained and discussed. Hence, these four chapters
-deal almost exclusively with this process.</p>
-
-<p>Chapter V. has for its subject the Laws of Variation,
-and explains causes of modification (external
-conditions, use and disuse, correlation, reversion, etc.)
-other than natural selection and the relation of the
-latter to the former.</p>
-
-<p>In Chapter VI. difficulties are considered—partly
-those in the way of a belief in evolution and partly
-those which, at first sight, seem to be incapable of
-explanation on the theory of natural selection.
-Chapter VII. deals with a special difficulty of the
-latter kind, viz. Instinct, and shows how it can be
-accounted for by natural selection acting upon variation,
-although allowing some weight to the inheritance
-of habit. Chapter VIII. deals with Hybridism, the
-sterility of first crosses and of hybrids being considered
-as an objection to the doctrine of Descent
-with Modification. Chapter IX. treats of the Imperfection
-of the Geological Record as the explanation of
-the apparently insufficient evidence of evolution during
-past ages. Chapter X., on the Geological succession
-of Organic Beings, shows that, allowing for this
-Imperfection of Record, the facts brought to light by
-Geology support a belief in evolution and in some
-cases even in natural selection. Hence these five<span class="pagenum" id="Page_102">102</span>
-chapters deal partly with difficulties in the way of an
-acceptance of organic evolution and partly with those
-encountered by natural selection.</p>
-
-<p>Of the three remaining chapters before the XIVth,
-and last, which contains the Recapitulation and
-Conclusion, two—XI. and XII.—are concerned with
-Geographical distribution, while the XIIIth deals with
-Classification, Morphology, Embryology and Rudimentary
-Organs. These three chapters are almost
-entirely devoted to the proof that the facts of Nature
-with which they deal are not inconsistent with, but
-rather support, and often strongly support, a belief in
-Organic Evolution.</p>
-
-<p>Hence we see that this, incomparably the greatest
-work which the biological sciences have seen, begins
-with an explanation and defence and definition of
-the sphere of natural selection—then passes to consider
-difficulties which are partly those of natural
-selection, and partly of organic evolution—while it
-finally treats of the evidences of the latter process
-and the difficulties which a belief in it encounters.</p>
-
-<p>This arrangement was a very wise one for a book
-which was intended to convince a large circle of
-readers; for the human mind so craves after an
-explanation, that it was of more importance for the
-success of the work to show first that an intelligible
-cause of evolution had been proposed, than to follow
-the more logical order of first setting forth the
-evidences of evolution.</p>
-
-<p>The second edition (fifth thousand) was issued in<span class="pagenum" id="Page_103">103</span>
-January, 1860, the third (seventh thousand) in 1861,
-the fourth (eighth thousand) in 1866, the fifth (tenth
-thousand) in 1869, the sixth in 1872: in 1887 the
-twenty-fourth thousand was reached.</p>
-
-<p>A note to the last edition states that the second
-“was little more than a reprint of the first. The
-third edition was largely corrected and added to, and
-the fourth and fifth still more largely.” The sixth
-edition also contains “numerous small corrections,”
-and is about one-fourth larger than the first edition,
-although this material is, owing to the smaller print
-and more crowded lines, compressed into a smaller
-number of pages. The sixth edition also differs from
-the first in containing a glossary, an historical sketch,
-and a note and list of the chief corrections.</p>
-
-<p>The titles of Chapters I., II., and III. remain the
-same in the first and last editions. Herbert Spencer’s
-phrase is added to Darwin’s term, as the heading of
-Chapter IV., which accordingly becomes in the last
-edition “Natural Selection; or the Survival of the
-Fittest.” This change was certainly introduced in
-order to help readers to grasp the meaning of Darwin’s
-title, which had been very generally misunderstood.
-The heading of Chapter V. remains the same, while
-in Chapter VI.—“Difficulties on Theory”—“on” is
-replaced by “of the.” This chapter is, in the last
-edition, succeeded by a new one dealing with many
-of the difficulties which had been raised or had
-occurred to Darwin in the interval between the two
-editions; it is headed “Miscellaneous Objections to<span class="pagenum" id="Page_104">104</span>
-the Theory of Natural Selection.” The titles of the
-remaining eight chapters are unchanged.</p>
-
-<p>The first part of the title of the first edition—“On
-the Origin of Species”—becomes “The Origin
-of Species” in the last edition, and is still further
-shortened to “Origin of Species” on the outside
-of the volume.</p>
-
-<p>The form of the earlier editions was admirably
-suited for the purpose of attracting, and—so far as was
-possible with so difficult a subject—convincing, a
-large number of readers. When the subject was new
-and strange, the more numerous details of the last
-edition, and the smaller print which became necessary,
-would have acted as a hindrance to the complete
-success of the work. Authors and publishers are
-sometimes apt to forget that the form of a book
-has a great deal to do with the absorption of the
-ideas contained in it, especially when the argument
-is from the nature of the case difficult to follow, and
-the subject a new one. Francis Darwin in the “Life
-and Letters” justly condemns the unattractive form
-of the sixth edition of the work.</p>
-
-<hr />
-
-<div id="toclink_105" class="chapter">
-<p><span class="pagenum" id="Page_105">105</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XVI">CHAPTER XVI.<br />
-
-<span class="subhead">THE INFLUENCE OF DARWIN UPON LYELL (1859–64).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">In</span> considering the reception of the “Origin of
-Species,” it will be well first to show its effect
-upon Darwin’s intimate scientific friends, most
-of whom had been familiar with his work for
-many years, and then to deal with its effects upon
-biologists generally, especially those of Darwin’s own
-country.</p>
-
-<p>The gradual strengthening of Darwin’s influence
-over his old teacher Lyell, is one of the most interesting
-episodes in the personal history of the
-scientific men of this century.</p>
-
-<div class="sidenote">LYELL’S SLOW CONVERSION.</div>
-
-<p>Lyell, after reading the proof-sheets of the
-“Origin,” wrote on October 3rd, 1859, praising the
-work very warmly, and suggesting a few improvements,
-some of which were adopted. Lyell hesitated
-to accept the theory, because he saw clearly that it
-would be impossible to stop short at the human
-species, while a common origin of men and beasts
-was distasteful to him. Thus, he <span class="locked">said:—</span></p>
-
-<div class="blockquot">
-
-<p>“I have long seen most clearly that if any concession is
-made, all that you claim in your concluding pages will follow.
-It is this which has made me so long hesitate, always feeling
-that the case of man and his races, and of other animals, and
-that of plants is one and the same, and that if a ‘vera causa’ be<span class="pagenum" id="Page_106">106</span>
-admitted for one, instead of a purely unknown and imaginary
-one, such as the word ‘Creation,’ all the consequences
-must follow.”</p>
-</div>
-
-<p>To this letter Darwin replied (October 11th) at
-great length, in a most instructive letter, arguing
-in considerable detail on all the points alluded to
-by Lyell. He evidently thought that Lyell’s opinion
-was of the utmost importance for the success of
-Natural Selection. “If ever you are [perverted],” he
-wrote at the end of the letter, “I shall know that
-the theory of Natural Selection is, in the main,
-safe.”</p>
-
-<p>About this time Darwin seems to have heard
-that Lyell had made up his mind to admit the
-doctrine of evolution into a new edition of the
-“Manual,” and he wrote (November <span class="locked">23rd):—</span></p>
-
-<div class="blockquot">
-
-<p>“I honour you most sincerely. To have maintained in the
-position of a master, one side of a question for thirty years,
-and then deliberately give it up, is a fact to which I much
-doubt whether the records of science offer a parallel.”</p>
-</div>
-
-<p class="in0">Lyell’s public confession of faith was, however, not
-to be made for some years, and Darwin’s letter was
-a little premature.</p>
-
-<p>Space will not permit me to quote from the long
-correspondence with Lyell in the years following the
-appearance of the “Origin,” although these letters
-are of the deepest interest, and deal in the most
-luminous manner with the difficulties of natural
-selection and evolution, as they appeared to one of
-the acutest intellects of that time. The letters soon<span class="pagenum" id="Page_107">107</span>
-began to produce an effect, and Darwin wrote
-(September 26th, 1860) to Asa <span class="locked">Gray:—</span></p>
-
-<div class="blockquot">
-
-<p>“I can perceive in my immense correspondence with Lyell,
-who objected to much at first, that he has, perhaps unconsciously
-to himself, converted himself very much during
-the last six months, and I think this is the case even with
-Hooker. This fact gives me far more confidence than any
-other fact.”</p>
-</div>
-
-<p>Later on Darwin evidently became a little annoyed
-that Lyell still delayed to declare his belief one way
-or the other. Thus he wrote to Asa Gray (May 11th,
-<span class="locked">1863):—</span></p>
-
-<div class="blockquot">
-
-<p>“You speak of Lyell as a judge; now what I complain of
-is that he declines to be a judge.... I have sometimes almost
-wished that Lyell had pronounced against me. When I say
-‘me,’ I only mean <em>change of species by descent</em>. That seems to
-me the turning-point. Personally, of course, I care much about
-Natural Selection; but that seems to me utterly unimportant,
-compared to the question of Creation <em>or</em> Modification.”</p>
-</div>
-
-<p>Shortly before this date, on February 24th, he
-wrote to Hooker in much the same style. These
-communications were called forth by the appearance
-of “The Antiquity of Man,” and it is clear that
-Darwin’s disappointment at Lyell’s suspended judgment
-was due to their correspondence, which had
-encouraged him to expect some definite opinion on
-the question. “From all my communications with
-him, I must ever think that he has really entirely
-lost faith in the immortality of species,” he wrote
-in his letter to Hooker. On March 6th he wrote to
-Lyell himself, expressing his disappointment, and<span class="pagenum" id="Page_108">108</span>
-again a few days later, rather complaining that his
-work was treated as a modification of <span class="locked">Lamarck’s:—</span></p>
-
-<div class="blockquot">
-
-<p>“This way of putting the case ... closely connects Wallace’s
-and my views with what I consider, after two deliberate
-readings, as a wretched book, and one from which (I well
-remember my surprise) I gained nothing.”</p>
-</div>
-
-<p>When the second edition of “The Antiquity of
-Man” appeared in a few months, there was a significant
-change in one <span class="locked">sentence:—</span></p>
-
-<div class="blockquot">
-
-<p>“Yet we ought by no means to undervalue the importance
-of the step which will have been made, should it hereafter
-become the generally received opinion of men of science (as I
-fully expect it will) that the past changes of the organic world
-have been brought about by the subordinate agency of such
-causes as Variation and Natural Selection.”</p>
-</div>
-
-<p class="in0">The words in parentheses had been added, and
-constituted Lyell’s first public expression of an
-opinion in favour of Darwin’s views.</p>
-
-<p>About this time an article appeared in the
-<i>Athenæum</i> (March 28th, 1863), attacking the opinions
-in favour of evolution contained in Dr. Carpenter’s
-work on Foraminifera, and supporting spontaneous
-generation. This was one of the rare occasions on
-which Darwin entered into controversy, and he wrote
-attacking spontaneous generation, and pointing out
-the numerous classes of facts which are connected
-by an intelligible thread of reasoning by means of
-his theory. In this letter he quoted the altered
-sentence from the second edition of the “Antiquity.”
-Darwin’s letter was answered in an article (May 2nd)
-in which it was argued that <em>any</em> theory of descent<span class="pagenum" id="Page_109">109</span>
-would connect the various classes of facts equally
-well. To this Darwin replied in a characteristic
-letter. It was evident that he was most reluctant
-to continue the controversy, but thought it fair to
-admit publicly the force of his opponent’s arguments.</p>
-
-<div class="sidenote">ACCESSION OF LYELL.</div>
-
-<p>In 1864 the Copley Medal of the Royal Society
-was given to Darwin. At the anniversary dinner of
-the Society, after the meeting at which the medals
-are presented by the President, Sir Charles Lyell in
-his speech made a “confession of faith” as to the
-“Origin.” Darwin was prevented by illness from
-receiving the medal in person and from being present
-at the dinner.</p>
-
-<p>The tenth edition of the “Principles” was published
-in 1867 and 1868, and in it Lyell clearly stated
-his belief in evolution. Sir Joseph Hooker, in his
-presidential address to the British Association at
-Norwich in 1868, eloquently spoke of the “new
-foundation” with which Lyell had under-pinned
-the edifice he had raised, and had thus rendered it
-“not only more secure, but more harmonious in its
-proportion than it was before.” Wallace, too, in an
-article in the <i>Quarterly Review</i> (April, 1869), spoke
-with equal eloquence and force of the significance
-of Lyell’s change of opinion.</p>
-
-<p>Lyell’s death took place in 1875, eleven years
-after his definite acceptance of Darwin’s views.
-Darwin, in writing to Miss Arabella Buckley (now
-Mrs. Fisher, formerly secretary to Sir Charles Lyell),
-fully acknowledged the deep debt which he owed to<span class="pagenum" id="Page_110">110</span>
-Lyell’s teachings: “I never forget that almost
-everything which I have done in science I owe to
-the study of his great works.” Huxley says in his
-obituary of Charles Darwin (reprinted in “Darwiniana,”
-1893, p. 268): “It is hardly too much
-to say that Darwin’s greatest work is the outcome
-of the unflinching application to Biology of the leading
-idea and the method applied in the ‘Principles’
-to Geology.” Every biologist who realises—as who
-can help realising?—the boundless opportunities
-which Darwin’s work has opened for him, will feel
-that he too owes a deep personal debt to Darwin’s
-great teacher.</p>
-
-<hr />
-
-<div id="toclink_111" class="chapter">
-<p><span class="pagenum" id="Page_111">111</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XVII">CHAPTER XVII.<br />
-
-<span class="subhead">INFLUENCE OF DARWIN UPON HOOKER AND ASA GRAY—NATURAL
-SELECTION AND DESIGN IN NATURE
-(1860–68).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Hooker</span> wrote on November 21st, speaking of the
-“glorious book” in the warmest terms. Later on in
-the year he wrote again in the same spirit, but
-speaking of the difficulty he found in assimilating the
-immense mass of details: “It is the very hardest
-book to read, to full profits, that I ever tried—it is so
-cram-full of matter and reasoning.” Hooker must,
-however, have been familiar with the arguments and
-proofs, and for this reason did not attempt any
-detailed discussion. It is unnecessary to say more of
-Hooker’s reception of the “Origin.” During their
-long friendship Darwin had discussed the difficulties
-and the evidences of his theory more fully with him
-than with any other man; and, as “a man sharpeneth
-the countenance of his friend,” the influence of
-Hooker was one of the most potent forces under
-which Darwin produced the greatest work of his
-life.</p>
-
-<p>Many years later, when Hooker was awarded, in
-1887, the Copley Medal of the Royal Society, reviewing
-his past experiences and work in his speech<span class="pagenum" id="Page_112">112</span>
-at the anniversary dinner, he concluded by telling
-us that his long and intimate friendship with
-Charles Darwin was the great event of his scientific
-career.</p>
-
-<div class="sidenote">ASA GRAY.</div>
-
-<p>In sending a copy to Asa Gray, he wrote
-(November <span class="locked">11th):—</span></p>
-
-<div class="blockquot">
-
-<p>“I fully admit that there are very many difficulties not
-satisfactorily explained by my theory of descent with modification,
-but I cannot possibly believe that a false theory would
-explain so many classes of facts as I think it certainly does
-explain. On these grounds I drop my anchor, and believe
-that the difficulties will slowly disappear.”</p>
-</div>
-
-<p>Asa Gray’s reply was contained in a letter to
-Hooker, written January 5th, 1860, four days after
-reading the “Origin.” He asks that Darwin may be
-told of what he had written. He says that the book
-“is done in a <em>masterly manner</em>. It might well have
-taken twenty years to produce it.” He expressed the
-intention of reviewing the book, and seeing that
-Darwin and Hooker had fair play in America. A
-little later (January 23rd) he wrote to Darwin about
-the American reprint, etc., and spoke of the work
-itself in somewhat greater <span class="locked">detail:—</span></p>
-
-<div class="blockquot">
-
-<p>“The <em>best part</em>, I think, is the <em>whole</em>, <i>i.e.</i> its <em>plan</em> and
-<em>treatment</em>, the vast amount of facts and acute inferences
-handled as if you had a perfect mastery of them.... Then
-your candour is worth everything to your cause. It is refreshing
-to find a person with a new theory who frankly confesses
-that he finds difficulties.... The moment I understood your
-premisses, I felt sure you had a real foundation to hold on....
-I am free to say that I never learnt so much from one book as
-I have from yours.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_113">113</span></p>
-
-<p class="in0">He considered that the attempt to account for
-the formation of organs such as eyes by natural
-selection, was the weakest point in the book. This
-view is to be explained by his strong teleological
-convictions.</p>
-
-<p>Although Asa Gray was the great exponent of the
-“Origin” in America, he could not agree with Darwin
-on one important point—viz. on the exclusion of the
-ordinary conceptions of design in nature by the
-principle of natural selection. He believed that the
-two conceptions could be reconciled, and that design
-in some way worked in and through natural selection.
-By design is here meant what Huxley called “the
-commoner and coarser form of teleology,” and which
-he believed to be now refuted—“the teleology which
-supposes that the eye, such as we see it in man or
-one of the higher vertebrata, was made with the
-precise structure it exhibits for the purpose of
-enabling the animal which possesses it to see, has
-undoubtedly received its death-blow.” Huxley goes
-on to point out that there is a “wider teleology,
-which ... is actually based upon the fundamental
-proposition of evolution ... that the whole world ...
-is the result of the mutual interaction, according to
-definite laws, of the forces possessed by the molecules
-of which the primitive nebulosity of the universe was
-composed.” Therefore, “a sufficient intelligence
-could, from a knowledge of the properties of the
-molecules of that vapour, have predicted, say, the
-state of the fauna of Britain in 1869, with as much<span class="pagenum" id="Page_114">114</span>
-certainty as one can say what will happen to the
-vapour of the breath on a cold winter’s day.”
-(“Genealogy of Animals,” <i>The Academy</i>, 1869, reprinted
-in “Critiques and Addresses,” and quoted in
-his chapter “On the Reception of the ‘Origin of
-Species’” in the “Life and Letters,” Vol. II.)</p>
-
-<p>But at the time of the appearance of the “Origin,”
-many who sympathised with the general drift of the
-argument were not yet prepared for the “wider
-teleology.” Of these Asa Gray may be taken as the
-representative; and it will be of interest to follow the
-controversy between him and Darwin as regards
-design and natural selection. The recently published
-“Letters of Asa Gray to Charles Darwin” (Macmillan)
-enable us to follow the correspondence from the side
-of the great American evolutionist.</p>
-
-<p>Writing November 26th, 1860, Darwin refers to
-one of Asa Gray’s articles on the <span class="locked">“Origin”:—</span></p>
-
-<div class="blockquot">
-
-<p>“I grieve to say that I cannot honestly go as far as you do
-about Design. I am conscious that I am in an utterly hopeless
-muddle. I cannot think that the world, as we see it, is the
-result of chance; and yet I cannot look at each separate thing
-as the result of Design. To take a crucial example, you lead
-me to infer—that you believe ‘that variation has been led
-along certain beneficial lines.’ I cannot believe this; and I
-think you would have to believe, that the tail of the Fantail
-was led to vary in the number and direction of its feathers in
-order to gratify the caprice of a few men. Yet if the Fantail
-had been a wild bird, and had used its abnormal tail for some
-special end, as to sail before the wind, unlike other birds,
-everyone would have said, ‘What a beautiful and designed
-adaptation.’ Again, I say I am, and shall ever remain, in a
-hopeless muddle.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_115">115</span></p>
-
-<p class="in0">Elsewhere Darwin suggested that the pouter pigeon,
-if it occurred wild, and used its inflated crop as a
-float, would be considered as a striking example of
-design.</p>
-
-<p>This controversy between them continued for
-many years. We find Asa Gray referring to the
-argument of the pigeons three years later. Thus he
-wrote (September 1st, <span class="locked">1863):—</span></p>
-
-<div class="blockquot">
-
-<p>“I will consider about fantastic variation of pigeons. I
-see afar trouble enough ahead quoad design in nature, but
-have managed to keep off the chilliness by giving the knotty
-questions a rather wide berth. If I rather avoid, I cannot
-ignore the difficulties ahead. But if I adopt your view boldly,
-can you promise me any less difficulties?”</p>
-</div>
-
-<p>Writing the concluding paragraphs of the “Variations
-of Animals and Plants under Domestication,”
-Darwin evidently bore in mind his controversies on
-the subject with Asa Gray and Lyell, and the attacks
-of the Duke of Argyll and others. Sending advanced
-sheets to Asa Gray, he wrote on October 16th,
-<span class="locked">1867:—</span></p>
-
-<div class="blockquot">
-
-<p>“I finish my book with a semi-theological paragraph, in
-which I quote and differ from you; what you will think of it,
-I know not.”</p>
-</div>
-
-<p>In relation to this interesting controversy, I think
-it well to quote, almost in full, the metaphor by
-which Darwin enforced his argument that the origin
-of species by natural selection precluded a belief in
-design in nature as it was ordinarily conceived at the
-time.</p>
-
-<p><span class="pagenum" id="Page_116">116</span></p>
-
-<p>This metaphor forms an important part of the
-conclusion of the work in question (“Variation of
-Animals and Plants,” etc.):</p>
-
-<div class="blockquot">
-
-<p>“The long-continued accumulation of beneficial variations
-will infallibly have led to structures as diversified, as beautifully
-adapted for various purposes and as excellently co-ordinated,
-as we see in the animals and plants around us.
-Hence I have spoken of selection as the paramount power,
-whether applied by man to the formation of domestic breeds,
-or by nature to the production of species. I may recur to the
-metaphor given in a former chapter: if an architect were to
-rear a noble and commodious edifice, without the use of cut
-stone, by selecting from the fragments at the base of a precipice
-wedged-formed stones for his arches, elongated stones for his
-lintels, and flat stones for his roof, we should admire his skill
-and regard him as the paramount power. Now, the fragments
-of stone, though indispensable to the architect, bear to the edifice
-built by him the same relation which the fluctuating variations
-of organic beings bear to the varied and admirable structures
-ultimately acquired by their modified descendants.</p>
-
-<p>“Some authors have declared that natural selection explains
-nothing, unless the precise cause of each slight individual
-difference be made clear. If it were explained to a savage
-utterly ignorant of the art of building, how the edifice had
-been raised stone upon stone, and why wedge-formed fragments
-were used for the arches, flat stones for the roof, &amp;c.; and if
-the use of each part and of the whole building were pointed
-out, it would be unreasonable if he declared that nothing had
-been made clear to him, because the precise cause of the shape
-of each fragment could not be told. But this is a nearly
-parallel case with the objection that selection explains
-nothing, because we know not the cause of each individual
-difference in the structure of each being.”</p>
-
-<div class="tb">* * * * *</div>
-
-<p>“The shape of the fragments of stone at the base of our
-precipice may be called accidental, but this is not strictly
-correct; for the shape of each depends on a long sequence of
-events, all obeying natural laws.... But in regard to the<span class="pagenum" id="Page_117">117</span>
-use to which the fragments may be put, their shape may be
-strictly said to be accidental....”</p>
-</div>
-
-<p>In his article in the <cite>Nation</cite> (March 19th, 1868),
-Asa Gray criticised the metaphor as <span class="locked">follows:—</span></p>
-
-<div class="blockquot">
-
-<p>“But in Mr. Darwin’s parallel, to meet the case of nature
-according to his own view of it, not only the fragments of
-rock (answering to variation) should fall, but the edifice
-(answering to natural selection) should rise, irrespective of will
-or choice!”</p>
-</div>
-
-<p class="in0">This passage is quoted in the “Life and Letters”
-(Vol. III., p. 84), and Francis Darwin makes the
-convincing <span class="locked">reply:—</span></p>
-
-<div class="blockquot">
-
-<p>“But my father’s parallel demands that natural selection
-shall be the architect, not the edifice—the question of design
-only comes in with regard to the form of the building
-materials.”</p>
-</div>
-
-<p>Darwin’s reply was contained in his letter to
-Asa Gray dated May 8th, <span class="locked">1868:—</span></p>
-
-<div class="blockquot">
-
-<p>“You give a good slap at my concluding metaphor: undoubtedly
-I ought to have brought in and contrasted natural
-and artificial selection; but it seemed so obvious to me that
-natural selection depended on contingencies even more complex
-than those which must have determined the shape of each fragment
-at the base of my precipice. What I wanted to show was
-that, in reference to pre-ordainment, whatever holds good in
-the formation of an English pouter-pigeon holds good in the
-formation of a natural species of pigeon. I cannot see that
-this is false. If the right variations occurred, and no others,
-natural selection would be superfluous.”</p>
-</div>
-
-<p>To this, Asa Gray replied in his letter of May
-<span class="locked">25th:—</span></p>
-
-<p><span class="pagenum" id="Page_118">118</span></p>
-
-<div class="blockquot">
-
-<p>“As to close of my article, to match close of your book,—you
-see plainly I was put on the defence by your reference to
-an old hazardous remark of mine. I found your stone-house
-argument unanswerable in substance (for the notion of design
-must after all rest mostly on faith, and on accumulation of
-adaptations, &amp;c.); so all I could do was to find a vulnerable
-spot in the shaping of it, fire my little shot, and run away
-in the smoke.</p>
-
-<p>“Of course I understand your argument perfectly, and feel
-the might of it.”</p>
-</div>
-
-<p>From this last letter I think we may conclude
-that Asa Gray’s feelings on this subject rested, as
-he says, “on faith,” and that, intellectually, he saw
-no way of meeting Darwin’s arguments.</p>
-
-<hr />
-
-<div id="toclink_119" class="chapter">
-<p><span class="pagenum" id="Page_119">119</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XVIII">CHAPTER XVIII.<br />
-
-<span class="subhead">INFLUENCE OF DARWIN UPON HUXLEY.</span></h2>
-</div>
-
-<div class="sidenote">HUXLEY AND NATURAL SELECTION.</div>
-
-<p>It is of the utmost interest to trace the influence
-of Darwin upon Huxley, his great General in the
-numerous controversial battles which had to be
-fought before the new views were to secure a fair
-hearing and, at length, complete success. Now that
-we are quietly enjoying the fruit of his many victories,
-we are apt to forget how much we owe to
-Huxley, not only for evolution, but for that perfect
-freedom in the expression of thought and opinion
-which we enjoy. For Huxley fought on wider issues
-than those raised by evolution, wide as these are; and
-with a success so great that it is inconceivable that
-any new and equally illuminating thought which the
-future may hold in store for us, will meet with a
-reception like that accorded to the “Origin of
-Species.”</p>
-
-<p>At first sight it seems a simple matter to describe
-the effect of the “Origin” upon Huxley, considering
-that he, more than any other man, expounded it, and
-defended it from the most weighty of the attacks
-made upon it. Hence, it is only natural to believe,
-as many have done, that he was in entire agreement
-with the conclusions of the book as regards natural<span class="pagenum" id="Page_120">120</span>
-selection as well as evolution. On the other hand,
-the opinion has often been expressed that Huxley,
-although agreeing with the “Origin” for some
-years after its first appearance, changed his mind
-in later years, and no longer supported Darwin’s
-views.</p>
-
-<p>I shall give reasons for rejecting both these
-opinions about Huxley, although the first is far
-nearer the truth than the second. The latter is
-clearly untenable, and was probably merely an inference
-from the fact that after a time Huxley ceased
-to enter into Darwinian controversies. But this was
-because he had done his work with entire success,
-and therefore turned his attention in other directions.
-Whenever he was called on to write or speak about
-Darwinism, as he was on two occasions within
-a few months of his death, his writings and
-speeches left no doubt about his thoughts on
-the subject. Furthermore, in the Preface to
-“Darwiniana,” written in 1893, he expressly denied
-that he had recanted or changed his opinions about
-Darwin’s views.</p>
-
-<p>In order to appreciate the influence of Darwin
-upon Huxley, we must find out the beliefs of the
-latter upon the “species question” before the appearance
-of the “Origin.” In his chapter “On the
-Reception of the ‘Origin of Species’” (“Life and
-Letters,” Vol. II.) Huxley says that, before 1858, he
-took up an agnostic position as regards evolution
-“... upon two grounds: firstly, that up to that<span class="pagenum" id="Page_121">121</span>
-time, the evidence in favour of transmutation was
-wholly insufficient; and, secondly, that no suggestion
-respecting the causes of the transmutation assumed,
-which had been made, was in any way adequate
-to explain the phenomena.” It is obvious that these
-two grounds are entirely distinct, and that the logical
-foundation of the first is far more secure than that of
-the second.</p>
-
-<p>The effect of the “Origin” was completely to
-convince Huxley on the first ground: from that
-time he never doubted the truth of evolution, however
-it may have been brought about. With regard
-to the second ground, it is quite clear that Huxley
-had a very high opinion of natural selection: he
-thought it incomparably the best suggestion upon
-the subject that had ever been made, and he firmly
-believed that it accounted for something—that it may
-even have taken a dominant part in bringing about
-evolution. On the other hand, he never felt quite
-confident about the entire sufficiency of the evidence
-in its favour. It is probable that he was far more
-interested in the establishment of evolution as a
-fact than in natural selection as an explanation of
-it. He saw the vast amount of research in all kinds
-of new or almost neglected lines, which would be
-directly inspired by evolution. And his own investigations
-in some of these lines soon afforded
-some of the most weighty evidence in favour of the
-doctrine. Natural selection had not the same personal
-interest for him; no one has expounded it<span class="pagenum" id="Page_122">122</span>
-better or defended it more vigorously and successfully,
-but Huxley’s own researches never lay in directions
-which would have made them available as a test
-of the theory. Of natural selection he might have
-used the words of Mercutio—it may not be “so deep
-as a well, nor so wide as a church door,” to contain
-the whole explanation of evolution, “but ’tis enough
-’twill serve”; it will, at any rate, prevent him from
-feeling the second ground on which he had maintained
-an agnostic position.</p>
-
-<p>I believe that he maintained these views with
-inflexible consistency throughout his life, the only
-indications of change being in the last year, when
-the contrast between his certainty of evolution
-and his uncertainty of natural selection, as expressed
-in the two speeches quoted on <a href="#Page_140">pp. 140, 141</a>,
-was, perhaps, more sharply marked than at any
-other period.</p>
-
-<p>It is now proposed to support this conclusion by
-many extracts from Huxley’s writings, as well as
-from his speeches, which have been alluded to above.
-The deep interest of the subject, and the wide differences
-of opinion with regard to it, justify, and
-indeed demand, copious quotations selected from
-works and speeches, written and spoken at many
-different times during the years between 1858 and
-1894.</p>
-
-<p>It may not be out of place to emphasise the fact
-that the sole responsibility for the conclusions here
-drawn rests with the author of this volume, and that<span class="pagenum" id="Page_123">123</span>
-the evidence on which the conclusions rest is supplied
-in full.</p>
-
-<p>About a month before the “Origin” was published,
-Darwin wrote to Professor Huxley asking for the
-names of foreigners to whom to send his book.
-This communication is of great interest as being the
-earliest letter, accessible to the public, which he
-wrote to Huxley. In it he says: “I shall be <em>intensely</em>
-curious to hear what effect the book produces
-on you”; but he evidently thought that Huxley would
-disagree with much in it, and must have been surprised
-as well as gratified at the way in which it
-was received. In his chapter “On the Reception of
-the ‘Origin of Species’” (“Life and Letters,” Vol. II.),
-Huxley writes: “My reflection, when I first made
-myself master of the central idea of the ‘Origin,’
-was, ‘How extremely stupid not to have thought
-of that.’”</p>
-
-<p>Huxley replied on November 23rd, 1859—the day
-before the publication of the “Origin”—saying that
-he had finished the book on the previous day. His
-letter was a complete acceptance of evolution as
-apart from any theory which may account for it;
-and a thorough agreement with natural selection
-as a “true cause for the production of species.” At
-no time in his life did he state how far he considered
-natural selection to be a sufficient cause. He was
-only “prepared to go to the stake, if requisite, in
-support of” the chapters which marshal the evidence
-for evolution (ix., and most parts of x., xi., and xii.).</p>
-
-<p><span class="pagenum" id="Page_124">124</span></p>
-
-<p>With regard to the earlier chapters, which propound
-the theory of natural selection, his exact
-words <span class="locked">are:—</span></p>
-
-<div class="blockquot">
-
-<p>“As to the first four chapters, I agree thoroughly and fully
-with all the principles laid down in them. I think you have
-demonstrated a true cause for the production of species, and
-have thrown the <i xml:lang="la" lang="la">onus probandi</i>, that species did not arise in
-the way you suppose, on your adversaries.”</p>
-</div>
-
-<p class="in0">Darwin replied with much warmth, and expressed
-himself as “Now contented and able to sing my
-<i xml:lang="la" lang="la">Nunc Dimittis</i>.”</p>
-
-<p>In the <i>Times</i> of December 26th, 1859, appeared
-a masterly article upon the “Origin,” and, after a
-time, it became known that Huxley was its author.
-Volume II. of the “Life and Letters” explains the
-circumstances under which the review was written.
-The article is reprinted as the first essay (“The
-Darwinian Hypothesis,” I.) in “Darwiniana” (Vol.
-II. of the “Collected Essays of Professor Huxley,”
-London, 1893). The following quotation (pp. 19,
-20) shows the attitude he took up with regard to
-natural <span class="locked">selection:—</span></p>
-
-<div class="blockquot">
-
-<p>“That this most ingenious hypothesis enables us to give a
-reason for many apparent anomalies in the distribution of
-living beings in time and space, and that it is not contradicted
-by the main phenomena of life and organisation appear to us
-to be unquestionable; and, so far, it must be admitted to have
-an immense advantage over any of its predecessors. But it
-is quite another matter to affirm absolutely either the truth or
-falsehood of Mr. Darwin’s views at the present stage of the
-enquiry. Goethe has an excellent aphorism defining that<span class="pagenum" id="Page_125">125</span>
-state of mind which he calls “Thätige Skepsis”—active doubt.
-It is doubt which so loves truth that it neither dares rest in
-doubting, nor extinguish itself by unjustified belief; and we
-commend this state of mind to students of species, with
-respect to Mr. Darwin’s or any other hypothesis as to their
-origin. The combined investigations of another twenty years
-may, perhaps, enable naturalists to say whether the modifying
-causes and the selective power, which Mr. Darwin has satisfactorily
-shewn to exist in Nature, are competent to produce
-all the effects he ascribes to them; or whether, on the other
-hand, he has been led to over-estimate the value of the principle
-of natural selection, as greatly as Lamarck over-estimated
-his <i xml:lang="la" lang="la">vera causa</i> of modification by exercise.”</p>
-</div>
-
-<p>Of all the statements about natural selection
-made by Huxley, this one seems to me the nearest
-to the spirit of the two speeches he made in 1894,
-in which it became evident that the intervening
-thirty-five years had not brought the increased
-confidence he had hoped for. Furthermore, in the
-Preface to “Darwiniana” (1893) he expressly stated
-that he had not changed his mind as regards this
-article and the next which will be considered (see
-<a href="#Page_137">p. 137</a>, where the passage is quoted).</p>
-
-<p>In 1860 Huxley wrote the article on “The Origin
-of Species” which appeared in the <cite>Westminster
-Review</cite> for April, and is reprinted in “Darwiniana.”
-He here states the reasons for his doubts about
-natural selection in considerable detail. At the
-beginning of the essay (“Darwiniana,” p. 23) he
-asserts <span class="locked">that—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... all competent naturalists and physiologists, whatever
-their opinions as to the ultimate fate of the doctrines put<span class="pagenum" id="Page_126">126</span>
-forth, acknowledge that the work in which they are embodied
-is a solid contribution to knowledge and inaugurates a new
-epoch in natural history.”</p>
-</div>
-
-<p>Towards the end of the essay, after vindicating
-the logical method followed by Darwin, he continues
-(pp. <span class="locked">73–75):—</span></p>
-
-<div class="blockquot">
-
-<p>“There is no fault to be found with Mr. Darwin’s method,
-then; but it is another question whether he has fulfilled all
-the conditions imposed by that method. Is it satisfactorily
-proved, in fact, that species may be originated by selection?
-that there is such a thing as natural selection? that none of
-the phœnomena exhibited by species are inconsistent with the
-origin of species in this way? If these questions can be
-answered in the affirmative, Mr. Darwin’s view steps out of
-the ranks of hypotheses into those of proved theories; but,
-so long as the evidence at present adduced falls short of
-enforcing that affirmation, so long, to our minds, must the
-new doctrine be content to remain among the former—an
-extremely valuable, and in the highest degree probable,
-doctrine, indeed the only extant hypothesis which is worth
-anything in a scientific point of view; but still a hypothesis,
-and not yet the theory of species.</p>
-
-<p>“After much consideration, and with assuredly no bias
-against Mr. Darwin’s views, it is our clear conviction that, as
-the evidence stands, it is not absolutely proven that a group of
-animals, having all the characters exhibited by species in
-Nature, has ever been originated by selection, whether artificial
-or natural. Groups having the morphological character of
-species, distinct and permanent races in fact, have been so
-produced over and over again; but there is no positive evidence,
-at present, that any group of animals has, by variation
-and selective breeding, given rise to another group which was
-even in the least degree infertile with the first. Mr. Darwin
-is perfectly aware of this weak point, and brings forward a
-multitude of ingenious and important arguments to diminish
-the force of the objection. We admit the value of these arguments
-to their fullest extent; nay, we will go so far as to<span class="pagenum" id="Page_127">127</span>
-express our belief that experiments, conducted by a skilful
-physiologist, would very probably obtain the desired production
-of mutually more or less infertile breeds from a
-common stock, in a comparatively few years; but still, as the
-case stands at present, this ‘little rift within the lute’ is not
-to be disguised nor overlooked.”</p>
-</div>
-
-<p>He concludes with a summary of the results of
-his argument. The sentences which bear on the
-present question are as follows (pp. 77, <span class="locked">78):—</span></p>
-
-<div class="blockquot">
-
-<p>“Our object has been attained if we have given an
-intelligible, however brief, account of the established facts
-connected with species, and of the relation of the explanation
-of those facts offered by Mr. Darwin to the theoretical views
-held by his predecessors and his contemporaries, and, above
-all, to the requirements of scientific logic. We have ventured
-to point out that it does not, as yet, satisfy all those requirements;
-but we do not hesitate to assert that it was superior to
-any preceding or contemporary hypothesis, in the extent of
-observational and experimental basis on which it rests, in its
-rigorously scientific method, and in its power of explaining
-biological phenomena, as was the hypothesis of Copernicus
-to the speculations of Ptolemy. But the planetary orbits
-turned out to be not quite circular after all, and, grand as was
-the service Copernicus rendered to science, Kepler and Newton
-had to come after him. What if the orbit of Darwinism
-should be a little too circular? what if species should offer
-residual phenomena, here and there, not explicable by natural
-selection? Twenty years hence naturalists may be in a
-position to say whether this is, or is not, the case; but in
-either event they will owe the author of ‘The Origin of
-Species’ an immense debt of gratitude. We should leave a
-very wrong impression on the reader’s mind if we permitted
-him to suppose that the value of that work depends wholly on
-the ultimate justification of the theoretical views which it
-contains. On the contrary, if they were disproved to-morrow,
-the book would still be the best of its kind—the most compendious<span class="pagenum" id="Page_128">128</span>
-statements of well-sifted facts bearing on the
-doctrine of species that has ever appeared.”</p>
-</div>
-
-<p>It is clear that two very distinct points are urged
-in this criticism of natural selection—(1) the difficulty
-that selective methods applied by man have not as
-yet produced all the characteristics of true species;
-(2) supposing the latter difficulty to be surmounted
-or sufficiently explained, the uncertainty as to how
-much or how little of the process of evolution has
-been due to natural selection.</p>
-
-<p>Later in the same year Darwin seems to have
-been a little disappointed that Huxley’s confidence
-did not increase. Thus, he wrote on December 2nd,
-<span class="locked">1860:—</span></p>
-
-<div class="blockquot">
-
-<p>“I entirely agree with you that the difficulties on my
-notions are terrific; yet having seen what all the <i>Reviews</i> have
-said against me, I have far more confidence in the <em>general</em>
-truth of the doctrine than I formerly had. Another thing
-gives me confidence—viz. that some who went half an inch
-with me now go further, and some who were bitterly opposed
-are now less bitterly opposed. And this makes me feel a little
-disappointed that you are not inclined to think the general
-view in some slight degree more probable than you did at
-first. This I consider rather ominous. Otherwise I should be
-more contented with your degree of belief. I can pretty
-plainly see that if my view is ever to be generally adopted, it
-will be by young men growing up and replacing the old
-workers, and then young ones finding that they can group
-facts and search out new lines of investigation better on the
-notion of descent than on that of creation.”</p>
-</div>
-
-<p>In 1863 Huxley delivered a course of lectures
-to working men on “The Causes of the Phenomena<span class="pagenum" id="Page_129">129</span>
-of Organic Nature”; here, too, he expressed his
-opinions about natural selection with great clearness
-and force. These lectures are reprinted as the
-concluding part of “Darwiniana,” and the references
-are to the pages of that volume of his collected
-essays.</p>
-
-<p>On page 464 we <span class="locked">read—</span></p>
-
-<div class="blockquot">
-
-<p>“Here are the phenomena of Hybridism staring you in the
-face, and you cannot say, ‘I can, by selective modification,
-produce these same results.’ Now, it is admitted on all hands,
-at present, so far as experiments have gone, it has not been
-found possible to produce this complete physiological divergence
-by selective breeding.... If we were shewn that
-this must be the necessary and inevitable results of all experiments,
-I hold that Mr. Darwin’s hypothesis would be
-utterly shattered.”</p>
-</div>
-
-<p>He then goes on to show that this is very far from
-proved, and concludes (page <span class="locked">466)—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“that though Mr. Darwin’s hypothesis does not completely
-extricate us from this difficulty at present, we have not the
-least right to say it will not do so.”</p>
-</div>
-
-<p>A passage on page 467 shows that Huxley placed
-natural selection infinitely higher than any other
-attempt to account for evolution, and indeed that
-he regarded all other attempts with scorn.</p>
-
-<div class="blockquot">
-
-<p>“I really believe that the alternative is either Darwinism
-or nothing, for I do not know of any rational conception or
-theory of the Organic universe which has any scientific
-position at all beside Mr. Darwin’s.... Whatever may
-be the objections to his views, certainly all other theories are
-absolutely out of court.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_130">130</span></p>
-
-<p>On page 468 he <span class="locked">continues—</span></p>
-
-<div class="blockquot">
-
-<p>“But you must recollect that when I say I think it is either
-Mr. Darwin’s hypothesis or nothing; that either we must take
-his view, or look upon the whole of organic nature as an enigma,
-the meaning of which is wholly hidden from us; you must
-understand that I mean that I accept it provisionally, in
-exactly the same way as I accept any other hypothesis.”</p>
-</div>
-
-<p>He concludes the lectures and the volume in
-which they are now reproduced by the following
-eloquent testimony to the unique value of the
-“Origin of <span class="locked">Species”:—</span></p>
-
-<div class="blockquot">
-
-<p>“I believe that if you strip it of its theoretical part it still
-remains one of the greatest encyclopædias of biological doctrine
-that any one man ever brought forth, and I believe that, if you
-take it as the embodiment of an hypothesis, it is destined to
-be the guide of biological and psychological speculation for the
-next three or four generations.”</p>
-</div>
-
-<p>The next essay from which I quote was written
-in 1871. At the beginning of “Mr. Darwin’s Critics”
-(“Darwiniana,” p. 120) he uses words which, if they
-stood alone, might be interpreted as an indication
-of a stronger conviction.</p>
-
-<div class="blockquot">
-
-<p>“Whatever may be thought or said about Mr. Darwin’s
-doctrines, or the manner in which he has propounded them,
-this much is certain, that, in a dozen years, the ‘Origin of
-Species’ has worked as complete a revolution in biological
-science as the ‘Principia’ did in astronomy—and it has done
-so, because, in the words of Helmholtz, it contains an ‘essentially
-new creative thought.’”</p>
-</div>
-
-<p>This last quotation, and the following one, from
-“Evolution in Biology,” written in 1878, are, I think,<span class="pagenum" id="Page_131">131</span>
-among the strongest utterances in favour of natural
-selection to be found in the Collected Essays. At
-the conclusion of the above-named essay (<i>l. c.</i>, p. 223)
-he states that it was clearly seen <span class="locked">that—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“if the explanation would apply to species, it would not only
-solve the problem of their evolution, but that it would account
-for the facts of teleology, as well as for those of morphology;...”</p>
-
-<p>“How far ‘natural selection’ suffices for the production of
-species remains to be seen. Few can doubt that, if not the
-whole cause, it is a very important factor in that operation;
-and that it must play a great part in the sorting out of
-varieties into those which are transitory and those which are
-permanent.”</p>
-</div>
-
-<p>The seventh essay, “The Coming of Age of ‘The
-Origin of Species,’” was written in 1880. His complete
-confidence in evolution, as shown in this essay,
-may be contrasted with his cautious statements about
-natural selection. He boldly affirms evolution to be
-the fundamental doctrine of the “Origin of Species,”
-while natural selection is, I believe, neither mentioned
-nor even alluded to. On this great occasion
-he thus emphasised the immense debt we owe to
-Darwin in that he was the first to produce adequate
-evidence in favour of the ancient doctrine of
-evolution, a benefit quite distinct from that which
-he conferred in the theory of natural selection
-(see <a href="#Page_100">pp. 100–102</a>).</p>
-
-<p>The following are among the most confident
-statements about evolution to be found in this
-essay. Speaking of the “Origin,” he says (p. <span class="locked">229):—</span></p>
-
-<p><span class="pagenum" id="Page_132">132</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... the general doctrine of evolution, to one side of which
-it gives expression, obtains, in the phenomena of biology, a
-firm base of operations whence it may conduct its conquest of
-the whole realm of nature.”</p>
-</div>
-
-<p class="in0">And again, on page <span class="locked">332:—</span></p>
-
-<div class="blockquot">
-
-<p>“The fundamental doctrine of the ‘Origin of Species,’ as
-of all forms of the theory of evolution applied to biology, is
-‘that the innumerable species, genera, and families of organic
-beings with which the world is peopled have all descended,
-each within its own class or group, from common parents, and
-have all been modified in the course of descent.’”</p>
-</div>
-
-<p class="in0">Furthermore, on page 242 we <span class="locked">read:—</span></p>
-
-<div class="blockquot">
-
-<p>“I venture to repeat what I have said before, that so far
-as the animal world is concerned, evolution is no longer a
-speculation, but a statement of historical fact. It takes its
-place alongside of those accepted truths which must be
-reckoned with by philosophers of all schools.”</p>
-</div>
-
-<p class="in0">And on the same page he quotes with approval
-the statement by M. Filhol of the results to which
-he had been led by his palæontological <span class="locked">investigations:—</span></p>
-
-<div class="blockquot">
-
-<p>“Under the influence of natural conditions of which we
-have no exact knowledge, though traces of them are discoverable,
-species have been modified in a thousand ways:
-species have arisen which, becoming fixed, have thus produced
-a corresponding number of secondary species.”</p>
-</div>
-
-<p>Similarly, in the Obituary notice in <i>Nature</i> (1882),
-Huxley speaks of the secure position in which
-Darwin had placed the doctrine of evolution as his
-great achievement. The following eloquent passage
-occurs on page 247 of <span class="locked">“Darwiniana”:—</span></p>
-
-<p><span class="pagenum" id="Page_133">133</span></p>
-
-<div class="blockquot">
-
-<p>“None have fought better, and none have been more
-fortunate, than Charles Darwin. He found a great truth
-trodden underfoot, reviled by bigots, and ridiculed by all the
-world; he lived long enough to see it, chiefly by his own
-efforts, irrefragibly established in science,...”</p>
-</div>
-
-<p>In the impressive speech in which Huxley handed
-over the statue of Darwin to the Prince of Wales, as
-representative of the Trustees of the British Museum,
-on June 9th, 1885 (“Darwiniana,” p. 248), the references
-to Darwin are most consistent with the view
-that the support to evolution was held by the speaker
-to be the great work of his life. Natural selection
-is not mentioned.</p>
-
-<p>The next publication on this subject by Huxley
-is the celebrated chapter “On the Reception of the
-‘Origin of Species,’” in the second volume of the
-great “Life and Letters.” In this chapter he speaks
-rather more confidently about natural selection than
-in some of the earlier essays and in the later
-<span class="locked">speeches:—</span></p>
-
-<div class="blockquot">
-
-<p>“The reality and the importance of the natural processes
-on which Darwin founds his deductions are no more doubted
-than those of growth and multiplication; and, whether the
-full potency attributed to them is admitted or not, no one
-doubts their vast and far-reaching significance.”</p>
-</div>
-
-<p class="in0">But of evolution he speaks far more <span class="locked">strongly:—</span></p>
-
-<div class="blockquot">
-
-<p>“To any one who studies the signs of the times, the
-emergence of the philosophy of Evolution, [“bound hand and
-foot and cast into utter darkness during the millennium of
-theological scholasticism”] in the attitude of claimant to the<span class="pagenum" id="Page_134">134</span>
-throne of the world of thought, from the limbo of hated and,
-as many hoped, forgotten things, is the most portentous event
-of the nineteenth century.”</p>
-</div>
-
-<p class="in0">And for this he gives Darwin the credit.</p>
-
-<p>Later on he indicates the sense in which his keen
-appreciation of natural selection is to be understood.
-Thus, such strong statements <span class="locked">as—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... the publication of the Darwin and Wallace papers
-in 1858, and still more that of the ‘Origin’ in 1859, had the
-effect ... of the flash of light, which to a man who has
-lost himself in a dark night, suddenly reveals a road which,
-whether it takes him straight home or not, certainly goes his
-way”;</p>
-</div>
-
-<p class="in0">and—</p>
-
-<div class="blockquot">
-
-<p class="in0">“The facts of variability, of the struggle for existence, of
-adaptation to conditions, were notorious enough; but none of
-us had suspected that the road to the heart of the species
-problem lay through them, until Darwin and Wallace dispelled
-the darkness, and the beacon-fire of the ‘Origin’
-guided the benighted,”</p>
-</div>
-
-<p class="in0">if they stood alone, might naturally be interpreted
-as an unqualified testimony to the permanent truth
-of natural selection. But this interpretation is expressly
-<span class="locked">excluded:—</span></p>
-
-<div class="blockquot">
-
-<p>“Whether the particular shape which the doctrine of
-evolution, as applied to the organic world, took in Darwin’s
-hands, would prove to be final or not, was, to me, a matter
-of indifference. In my earliest criticisms of the ‘Origin’
-I ventured to point that its logical foundation was insecure
-...; and that insecurity remains.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_135">135</span></p>
-
-<p class="in0">Its value for Huxley was that it was “incomparably
-more probable than the creation hypothesis”; that
-it was “a hypothesis respecting the origin of known
-organic forms, which assumed the operation of no
-causes but such as could be proved to be actually at
-work”; that it provided “clear and definite conceptions
-which could be brought face to face with
-facts and have their validity tested”; that it freed
-us “for ever from the dilemma—refuse to accept
-the creation hypothesis, and what have you to propose
-that can be accepted by any cautious reasoner?”
-Indeed, the hypothesis did away with this dilemma,
-even if it were itself to disappear; for “if we had
-none of us been able to discern the paramount
-significance of some of the most patent and notorious
-of natural facts, until they were, so to speak, thrust
-under our noses, what force remained in the dilemma—creation
-or nothing? It was obvious that, hereafter,
-the probability would be immensely greater,
-that the links of natural causation were hidden from
-our purblind eyes, than that natural causation should
-be incompetent to produce all the phenomena
-of nature.”</p>
-
-<p>Therefore, “the only rational course for those who
-had no other object than the attainment of truth,
-was to accept ‘Darwinism’ as a working hypothesis,
-and see what could be made of it.” Furthermore,
-“Whatever may be the ultimate fate of the particular
-theory put forth by Darwin, ... all the ingenuity
-and all the learning of hostile critics has not enabled<span class="pagenum" id="Page_136">136</span>
-them to adduce a solitary fact, of which it can
-be said, this is irreconcilable with the Darwinian
-theory.”</p>
-
-<p>Taking this argument as a whole, it seems to me
-to amount to the words of Mercutio quoted at the
-beginning of this chapter.</p>
-
-<p>In the following year (1888) Huxley wrote the
-Obituary Notice of Darwin for the Proceedings of
-the Royal Society: it is reprinted in “Darwiniana”
-(pp. 253 <i xml:lang="la" lang="la">et seq.</i>). In this admirable essay the author
-recognises that Darwin evidently accepted evolution
-before he could offer any explanation of the motive
-cause by which that process took place. The theory
-of descent with modification had often been thought
-of before, “but in the eyes of the naturalist of the
-‘Beagle’ (and, probably, in those of most sober
-thinkers), the advocates of transmutation had done
-the doctrine they expounded more harm than good.”
-Huxley speaks of the “Origin” as “one of the
-hardest books to master,” in this agreeing with
-Hooker (see <a href="#Page_111">p. 111</a>).</p>
-
-<p>In this essay Huxley gives a clear and excellent
-statement of natural selection, prefaced by these
-words (p. <span class="locked">287):—</span></p>
-
-<div class="blockquot">
-
-<p>“Although, then, the present occasion is not suitable for
-any detailed criticism of the theory, or of the objections which
-have been brought against it, it may not be out of place to
-endeavour to separate the substance of the theory from its
-accidents; and to shew that a variety not only of hostile
-comments, but of friendly would-be improvements, lose their
-<i xml:lang="fr" lang="fr">raison d’être</i> to the careful student.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_137">137</span></p>
-
-<p class="in0">Then follows a brief but epigrammatic description,
-such as only Huxley could have written, of the
-theory, and some of the chief arguments which have
-revolved round it. Occasionally he speaks as if he
-were stating his own opinion as well as Darwin’s,
-but throughout it seems to me that his object is
-not to give his own views but to write a fair and
-clear account of Darwin’s theory, and to defend
-it from a number of criticisms and modifications
-which have been, from time to time, brought
-forward.</p>
-
-<p>“Darwiniana” was published in 1893, and this
-is the date of the Preface, in which Huxley speaks
-<span class="locked">of—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... the ancient doctrine of Evolution, rehabilitated and
-placed upon a sound scientific foundation, since, and in consequence
-of, the publication of the ‘Origin of Species....’”</p>
-</div>
-
-<p>He thinks that readers will admit that in the
-first two essays (see pages <a href="#Page_124">124–128</a> of the present
-<span class="locked">volume)—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... my zeal to secure fair play for Mr. Darwin, did
-not drive me into the position of a mere advocate; and that,
-while doing justice to the greatness of the argument, I did not
-fail to indicate its weak points. I have never seen any reason
-for departing from the position which I took up in these two
-essays; and the assertion which I sometimes meet with nowadays,
-that I have ‘recanted’ or changed my opinions about
-Mr. Darwin’s views, is quite unintelligible to me.”</p>
-</div>
-
-<div class="blockquot">
-
-<p>“As I have said in the seventh essay, [see pages <a href="#Page_131">131, 132</a>
-of the present volume] the fact of evolution is to my mind<span class="pagenum" id="Page_138">138</span>
-sufficiently evidenced by palæontology; and I remain of the
-opinion expressed in the second, that until selective breeding
-is definitely proved to give rise to varieties infertile with one
-another, the logical foundation of the theory of natural
-selection is incomplete.”</p>
-</div>
-
-<p>It is therefore clear, as I have before stated,
-that Huxley, in 1893, re-stated his criticisms and
-qualifications of thirty years before, and expressed
-his conviction anew of the validity of the objections
-which he then raised against a full and complete
-acceptance of natural selection.</p>
-
-<p>We now come to the last and most significant
-of all Huxley’s utterances on evolution and natural
-selection, made on two great occasions in the last
-year of his life. Lord Salisbury, in his eloquent
-and interesting Presidential Address to the British
-Association at Oxford (August 8th, 1894), had said
-of <span class="locked">Darwin:—</span></p>
-
-<div class="blockquot">
-
-<p>“He has, as a matter of fact, disposed of the doctrine of the
-immutability of species.... Few now are found to doubt
-that animals separated by differences far exceeding those that
-distinguish what we know as species have yet descended from
-common ancestors.”</p>
-</div>
-
-<p class="in0">While thus completely admitting evolution in the
-organic world, Lord Salisbury attacked natural
-selection on two grounds—first, on the insufficiency
-of the time allowed by physicists for a process which
-is, of necessity, extremely slow in its operation;
-secondly, on the ground that “we cannot demonstrate
-the process of natural selection in detail; we cannot<span class="pagenum" id="Page_139">139</span>
-even, with more or less ease, imagine it.” And his
-main objection under this head was the supposed difficulty
-in securing the union of successful variations.
-The actual words have been already quoted on <a href="#Page_83">page 83</a>,
-where it was shown that the criticism does
-not apply to natural selection, but to a theory mistaken
-by the speaker for that of Darwin. Curiously
-enough, the first objection of the insufficiency of
-time was the indirect cause of a subsequent trenchant
-criticism by Professor Perry of the line of
-mathematical reasoning on which the limit had
-been fixed.</p>
-
-<p>Huxley was called on to second the vote of
-thanks, and his speech had evidently been considered
-with the greatest care. I quote the passages which
-bear on evolution and natural selection from the
-<i>Times</i> of August 9th, 1894, in which a <i xml:lang="la" lang="la">verbatim</i>
-report is <span class="locked">furnished:—</span></p>
-
-<div class="blockquot">
-
-<p>“... As one of those persons who for many years past
-had made a pretty free use of the comfortable word ‘evolution,’
-let him remind them that 34 years ago a considerable discussion,
-to which the President had referred, took place in
-one of their sectional meetings upon what people frequently
-called the ‘Darwinism question,’ but which on that occasion
-was not the Darwinism question, but the very much deeper
-question which lay beneath the Darwinism question—he
-meant the question of evolution.... The two doctrines,
-the two main points, for which these men [Sir John Lubbock,
-Sir J. Hooker, and the speaker] fought were that species were
-mutable, and that the great variety of animal forms had proceeded
-from gradual and natural modification of the comparatively
-few primitive forms....”</p>
-</div>
-
-<p><span class="pagenum" id="Page_140">140</span></p>
-
-<p class="in0">After alluding to the revolution in thought which
-had taken place in thirty-four years, he <span class="locked">said:—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“As he noted in the presidential address to which they had
-just listened with such well-deserved interest, he found it stated
-on that which was then and at this time the highest authority
-for them, that as a matter of fact the doctrine of the immutability
-of species was disposed of and gone. He found that
-few were now found to doubt that animals separated by
-differences far exceeding those which they knew as species
-were yet descended from a common ancestry. Those were
-their propositions; those were the fundamental principles of
-the doctrine of evolution. Darwinism was not evolution, nor
-Spencerism, nor Hæckelism, nor Weismannism, but all these
-were built on the fundamental doctrine which was evolution,
-which they maintained so many years, and which was that
-upon which their President had put the seal of his authority
-that evening....”</p>
-</div>
-
-<p>Huxley thus hailed the statements of the President
-in favour of evolution, while the attacks on
-natural selection he merely met by saying that the
-address would have made a good subject for discussion
-in one of the sections, and by insisting with
-impressive solemnity that evolution was a very
-different thing from natural selection, thereby implying
-that the former would be unaffected by the
-fate of the latter.</p>
-
-<p>The second occasion was between three and four
-months later, when Huxley spoke at the Anniversary
-Dinner of the Royal Society, November 30th, 1894,
-after having been awarded the Darwin Medal at the
-afternoon meeting. I quote his words from the
-<i xml:lang="la" lang="la">verbatim</i> report of the <i>Times</i> for December <span class="locked">1st:—</span></p>
-
-<p><span class="pagenum" id="Page_141">141</span></p>
-
-<div class="blockquot">
-
-<p>“... I am as much convinced now as I was 34 years
-ago that the theory propounded by Mr. Darwin, I mean
-that which he propounded—not that which has been reported
-to be his by too many ill-instructed, both friends and foes—has
-never yet been shewn to be inconsistent with any positive
-observations, and if I may use a phrase which I know has been
-objected to and which I use in a totally different sense from
-that in which it was first proposed by its first propounder, I
-do believe that on all grounds of pure science it ‘holds the
-field,’ as the only hypothesis at present before us which has a
-sound scientific foundation.... I am sincerely of opinion
-that the views which were propounded by Mr. Darwin 34
-years ago may be understood hereafter as constituting an
-epoch in the intellectual history of the human race. They
-will modify the whole system of our thought and opinion, our
-most intimate convictions. But I do not know, I do not think
-anybody knows, whether the particular views which he held
-will be hereafter fortified by the experience of the ages which
-come after us; ... whether the particular form in which
-he has put them before us (the Darwinian doctrines) may be
-such as is finally destined to survive or not is more, I venture
-to think, than anybody is capable at this present moment of
-saying.”</p>
-</div>
-
-<p>It is unnecessary to say anything about this
-passage, which fitly sums up and sets the seal on
-the long series of quotations I have felt obliged
-to make.</p>
-
-<p>It may not be out of place, however, to state in
-a few words why many naturalists, including the
-present writer, are not inclined to accept the extremely
-cautious and guarded language of one upon
-whom, with regard to so many other subjects, they
-have ever looked as their teacher and guide. Concerning
-the verification of a hypothesis, Huxley said<span class="pagenum" id="Page_142">142</span>
-in his lectures to working men (“Darwiniana,” pages
-367, <span class="locked">368)—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“... that the more extensive verifications are,—that the
-more frequently experiments have been made, and results of
-the same kind arrived at,—that the more varied the conditions
-under which the same results are attained, the more certain is
-the ultimate conclusion....”</p>
-</div>
-
-<p class="in0">And <span class="locked">again—</span></p>
-
-<div class="blockquot">
-
-<p>“In scientific enquiry it becomes a matter of duty to expose
-a supposed law to every possible kind of verification, and to
-take care, moreover, that this is done intentionally, and not
-left to a mere accident....”</p>
-</div>
-
-<p>It may well be that the length of time required
-before an artificially-selected race will exhibit, when
-interbred with the parent species, phenomena of
-hybridism similar to those which are witnessed when
-distinct natural species are interbred—will be fatal
-to the production of this important line of evidence.
-But there is nothing to hinder us from holding the
-reasonable belief that such evidence might be obtained
-if we had command of the necessary conditions;
-and in the meantime other evidence of the most
-satisfactory kind is accumulating, and on a vast scale.
-Whenever a naturalist approaches a problem in the
-light of the theory of natural selection, and is able,
-by its aid, to predict a conclusion which subsequent
-investigation proves to be correct, he is helping in
-the production of evidence in favour of the theory.
-When a naturalist has found the formula “if natural
-selection be true so-and-so ought to happen” the<span class="pagenum" id="Page_143">143</span>
-safest of all guides into the unknown, when it has
-brought him success many times and in very different
-directions, when he knows that many other workers
-in other fields of biological inquiry have had a similarly
-happy experience, he gradually comes to feel a
-profound confidence in the permanent truth and the
-far-reaching importance of the great theory which has
-served him so well.</p>
-
-<hr />
-
-<div id="toclink_144" class="chapter">
-<p><span class="pagenum" id="Page_144">144</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XIX">CHAPTER XIX.<br />
-
-<span class="subhead">THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS
-UNDERSTOOD.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Even</span> earlier than Huxley, H. C. Watson wrote
-warmly accepting natural selection. In his letter,
-which is dated November 21st, 1859, he <span class="locked">said:—</span></p>
-
-<div class="blockquot">
-
-<p>“Your leading idea will surely become recognised as an
-established truth in science—<i>i.e.</i> ‘Natural Selection.’ It has
-the characteristics of all great natural truths, clarifying what
-was obscure, simplifying what was intricate, adding greatly to
-previous knowledge. You are the greatest revolutionist in
-natural history of this century, if not of all centuries.”</p>
-</div>
-
-<div class="sidenote">MISUNDERSTANDING OF THE THEORY.</div>
-
-<p class="in0">For some years to come, however, such views as
-these were the exception, as will soon be shown.</p>
-
-<p>The Duke of Argyll has argued (<cite>Nineteenth
-Century</cite>, December, 1887) that the success of
-“Natural Selection” has followed from the convincing
-character of the words used, scientific men
-(“the populace of science” he calls them) being
-so easily led by the power of loose analogies that
-they have been convinced of the truth of the
-principle because they are familiar with Nature on
-the one hand, and selection as a process on the other!</p>
-
-<p>As I am not aware that this preposterous suggestion
-has ever been publicly disproved, and since<span class="pagenum" id="Page_145">145</span>
-therefore some readers of the journal in question
-may have been misled by it, I have collected much
-evidence, which proves that the principle of natural
-selection was only absorbed with the very greatest
-difficulty, and that the words used in describing it for
-a long time entirely failed to inform even eminent
-scientific men of the essential characteristics of the
-theory itself, and certainly failed most signally to
-convince them. Conviction came very gradually as
-the theory was slowly understood and was seen to
-offer an intelligible explanation of an immense and
-ever-increasing number of facts.</p>
-
-<p>I will now bring together quotations from Darwin’s
-letters in 1859 and 1860, showing how soon he came
-to realise the difficulty with which natural selection
-was understood, and to feel that he might have been
-more successful with some other title.</p>
-
-<p>In 1859 he wrote to Dr. W. B. Carpenter—“I
-have found the most extraordinary difficulty in
-making even able men understand at what I was
-driving.” The remaining quotations are all taken
-from letters written in 1860. By the middle of this
-year, when he was feeling oppressed by hostile reviews
-and unfair and ignorant criticisms (“I am getting
-wearied at the storm of hostile reviews, and hardly
-any useful”), he often alludes to the failure of opponents
-to understand his theory. Thus, in a letter to
-Hooker (June 5th), he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“This review, however, and Harvey’s letter have convinced
-me that I must be a very bad explainer. Neither really<span class="pagenum" id="Page_146">146</span>
-understand what I mean by Natural Selection.... I hope
-to God you will be more successful than I have been in
-making people understand your meaning.”</p>
-</div>
-
-<p class="in0">He says almost the same thing in a letter to Lyell
-(June <span class="locked">6th):—</span></p>
-
-<div class="blockquot">
-
-<p>“... I am beginning to despair of ever making the
-majority understand my notions.... I must be a very bad
-explainer. I hope to Heaven that you will succeed better.
-Several reviews and several letters have shown me too clearly
-how little I am understood. I suppose ‘Natural Selection’
-was a bad term; ... I can only hope by reiterated explanations
-finally to make the matter clearer.”</p>
-</div>
-
-<p>Writing to Asa Gray, he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“... I have had a letter of fourteen folio pages from
-Harvey against my book, with some ingenious and new
-remarks; but it is an extraordinary fact that he does not
-understand at all what I mean by Natural Selection.”</p>
-</div>
-
-<p>Later on, he again wrote to <span class="locked">Lyell:—</span></p>
-
-<div class="blockquot">
-
-<p>“Talking of ‘natural selection’; if I had to commence <i xml:lang="la" lang="la">de
-novo</i>, I would have used ‘natural preservation.’ For I find
-men like Harvey of Dublin cannot understand me, though he
-has read the book twice. Dr. Gray of the British Museum
-remarked to me that, ‘<em>selection</em> was obviously impossible with
-plants! No one could tell him how it could be possible!’
-And he may now add that the author did not attempt it to
-him!”</p>
-</div>
-
-<p>And still later he wrote asking Lyell’s advice as to
-additions to a new edition of the “Origin,” saying:—“I
-would also put a note to ‘Natural Selection,’
-and show how variously it has been misunderstood.”
-This note is to be found on page 63 of the sixth<span class="pagenum" id="Page_147">147</span>
-edition. In it he tells us that some writers have “even
-imagined that natural selection induces variability,”
-instead of merely preserving it; others that natural
-selection “implies conscious choice in the animals
-which become modified”; others that it is set up
-“as an active power or Deity.” In writing (December)
-to Murray about a new edition of the “Origin,” he
-alludes to the “many corrections, or rather additions,
-which I have made in hopes of making my many
-rather stupid reviewers at least understand what
-is meant.”</p>
-
-<p>He seems to have retained a very vivid recollection
-of the difficulty with which his theory was
-understood at first; thus he tells us in his
-<span class="locked">“Autobiography”:—</span></p>
-
-<div class="blockquot">
-
-<p>“I tried once or twice to explain to able men what I meant
-by Natural Selection, but signally failed.”</p>
-</div>
-
-<p>Why the term “natural selection” was chosen by
-Darwin is very clearly shown in the three following
-quotations from letters to distinguished scientific men,
-which were probably written in answer to attacks or
-criticisms on this very point.</p>
-
-<p>He writes to Lyell in 1859, “Why I like the
-term is that it is constantly used in all works on
-breeding.”</p>
-
-<p>Writing to H. G. Bronn in 1860, he explains his
-motives with great clearness and <span class="locked">force:—</span></p>
-
-<div class="blockquot">
-
-<p>“Several scientific men have thought the term ‘Natural
-Selection’ good, because its meaning is <em>not</em> obvious, and each<span class="pagenum" id="Page_148">148</span>
-man could not put on it his own interpretation, and because it
-at once connects variation under domestication and nature....
-Man has altered, and thus improved the English race-horse by
-<em>selecting</em> successive fleeter individuals; and I believe, owing to
-the struggle for existence, that similar <em>slight</em> variations in a
-wild horse, <em>if advantageous to it</em>, would be <em>selected</em> or <em>preserved</em>
-by nature; hence Natural Selection.”</p>
-</div>
-
-<p>In 1866 he wrote to Wallace, comparing the term
-with that which we owe to Herbert <span class="locked">Spencer:—</span></p>
-
-<div class="blockquot">
-
-<p>“I fully agree with all that you say on the advantages of
-H. Spencer’s excellent expression of ‘the survival of the fittest.’
-This however had not occurred to me till reading your letter.
-It is, however, a great objection to this term that it cannot be
-used as a substantive governing a verb; and that it is a real
-objection I infer from H. Spencer continually using the words,
-natural selection. I formerly thought, probably in an exaggerated
-degree, that it was a great advantage to bring into connection
-natural and artificial selection; this indeed led me
-to use a term in common, and I still think it some advantage....
-The term Natural Selection has now been so
-largely used abroad and at home, that I doubt whether it could
-be given up, and with all its faults I should be sorry to see the
-attempt made. Whether it will be rejected must now depend
-‘on the survival of the fittest.’ As in time the term must grow
-intelligible the objections to its use will grow weaker and
-weaker. I doubt whether the use of any term would have
-made the subject intelligible to some minds, clear as it is to
-others; for do we not see even to the present day Malthus on
-Population absurdly misunderstood? This reflection about
-Malthus has often comforted me when I have been vexed at
-the mis-statement of my own views.”</p>
-</div>
-
-<p>A large number of critics not only failed to understand
-natural selection, but they asserted that it was
-precisely the same theory as that advanced by
-Lamarck or one of the other writers on evolution<span class="pagenum" id="Page_149">149</span>
-before Darwin. This seems almost incredible to us at
-the present day, when the biological world is divided
-into two sections on the very subject, and when it is
-generally recognised that Lamarck’s theory would be,
-if it were proved to be sound, a formidable rival to
-natural selection as a motive cause of evolution. But
-the following quotations—a few among many—leave
-no doubt whatever upon the subject.</p>
-
-<p>Evidence on this point reached Darwin almost
-immediately after the appearance of the “Origin.”
-Thus he writes to Hooker on December 14th, <span class="locked">1859:—</span></p>
-
-<div class="blockquot">
-
-<p>“Old J. E. Gray, at the British Museum, attacked me in
-fine style: ‘You have just reproduced Lamarck’s doctrine, and
-nothing else, and here Lyell and others have been attacking
-him for twenty years, and because <em>you</em> ... say the very same
-thing, they are all coming round; it is the most ridiculous inconsistency,’
-&amp;c. &amp;c.”</p>
-</div>
-
-<p>In the following year, Wilberforce, Bishop of
-Oxford, writing in the <cite>Quarterly Review</cite> for July,
-1860, appeals to Lyell,</p>
-
-<div class="blockquot">
-
-<p class="in0">“in order that with his help this flimsy speculation may be as
-completely put down as was what in spite of all denials we
-must venture to call its twin though less-instructed brother,
-the ‘Vestiges of Creation.’”</p>
-</div>
-
-<p>Again, Dr. Bree, in “Species not Transmutable,”
-says:</p>
-
-<div class="blockquot">
-
-<p>“The only real difference between Mr. Darwin and his two
-predecessors, [Lamarck and the “Vestiges”] is this:—that
-while the latter have each given a mode by which they
-conceive the great changes they believe in have been brought
-about, Mr. Darwin does no such thing.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_150">150</span></p>
-
-<p>One of the most interesting of the countless
-examples of misunderstanding is contained in a
-recently published letter from W. S. Macleay to Robert
-Lowe.<a id="FNanchor_8" href="#Footnote_8" class="fnanchor">H</a> This letter was written from Elizabeth Bay,
-and is dated May, 1860, evidently just after the first
-edition of the “Origin,” a copy of which had been sent
-by Robert Lowe, had been read by Macleay.</p>
-
-<div class="blockquot">
-
-<p>“Again if this primordial cell had a Creator, as Darwin
-seems to admit, I do not see what we gain by denying the
-Creator, as Darwin does, all management of it after its creation.
-Lamarck was more logical in supposing it to have existed of
-itself from all eternity—indeed this is the principal difference
-that I see between this theory of Darwin’s and that of
-Lamarck, who propounded everything essential in the former
-theory, in a work now rather rare—his ‘Philosophie Zoologique.’
-But you may see an abridgment of it in so common a book as
-his ‘Histoire Nat. des Animaux Vertébrés,’ vol. i., pp. 188, <i xml:lang="la" lang="la">et
-seq.</i>—Edit. 1818, where the examples given of natural selection
-are the gasteropod molluscs.... Natural selection (sometimes
-called ‘struggles’ by Darwin) is identical with the
-‘Besoins des Choses’ of Lamarck, who, by means of his
-hypothesis, for instance, assigns the constant stretching of the
-neck to reach the acacia leaves as the cause of the extreme
-length of it in the giraffe; much in the same way the black
-bear, according to Darwin, became a whale, which I believe as
-little as his other assertion that our progenitors anciently had
-gills—only they had dropped off by want of use in the course
-of myriads of generations.”</p>
-</div>
-
-<p>I had long been anxious to possess a copy of
-the first edition of the “Origin,” and was fortunate
-enough to come across one about the time when
-Macleay’s letter was pointed out to me by my wife.<span class="pagenum" id="Page_151">151</span>
-I opened the title-page, and found upon it the signature
-“W. S. Macleay”; it must have been the very
-volume given him by Robert Lowe, which Macleay
-had read and believed he had been fairly criticising.
-Out of Macleay’s volume, therefore, I quote the
-sentences he referred to in his letter.</p>
-
-<p>Darwin’s real statement about the black bear
-which “became a whale” is to be found on page <span class="locked">184:—</span></p>
-
-<div class="blockquot">
-
-<p>“In North America the black bear was seen by Hearne
-swimming for hours with widely open mouth, thus catching,
-like a whale, insects in the water. Even in so extreme a case
-as this, if the supply of insects were constant, and if better
-adapted competitors did not already exist in the country, I
-can see no difficulty in a race of bears being rendered, by
-natural selection, more and more aquatic in their structure
-and habits, with larger and larger mouths, till a creature
-was produced as monstrous as a whale.”</p>
-</div>
-
-<p>The statement about the gills which “dropped off
-by want of use” becomes in the original (p. <span class="locked">191):—</span></p>
-
-<div class="blockquot">
-
-<p>“In the higher vertebrata the branchiæ have wholly
-disappeared—the slits on the sides of the neck and the loop-like
-course of the arteries still marking in the embryo their
-former position.”</p>
-</div>
-
-<p>Although the hypothetical case of the black
-bear—carefully guarded as it is—does not now appear
-to us at all extravagant (indeed, in the cleft cheeks
-of the goat-sucker we have a precisely analogous case),
-Darwin seems to have thought it unsuitable, probably
-because it became an easy butt for ignorant ridicule.
-We find accordingly that in the second and all subsequent
-editions everything after the word “water” is<span class="pagenum" id="Page_152">152</span>
-omitted, while “almost” is inserted before “like a
-whale.” He was alluding to this passage when he
-wrote to Lyell (December 22nd, 1859): “Thanks
-about ‘Bears,’ a word of ill-omen to me.” Furthermore,
-Andrew Murray<a id="FNanchor_9" href="#Footnote_9" class="fnanchor">I</a> says, concerning the sentences
-as they stand in the first <span class="locked">edition:—</span></p>
-
-<div class="blockquot">
-
-<p>“In quoting this, I do not at all mean to give it as a fair
-illustration of Mr. Darwin’s views. I only refer to it as
-indicating the extent to which he is prepared to go. The
-example here given I look upon (as I have reason to know
-that Mr. Darwin himself does) merely as an extreme and
-somewhat extravagant illustration, imagined expressly to show
-in a forcible way how ‘natural selection’ would operate
-in making a mouth bigger and bigger, because more
-advantageous.”</p>
-</div>
-
-<hr />
-
-<div id="toclink_153" class="chapter">
-<p><span class="pagenum" id="Page_153">153</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XX">CHAPTER XX.<br />
-
-<span class="subhead">THE DIFFICULTY WITH WHICH THE “ORIGIN” WAS
-UNDERSTOOD (<i>continued</i>)—VIEWS ON SPONTANEOUS
-GENERATION.</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">The</span> history of opinion on evolution and natural
-selection, in the years which followed the publication
-of the “Origin,” can be traced in the titles of the
-papers and subjects of discussion at successive
-meetings of the British Association. In the Presidential
-Address delivered by Professor Newton to
-the Biological Section of the Manchester meeting in
-1887, there is a most interesting account of the
-struggles which took <span class="locked">place:—</span></p>
-
-<div class="blockquot">
-
-<p>“The ever-memorable meeting ... at Oxford in the summer
-of 1860 saw the first open conflict between the professors of
-the new faith and the adherents of the old one. Far be it
-from me to blame those among the latter who honestly stuck
-to the creed in which they had educated themselves; but my
-admiration is for the few dauntless men who, without flinching
-from the unpopularity of their cause, flung themselves in
-the way of obloquy, and impetuously assaulted the ancient
-citadel in which the sanctity of ‘species’ was enshrined
-and worshipped as a palladium. However strongly I myself
-sympathised with them, I cannot fairly state that the conflict
-on this occasion was otherwise than a drawn battle; and thus
-matters stood when in the following year the Association met
-in this city [Manchester]. That, as I have already said, was a
-time of ‘slack water.’ But though the ancient beliefs were<span class="pagenum" id="Page_154">154</span>
-not much troubled, it was for the last time that they could
-be said to prevail; and thus I look upon our meeting in
-Manchester 1861 as a crisis in the history of biology. All
-the same, the ancient beliefs were not allowed to pass wholly
-unchallenged; and one thing is especially to be marked—they
-were challenged by one who was no naturalist at all, by one
-who was a severe thinker no less than an active worker; one
-who was generally right in his logic, and never wrong in his
-instinct; one who, though a politician, was invariably an
-honest man—I mean the late Professor Fawcett. On this
-occasion he brought the clearness of his mental vision to bear
-upon Mr. Darwin’s theory, with the result that Mr. Darwin’s
-method of investigation was shewn to be strictly in accordance
-with the rules of deductive philosophy, and to throw light
-where all was dark before.”</p>
-</div>
-
-<p>Professor Newton specially alluded to this interesting
-case of Professor Fawcett as illustrating his
-conviction that the theory of natural <span class="locked">selection—</span></p>
-
-<div class="blockquot">
-
-<p class="in0">“did not, except in one small point, require a naturalist to
-think it out and establish its truth.... But in order to see
-the effect of this principle upon organic life the knowledge—the
-peculiar knowledge—of the naturalist was required. This
-was the knowledge of those slight variations which are found
-in all groups of animals and plants.... Herein lay the
-triumph of Mr. Darwin and Mr. Wallace. That triumph,
-however, was not celebrated at Manchester. The question
-was of such magnitude as to need another year’s incubation,
-and the crucial struggle came a twelvemonth later when the
-Association met at Cambridge. The victory of the new
-doctrine was then declared in a way that none could doubt. I
-have no inclination to join in the pursuit of the fugitives.”</p>
-</div>
-
-<p>There is reason to believe that Professor Newton’s
-impressions of the result of the celebrated meeting
-of the British Association at Oxford in 1860 are
-more accurate than those of the eyewitness quoted<span class="pagenum" id="Page_155">155</span>
-in the “Life and Letters.” The latter has pictured
-a brilliant triumph for Huxley in the renowned duel
-with the Bishop of Oxford. But I have been told
-by more than one of the audience that Huxley was
-really too angry to speak effectively, nor is this to
-be wondered at, considering the extreme provocation.
-Mr. William Sidgwick, who was present and sympathised
-warmly with Huxley, has told me that this
-was his opinion. I have heard the same from the
-Rev. W. Tuckwell, who also quoted a remark of
-the late Professor Rolleston tending in the same
-direction. Mr. Tuckwell said that it was clear that
-the audience as a whole was not carried away by
-Huxley’s speech, but, on the contrary, was obviously
-shocked at it; and he contrasted that occasion with
-another at which he was also present, in the North,
-several years later, when Huxley replied to an
-opponent who, like the bishop, appealed to the
-theological prejudices of his hearers. But by that
-time the new teachings had been absorbed, and
-Huxley gained a signal triumph.</p>
-
-<div class="sidenote">OPPOSITION.</div>
-
-<p>It must not be supposed that Darwin was by any
-means indifferent to the attacks on his views. On
-the contrary, his sensitive nature was greatly depressed
-by the violent and often most unfair
-criticisms to which he was subjected, although
-beneath this evident disturbance lay the firm conviction
-that he had seen the truth, and that the
-truth would in the end be seen by others.</p>
-
-<p>After the great fight with the bishop at the<span class="pagenum" id="Page_156">156</span>
-British Association at Oxford, he wrote to Hooker
-(July 2nd, <span class="locked">1860):—</span></p>
-
-<div class="blockquot">
-
-<p>“I have read lately so many hostile views, that I was
-beginning to think that perhaps I was wholly in the wrong,
-and that —— was right when he said the whole subject would
-be forgotten in ten years; but now that I hear that you and
-Huxley will fight publicly (which I am sure I never could
-do), I fully believe that our cause will, in the long-run,
-prevail.”</p>
-</div>
-
-<p>Looking at the history of opinion on this subject,
-the slowness with which the new ideas were absorbed
-appears remarkable. Even so able a man as the late
-Professor Rolleston wrote in 1870 (“Forms of Animal
-Life,” Introduction, p. xxv., First Edition) the
-following carefully guarded sentences, which, it is to
-be noted, deal with evolution rather than natural
-selection. Speaking of “the theory of evolution with
-which Mr. Darwin’s name is connected,” Rolleston
-<span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“Many of the peculiarities which attach to biological classifications
-would thus receive a reasonable explanation; but
-where verification is, <i xml:lang="la" lang="la">ex hypothesi</i>, impossible, such a theory
-cannot be held to be advanced out of the region of probability.
-The acceptance or rejection of the general theory will depend,
-as does the acceptance or rejection of other views supported
-merely by probable evidence, upon the particular constitution
-of each individual mind to which it is presented!”</p>
-</div>
-
-<p>It was too much to expect that many of the
-older scientific men would retain sufficient intellectual
-flexibility to be able to recognise, as Lyell had, that
-the facts of nature were explained and predicted
-better by the new views than by those in which<span class="pagenum" id="Page_157">157</span>
-they had grown up. Darwin thoroughly understood
-this, and, writing to his friends, maintained that the
-fate of his views was in the hands of the younger
-men.</p>
-
-<p>A grand yet simple conception like that of
-natural selection, explaining and connecting together
-innumerable facts which people had previously
-explained differently, or had become accustomed to
-regard as inexplicable, must always remain as a
-stumbling-block to the majority of those who have
-reached or passed middle life before its first appearance.</p>
-
-<p>Hardly anything is more characteristic of Darwin
-than the tone with which he wrote to acknowledged
-opponents. Thus his letters to L. Agassiz (1868),
-Quatrefages (1869 or 1870), and Fabre (1880), are
-models of the way in which a correspondence which
-would present peculiar difficulties to most people
-may be conducted. In these letters there is not the
-least attempt to slur over or minimise the points of
-wide difference; on the contrary, they are most
-candidly stated, but with so much respect and
-sympathy, and with such marked appreciation of the
-knowledge he had gained from his correspondent,
-that the reader must have regretted the divergence
-of opinion as greatly as the writer.</p>
-
-<p>Tyndall has given a very interesting and pathetic
-account of the evident distress with which Professor
-L. Agassiz, chief of the opponents of Darwin in<span class="pagenum" id="Page_158">158</span>
-America, recognised the success of the teachings he
-could not accept.</p>
-
-<div class="blockquot">
-
-<p>“Sprung from a race of theologians, this celebrated man
-combated to the last the theory of natural selection. One of
-the many times I had the pleasure of meeting him in the
-United States was at Mr. Winthrop’s beautiful residence at
-Brookline, near Boston. Rising from luncheon, we all halted,
-as if by a common impulse in front of a window, and continued
-there a discussion which had been started at table. The
-maple was in its autumn glory; and the exquisite beauty of the
-scene outside seemed, in my case, to interpenetrate without
-disturbance the intellectual action. Earnestly, almost sadly,
-Agassiz turned and said to the gentlemen standing round, ‘I
-confess that I was not prepared to see this theory received as
-it has been by the best intellects of our time. Its success is
-greater than I could have thought possible.’”<a id="FNanchor_10" href="#Footnote_10" class="fnanchor">J</a></p>
-</div>
-
-<p>The history of science can hardly supply anything
-more sad than the blight which may fall on a man’s
-career because he is unable, from conscientious motives,
-to use some great means of advance. Such a weapon
-for the progress of science was provided by the Darwinian
-theory, and men were to be henceforth divided
-according to their use or neglect of the new opportunities.
-Men who up to that time had been equals
-were to be for ever separated, some to press forward
-in the front rank of scientific discovery, others to
-remain as interesting relics of a byegone age.</p>
-
-<p>It is hardly necessary to say that this does not
-apply to men, like Agassiz, who had already left their
-mark deep upon the science of their day, but it has a<span class="pagenum" id="Page_159">159</span>
-very real application to those men whose position was
-to be estimated by work done after the year 1858.</p>
-
-<p>In the midst of those years of struggle and anxiety
-which followed the appearance of the “Origin,” we
-meet with another instance of the same extraordinary
-foresight which appeared in his contention in favour
-of the persistence of the great oceans and continental
-areas. I refer to his views on spontaneous generation—a
-very ancient belief, and one which from time to
-time has been the will-o’-the-wisp of biological speculation,
-leading it into all kinds of fruitless and
-dangerous regions.<a id="FNanchor_11" href="#Footnote_11" class="fnanchor">K</a></p>
-
-<p>Dr. Carpenter’s “Introduction to the Study of
-Foraminifera” had been reviewed in the <i>Athenæum</i>
-(March 28th, 1863), the writer attacking evolution
-and favouring spontaneous generation, or, as it was
-then called, heterogeny. Darwin wrote to Hooker, who
-had lent him a copy of the paper, “Who would have
-ever thought of the old stupid <i>Athenæum</i> taking
-to Oken-like transcendental philosophy written in
-Owenian style!... It will be some time before we
-see ‘slime, protoplasm, etc.,’ generating a new animal....
-It is mere rubbish, thinking at present of the
-origin of life; one might as well think of the origin
-of matter.” In 1871 he <span class="locked">wrote:—</span></p>
-
-<div class="blockquot">
-
-<p>“It is often said that all the conditions for the first production
-of a living organism are now present, which could
-ever have been present. But if (and oh! what a big if!) we
-could conceive in some warm little pond, with all sorts of<span class="pagenum" id="Page_160">160</span>
-ammonia and phosphoric salts, light, heat, electricity, etc.,
-present, that a proteine compound was chemically formed
-ready to undergo still more complex changes, at the present
-day such matter would be instantly devoured or absorbed,
-which would not have been the case before living creatures
-were formed.”</p>
-</div>
-
-<p>About 1870 Dr. H. C. Bastian began working on
-the subject, and brought forward in his “Origin of
-Lowest Organisms” (1871), and “The Beginnings
-of Life” (1872), what he believed to be conclusive
-evidence of the truth of spontaneous generation, for
-which he proposed the term Archebiosis. His enthusiasm
-and strong convictions were contagious,
-and for a time the belief spread rather widely,
-although it soon collapsed before the researches and
-arguments of Pasteur, Tyndall, and Huxley. Darwin
-read “The Beginnings of Life,” and wrote about it to
-Wallace (August 28th, 1872) as <span class="locked">follows:—</span></p>
-
-<div class="blockquot">
-
-<p>“His [Bastian’s] general argument in favour of Archebiosis
-is wonderfully strong, though I cannot think much of some few
-of his arguments. The result is that I am bewildered and astonished
-by his statements, but am not convinced, though, on
-the whole, it seems to me probable that Archebiosis is true.
-I am not convinced, partly I think owing to the deductive cast
-of much of his reasoning; and I know not why, but I never
-feel convinced by deduction, even in the case of H. Spencer’s
-writings.... I must have more evidence that germs, or the
-minutest fragments of the lowest forms, are always killed by
-212° of Fahr.... As for Rotifers and Tardigrades being
-spontaneously generated, my mind can no more digest such
-statements, whether true or false, than my stomach can digest
-a lump of lead.”</p>
-</div>
-
-<hr />
-
-<div id="toclink_161" class="chapter">
-<p><span class="pagenum" id="Page_161">161</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXI">CHAPTER XXI.<br />
-
-<span class="subhead">VARIATION OF ANIMALS AND PLANTS UNDER DOMESTICATION:
-PANGENESIS (1868).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">We</span> now come to consider the succession of invaluable
-works produced by Darwin after the appearance of the
-“Origin,” the last of which—that on Earthworms—was
-published about six months before his death.</p>
-
-<p>Darwin’s method of bringing these results before
-the world was somewhat different from that most
-generally adopted by scientific men in this country,
-although of common occurrence in Germany. The
-great majority of scientific facts are here published by
-the proceedings or transactions of scientific societies,
-or in special journals; and although a scientific man
-frequently brings together his general results into a
-volume for the public, the original communications
-remain as the detailed exposition of his researches.</p>
-
-<p>Darwin, too, wrote a very large number of memoirs
-for the scientific societies, as may be seen from the list
-in Appendix III. of the “Life and Letters,” but the
-volumes which he subsequently published included
-<em>all</em> the previous details, with the addition of much
-new matter, and it is these volumes rather than the
-original communications which form the authoritative
-statement of his investigations. Such a method was<span class="pagenum" id="Page_162">162</span>
-possible and desirable with the subjects upon which he
-worked, all of which were of great interest to the thinking
-part of the general public, as well as to the
-experts; but in less attractive subjects it is not probable
-that the plan could be carried out in this country
-with any prospect of success.</p>
-
-<p>It has already been stated that Darwin looked on
-the “Origin of Species” as a short abstract of a greater
-work he intended to publish. It is likely that he at
-first contemplated a comprehensive work like the
-“Origin” itself, but soon found that his notes on
-domesticated animals and plants, the general results of
-which had been condensed into the first three chapters
-of the “Origin,” would form a work more than twice
-the size of the latter. He began arranging these notes
-on January 9th, 1860 (January 1st is the date given
-in the “Autobiography”), as soon as the second edition
-of the “Origin” was off his hands, but his “enormous
-correspondence,” as he calls it in the “Autobiography,”
-with friends about the “Origin,” and the reviews and
-discussions upon it, must have occupied a large part
-of his time; and then there was the third edition to
-bring out (published April, 1861). This edition must
-have cost much labour, as many parts were modified
-and enlarged to meet the objections or misunderstanding
-of reviewers.</p>
-
-<p>Francis Darwin tells us that the third chapter of
-“Animals and Plants, &amp;c.,” was still on hand at the
-beginning of 1861. His work on this book was furthermore
-interrupted by illnesses and by other researches.<span class="pagenum" id="Page_163">163</span>
-Thus, during 1860 he worked at Drosera, and during
-the latter part of 1861 and beginning of 1862 at
-the fertilisation of orchids. In his diary for 1866
-we meet with the entry, “<i>Nov. 21st</i>—Finished ‘Pangenesis,’”
-and later on, “<i>Dec. 22nd</i>—Began concluding
-chapter of book.” In this year, too, he brought
-out the fourth edition of the “Origin.” When the time
-for publication approached Darwin was much disappointed
-at the dimensions of the work. It was not
-published till January 30th, 1868, when it was proved
-that his fears were groundless, for a second edition of
-1,250 copies were required in the following month, the
-1,500 of the first edition having been all absorbed.</p>
-
-<p>This work is considered by some writers to be the
-greatest produced by Darwin; but I think we shall be
-right in accepting his own opinion that such words
-should be applied to the “Origin.” It is probable,
-however, that this book stands second in importance
-in the splendid list of works which have done so
-much to increase our knowledge of nature and to inspire
-others to continue the good work.</p>
-
-<div class="sidenote">ON VARIATION.</div>
-
-<p>“The Variation of Animals and Plants under
-Domestication” opens with a very clearly written account
-of natural selection; it proceeds to treat of the
-domestic quadrupeds and birds, describing the differences
-between the various breeds of each species,
-and making out as far as possible the history of their
-development from each other and from the wild stock.
-Cultivated plants are then treated in the same
-manner. The first volume concludes with two most<span class="pagenum" id="Page_164">164</span>
-important chapters on bud-variation and anomalous
-modes of reproduction, and on inheritance.</p>
-
-<p>The second volume deals with inheritance, crossing,
-effect of conditions of life, sterility, hybridism, selection
-by man, causes and laws of variability. Finally, all
-the main lines are brought to a common centre in
-the wonderful chapter in which he discloses his “provisional
-hypothesis of pangenesis.” This is of such
-interest, and is so characteristic of its author’s power
-of viewing the most divergent facts from a common
-standpoint, that it is desirable to give a tolerably full
-account of it.</p>
-
-<p>The following is a brief statement of the various
-classes of facts which Darwin attempted to connect
-by his hypothesis.</p>
-
-<p><i>Reproduction</i> is sexual and asexual, and the latter
-is of various kinds, although their differences are
-more apparent than real. It may be concluded that
-gemmation or budding, fission or division, the repair
-of injuries, the maintenance of each part, and the
-growth of the embryo “are all essentially the results
-of one and the same great power.”</p>
-
-<p>In parthenogenesis the ovum can develop without
-fertilisation, and hence the union of germs from
-different individuals cannot serve as an essential
-characteristic of sexual, as compared with asexual,
-generation. Although sexually-produced individuals
-tend to vary far more than those which are produced
-asexually, this is not always the case, and the variability,
-when it occurs, is subject to the same laws.<span class="pagenum" id="Page_165">165</span>
-Sexually-produced individuals very generally pass
-in development from a lower to a higher grade; but
-this can hardly be said to occur in certain forms,
-such as Aphis, etc.</p>
-
-<p>The differences between the two forms of reproduction
-being thus much less than at first sight
-appears, we are led to inquire for the reason why the
-more complex and difficult process is so universal.
-Sexual reproduction appears to confer two benefits
-on organisms—(1) “When species are rendered highly
-variable by changed conditions of life, the free intercrossing
-of the varying individuals will tend to keep
-each form fitted for its proper place in nature, and
-crossing can be effected only by sexual generation”;
-(2) Many experiments tend to show that free
-and wide intercrossing induces vigour in the
-offspring.</p>
-
-<p>Darwin concludes that the reason why the germ-cell
-perishes if it does not unite with another from
-the opposite sex is simply because it includes “too
-little formative matter for independent existence and
-development.” He was led to this conclusion by
-the fact that the male and female germ-cells “do
-not in ordinary cases differ in their power of giving
-character to the embryo,” and also from experiments
-which seemed to show that a certain number of
-pollen grains or of spermatozoa may be required to
-fertilise a single seed or ovum. “The belief that it
-is the function of the spermatozoa to communicate
-life to the ovule seems a strange one, seeing that the<span class="pagenum" id="Page_166">166</span>
-unimpregnated ovule is already alive, and continues
-for a considerable time alive.”</p>
-
-<p>It is very remarkable to note how largely Professor
-Weismann’s conclusions on this subject were
-anticipated by this part of Darwin’s work.</p>
-
-<p><i>Graft hybrids.</i>—The probability that a graft may
-alter the character of the stock to which it is united,
-so that hybrid buds might be formed by budding or
-grafting the tissues of distinct varieties or species,
-would, if it became a certainty, prove the essential
-identity of sexual and asexual reproduction; “for the
-power of combining in the offspring the characters
-of both parents is the most striking of all the
-functions of sexual generation.”</p>
-
-<p><i>Direct action of the male element on the female.</i>—Pollen
-from another species is known to affect the
-mother-plant in certain cases. Thus pollen from the
-lemon has caused stripes of lemon-peel in the fruit
-of the orange; the peel is, of course, formed by
-the mother-plant, and is quite different from
-the part which the male element is adapted to
-affect—viz. the ovule. Similar cases are known
-among animals, as in the celebrated example of
-Lord Morton’s mare.</p>
-
-<p><i>Development.</i>—The changes by which the embryo
-reaches maturity differ immensely, even within the
-limits of the same compact group. Forms which
-closely resemble each other in the mature state, and
-are intimately related to each other, such as the various
-species of lobster and crayfish, etc., pass through<span class="pagenum" id="Page_167">167</span>
-a totally different developmental history. Hence we
-are led to believe in the complete independence of
-“each structure from that which precedes and follows
-it in the course of development.”</p>
-
-<p><i>The functional independence of the elements or
-units of the body. Variability and inheritance.</i>—Variability
-generally results “from changed conditions
-acting during successive generations.” The influence
-is exerted on the sexual system, and if extreme, impotence
-tends to be produced. Bud-variation proves
-that “variability is not necessarily connected with
-the sexual system.” The inherited effects of use and
-disuse of parts imply that the changes in the cells
-of a distant part of the body affect the reproductive
-cells, so that the being produced from one of these
-cells inherits the changes. “Nothing in the whole
-circuit of physiology is more wonderful.”</p>
-
-<p>“Inheritance is the rule and non-inheritance the
-anomaly.” Inheritance follows laws, such as the
-tendency for a character to appear at corresponding
-ages in parent and offspring. Reversion “proves to
-us that the transmission of a character and its
-development ... are distinct powers.” Crossing
-strongly induces reversion. “Every character which
-occasionally reappears is present in a latent form in
-each generation.”</p>
-
-<div class="tb">* * * * *</div>
-
-<div class="sidenote">PANGENESIS.</div>
-
-<p>The hypothesis of pangenesis attempts to explain
-and connect together all the facts and conclusions
-which have been summarised in the preceding pages.<span class="pagenum" id="Page_168">168</span>
-This hypothesis assumes that each one of the countless
-cells of which the body of a higher animal is
-composed throws off a minute gemmule which, with
-those derived from other cells, exists in the body,
-and when supplied with nutriment multiplies by
-division. Each gemmule is capable of ultimate development
-into a cell similar to the one from which it,
-either directly or indirectly, arose. Each cell of the
-body dispatches its representative, as it were, to each
-single germ-cell, and this explains how it is that the
-latter possess the power of reproducing the likeness
-of the parent body. But the germ-cells also receive
-dormant gemmules which may remain undeveloped
-until some generation in the remote future. The
-development of the gemmules into cells depends on
-their union with the developing cells which precede
-them in the order of growth. Gemmules are thrown
-off during each stage of growth and during maturity.</p>
-
-<p>This hypothesis of pangenesis is so called because
-the whole body is supposed to produce the
-elements from which new individuals arise, the
-germ-cells being only the union of these elements
-into clusters.</p>
-
-<p>The fact that hybrids may be produced by
-grafting, that the pollen can act on the tissues of
-the female plant, and the male germ-cells on the
-future offspring of the female, implies that the reproductive
-material can exist and the reproductive
-processes take place in the tissues, and that they
-are not confined to the germ-cells.</p>
-
-<p><span class="pagenum" id="Page_169">169</span></p>
-
-<p>The retention of dormant gemmules, and their
-passage from generation to generation until their
-development, may seem improbable; but is it more
-so than the <em>fact</em> which their presence would explain—viz.
-the transmission of latent structures and their
-ultimate reappearance?</p>
-
-<p>The development of the whole plant from a
-Begonia leaf implies that these gemmules are very
-widely distributed through the tissues.</p>
-
-<p>The elective affinity of the gemmules for the cells
-which precede them in growth may be paralleled by
-the affinity of the male and female germ-cells, as we
-see in the preference of a plant for the pollen grains
-of its own over those of closely-allied species, or by
-the attraction of the minute germs of disease to
-certain tissues of the body.</p>
-
-<p>It is possible that the numerous gemmules thrown
-off by the cells of a complex structure, such as a
-feather, “may be aggregated into a compound gemmule.”
-In the case of a petal, however, where parts
-as well as the whole are apt to develop, as is seen in
-the case of “stripes of the calyx assuming the colour
-and texture of the corolla,” it is more probable that
-the gemmules are separate and free. The cell itself
-is a complex structure, and we do not know whether
-its separate parts are not developed from the separate
-gemmules of an aggregate.</p>
-
-<p>Such an hypothesis explains the fundamental
-similarity which has already been shown to exist
-between all modes of reproduction. The gemmules<span class="pagenum" id="Page_170">170</span>
-collected in bud or germ-cell are essentially similar;
-and were it not for the special advantages of sexual
-reproduction (increased vigour and more marked variation
-of offspring), we can well believe that it would
-have been much less general. The formation of graft-hybrids,
-and the action of the male element on the
-mother and on future offspring, become intelligible.
-The antagonism between growth and sexual reproduction
-in animals, and between increase by buds,
-etc., and seeds in plants, can be understood by the
-use of gemmules in one direction preventing their
-simultaneous use in another.</p>
-
-<p>The regrowth of an amputated part, as in the
-salamander or snail, is explained by the presence and
-development of gemmules previously thrown off from
-the part. The difficulty that a limb is produced of
-the same age as that which was lost, and not a larval
-limb, and that the cells with which the gemmules
-must unite at first are not those which precede them
-in the course of growth, but mature cells, is met by
-the consideration that this power is a special one
-adapted to meet special dangers to certain parts of
-certain animals, and that it is therefore probable that
-appropriate provision has been made by natural
-selection: it may be in the form of “a stock of
-nascent cells or of partially developed gemmules.”
-The existence of these latter in buds, and their
-absence from sexual cells, may account for bud
-development being the more direct and brief of the
-two. The much greater tendency to repair lost parts<span class="pagenum" id="Page_171">171</span>
-in lower and younger forms may be due to the same
-cause.</p>
-
-<p>The occasional tendency of hybrids to resemble
-one parent in one part and the other in another
-may be due to superabundance of gemmules in the
-fertilised germ, those from one parent having “some
-advantage in number, affinity, or vigour over those
-derived from the other parent.” The general preponderance
-of one parent over the other may be
-similarly explained. The cases in which “the colour
-or other characters of either parent tend to appear
-in stripes or blotches” are to be understood by the
-gemmules having an affinity for others of the same
-kind.</p>
-
-<p><i>The sterility of hybrids</i> is entirely due to the
-reproductive organs being affected; in the case of
-plants they continue to propagate freely by buds. The
-hybrid cells throw off hybrid gemmules which collect
-in the buds but cannot do so in the reproductive
-organs.</p>
-
-<p><i>Development and metamorphosis.</i>—The remarkable
-facts of development and metamorphosis are well
-explained by the hypothesis. Allied forms may pass
-to a similar end through very dissimilar stages or
-conversely. Parts may appear to develop within
-previously existing corresponding parts, or they may
-appear within parts which are quite distinct. These
-divergent facts are explained by the hypothesis,
-each part during each stage being formed independently
-from the gemmules of the same part<span class="pagenum" id="Page_172">172</span>
-in previous generations, and not, although it may
-appear to do so, from the corresponding parts of
-earlier stages. In the process of time certain parts
-during certain stages may be affected by use or
-disuse or surroundings, and the parts of subsequent
-generations will be similarly affected, because formed
-from correspondingly altered gemmules; but this need
-not affect the other stages of the same parts.</p>
-
-<p><i>Transposition and multiplication of parts.</i>—The
-cases of abnormal transposition or multiplication of
-organs—for instance, the development of teeth in the
-palate or of pollen in the edge of a petal—are to be
-explained by supposing that the gemmules unite with
-wrong cells instead of, or as well as, the right ones;
-“and this would follow from a slight change in their
-elective affinities.” Such slight changes are known
-to occur; for instance, certain plants “absolutely
-refuse to be fertilised by their own pollen, though
-abundantly fertile with that of any other individual
-of the same species.” Inasmuch as the cells of
-adjoining parts will often have nearly the same
-structure, we can understand that some slight change
-in elective affinity may affect a large area. Hence
-we can account for a crowd of horns on the head of
-a sheep, or many spurs on the leg of a fowl, etc.
-Frequently repeated parts are extremely liable to
-vary in number; in this case we have a large number
-of closely allied gemmules and of points for their
-union, and slight changes in elective affinity would
-be specially apt to occur.</p>
-
-<p><span class="pagenum" id="Page_173">173</span></p>
-
-<p><span class="smcap">Variability.</span>—Changed conditions may lead to
-irregularity in the number of gemmules derived from
-various parts of the body; deficiency in number might
-cause variation in any part by leaving some of the
-cells free to unite with allied gemmules.</p>
-
-<p>The direct action of surroundings, or the effect of
-use or disuse on a part, may cause corresponding
-modifications of the gemmules, and through these of
-the part in the succeeding generation. “A more perplexing
-problem can hardly be proposed,” and yet it
-receives an explanation on this hypothesis. Such
-causes must, as a rule, act during many generations
-before the modification reappears in the offspring.
-This may be due to the unaltered gemmules derived
-from earlier generations, and their gradual replacement
-by the increasing number of altered gemmules.</p>
-
-<p>Variation in plants is much more frequent in
-sexually produced than it is in asexually produced
-individuals. This may be due to the absence in the
-latter of that great cause of variability, changes in
-the reproductive organs under altered conditions.
-Furthermore, the former alone pass through the
-earlier phases of development, when structure is most
-plastic and yields most readily to the causes inducing
-variability.</p>
-
-<p>The stability of hybrids and of many varieties
-when propagated by buds, as compared with their
-reversion to the parent form when propagated by
-seed, remains inexplicable.</p>
-
-<p>Hence variability is explained as due (1) to the<span class="pagenum" id="Page_174">174</span>
-irregularity in number of gemmules, to their transpositions,
-and redevelopment when dormant; and (2)
-to their actual modification and the gradual replacement
-by them of unaltered gemmules.</p>
-
-<p><span class="smcap">Inheritance.</span>—The non-transmission by heredity
-of mutilations, even when repeated for many generations,
-as in docking the tails of certain domesticated
-breeds, may be explained by the persistence of gemmules
-from still earlier generations. The cases of
-inheritance when mutilations are followed by disease,
-as in Brown-Séquard’s experiments on guinea-pigs,
-may be due to the gemmules being attracted to the
-diseased part and there destroyed.</p>
-
-<p>The disappearance of a rudimentary part, together
-with its occasional reappearance by reversion, is to be
-understood by the existence of ancestral gemmules,
-for which the corresponding cells have, except in the
-cases of reversion, lost their affinity. When the
-disappearance is final and complete, the gemmules
-have probably perished altogether.</p>
-
-<p>“Most, or perhaps all, of the secondary characters
-which appertain to one sex, lie dormant in the other
-sex; that is, gemmules capable of development into
-the secondary male sexual characters are included
-within the female; and conversely female characters
-in the male.” This is seen in cases of castration or
-when the sexual organs from any cause have become
-functionless. The sex in which such changes are
-brought about tends to develop the secondary sexual
-characters of the other sex. The normal development<span class="pagenum" id="Page_175">175</span>
-of the secondary characters proper to the sex
-of the individual may be explained by a slight
-difference in the elective affinity of the cells so that
-they attract the corresponding gemmules rather than
-those of the opposite sex, which as we have seen
-are also present.</p>
-
-<p>The male characters of the male sex are in many
-species latent except at certain seasons of the year,
-and in both sexes the proper characters are latent
-until sexual maturity. All such latent characters are
-closely connected with the cases of ordinary reversion.
-The appearance (whether seasonal or in the course of
-development) of cells with affinities for the latent
-gemmules explains the development of the characters
-in question.</p>
-
-<p>Certain butterflies and plants (<i>e.g.</i> Lythrum) produce
-two or more separate forms of individuals. In
-these cases each individual includes the latent gemmules
-of the other forms as well as its own. Hermaphroditism
-in unisexual species, and especially in
-the occasional cases of insects in which the right side
-of the body is one sex and the left side the other, the
-line of separation dividing the individual into two
-equal halves, can be explained by slight abnormal
-changes in the affinities of cells for gemmules, so
-that a certain group of cells, or all the cells on one
-side of the body, attract the gemmules which would
-normally have remained latent.</p>
-
-<p>Reversion is induced by a change of conditions
-and especially by crossing. The first results of crossing<span class="pagenum" id="Page_176">176</span>
-are usually intermediate between the parents, but in
-the next generation there is commonly reversion to
-one or both parent-forms, or even to a more remote
-ancestor. The existence of abundant hybridised
-gemmules is shown by the propagation of the cross in
-a true form by means of buds; but dormant gemmules
-from the parent-form are also present and multiply.
-In the sexual elements of the hybrid there are both
-pure and hybrid gemmules, and the addition of the
-pure gemmules in one sex to those in the other
-accounts for the reversion, especially if we assume that
-pure “gemmules of the same nature would be
-especially apt to combine.” Partial reversion on the
-one hand, and the reappearance of the hybrid form
-on the other, would be respectively due to a combination
-of pure with hybrid gemmules, and of the hybrid
-gemmules from both parent hybrids.</p>
-
-<p>When characters which do not blend exist in the
-parents, crossing may result in an insufficiency of
-gemmules from the male alone and from the female
-alone, and then dormant ancestral gemmules might
-have the opportunity of development, and thus cause
-reversion. Similarly certain conditions might favour
-the increase and development of dormant gemmules.
-Diseases appearing in alternate generations, or gaining
-strength by the intermission of a generation,
-may be due to the increase of the gemmules in the
-intervening time, and the same explanation may hold
-for the sudden and irregular increase of a weakly
-inherited modification.</p>
-
-<p><span class="pagenum" id="Page_177">177</span></p>
-
-<p>Darwin ends his general conclusions with these
-<span class="locked">words:—</span></p>
-
-<div class="blockquot">
-
-<p>“No other attempt, as far as I am aware, has been made,
-imperfect as this confessedly is, to connect under one point of
-view these several grand classes of facts. An organic being is
-a microcosm—a little universe, formed of a host of self-propagating
-organisms, inconceivably minute and numerous as the
-stars in heaven.”</p>
-</div>
-
-<hr />
-
-<div id="toclink_178" class="chapter">
-<p><span class="pagenum" id="Page_178">178</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXII">CHAPTER XXII.<br />
-
-<span class="subhead">PANGENESIS AND CONTINUITY OF THE GERM-PLASM:
-DARWIN’S CONFIDENCE IN PANGENESIS.</span></h2>
-</div>
-
-<div class="sidenote">PANGENESIS.</div>
-
-<p>Darwin’s letters prove that he thought very highly
-of this hypothesis; and whether the future determine
-it to be true or erroneous, it must surely rank as
-among the greatest of his intellectual efforts. In his
-autobiography he says of <span class="locked">it:—</span></p>
-
-<div class="blockquot">
-
-<p>“An unverified hypothesis is of little or no value; but if
-any one should hereafter be led to make observations by which
-some such hypothesis could be established, I shall have done
-good service, as an astonishing number of isolated facts can be
-thus connected together and rendered intelligible.”</p>
-</div>
-
-<p>The hypothesis was submitted to Huxley (May
-27th, 1865?) in manuscript and alluded to in the
-letter sent at the same time. An unfavourable reply
-was evidently received, for we find Darwin writing to
-Huxley, July 12th <span class="locked">(1865?):—</span></p>
-
-<div class="blockquot">
-
-<p>“I do not doubt your judgment is perfectly just, and I will
-try to persuade myself not to publish. The whole affair is
-much too speculative; yet I think some such view will have
-to be adopted, when I call to mind such facts as the inherited
-effects of use and disuse, &amp;c.”</p>
-</div>
-
-<p>This last sentence is of great interest, and the
-same opinion comes out strongly in his published<span class="pagenum" id="Page_179">179</span>
-account of the hypothesis, viz. the view that the real
-facts which imperatively demand some material to
-pass from the body-cells to the germ-cells in order
-to account for their hereditary transmission are the
-effects of use and disuse, or the influence of surroundings—in
-fact, all those characters which are now
-called “acquired.” And it is impossible to escape
-the conclusion that, if acquired characters are
-transmissible by heredity, an hypothesis which
-is substantially that of pangenesis will have to
-be accepted. Darwin did not doubt this transmission,
-and he framed pangenesis mainly to
-account for it.</p>
-
-<p>Considerable doubt has of recent years been thrown
-upon the transmission of acquired characters, and if
-hereafter this doubt be justified, it will be possible to
-substitute for pangenesis a hypothesis like the “continuity
-of the germ-plasm” brought forward by
-Professor Weismann. A few words indicating the
-contrast between the two hypotheses may not be out
-of place.</p>
-
-<p>In Professor Weismann’s hypothesis the germ-plasm
-contained in the nucleus of the germ-cell possesses,
-if placed under right conditions, the power of
-developing into an organism. It is not, however, entirely
-used up during development, and the part which
-remains grows and is stored in the germ-cells of the
-offspring, and ultimately develops into the succeeding
-generation. Hence parent and offspring resemble
-each other because they are formed from the same<span class="pagenum" id="Page_180">180</span>
-thing. There is no real break between the generations;
-they are thrown up successively from a continuous
-line of germ-plasm. In this hypothesis the germ
-is the essential thing, the body a mere secondary product.
-It is a theory of Blastogenesis as contrasted
-with Pangenesis. The hereditary transmission of acquired
-characters, in which many still believe, is quite
-irreconcilable with it, and if substantiated would overthrow
-it altogether.</p>
-
-<p>On the other hand the body-cells are the essential
-elements of pangenesis, and the germ-cells the mere
-meeting-places of their representatives and quite
-devoid of significance on their own account. There
-is some sort of interruption between successive
-generations, as the gemmules develop into cells,
-which again throw off gemmules; the break, however,
-is bridged by the ancestral gemmules and by
-the life of the body-cell which intervenes between
-the gemmule from which it arose and that to which
-it gives rise.</p>
-
-<p>The remaining chief occasions on which Darwin
-alludes to pangenesis in his published letters are
-quoted below; they prove his confidence in the
-hypothesis and the nature of the hold it had upon his
-mind.</p>
-
-<p>Later on he again wrote to Huxley on the same
-<span class="locked">subject:—</span></p>
-
-<div class="blockquot">
-
-<p>“I am rather ashamed of the whole affair, but not converted
-to a no-belief.... It is all rubbish to speculate as I have
-done; yet, if I ever have strength to publish my next book, I<span class="pagenum" id="Page_181">181</span>
-fear I shall not resist ‘Pangenesis,’ but I assure you I will put
-it humbly enough. The ordinary course of development of
-beings, such as the Echinodermata, in which new organs are
-formed at quite remote spots from the analogous previous parts,
-seems to me extremely difficult to reconcile on any view except
-the free diffusion in the parent of the germs or gemmules of
-each separate new organ: and so in cases of alternate generation.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Lyell</span>, <i>August 22nd, 1867</i>.</p>
-
-<div class="blockquot">
-
-<p>“I have been particularly pleased that you have noticed
-Pangenesis. I do not know whether you ever had the feeling
-of having thought so much over a subject that you had lost all
-power of judging it. This is my case with Pangenesis (which is
-26 or 27 years old), but I am inclined to think that if it be
-admitted as a probable hypothesis it will be a somewhat
-important step in Biology.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Asa Gray</span>, <i>October 16th, 1867</i>.</p>
-
-<div class="blockquot">
-
-<p>“The chapter on what I call Pangenesis will be called a
-mad dream, and I shall be pretty well satisfied if you think it
-a dream worth publishing; but at the bottom of my own mind
-I think it contains a great truth.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Hooker</span>, <i>November 17th</i> [1867].</p>
-
-<div class="blockquot">
-
-<p>“I shall be intensely anxious to hear what you think about
-Pangenesis; though I can see how fearfully imperfect, even in
-mere conjectural conclusions, it is; yet it has been an infinite
-satisfaction to me somehow to connect the various large groups
-of facts, which I have long considered, by an intelligible
-thread.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Fritz Müller</span>, <i>January 30th</i> [1868].</p>
-
-<div class="blockquot">
-
-<p>“... I should very much like to hear what you think of
-‘Pangenesis,’ though I fear it will appear to <em>every one</em> far too
-speculative.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_182">182</span></p>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Hooker</span>, <i>February 23rd</i> [1868].</p>
-
-<p>After expressing a fear that Pangenesis is still-born
-because of the difficulty with which it is understood,
-he <span class="locked">says:—</span></p>
-
-<div class="blockquot">
-
-<p>“You will think me very self-sufficient, when I declare that
-I feel <em>sure</em> if Pangenesis is now still-born it will, thank God, at
-some future time reappear, begotten by some other father, and
-christened by some other name. Have you ever met with any
-tangible and clear view of what takes place in generation,
-whether by seeds or buds, or how a long-lost character can possibly
-reappear; or how the male element can possibly affect
-the mother plant, or the mother animal, so that her future
-progeny are affected? Now all these points and many others
-are connected together, whether truly or falsely is another
-question, by Pangenesis. You see I die hard, and stick up for
-my poor child.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Wallace</span>, <i>February 27th</i> [1868].</p>
-
-<div class="blockquot">
-
-<p>“You cannot well imagine how much I have been pleased
-by what you say about ‘Pangenesis’.... What you say
-exactly and fully expresses my feeling, viz. that it is a relief to
-have some feasible explanation of the various facts, which can
-be given up as soon as any better hypothesis is found. It has
-certainly been an immense relief to my mind; for I have been
-stumbling over the subject for years, dimly seeing that some
-relation existed between the various classes of facts.... You
-have indeed pleased me, for I had given up the great god Pan
-as a still-born deity.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Hooker</span>, <i>February 28th</i> [1868].</p>
-
-<div class="blockquot">
-
-<p>“I see clearly that any satisfaction which Pan may give will
-depend on the constitution of each man’s mind.... I
-heard yesterday from Wallace, who says (excuse horrid vanity),
-‘I can hardly tell you how much I admire the chapter on
-“Pangenesis.” It is a <em>positive comfort</em> to me to have any feasible
-explanation of a difficulty that has always been haunting me,<span class="pagenum" id="Page_183">183</span>
-and I shall never be able to give it up till a better one supplies
-its place, and that I think hardly possible, &amp;c.’ Now his foregoing
-[italicised] words express my sentiments exactly and
-fully: though perhaps I feel the relief extra strongly from
-having during many years vainly attempted to form some hypothesis.
-When you or Huxley say that a single cell of a plant, or
-stump of an amputated limb, has the ‘potentiality’ of reproducing
-the whole—or ‘diffuses an influence,’ these words give me
-no positive idea;—but, when it is said that the cells of a plant,
-or stump, include atoms derived from every other cell of the
-whole organism and capable of development, I gain a distinct
-idea. But this idea would not be worth a rush, if it applied to
-one case alone; but it seems to me to apply to all the forms of
-reproduction—inheritance—metamorphosis—to the abnormal
-transposition of organs—to the direct action of the male
-element on the mother plant, &amp;c. Therefore I fully believe
-that each cell does <em>actually</em> throw off an atom or gemmule of
-its contents;—but whether or not, this hypothesis serves as
-a useful connecting link for various grand classes of physiological
-facts, which at present stand absolutely isolated.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">V. Carus</span>, <i>March 21st</i> [1868].</p>
-
-<div class="blockquot">
-
-<p>“... Sir C. Lyell says to every one, ‘You may not
-believe in “Pangenesis,” but if you once understand it, you
-will never get it out of your mind.’ And with this criticism
-I am perfectly content. All cases of inheritance and reversion
-and development now appear to me under a new light.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Fritz Müller</span>, <i>June, 1868</i>.</p>
-
-<div class="blockquot">
-
-<p>“I have yet hopes that you will think well of Pangenesis.
-I feel sure that our minds are somewhat alike, and I find it a
-great relief to have some definite, though hypothetical view,
-when I reflect on the wonderful transformations of animals,—the
-re-growth of parts,—and especially the direct action of
-pollen on the mother-form, &amp;c. It often appears to me almost
-certain that the characters of the parents are ‘photographed’
-on the child, only by means of material atoms derived from
-each cell in both parents, and developed in the child.”</p>
-</div>
-
-<p><span class="pagenum" id="Page_184">184</span></p>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Asa Gray</span>, <i>May 8th</i> [1868].</p>
-
-<div class="blockquot">
-
-<p>“Your article in the <i>Nation</i> [March 19th] seems to me
-very good, and you give an excellent idea of Pangenesis—an
-infant cherished by few as yet, except his tender parent,
-but which will live a long life. There is parental presumption
-for you!”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">E. Ray Lankester</span>, <i>March 15th</i> [1870].</p>
-
-<div class="blockquot">
-
-<p>“I was pleased to see you refer<a id="FNanchor_12" href="#Footnote_12" class="fnanchor">L</a> to my much despised
-child, ‘Pangenesis,’ who I think will some day, under some
-better nurse, turn out a fine stripling.”</p>
-</div>
-
-<p class="p1 b1 center"><i>To</i> <span class="smcap">Wallace</span>, <i>August 28th, 1872</i>.</p>
-
-<div class="blockquot">
-
-<p>“Notwithstanding all his [Dr. Bastian’s] sneers I do not
-strike my colours as yet about Pangenesis.”</p>
-</div>
-
-<p>In the second edition of “Animals and Plants,”
-Beale’s criticism of the hypothesis is alluded to with
-characteristic candour and humour:—“Dr. Lionel
-Beale (<i>Nature</i>, May 11th, 1871, p. 26) sneers at the
-whole doctrine with much acerbity and some justice.”
-Galton’s paper before the Royal Society (March 30th,
-1871), upon the results of inter-transfusion of blood
-as destructive of pangenesis, was answered by Darwin
-in <i>Nature</i> (April 27th, 1871). He did “not allow
-that pangenesis has as yet received its death-blow,
-though from presenting so many vulnerable points
-its life is always in jeopardy.”</p>
-
-<p>Galton had argued that the gemmules present in
-the blood of one individual would be expected to pass
-into the other individual and to produce hereditary<span class="pagenum" id="Page_185">185</span>
-effects on its offspring. This, however, did not occur.
-Romanes repeated these experiments under more
-rigid conditions, but with the same negative results;
-equally negative were the effects of his transplantation
-of skin from one animal to another, although the
-skin grew quite successfully in its new position.</p>
-
-<hr />
-
-<div id="toclink_186" class="chapter">
-<p><span class="pagenum" id="Page_186">186</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXIII">CHAPTER XXIII.<br />
-
-<span class="subhead">DESCENT OF MAN—EXPRESSION OF EMOTIONS—EARTH-WORMS
-(1871–81).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">The</span> work on “The Descent of Man” was begun as
-soon as Darwin had sent the manuscript of “Animals
-and Plants” to the printers, although notes on the
-subject had been collected from time to time during
-the previous thirty years—in fact, ever since Darwin
-had come to definite conclusions on evolution.</p>
-
-<p>The book was published February 24th, 1871, but,
-as in the case of his other publications, continuous
-work upon the manuscript had been impossible. The
-volume attracted great interest, and 5,000 copies were
-printed in 1871 in addition to the first 2,500.</p>
-
-<p>The full title of the book is “The Descent of
-Man, and Selection in Relation to Sex,” and, as this
-title almost implies, it is made up of two distinct
-works, which might well have been issued separately.
-The first part, dealing with man, is far shorter than
-the other. Darwin had from the first considered
-that his theory of evolution by natural selection
-would involve man as well as the other animals, and,
-that no one might accuse him of want of candour, he
-had said in the “Origin” that by this work “light
-would be thrown on the origin of man and his<span class="pagenum" id="Page_187">187</span>
-history.” But he was anxious to justify this statement,
-which was, of course, distasteful to very
-many in those days, by a most complete treatment
-of the subject.</p>
-
-<div class="sidenote">DESCENT OF MAN.</div>
-
-<p>He opens this part of the work, which he calls
-“The Descent or Origin of Man,” by discussing the
-structures which are common to man and animals,
-including those which are represented in man in a
-rudimentary state, and by showing the similarity of
-the phases through which man and animals pass
-during their embryological development.</p>
-
-<p>Having thus shown that man was probably descended
-from some lower form, he considers the mode
-by which the process was effected, showing that man
-possesses variability in body and mind, and is, like
-other animals, subject to all the laws of inheritance
-and variation, and to the direct action of surrounding
-conditions, and to the effect of the use and disuse
-of parts, and that his rate of increase is such as to
-render a large amount of extermination inevitable.
-In other words, he presents the same facilities for
-the operation of natural selection as those presented
-by other animals. The points in which man differs
-from other animals are then considered in relation
-to their possible origin by natural selection. The
-differences and resemblances between the mind of
-man and animals are discussed in much detail, and
-the origin of the former through natural selection
-is defended. This part concludes with the consideration
-of the position of man in the animal series, his<span class="pagenum" id="Page_188">188</span>
-birthplace and antiquity, and with an account of the
-formation of races.</p>
-
-<p>In the second part Darwin brings forward a large
-body of evidence in favour of his hypothesis of sexual
-selection—viz. the view that, in the higher animals,
-some alteration, especially of the secondary sexual
-characters, is produced by the preferences and
-rejections of the sex which is sought by the other.
-Such results are commonly found in the males as a
-result of the preferences of the females accumulated
-through countless generations; but in some species
-the females court the males, and are themselves
-subject to the same process of improvement by
-selection.</p>
-
-<p>Opinion is still divided on this most interesting
-question. Wallace, more convinced than ever as to
-the efficiency and scope of natural selection, after
-first doubting, has finally come to reject sexual
-selection altogether. Probably the majority of
-naturalists are convinced by Darwin’s arguments
-and his great array of facts that the principle of
-sexual selection is real, and accounts for certain
-relatively unimportant features in the higher animals,
-and they further accept Darwin’s opinion that its
-action has always been entirely subordinate to natural
-selection.</p>
-
-<p>A brief third part considers sexual selection in
-relation to man.</p>
-
-<p>Darwin says, in his “Autobiography,” that sexual
-selection and “the variation of our domestic productions,<span class="pagenum" id="Page_189">189</span>
-together with the causes and laws of
-variation, inheritance, and the intercrossing of plants,
-are the sole subjects which I have been able to write
-about in full, so as to use all the materials which I
-have collected.”</p>
-
-<div class="sidenote">EXPRESSION OF EMOTIONS.</div>
-
-<p>“The Expression of the Emotions,” at first intended
-as a chapter of the “Descent,” was begun,
-only two days after the proofs of the latter had
-been corrected, on January 15th, 1871. The book
-was published in the autumn of the following year;
-the edition consisted of 7,000 copies, and 2,000 were
-printed at the end of the year; and this, we are told,
-was a mistake, as it prevented the appearance of
-a second edition, with notes and corrections, during
-the author’s lifetime. Darwin had begun to take
-notes on this subject when his first child was born,
-December 27th, 1839, for he tells us that, even then,
-he felt convinced “that the most complex and fine
-shades of expression must all have had a gradual
-and natural origin.”—(“Autobiography.”)</p>
-
-<p>In this work Darwin argues with great wealth of
-illustration and the record of numberless interesting
-observations, that the movements of expression are to
-be explained by three principles. The first of these is
-that movements made in gratifying some desire
-become by repetition so habitual that the slightest
-feeling of desire leads to their performance, however
-useless they may then be. The second principle is
-that of antithesis—“the habit of voluntarily performing
-opposite movements under opposite impulses.”<span class="pagenum" id="Page_190">190</span>
-The third principle is “the direct action of the
-excited nervous system on the body, independently
-of the will, and independently, in large part, of
-habit.”</p>
-
-<p>By showing that the expressions of emotions could
-thus be explained naturally, Darwin undermined the
-position taken up by Sir Charles Bell, that the muscles
-used in producing expression were created for this
-special end.</p>
-
-<p>In 1876 he re-commenced geological work, bringing
-out his previous works on “Volcanic Islands,” and on
-“South America,” as a single volume. In this year
-too he wrote (November 16th) a most interesting
-letter to James Geikie, offering an explanation of the
-large stones standing in an upright position in the
-drift of the south of England. He had noticed the
-same thing with the flints in the red clay left upon the
-chalk as a residuum after the action of solvent agencies
-on the latter. This position he explained was due to
-the movement following the slow subsidence of parts of
-the clay as the chalk beneath dissolved, the flints arranging
-themselves along the lines of least resistance.
-This suggested to him the view that the flints in the
-drift are to be explained by the subsidence, during the
-warmer climate which followed the glacial period, of
-alternate layers of snow and drift accumulated during
-the winters and summers respectively, of the cold
-period itself.</p>
-
-<p>This interesting view will, Geikie believes, come to
-be accepted as the truth.</p>
-
-<p><span class="pagenum" id="Page_191">191</span></p>
-
-<div class="sidenote">WORK OF EARTH-WORMS.</div>
-
-<p>The book upon “The Formation of Vegetable
-Mould Through the Action of Worms,” must be included
-among his geological works, although it contains
-a great many observations of deep zoological interest.
-It has been stated already that he wrote a paper on
-this subject for the Geological Society in 1838. In
-1877 he studied the mode by which Roman remains
-gain their protective covering of mould; again towards
-the end of 1880 he began systematically to prepare the
-book, which was published on October 10th of the following
-year. It was extremely successful, 8,500 copies
-being sold in three years.</p>
-
-<p>This interesting work affords a good illustration of
-the tremendous results obtained, even in a moderate
-time, by an immense number of workers all using their
-powers in one direction. Each single earth-worm
-swallows earth in the excavation of its burrow and for
-the nutriment it contains, the waste material being
-ejected as “castings” at the surface, and as a lining to
-the burrow. But although the amount of earth thus
-swallowed by a single worm is not large, worms are so
-numerous that “the whole of the superficial mould ...
-has passed, and will again pass, every few years through
-the bodies of worms.” The result of this unceasing
-transport of the deeper mould to the surface is shown
-to be the burial of stones, either singly or in layers (as
-in paths), the covering and consequent protection of
-ancient buildings, and the preparation of soil for
-plants. In addition to this, the geological denuding
-agencies are assisted by the manner in which the<span class="pagenum" id="Page_192">192</span>
-deeper soil is brought into a position in which it is
-exposed to their action.</p>
-
-<p>In 1879 he wrote and published a life of his grandfather,
-Erasmus Darwin, as “a preliminary notice” to
-the English translation of E. Krause’s Life; but
-Darwin’s contribution forms the larger part of the
-volume.</p>
-
-<hr />
-
-<div id="toclink_193" class="chapter">
-<p><span class="pagenum" id="Page_193">193</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXIV">CHAPTER XXIV.<br />
-
-<span class="subhead">BOTANICAL WORKS (1862–86).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">Darwin’s</span> botanical works are referred to separately,
-and receive more systematic treatment than the others,
-in the great “Life and Letters.” They form, together
-with the botanical letters, the subject of the seventh
-to the twelfth chapters in the last volume. It will
-therefore be unnecessary to treat them in any detail,
-although they form some of the most important and
-interesting of all his biological investigations.</p>
-
-<p><i>Fertilisation of flowers.</i>—“The Fertilisation of
-Orchids” was the first published of the botanical works,
-appearing in 1862, followed by a second and greatly
-altered edition in 1877. The object of the work “is
-to show that the contrivances by which orchids are
-fertilised are as varied and almost as perfect as any of
-the most beautiful adaptations in the animal kingdom;
-and secondly, to show that these contrivances
-have for their main object the fertilisation of
-the flowers with pollen brought by insects from a distant
-plant.” Even in 1837 Darwin had written in his
-note-book, “Do not plants which have male and
-female organs together [<i>i.e.</i> in the same flower] yet
-receive influence from other plants? Does not Lyell
-give some argument about varieties being difficult to<span class="pagenum" id="Page_194">194</span>
-keep [true] on account of pollen from other plants?
-Because this may be applied to show all plants do
-receive intermixture.” (Quoted in the “Life and
-Letters.”) In 1841, Robert Brown, the distinguished
-botanist, advised Darwin to read Sprengel’s “Secret of
-Nature Displayed” (Berlin, 1793). The result was to
-encourage and assist Darwin in his work on fertilisation
-of flowers by insects, and to bring about the first
-due recognition of Sprengel’s merits, long after his
-death.</p>
-
-<p>“<i>The Effects of Cross- and Self-fertilisation in the
-Vegetable Kingdom.</i>”—This work has a very direct
-bearing on that last mentioned. Darwin speaks in
-the Autobiography “of having come [in 1839] to the
-conclusion in my speculations on the origin of species,
-that crossing played an important part in keeping
-specific forms constant.” Later on he came to see
-that the advantage of crossing is more direct, and
-results from the greater vigour of the offspring over
-those of self-fertilised plants. The object of this
-work, published in 1876, was to prove this point by
-experimental evidence of sufficient amount, and to
-show in numerous cases, by measurements of height
-or weight, or by counting the number of seeds produced,
-that cross-fertilisation invariably tends towards
-the greater vigour of offspring.</p>
-
-<p>Hence the motive cause for the marvellous
-adaptations by which cross-fertilisation is ensured
-was supplied.</p>
-
-<div class="sidenote">FORMS OF FLOWERS.</div>
-
-<p>“<i>Different Forms of Flowers on Plants of the Same<span class="pagenum" id="Page_195">195</span>
-Species</i>” was published in 1877, and a second edition
-in 1880. This work, like so many others, had been
-largely anticipated by the author’s original papers
-to scientific societies, in this case to the Linnean.
-The papers were combined, brought up to date, and
-with the addition of much new matter constituted
-the volume. The chief part of the work is concerned
-with heterostyled plants, viz. species which bear
-different kinds of flowers chiefly distinguished by the
-lengths of the pistil and stamens. As many as three
-different forms occur in Lythrum. In this work it is
-shown that each of the forms, although possessing
-both kinds of sexual organs, is adapted to be fertilised
-by the pollen of another form, and that such offspring
-are more vigorous than those produced by fertilisation
-by the same form. He furthermore showed that
-the offspring of “illegitimate” parentage (viz. those
-which were fertilised by the same form) possessed,
-in certain respects, a close resemblance to hybrids
-among animals. He remarks in his Autobiography,
-“No little discovery of mine ever gave me so much
-pleasure as the making out the meaning of heterostyled
-flowers.”</p>
-
-<p>In addition to the heterostyled flowers, the other
-differing forms borne by the same plants are considered,
-including the cleistogamic species, in which
-minute closed flowers are borne as well as the
-ordinary open ones. The former are wanting in
-the scents and colours of ordinary flowers, and
-are specially adapted for self-fertilisation, and the<span class="pagenum" id="Page_196">196</span>
-production of “an abundant supply of seeds with
-little expenditure.”</p>
-
-<p>“<i>Climbing Plants.</i>”—The subject of this volume
-was published as a paper before the Linnean Society
-in 1864. After being corrected, the material was
-brought out as a volume in 1875. Darwin, as he
-tells us in the Autobiography, was first led to study
-the subject by a paper by Asa Gray, which appeared
-in 1858 (Proc. Amer. Acad. of Arts and Sciences).
-Writing to Asa Gray, August 4th, 1863, he said, “My
-present hobby-horse I owe to you, viz. the tendrils.”
-One of the most interesting results brought forward
-in this work is the fact that the upper growing part
-of a twining stem bends to one side and then travels
-slowly round, between two and three hours being
-required for each revolution, in the case of the
-hop growing in a room and observed at the period
-of most active movement. The circle swept at the
-27th revolution was 19 inches in diameter. In the
-case of this plant the three youngest internodes (or
-joints), and never less than two of them, were concerned
-in the movement; “by the time the lower one
-ceased to revolve, the one above was in full action,
-with a terminal internode just commencing to move.”
-The object of this movement is to strike some object
-round which the plant may twine. A much grander
-example was seen in <i>Ceropegia Gardnerii</i>, in which
-three long internodes and two short ones swept a
-circle over 5 feet in diameter, “at the rate of 32
-or 33 inches per hour, in search of some object<span class="pagenum" id="Page_197">197</span>
-round which to twine.” The stem of the plant
-is not in the least twisted by this movement.
-Nearly all of the great divisions of twining plants,
-leaf-climbers, and tendril-bearers “have the same
-remarkable power of spontaneously revolving.”</p>
-
-<div class="sidenote">MOVEMENT IN PLANTS.</div>
-
-<p>“<i>The Power of Movements in Plants</i>” was
-published on November 6th, 1880. It embodies a
-vast amount of work carried on in conjunction with
-Francis Darwin. This volume bears a very direct
-relation to that last mentioned, as Darwin has explained
-in his <span class="locked">Autobiography:—</span></p>
-
-<div class="blockquot">
-
-<p>“In accordance with the principle of evolution it was impossible
-to account for climbing plants having been developed
-in so many widely different groups unless all kinds of plants
-possess some slight power of movement of an analogous kind.
-This I proved to be the case; and I was further led to a rather
-wide generalisation, viz. that the great and important classes
-of movements, excited by light, the attraction of gravity, &amp;c.,
-are all modified forms of the fundamental movement of circumnutation.”</p>
-</div>
-
-<p class="in0">An extreme example of circumnutation has already
-been described in the revolving movements of the
-youngest parts of the stem of a twining plant.</p>
-
-<p>The work evoked very great interest in this
-country, but was severely criticised by certain German
-botanists. The immense number of new observations
-must always have a very high value, whatever be the
-fate of the general conclusions, concerning which it
-may be remarked that Darwin’s conclusions have
-often been criticised before, but time has shown that
-he was right.</p>
-
-<p><span class="pagenum" id="Page_198">198</span></p>
-
-<p>“<i>Insectivorous Plants</i>” was published July 2nd,
-1875, but I consider it last, as the subject stands somewhat
-apart from the rest of his botanical works.
-The subject was suggested to him by noticing the
-insects caught by the leaves of the Sun-dew (<i>Drosera</i>)
-near Hartfield. He then studied in great detail the
-causes of the movement, and the sensitiveness of the
-gland-tipped hairs, finding that a piece of hair
-weighing 1/78000 of a grain causes one of them to
-curve inwards, and alters “the condition of the contents
-of every cell in the foot-stalk of the gland.”</p>
-
-<p>The greater part of the work deals with the
-experiments on <i>Drosera</i>, which were extremely
-numerous and detailed. The remainder treats of
-other insectivorous plants, such as Dionæa, Pinguicula,
-Utricularia, etc. The methods of capture, the
-movements of the plants under the stimulus supplied
-by the living insect (or other animal), and the resulting
-changes in the plant-cells were not the only
-points studied. He also investigated the digestive
-secretion and its action upon the food absorbed by
-the leaves.</p>
-
-<hr />
-
-<div id="toclink_199" class="chapter">
-<p><span class="pagenum" id="Page_199">199</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXV">CHAPTER XXV.<br />
-
-<span class="subhead">LETTERS FROM DARWIN TO PROFESSOR MELDOLA
-(1871–82).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">By</span> the kindness of my friend Professor Meldola, and
-the courtesy of Mr. Francis Darwin, I am enabled
-to publish for the first time a series of letters written
-by Charles Darwin to the former. The whole series
-consists of 33 letters, written between January 28th,
-1871, and February 2nd, 1882, only a few weeks
-before his death.</p>
-
-<p>When we remember the immense amount of correspondence
-with which Darwin had to cope, the
-constant attention required by his investigations and
-publications, and the state of his health, it is deeply
-interesting to read these letters, written with such
-unfailing courtesy, to a younger worker in the lines
-that he had suggested, and who was thereby stimulated
-and encouraged to undertake the researches
-which are now so well known.</p>
-
-<p>Reading these letters and remembering the circumstances
-of the writer, we can understand how it
-is that, although ill-health prevented his presence on
-occasions at which the younger scientific men are
-wont to meet—although he was known to but few
-of them—nevertheless the charm of his noble and<span class="pagenum" id="Page_200">200</span>
-generous nature was a most potent force in influencing
-and attracting men; and it was this, no less than his
-epoch-making discoveries, which has made it one of
-the chief regrets of many a scientific worker that he
-never saw Charles Darwin.</p>
-
-<div class="sidenote">LETTERS.</div>
-
-<p>The correspondence was opened by a letter from
-Meldola informing Darwin of a case of hexadactylism
-in a man at Turnham Green.</p>
-
-<div class="blockquot">
-<p>
-“<i>Jan. 28 [1871].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>,—I am much obliged for your kindness in
-informing me of the hexadactylous case; but so many have
-been recorded that I do not think, except under very special
-circumstances, it would be worth your while further to investigate
-it.</p>
-
-<p>“With my thanks, yours faithfully and obliged,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The next letter refers to Meldola’s communication
-to <i>Nature</i> (he had recently written upon pangenesis
-and upon sexual selection), and his work on mimicry,
-protective resemblance, etc. In the latter part we
-meet with an interesting reference to the researches
-on cross-fertilisation which are now so famous.</p>
-
-<div class="blockquot">
-<p>
-“<i>June 9th [1871].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>,—I am greatly obliged by your note. I have
-read with much interest and carefully perused your letter in
-Nature, and am looking out for a paper announced for Linn. Soc.
-Your remarks shall all be in due time fully considered. With
-respect to the separation of the sexes, I have often reflected
-on the subject; but there is much difficulty, as it seems to me
-and as Nageli has insisted, inasmuch as a strong case can be
-made out in favour of the view that with plants at least the
-sexes were primordially distinct, then became in many cases<span class="pagenum" id="Page_201">201</span>
-united, and in not a few cases re-separated. I have during
-the last 5 or 6 years been making a most laborious series of
-experiments, by which I shall be able, I think, to demonstrate
-the wonderful good derived from crossing, and I am almost
-sure but shall not know till the end of the summer that I shall
-be able to prove that the good is precisely of the same kind
-which the adult individual derives from <em>slight</em> changes of
-conditions.</p>
-
-<p>“With my sincere thanks for your interest in my work, I
-remain, dear Sir, Yours very faithfully,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The following letter is of great interest in relation
-to many problems of sexual selection, protective
-resemblance, mimicry, <span class="locked">etc.:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Jan. 23, 1872.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>—The point to which you refer seems to me a
-very difficult one. 1<sup>st</sup> the comparison of the amount of
-variability in itself would be difficult. 2<sup>ndly</sup> of all characters,
-colour seems to be the most variable, as we see in domesticated
-productions. (3) I fully agree that selection if
-long continued gives fixity to characters. We see the reverse
-of this in the great variability of fancy races, now being
-selected by man. But to give fixity, selection must be continued
-for a very long period: pray consider on this head
-what I have said in the Origin about the variability of
-characters developed in an extraordinary manner, in comparison
-with the same characters in allied species. The
-selection must also be for a definite object, and not for
-anything so vague as beauty, or for the superiority of one male
-in its weapons over another male, which can in like manner be
-modified. This at least seems to me partly to account for the
-general variability of secondary sexual characters. In the case
-of mimetic insects, there is another element of doubt, as the
-imitated form may be undergoing change which will be
-followed by the imitating form. This latter consideration
-seems to me, as remarked in my ‘Descent of Man,’ to throw
-much light on how the process of imitation first began.</p>
-
-<p><span class="pagenum" id="Page_202">202</span></p>
-
-<p>“I enclose a letter from Fritz Müller which I think is well
-worth reading, and which please to return to me.</p>
-
-<p>“You will see he lays much stress on the difficulty of
-several remotely allied forms all imitating some one species.
-Mr. Wallace did not think that there was so much weight in
-this objection as I do. It is, however, possible that a few
-species in widely different groups, before they had diverged
-much, should have accidentally resembled, to a certain extent,
-some one species. You will also see in this letter a strange
-speculation, which I should not dare to publish, about the
-appreciation of certain colours being developed in those species
-which frequently behold other forms similarly ornamented. I
-do not feel at all sure that this view is as incredible as it may
-at first appear. Similar ideas have passed through my mind
-when considering the dull colours of all the organisms which
-inhabit dull-coloured regions, such as Patagonia and the
-Galapagos Is. I suppose you know Mr. Riley’s excellent
-essay on mimicry in the last report on the noxious insects of
-Missouri or some such title.</p>
-
-<p>“I hope your work may be in every way successful.</p>
-
-<p class="sigright">
-<span class="l6">“I remain, dear Sir, yours faithfully,</span><br />
-“<span class="smcap">Charles Darwin</span>.”
-</p>
-</div>
-
-<p>The next letter deals with mimetic <span class="locked">resemblance:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Mar. 28, 1872.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>—I thank you for your information on various
-subjects. The point to which you allude seems to me very
-obscure, and I hardly venture to express an opinion on it.
-My first impression is that the colour of an imitating form
-might be modified to any extent without any tendency being
-given to the retention of ancient structural peculiarities. The
-difficulty of the subject seems to me to follow from our
-complete ignorance of the causes which have led to the generic
-differences between the imitating and imitated forms. The
-subject however seems worth investigating. If the imitator
-habitually lives in company with the imitated, it would be apt
-to follow in some respects the same habits of life, and this
-<span class="pagenum" id="Page_203">203</span>perhaps would lead to the retention or acquirement of some
-of the same structural characters.</p>
-
-<p>“I wish you all success in your essay, and remain, dear
-Sir, yours very faithfully,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The next very brief letter, acknowledging the
-receipt of a note, was written from Down, March 26th,
-1873. It contained some sympathetic remarks upon
-the progress of Meldola’s work upon Mimicry. In
-the succeeding letter, printed below, we find a very
-definite statement of opinion as to the <i xml:lang="fr" lang="fr">rôle</i> of monstrosities
-in <span class="locked">evolution:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Aug. 13th</i> [1873].
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>—I am much obliged for your present which
-no doubt I shall find at Down on my return home....</p>
-
-<p>“I am sorry to say that I cannot answer your question;
-nor do I believe that you could find it anywhere even approximately
-answered. It is very difficult or impossible to define
-what is meant by a larger variation. Such graduate into
-monstrosities or generally injurious variations. I do not
-myself believe that these are often or ever taken advantage of
-under nature. It is a common occurrence that <em>abrupt</em> and
-considerable variations are transmitted in an unaltered state,
-or not at all transmitted, to the offspring or to some of them.
-So it is with tailless or hornless animals, and with sudden and
-great changes of colour in flowers.—I wish I could have given
-you any answer.</p>
-
-<p class="sigright">
-<span class="l4">“Dear Sir, yours very faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The succeeding three letters show Darwin’s
-scrupulous care as regards the publication, although
-with every acknowledgment, of the results obtained
-by others. They refer to a letter from Fritz Müller
-which he had forwarded to Meldola. The latter had<span class="pagenum" id="Page_204">204</span>
-written to ask Darwin’s permission and advice as to
-the inclusion of some of F. Müller’s observations in
-his most interesting paper, “Entomological Notes
-bearing on Evolution” (<i>Ann. and Mag. Nat. Hist.</i>,
-1878, 5th series, Vol. I. p. 155), which he was then
-<span class="locked">preparing:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Sept. 14, 1877.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Sir</span>—I have some doubts whether Fritz Müller
-would like extracts from his letters being published after so
-long an interval,—that is if the letter relates to the origin of
-mimicry; for he published about a year ago an excellent
-paper on this subject. I believe it was in the Jenaische
-Zeitschrift, but the paper is out of its proper place in my
-library and I cannot find it. If you thought it worth while
-to send me your copy I could then judge about the publication
-of extracts.</p>
-
-<p>“I fear it is not likely that I shall have anything to
-communicate to the Entomological Soc. I quite agree with
-you that it is a great pity that our Entomologists should
-confine themselves to describing species.</p>
-
-<p class="sigright">
-<span class="l4">“Dear Sir, yours faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<div class="tb">* * * * *</div>
-
-<div class="blockquot">
-<p>
-“<i>Sept. 22nd</i> [1877].
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>—I am doubtful whether speculations in a
-letter ought to be published, especially after a long interval of
-time. Any fact which he states, I feel pretty sure he would
-not at all object being used by anyone.—Pray do the best
-you can.—I should grieve beyond measure to be accused of
-a breach of confidence.—He has lately, as I mentioned, thrown
-much light on the first steps in mimicry.</p>
-
-<p>“With respect to dimorphic Butterflies, those about which
-I have read appear at different seasons, and have been the
-subject of an <em>admirable</em> essay by Prof. Weismann. It is some
-little time since I read the essay and one subject drives
-another out of my head, but I think he explains all such cases
-by the direct inherited effects of temperature. He tried<span class="pagenum" id="Page_205">205</span>
-experiments. If you read German, I believe I could find
-Weismann’s essays and lend them to you. In your present
-interesting case I really do not know what to think: it
-seems rather bold to attribute the 2 coloured forms to nat.
-selection, before some advantage can be pointed out.—May
-not the female revert in some cases? I do not doubt that
-the intermediate form could be eliminated as you suggest.</p>
-
-<p>“I wish that my opinion could have been of any
-value....</p>
-
-<p class="sigright">
-<span class="l4">“I remain yours very faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>This last letter, with others that followed it, directing
-Meldola’s attention to Weismann’s “Studies in
-the Theory of Descent,” resulted in the English translation
-which is so admirably rendered and edited.
-Many of the later letters are concerned with the
-progress of this publication. The remarks about
-dimorphic butterflies referred to Meldola’s observation,
-that in one of those years in which <i>Colias edusa</i>
-was extremely abundant, a whole series of forms had
-been taken transitional between the normal orange
-female and the white variety <span class="locked"><i>helice</i>:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Sept. 27</i> [1877].
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—It is impossible for F. M. [Fritz Müller]
-to object to anything which you have said in your very interesting
-little essay.—I just allude to Butterflies preferring
-certain colours at p. 317 of 2nd Edit<sup>n.</sup> of the Descent and
-to the case of the species of Castnia p. 315 which has ornamented
-hinder wings and displays them, whilst 2 other
-species have plain hind wings and do not display them. My
-son, who has charge of my library, returns home to-night and
-then we will search for Weismann. He gives splendid case
-of caterpillar with coloured ocelli like true eyes, <em>and which
-frightened away birds</em>.</p>
-
-<p class="sigright">
-<span class="l4">“Yours sincerely,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p><span class="pagenum" id="Page_206">206</span></p>
-
-<p>The reference in this letter is to Meldola’s paper,
-“Entomological Notes bearing on Evolution,” soon
-afterwards published in the <i>Annals and Magazine
-of Natural History</i>, 1878, Vol. I. p. 155. The caterpillar
-referred to is the well-known larva of the Large
-Elephant Hawk Moth (<i>Chærocampa elpenor</i>).</p>
-
-<p>Darwin then wrote a brief note (October 19th,
-1877) referring to a number of <i>Kosmos</i> containing an
-article on “Sexual Selection.” He offered to send the
-number if it would interest his correspondent. The
-number was sent, as the succeeding letter <span class="locked">shows:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Oct. 22nd [1877].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I send Kosmos by this post....</p>
-
-<p>“Prof. Weismann’s address is Freiburg.—I should think
-he would be glad of translation, and would probably arrange
-for stereotypes of Plates.—You could say as an introduction
-that I had lent you his book.—To find a publisher will be
-perhaps a difficulty. Should it be translated I must beg you
-to get another copy, as I cannot spare mine for such a length
-of time.—Wallace sent me his article and I was quite dissatisfied
-with it.—To explain a peacock’s tail by vital activity
-seems to me mere verbiage—a mere metaphysical principle.</p>
-
-<p class="sigright">
-<span class="l4">“My dear Sir, yours faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.
-</p>
-
-<p>“It will be a public benefit to bring out a translation.”</p>
-</div>
-
-<p>Then followed three letters, January 3rd, March
-24th, and March 27th, 1878; the first written when
-Darwin was sending another number of <i>Kosmos</i>, the
-second when sending his photograph, the third enclosing
-a letter from Fritz Müller containing some
-very interesting observations on mimicry in South
-American butterflies.</p>
-
-<p><span class="pagenum" id="Page_207">207</span></p>
-
-<p>He then wrote as <span class="locked">follows:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>April 17/78.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I should be very much obliged if you
-could get some one to name the photographs of the enclosed
-insect and read the enclosed letter. It seems a pretty, but I
-think not new case of protective resemblance. One might
-fancy that the large ocelli on the under wings were a sexual
-ornament.—Perhaps these photographs might be worth exhibiting
-at the Entomolog. Soc.—I do not want them returned
-(unless indeed Dr. Zacharias wants them back, which is not
-probable) or the enclosed letter.</p>
-
-<p>“A single word with the name of the genus and if possible
-of the species, would <span class="locked">suffice.—</span></p>
-
-<p>“Pray forgive my troubling you and believe me</p>
-
-<p class="sigright">
-<span class="l4">“Yours faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.
-</p>
-
-<p>“I am glad that F. Müller’s letter interested you. He has
-published a paper with plates on the shape of the hairs or
-scales on the odoriferous glands of many butterflies, which
-I could send you, but I doubt whether you would care for it.”</p>
-</div>
-
-<p>Darwin then sent another letter from Fritz
-Müller containing some interesting notes on odoriferous
-organs in butterflies, and on the occasional
-failure of the female insect to deposit her eggs on
-a plant which can serve as the food of the young
-larvæ. The beetles alluded to were a species of
-<i>Spermophagus</i>. The two letters printed below refer
-to the same <span class="locked">subjects:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>May 15 [1878].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I think the enclosed will interest you.—The
-letter to me need not be returned as I have had the only
-important passage for my work copied out.—In the letter F. M.
-[Fritz Müller] sent me seeds of <i>Cassia neglecta</i> and several
-beetles arrived alive, having formed their cocoons, and gnawed<span class="pagenum" id="Page_208">208</span>
-their way out of the little peas or seeds.—These elegant
-beetles, with the knowledge of their manner of development
-may interest some Coleopterist.</p>
-
-<p>“I hope to hear some time about Dr. Zacharias’ photographs.
-I received your obliging letter from Paris.</p>
-
-<p class="sigright">
-<span class="l4">“Yours sincerely,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<div class="tb">* * * * *</div>
-
-<div class="blockquot">
-<p>
-“<i>May 25 [1878].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—The living beetles and the cocoons were
-found in a small paper packet containing the seeds. Those
-from which the beetles had emerged were much broken, and
-the larvæ had evidently attacked some of the other seeds. I
-am sorry to say that some of the injured ones were thrown
-away. I am glad that you are going to draw up a paper from
-Fritz Müller’s letters.</p>
-
-<p class="sigright">
-<span class="l4">“Yours sincerely,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>After another short note, dated July 24th, 1878,
-Darwin wrote the following letter, which explains
-how it was that he came to write the preface to
-the translation of Weismann’s <span class="locked">“Studies”:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>October 31 [1878].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—As you are inclined to be so very liberal
-as to have a translation made of Weismann’s Essays on your
-own risk, I feel bound to aid you to the small extent of writing
-a short prefatory notice. But this is a kind of job, which I do
-not feel that I can do at all well and therefore do not like;
-but I will do my best. It must, however, be short for I am
-at present working very hard. I do not quite understand
-whether you intend asking some Publisher to bring out the
-book on commission at your cost for if so there will be no
-difficulty in finding a Publisher. But if you expect any
-Publisher to publish at his risk and cost; I think from recent
-experience you will have much difficulty in finding one.—I
-suppose that you have asked Weismann’s concurrence.</p>
-
-<p>“Down is rather an awkward place to reach, as we are<span class="pagenum" id="Page_209">209</span>
-4 miles from nearest station, Orpington. But I shall be in
-London for a week on Nov<sup>r</sup> 17th or 18th and could see you
-then at any time, and perhaps you could come to luncheon.</p>
-
-<p>“But if you would prefer to come here, I shall be very
-happy to see you either Saturday or Sunday, if you would let
-me know hour.—I am, however, bound to tell you that my
-health is always doubtful, and that my head does not allow
-me to converse long with anyone.</p>
-
-<p>“With the most cordial sympathy in your undertaking, I
-remain, my dear Sir, yours very faithfully,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>In November, 1878, Darwin was in London,
-staying at his daughter’s house at 4, Bryanston
-Street. On the 19th he wrote asking Meldola to
-lunch to talk over the proposed English edition of
-Weismann, and on the 25th sent the MS. of the
-Preface with the following <span class="locked">letter:—</span></p>
-
-<div class="blockquot">
-<p class="sigright">
-<span class="l2">“4 Bryanston St.,</span><br />
-“Portman Sq<sup>re</sup>.
-</p>
-
-<p>
-“<i>Nov. 25</i> [1878].
-</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I send my little Preface, which I do not
-at all like, but which I cannot improve. I should like hereafter
-to see it in type. Mr. Bates tells me that Hardwick and
-Bohn of Piccadilly intend to go in for publishing solid books;
-and if your present publisher should change his mind: Mr.
-Bohn might be worth applying to.</p>
-
-<p class="sigright">
-<span class="l4">“Yours sincerely,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”</p>
-</div>
-
-<p>Professor Meldola then wrote, suggesting that
-Darwin should, in his Preface, point out, by references
-to the “Origin of Species” and his other writings,
-how far he had already traced out the lines which
-Weismann had pursued in his researches. The
-suggestion was made because in a great many of
-the Continental writings upon the theory of descent<span class="pagenum" id="Page_210">210</span>
-a number of the points which had been clearly foreshadowed,
-and in some cases even explicitly stated,
-by Darwin had been independently rediscovered and
-published as though original. In the editorial notes
-to Meldola’s translation full justice to Darwin has
-been done in this respect. Darwin’s characteristic
-reply is deeply interesting.</p>
-
-<div class="blockquot">
-<p>
-“<i>Nov 26<sup>th</sup></i> [1878].
-</p>
-
-<p class="sigright">
-“4 Bryanston St.
-</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I am very sorry to say that I cannot agree
-to your suggestion.—An author is never a fit judge of his own
-work, and I should dislike extremely pointing out when and
-how Weismann’s conclusions and work, agreed with my own.—I
-feel sure that I ought not to do this, and it would be to me
-an intolerable task. Nor does it seem to me the proper office
-of the Preface, which is to show what the book contains and
-that the contents appear to me valuable. But I can see
-no objection for you, if you think fit, to write an introduction
-with remarks or criticisms of any kind. Of course I would
-be glad to advise you on any point as far as lay in my power,
-but as a whole I could have nothing to do with it, on the
-grounds above specified that an author cannot and ought not
-to attempt to judge his own works or compare them with others.
-I am sorry to refuse to do anything which you <span class="locked">wish.—</span></p>
-
-<p>“We return home early to-morrow morning.—Your green
-silk seems to me a splendid colour, whatever the æsthetics may
-say.—My dear Sir, yours faithfully,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The “green silk” referred to some specimens of
-coal-tar colours sent to show Darwin what modern
-chemistry had been able to accomplish in the way
-of artificial colouring matters. They were at that
-time of particular interest in connection with a
-discussion which had arisen in Bryanston Street<span class="pagenum" id="Page_211">211</span>
-about the so-called “æsthetic” school, which had
-become rather predominant at the period, and which
-affected an abhorrence of all brilliant colouring, in
-spite of the circumstance that nature abounds in
-the most gorgeous hues, especially in the tropics.</p>
-
-<p>The next letter refers to the adoption of the word
-“phyletic” in the translation of Weismann.</p>
-
-<div class="blockquot">
-<p>
-“<i>Dec. 14</i> [1878].
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I am very glad that you are making good
-progress with the book.—You could not apply to a worse
-person than myself on any philological question. I presume
-that ‘phyletische’ has been adopted or modified from Häckel.
-As the latter uses the word, it has nearly the sense of
-genealogical. It always applies to the lines of descent, and
-therefore differs somewhat from ‘innate’; for an inherited
-character, though derived from the father alone or only a
-single generation, would be innate in the child. I should
-think ‘phyletic’ would do very well, if you gave the German
-word and an explanation, in a foot-note.</p>
-
-<p>“There has been a delay in answering your letter, but I
-have just heard from my son who is away from home, and he
-says that he is sorry but he cannot well spare the time to
-lecture.</p>
-
-<p class="sigright">
-<span class="l4">“My dear Sir, yours very faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>Then followed two letters (January 20th, and February
-7th, 1879), the first written when Darwin was
-sending a number of <i>Kosmos</i>; the second referring
-to it and other papers, and asking that his name
-should be put down as a subscriber to the forthcoming
-translation of Weismann.</p>
-
-<p>Later on the number of <i>Kosmos</i> for May, 1879, was
-sent, containing (p. 100) Fritz Müller’s paper “<i>Ituna</i><span class="pagenum" id="Page_212">212</span>
-and <i>Thyridia</i>.” This paper, although it did not
-attract sufficient attention at the time, was of the
-highest importance in relation to the theory of
-mimicry, as Meldola at once perceived.</p>
-
-<p>Bates in his epoch-making paper in the Transactions
-of the Linnean Society (Vol. XXIII. 1862) had
-founded the theory of mimicry. Those rarer forms
-which have diverged from their near allies and, in
-superficial appearance, approached some distantly
-related, but abundant, species inhabiting the same
-tract have been, according to Bates’s theory, benefiting
-themselves in the struggle for existence. The
-mimicked species are, he suggested, abundant because
-they possess some special means of protection, such as
-an unpleasant taste or smell, and they have an unpleasant
-reputation which greatly aids them in the struggle
-for life; while the mimicking species, by their superficial
-resemblance, are enabled to live upon that
-reputation without possessing the special means
-of defence.</p>
-
-<p>Certain facts well-known to Bates, and brought
-forward in his paper, were not explicable by this
-theory, viz. the resemblance that often exists between
-the abundant and specially protected species themselves.
-Although a few tentative suggestions were
-made, such as the production of a common appearance
-by similarity of climate, or food, etc., these facts
-remained an unexplained mystery until this paper of
-Fritz Müller’s in the May number of <i>Kosmos</i>. He
-there suggests that the mutual resemblance between<span class="pagenum" id="Page_213">213</span>
-the specially protected forms is advantageous, in
-reducing for each of them the number of individuals
-which must be sacrificed during the process of education
-which their youthful enemies must undergo,
-before they learn what is fit and what unfit for food.
-The arrangement is, in fact, much like that between a
-couple of firms that issue a common advertisement,
-and so save about half the expense of advertising
-alone. It is only another added to the numerous
-examples of the production by natural selection, and
-without the introduction of consciousness, of a result
-which could not be bettered by the deliberate action
-of the most acute intelligence.</p>
-
-<p>Meldola at once wrote to Darwin asking his advice
-about the translation of F. Müller’s paper, and
-received the following <span class="locked">reply:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>June 6th, 1879.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Mr. Meldola</span>,—Your best plan will be to write
-to ‘Dr. Ernst Krause, Friedenstrasse, 10 II. Berlin.’ He is one
-of the editors with whom I have corresponded. You can say
-that I sent you the Journal and called your attention to the
-paper, but I cannot take the liberty of advising the supply of
-clichés. He is a very obliging man. Had you not better ask
-for permission to translate, saying the source will be fully
-acknowledged?</p>
-
-<p>“F. Müller’s view of the mutual protection was quite new
-to me.</p>
-
-<p class="sigright">
-<span class="l4">“Yours sincerely,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>The clichés were obtained and Meldola’s translation
-published in the Proceedings of the Entomological
-Society for 1879, p. 20. The new contribution to the
-theory of mimicry was at first somewhat severely<span class="pagenum" id="Page_214">214</span>
-criticised, even Bates being adverse to it. Subsequent
-work has abundantly justified it as by far the most
-important addition to the subject since Bates’s
-original paper. In fact, many cases which have
-been up to the present explained under the theory
-of true (Batesian) mimicry are now believed to
-come under that which we owe to F. Müller—viz.
-convergence between specially protected forms for
-mutual benefit.</p>
-
-<p>An interesting paper by Dr. F. A. Dixey, published
-in the Transactions of the Entomological
-Society for the present year (1896), contains convincing
-arguments in favour of this view as regards
-some of the <i>Pieridæ</i> of South America in relation
-to the <i>Heliconidæ</i> and <i>Papilionidæ</i> which they
-resemble.</p>
-
-<p>It is of the highest interest to learn that the first introduction
-of this new and most suggestive hypothesis
-into this country was due to the direct influence of
-Darwin himself, who brought it before the notice of
-the one man who was likely to appreciate it at its
-true value and to find the means for its presentation
-to English naturalists.</p>
-
-<p>In the next year Meldola wished to translate
-further papers of Fritz Müller’s, and received the
-following letter on the <span class="locked">subject:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>Nov. 25/80.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">My dear Sir</span>,—I can well believe that your labour must
-have been great, and everyone is bound to aid you in any way.</p>
-
-<p>“No. I. of F. Müller’s paper is in the August no. for 1877.</p>
-
-<p><span class="pagenum" id="Page_215">215</span></p>
-
-<p>“No. II.—is in the October no. for 1877.</p>
-
-<p>“Both these articles I remember thinking excellent.</p>
-
-<p>“I am not one of the editors of Kosmos, only a kind of
-patron(!) and therefore cannot give permission; but when you
-write to the editors you can say that I have expressed a hope
-that permission would be granted, you acknowledging source
-of papers.</p>
-
-<p>“Heartily wishing you success and in haste to catch first
-post, I remain yours very faithfully,</p>
-
-<p class="sigright">
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>Shortly after the date of the last letter Professor
-Meldola came across a copy of Thomson’s “Annals
-of Philosophy” on a bookstall. It bore the name
-“Erasmus Darwin” on the first page, and Meldola
-offered it to Charles Darwin, thinking it might have
-belonged to his grandfather.</p>
-
-<div class="blockquot">
-<p>
-“<i>March 12th, 1881</i> [The date was evidently May, and not March].
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Mr. Meldola</span>,—It is very kind of you to offer to
-send me the book, but I feel sure that it could not have
-belonged to my grandfather.—My eldest brother’s name is
-Erasmus and he attended to chemistry when young, and I
-suppose that the ‘Annals of Philosophy’ was left at my
-Father’s house and sold with the Library which belonged to
-my sisters.—I will look to the few words of Preface to Wiesmann
-[<i xml:lang="la" lang="la">sic</i>], whenever I receive a proof.—With many <span class="locked">thanks.—</span></p>
-
-<p class="sigright">
-<span class="l4">
-“Yours very faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p>Then followed a brief note dated “Aug. 8, 1881,”
-referring to some point in the work upon which
-Meldola was then engaged, and which cannot now be
-ascertained. Another letter of the same date referred
-to the translation of Weismann, and contained some
-encouraging words upon the interest created by the<span class="pagenum" id="Page_216">216</span>
-work and upon the success of the Essex Field Club,
-in which Meldola had taken a leading part. Another
-brief note of August 10th, 1881, apparently refers to
-some paper which cannot now be identified.</p>
-
-<p>The following interesting letter is of uncertain
-<span class="locked">date:—</span></p>
-
-<div class="blockquot">
-<p>
-“<i>? 19th, ? 1881.</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Mr. Meldola</span>,—When I read the F. M. [Fritz
-Müller] paper your doubt occurred to me and I must say this,
-I would rather have expected that the knowledge of distasteful
-caterpillars would have been inherited, but I distinctly
-remember an account (when Wallace first propounded his
-warning colors) published of some birds, I think turkeys,
-being experimented upon and they shook their heads after trying
-some caterpillars as if they had a horrid taste in their
-mouths. I fancied this thing was published by Mr. Weir or
-could it have been by Mr. Butler? It would be well to look in
-Mr. Belt’s ‘Nicaragua’ as he tried some experiments. I am
-not sure that there is not some statement of the kind in it.</p>
-
-<p class="sigright">
-<span class="l4">“Yours faithfully,</span><br />
-“<span class="smcap">Charles Darwin</span>.
-</p>
-
-<p>“I daresay Mr. Wallace or Bates would remember the statement
-of some birds shaking their heads to which I refer.”</p>
-</div>
-
-<p>The statement about the turkeys evidently refers
-to Stainton’s experiment with young birds of this kind,
-which immediately devoured numerous protectively
-coloured moths, but, after seizing, invariably rejected,
-a conspicuous white species (<i>Spilosoma menthastri</i>).
-It was Belt’s ducks which shook their heads after
-tasting a very conspicuous Nicaraguan frog. Darwin
-wished to show by this evidence that there was
-no instinctive knowledge such as would have<span class="pagenum" id="Page_217">217</span>
-saved the birds from an evidently unpleasant
-experience.</p>
-
-<p>The last letter, deeply interesting both on its own
-account and because it was written so near the end of
-Darwin’s life, was a reply to one from Meldola in which
-he had said that the publishers were complaining that
-the list of subscribers was disappointing, and that they
-had expressed the wish that Mr. Darwin could see his
-way to writing a much longer introductory notice than
-he had done.</p>
-
-<div class="blockquot">
-<p>
-“<i>Feb. 2nd [1882].</i>
-</p>
-
-<p class="sigright">“Down.</p>
-
-<p>“<span class="smcap">Dear Mr. Meldola</span>,—I am very sorry that I can add
-nothing to my very brief notice without reading again Weismann’s
-work and getting up the whole subject by reading
-my own and other books, and for so much labour I have not
-strength. I have now been working at other subjects for
-some years, and when a man grows as old as I am, it is a
-great wrench to his brain to go back to old and half-forgotten
-subjects. You would not readily believe how often I am asked
-questions of all kinds, and quite lately I have had to give up
-much time to do a work, not at all concerning myself, but
-which I did not like to refuse. I must however somewhere
-draw the line, or my life will be a misery to me.</p>
-
-<p>“I have read your Preface and it seems to me <em>excellent</em>. I
-am sorry in many ways, including the honour of England as
-a scientific country, that your translation has as yet sold
-badly. Does the publisher or do you lose by it? If the publisher,
-though I should be sorry for him, yet it is in the way of
-business; but if you yourself lose by it, I earnestly beg you to
-allow me to subscribe a trifle, viz. ten guineas, towards the
-expense of this work, which you have undertaken on public
-grounds.</p>
-
-<p class="sigright">
-<span class="l4">“Pray believe me, yours very faithfully,</span><br />
-“<span class="smcap">Ch. Darwin</span>.”
-</p>
-</div>
-
-<p><span class="pagenum" id="Page_218">218</span></p>
-
-<p>Darwin’s generous offer, although gratefully declined,
-was a warm encouragement in the laborious,
-and in some respects thankless, task of translator and
-editor—a task which, in the case of the English edition
-of Weismann’s “Studies in the Theory of Descent,”
-was carried out in so admirable a manner.</p>
-
-<hr />
-
-<div id="toclink_219" class="chapter">
-<p><span class="pagenum" id="Page_219">219</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XXVI">CHAPTER XXVI.<br />
-
-<span class="subhead">HIS LAST ILLNESS (1882).</span></h2>
-</div>
-
-<p class="in0"><span class="firstword">In</span> the last few months of his life, towards the end of
-1881 and beginning of 1882, Darwin began to suffer
-from his heart, causing attacks of pain and faintness
-which increased in number. On March 7th, 1882, he
-had one of these seizures when walking, “and this was
-the last time that he was able to reach his favourite
-‘sand-walk’” (“Life and Letters”). After this he
-became rather better, and on April 17th was able to
-record the progress of an experiment for his son
-Francis. The following sentences are quoted from
-the “Life and <span class="locked">Letters”:—</span></p>
-
-<div class="blockquot">
-
-<p>“During the night of April 18th, about a quarter to twelve,
-he had a severe attack and passed into a faint, from which he
-was brought back to consciousness with very great difficulty.
-He seemed to recognise the approach of death, and said, ‘I am
-not the least afraid to die.’ All the next morning he suffered
-from terrible nausea and faintness, and hardly rallied before
-the end came.</p>
-
-<p>“He died at about four o’clock on Wednesday, April 19th,
-1882.”</p>
-</div>
-
-<p>He was buried in Westminster Abbey on April 26th.</p>
-
-<p>Thus died one of the greatest of men, after a life
-of patient and continuous work interrupted only by
-ill-health; a man who was, perhaps, more widely<span class="pagenum" id="Page_220">220</span>
-attacked and more grossly misrepresented than any
-other, but who lived to see his teachings almost universally
-received; a man whose quiet, peaceful life of
-work, and whose precarious health, prevented that large
-intercourse with his fellow-men which is generally
-forced upon greatness, but who was so beloved by his
-circle of intimate friends that, through their contagious
-enthusiasm, and through the glimpses of his nature
-revealed in his writings, he was in all likelihood more
-greatly loved than any other man of his time by those
-who knew him not.</p>
-
-<p>And for all those of us who have loved Darwin,
-although we have never seen him, we can at any rate
-remember that we have lived in his time and have
-heard the echoes of his living voice; he has been even
-more to us than he will be to future generations of
-mankind—a mighty tradition, gaining rather than
-losing in force and in overwhelming interest as each
-passing age, inspired by his example, guided by his
-teachings, adds to the knowledge of nature, and in
-so doing gives an ever deeper meaning to his life
-and work.</p>
-
-<div class="chapter"><div class="footnotes">
-<h2 class="nobreak" id="FOOTNOTES">FOOTNOTES</h2>
-
-<div class="footnote">
-
-<p><a id="Footnote_1" href="#FNanchor_1" class="fnanchor">A</a> See Professor Meldola’s interesting Presidential Address to
-the Entomological Society of London (January, 1896) on the use of
-the imagination in science, printed in the Transactions of the Society
-and in <i>Nature</i>. See also “The Advancement of Science” (London,
-1890), in which Professor Lankester maintains (p. 4): “All true
-science deals with speculation and hypothesis, and acknowledges as
-its most valued servant—its indispensable ally and helpmeet—that
-which our German friends call ‘Phantasie’ and we ‘the Imagination.’”
-Consult also Professor Tyndall’s essay “On the Scientific Use
-of the Imagination” (“Fragments of Science,” 1889, vol. ii., p. 101).</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_2" href="#FNanchor_2" class="fnanchor">B</a> We are told in the “Life and Letters” that the last proof of
-the “Journal” was finished in 1837. The Diary, as stated above,
-was written between July, 1837, and February, 1838.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_3" href="#FNanchor_3" class="fnanchor">C</a> Professor H. F. Osborn has rightly urged that this essay
-should be published (“From the Greeks to Darwin,” 1894,
-p. 235).</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_4" href="#FNanchor_4" class="fnanchor">D</a> My friend Mr. J. J. Walker, R.N., tells me that the house in
-which Wallace lived in Ternate, and in which the essay was written,
-is still pointed out by the natives as one of the features of the place.
-It is, unfortunately, much dilapidated.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_5" href="#FNanchor_5" class="fnanchor">E</a> Wallace has added the following note to the reprint in “Natural
-Selection and Tropical Nature,” London, 1891, p. 31: “That is,
-they will vary, and the variations which tend to adapt them to the
-wild state, and therefore approximate them to wild animals, will be
-preserved. Those individuals which do not vary sufficiently will
-perish.”</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_6" href="#FNanchor_6" class="fnanchor">F</a> Since the above paragraph was written I have again read
-Professor Newton’s eloquent Address to the Biological Section of
-the British Association at Manchester in 1887, and find that he says
-on the same subject—“If in future you should meet with any cynic
-who may point the finger of scorn at the petty quarrels in which
-naturalists unfortunately at times engage, particularly in regard to
-the priority of their discoveries, you can always refer him to this
-greatest of all cases, where scientific rivalry not only did not interfere
-with, but even strengthened, the good-feeling which existed
-between two of the most original investigators” (Report of Meeting,
-p. 731).</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_7" href="#FNanchor_7" class="fnanchor">G</a> “There is grandeur in this view of life, with its several powers,
-having been originally breathed by the Creator into a few forms or
-into one;...”—(Concluding paragraph of “Origin,” 1860, p. 490.)</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_8" href="#FNanchor_8" class="fnanchor">H</a> “Life of Lord Sherbrooke,” Vol. II. (pp. 205–206), Longmans
-&amp; Co. London, 1893.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_9" href="#FNanchor_9" class="fnanchor">I</a> Proc. Roy. Soc. Edin., Jan. 16th, 1860.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_10" href="#FNanchor_10" class="fnanchor">J</a> Presidential address to the British Association at Belfast, 1874.
-Report, p. lxxxvii.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_11" href="#FNanchor_11" class="fnanchor">K</a> See H. F. Osborn, “From the Greeks to Darwin” (1894).</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_12" href="#FNanchor_12" class="fnanchor">L</a> In “Comparative Longevity.”</p>
-
-</div>
-</div></div>
-
-<div id="toclink_221" class="chapter"><div class="index">
-<p><span class="pagenum" id="Page_221">221</span></p>
-<h2 class="nobreak" id="INDEX">INDEX.</h2>
-
-<ul class="index">
-<li class="ifrst">Abnormal Transposition, or Multiplication of Parts, <a href="#Page_172">172</a></li>
-
-<li class="indx">Acquired Characters, Transmission of, <a href="#Page_179">179</a>, <a href="#Page_180">180</a></li>
-
-<li class="indx">Agassiz, Prof. L., and Darwin, <a href="#Page_157">157</a>, <a href="#Page_158">158</a></li>
-
-<li class="indx">Animals, Variation of, under Domestication, <a href="#Page_75">75</a>, <a href="#Page_115">115</a>, <a href="#Page_161">161</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Abnormal Transposition or Multiplication of Parts, <a href="#Page_172">172</a>;</li>
-<li class="isub1">Instinctive Knowledge in, denied, <a href="#Page_216">216</a></li>
-
-<li class="indx">Argyll, Duke of, on Natural Selection, <a href="#Page_144">144</a></li>
-
-<li class="indx">Atlantis Hypothesis, The, Darwin’s Objections to, <a href="#Page_53">53–55</a></li>
-
-<li class="ifrst">Bastian, Dr. H. C., <a href="#Page_160">160</a></li>
-
-<li class="indx">Bates on Mimicry, <a href="#Page_212">212</a></li>
-
-<li class="indx">Bateson on Speculation and Hypothesis in Science, <a href="#Page_14">14–15</a></li>
-
-<li class="indx">“Beagle,” Darwin’s Voyage in the, <a href="#Page_21">21–24</a>;</li>
-<li class="isub1">Important Observations and Discoveries, <a href="#Page_23">23</a>;</li>
-<li class="isub1">Countries and Islands visited, <a href="#Page_23">23–24</a>;</li>
-<li class="isub1">Completion of “A Naturalist’s Voyage,” <a href="#Page_30">30</a>;</li>
-<li class="isub1">Zoology of, <a href="#Page_31">31</a>;</li>
-<li class="isub1">Geology of, <a href="#Page_35">35</a></li>
-
-<li class="indx">Beale, Dr. Lionel, <a href="#Page_184">184</a></li>
-
-<li class="indx">Bear and Whale, a Hypothetical Illustration of Natural Selection, <a href="#Page_151">151</a></li>
-
-<li class="indx">Beetles, Wingless, <a href="#Page_51">51</a></li>
-
-<li class="indx">Birds, Experimenting with Distasteful Caterpillars, &amp;c., <a href="#Page_216">216</a></li>
-
-<li class="indx">Botanical Works of Darwin, <a href="#Page_193">193</a>, <i xml:lang="la" lang="la">et seq.</i></li>
-
-<li class="indx">Bree, Dr., “Species not Transmutable,” <a href="#Page_149">149</a></li>
-
-<li class="indx">Butler, Dr., School at Shrewsbury, Darwin’s Education at, <a href="#Page_16">16</a>, <a href="#Page_17">17</a></li>
-
-<li class="indx">Butterflies, Dimorphic, <a href="#Page_204">204</a>, <a href="#Page_205">205</a></li>
-
-<li class="ifrst">Cambridge, Darwin studying at, <a href="#Page_18">18–20</a>;</li>
-<li class="isub1">Revisited, <a href="#Page_25">25</a></li>
-
-<li class="indx">Carpenter, Dr., <a href="#Page_159">159</a></li>
-
-<li class="indx">Carus, V., <a href="#Page_183">183</a></li>
-
-<li class="indx">Case, Mr., Darwin attends his School at Shrewsbury, <a href="#Page_16">16</a></li>
-
-<li class="indx">“Challenger” Expedition, The, <a href="#Page_53">53</a>, <a href="#Page_55">55</a></li>
-
-<li class="indx">Cirripedia, Monographs on the, <a href="#Page_36">36</a></li>
-
-<li class="indx">Climbing Plants, <a href="#Page_196">196</a>;</li>
-<li class="isub1">Revolution of the Upper Part, <a href="#Page_196">196</a></li>
-
-<li class="indx">Copley Medal of the Royal Society awarded to Charles Darwin, <a href="#Page_109">109</a>;</li>
-<li class="isub1">to Sir Joseph Hooker, <a href="#Page_111">111</a></li>
-
-<li class="indx">Coral Reefs, Work upon the, <a href="#Page_32">32</a>;</li>
-<li class="isub1">Theory of Origin, <a href="#Page_33">33</a>;</li>
-<li class="isub1">Dr. John Murray rejects the Darwinian Theory, <a href="#Page_33">33</a></li>
-
-<li class="indx">Creative Hypothesis, Huxley on the, <a href="#Page_135">135</a></li>
-
-<li class="indx">Crossing in Plants, The Advantages of, <a href="#Page_194">194</a></li>
-
-<li class="indx">Cross-fertilisation in Plants, <a href="#Page_201">201</a></li>
-
-<li class="ifrst">Darwin, Charles, Birthplace, <a href="#Page_9">9</a>;</li>
-<li class="isub1">His Parentage, <a href="#Page_10">10</a>;</li>
-<li class="isub1">Family Genius, <a href="#Page_10">10</a>;</li>
-<li class="isub1">Secret of his Strength, <a href="#Page_13">13–15</a>;</li>
-<li class="isub1">his high Valuation of Hypothesis, <a href="#Page_14">14</a>;</li>
-<li class="isub1">Boyhood, <a href="#Page_16">16–17</a>;</li>
-<li class="isub1">School-life, <a href="#Page_16">16</a>;</li>
-<li class="isub1">Love of Sport, <a href="#Page_16">16</a>;</li>
-<li class="isub1">at Edinburgh, <a href="#Page_17">17</a>;</li>
-<li class="isub1">Dislike of Dissection, <a href="#Page_17">17</a>;</li>
-<li class="isub1">First Scientific Discovery and Paper, <a href="#Page_17">17</a>, <a href="#Page_18">18</a>;</li>
-<li class="isub1">at Cambridge, <a href="#Page_18">18–20</a>;</li>
-<li class="isub1">his Friendship with Professors Henslow and Sedgwick, <a href="#Page_19">19</a>;</li>
-<li class="isub1">Voyage of the “Beagle,” <a href="#Page_21">21</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Preparation for and Effects of the Voyage, <a href="#Page_22">22</a>;</li>
-<li class="isub1">the Most Important Discoveries during, <a href="#Page_23">23</a>;</li>
-<li class="isub1">Places Visited, <a href="#Page_23">23</a>, <a href="#Page_24">24</a>;</li>
-<li class="isub1">Re-visits Cambridge, <a href="#Page_25">25</a>;</li>
-<li class="isub1">Work upon the Collections, and the “Naturalist’s Voyage,” <a href="#Page_25">25</a>;</li>
-<li class="isub1">at London, <a href="#Page_25">25</a>;</li>
-<li class="isub1">Origin of Species, <a href="#Page_25">25–29</a>;</li>
-<li class="isub1">Geological Work, <a href="#Page_29">29</a>, <a href="#Page_33">33</a>;</li>
-<li class="isub1">Completion of “A Naturalist’s Voyage,” <a href="#Page_30">30</a>;</li>
-<li class="isub1">Zoology of the Voyage of the “Beagle,” <a href="#Page_31">31</a>;</li>
-<li class="isub1">Papers on Earth-Worms, <a href="#Page_31">31</a>;</li>
-<li class="isub1">Marriage, <a href="#Page_32">32</a>;</li>
-<li class="isub1">Book on the Coral Reefs, <a href="#Page_32">32</a>;</li>
-<li class="isub1">Ill-health, <a href="#Page_32">32</a>;</li>
-<li class="isub1">at Down, <a href="#Page_35">35</a>;</li>
-<li class="isub1">his Career as a Biologist, <a href="#Page_37">37</a>;</li>
-<li class="isub1">Systematic Work, <a href="#Page_37">37</a>;</li>
-<li class="isub1">his Dislike of Species-mongers, <a href="#Page_39">39</a>, <a href="#Page_40">40</a>;</li>
-<li class="isub1">Death of his Father and Daughter, <a href="#Page_41">41</a>;</li>
-<li class="isub1">Growth of the Origin of Species Theory, <a href="#Page_42">42–59</a>;</li>
-<li class="isub1">Correspondence with Friends, <a href="#Page_50">50–59</a>;</li>
-<li class="isub1">Experiments with Seeds in Salt Water, <a href="#Page_51">51</a>, <a href="#Page_52">52</a>;</li>
-<li class="isub1">Letter to Wedgwood, <a href="#Page_52">52</a>;</li>
-<li class="isub1">Objections to the Atlantis Hypothesis, <a href="#Page_53">53</a>, <a href="#Page_55">55</a>;</li>
-<li class="isub1">Letter to Lyell, <a href="#Page_53">53</a>;</li>
-<li class="isub1">Friendship and Correspondence with Wallace, <a href="#Page_60">60–64</a>, <a href="#Page_81">81–86</a>;</li>
-<li class="isub1">their Joint Papers Presented to the Linnean Society, <a href="#Page_46">46</a>, <a href="#Page_62">62</a>;</li>
-<li class="isub1">Letter to Asa Gray on Selection, <a href="#Page_68">68–70</a>;</li>
-<li class="isub1">Comparison and Reception of the Joint Papers, <a href="#Page_78">78–82</a>;</li>
-<li class="isub1">Delay in Publishing his Discoveries, <a href="#Page_90">90</a>;</li>
-<li class="isub1">Preparation of Origin of Species, <a href="#Page_95">95</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Observations, <a href="#Page_96">96</a>;</li>
-<li class="isub1">Appeals to Lyell, <a href="#Page_97">97</a>;</li>
-<li class="isub1">Letter to John Murray, <a href="#Page_97">97</a>;</li>
-<li class="isub1">his Influence upon Lyell, <a href="#Page_105">105</a>;</li>
-<li class="isub1">Receives the Copley Medal of the Royal Society, <a href="#Page_109">109</a>;</li>
-<li class="isub1">his Indebtedness to Lyell’s Teaching, <a href="#Page_110">110</a>;</li>
-<li class="isub1">Influence upon Hooker and Asa Gray, <a href="#Page_111">111</a>;</li>
-<li class="isub1">his Controversy with Asa Gray, <a href="#Page_114">114–118</a>;</li>
-<li class="isub1">his Influence upon Huxley, <a href="#Page_119">119–143</a>;</li>
-<li class="isub1">his Views of Natural Selection as the Cause of Evolution not accepted by Huxley, <a href="#Page_121">121–128</a>;</li>
-<li class="isub1">Extracts from Letters showing Difficulty with which Natural Selection was Understood, <a href="#Page_145">145</a>, <i xml:lang="la" lang="la">et seq.</i>;<span class="pagenum" id="Page_222">222</span></li>
-<li class="isub1">on Spontaneous Generation, <a href="#Page_108">108</a>, <a href="#Page_159">159</a>;</li>
-<li class="isub1">and Bastian, <a href="#Page_160">160</a>;</li>
-<li class="isub1">his Later Works, <a href="#Page_161">161</a>;</li>
-<li class="isub1">his Theory of Pangenesis, <a href="#Page_163">163</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Variation of Animals and Plants under Domestication, Outline of the Book, <a href="#Page_163">163</a>;</li>
-<li class="isub1">on Sexual and Asexual Reproductions, <a href="#Page_164">164</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Extracts from Letters to Friends on Pangenesis, <a href="#Page_178">178</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">“The Descent of Man,” <a href="#Page_186">186</a>;</li>
-<li class="isub1">“The Expression of the Emotions,” <a href="#Page_189">189</a>;</li>
-<li class="isub1">“Volcanic Islands,” <a href="#Page_190">190</a>;</li>
-<li class="isub1">“South America,” <a href="#Page_190">190</a>;</li>
-<li class="isub1">“The Formation of Vegetable Mould through the Action of Worms,” <a href="#Page_191">191</a>;</li>
-<li class="isub1">his Life of Erasmus Darwin, <a href="#Page_192">192</a>;</li>
-<li class="isub1">“Fertilisation of Orchids,” <a href="#Page_193">193</a>;</li>
-<li class="isub1">Cross- and Self-Fertilisation in the Vegetable Kingdom, <a href="#Page_194">194</a>;</li>
-<li class="isub1">Different Forms of Flowers on Plants of Same Species, <a href="#Page_194">194</a>;</li>
-<li class="isub1">Climbing Plants, <a href="#Page_196">196</a>;</li>
-<li class="isub1">“Power of Movement in Plants,” <a href="#Page_197">197</a>;</li>
-<li class="isub1">“Insectivorous Plants,” <a href="#Page_198">198</a>;</li>
-<li class="isub1">Letters to Prof. Meldola, <a href="#Page_199">199</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">his Last Illness, <a href="#Page_219">219</a>;</li>
-<li class="isub1">and Death, <a href="#Page_220">220</a></li>
-
-<li class="indx">Darwin, Erasmus, Brother of Charles, <a href="#Page_11">11</a></li>
-
-<li class="indx">Darwin, Erasmus, Grandfather of Charles, <a href="#Page_10">10</a>, <a href="#Page_192">192</a></li>
-
-<li class="indx">Darwin, Prof. George, Brother of Charles, <a href="#Page_11">11</a></li>
-
-<li class="indx">Darwin, Robert Waring, Father of Charles, <a href="#Page_10">10</a>;</li>
-<li class="isub1">Profession and Character, <a href="#Page_10">10</a>;</li>
-<li class="isub1">his Dislike to the “Beagle” Expedition, <a href="#Page_21">21–22</a>;</li>
-<li class="isub1">Death of, <a href="#Page_41">41</a></li>
-
-<li class="indx">Darwin Medal of the Royal Society awarded to Huxley, The, <a href="#Page_140">140</a></li>
-
-<li class="indx">Darwinism not Evolution, Huxley’s Speeches, <a href="#Page_139">139–141</a></li>
-
-<li class="indx">Deposits, Oceanic, <a href="#Page_55">55</a></li>
-
-<li class="indx">Descent of Man, The, <a href="#Page_186">186</a></li>
-
-<li class="indx">Development, <a href="#Page_166">166</a>, <a href="#Page_171">171</a></li>
-
-<li class="indx">Dixey, Dr. F. A., Paper on Mimicry, <a href="#Page_214">214</a></li>
-
-<li class="indx">Domestication, Variation by, of Animals and Plants, <a href="#Page_115">115</a>, <a href="#Page_161">161</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">of Animals, <a href="#Page_75">75</a></li>
-
-<li class="indx">Down, Darwin’s Home at, <a href="#Page_35">35</a></li>
-
-<li class="indx">Drosera and Other Insectivorous Plants, <a href="#Page_198">198</a></li>
-
-<li class="ifrst">Earthworms, <a href="#Page_191">191</a>;</li>
-<li class="isub1">Castings of, <a href="#Page_191">191</a>;</li>
-<li class="isub1">Papers on the, <a href="#Page_31">31</a></li>
-
-<li class="indx">Edinburgh, Darwin studying for Medicine at, <a href="#Page_17">17</a></li>
-
-<li class="indx">“Emotions, The Expression of the,” <a href="#Page_189">189</a>, <a href="#Page_190">190</a></li>
-
-<li class="indx">Evolution, First Recorded Thoughts upon, <a href="#Page_28">28</a>;</li>
-<li class="isub1">Natural Selection as a Cause not accepted by Huxley, <a href="#Page_121">121</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">the Argument for, <a href="#Page_100">100</a>;</li>
-<li class="isub1">supported by Huxley, <a href="#Page_121">121</a>;</li>
-<li class="isub1">Huxley agrees with Darwin, <a href="#Page_121">121</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Discussion at Meeting of the British Association, <a href="#Page_82">82</a>, <a href="#Page_138">138</a>;</li>
-<li class="isub1">not Darwinism, <a href="#Page_139">139–141</a></li>
-
-<li class="indx">“Expression of the Emotions, The,” <a href="#Page_189">189</a>, <a href="#Page_190">190</a></li>
-
-<li class="indx">Extinction, <a href="#Page_43">43–45</a></li>
-
-<li class="ifrst">Fertilisation of Germ Cells, <a href="#Page_165">165</a>;</li>
-<li class="isub1">“of Orchids, The,” <a href="#Page_193">193</a>;</li>
-<li class="isub1">of Flowers by Insects, <a href="#Page_193">193</a>;</li>
-<li class="isub1">Effects of Cross- and Self-, <a href="#Page_194">194</a></li>
-
-<li class="indx">Fitzroy, Capt., of the “Beagle,” <a href="#Page_21">21</a>, <a href="#Page_22">22</a></li>
-
-<li class="indx">Flowers, The Fertilisation of, by Insects, <a href="#Page_193">193</a>;</li>
-<li class="isub1">Effects of Cross- and Self-Fertilisation compared, <a href="#Page_194">194</a>;</li>
-<li class="isub1">Different Forms on the same Plant, <a href="#Page_195">195</a></li>
-
-<li class="indx">Flustra, Darwin’s Discovery of the Free-Swimming Larvæ of, <a href="#Page_18">18</a></li>
-
-<li class="indx">Forbes, Edward, and the Atlantis Hypothesis, <a href="#Page_53">53</a></li>
-
-<li class="indx">“Formation of Vegetable Mould through the Action of Worms, The,” <a href="#Page_191">191</a></li>
-
-<li class="indx">Fox, W. Darwin, <a href="#Page_19">19</a></li>
-
-<li class="ifrst">Galapagos Archipelago, The Animals, etc., of the, <a href="#Page_26">26</a>, <a href="#Page_27">27</a>, <a href="#Page_42">42</a></li>
-
-<li class="indx">Galton, F., <a href="#Page_184">184</a></li>
-
-<li class="indx">Geikie, James, <a href="#Page_190">190</a></li>
-
-<li class="indx">Geological Society, The, Darwin appointed Secretary, <a href="#Page_29">29</a>;</li>
-<li class="isub1">Papers on the Earthworms, <a href="#Page_31">31</a></li>
-
-<li class="indx">Geology of the Voyage of the “Beagle,” <a href="#Page_35">35</a></li>
-
-<li class="indx">Glacial Phenomena, Darwin’s Paper upon, <a href="#Page_33">33</a></li>
-
-<li class="indx">Graft-Hybrids, <a href="#Page_166">166</a></li>
-
-<li class="indx">Grafting, Production of Hybrids by, <a href="#Page_168">168</a></li>
-
-<li class="indx">Gray, Asa, Darwin’s Correspondence with, <a href="#Page_51">51</a>, <a href="#Page_55">55</a>, <a href="#Page_107">107</a>, <a href="#Page_181">181</a>, <a href="#Page_184">184</a>;</li>
-<li class="isub1">his Influence upon, <a href="#Page_112">112</a>;</li>
-<li class="isub1">Darwin’s Controversy with, <a href="#Page_114">114–118</a></li>
-
-<li class="indx">Gray, Dr., <a href="#Page_146">146</a>, <a href="#Page_149">149</a></li>
-
-<li class="ifrst">Henslow, Prof., Friendship with Darwin, <a href="#Page_18">18–21</a></li>
-
-<li class="indx">Herbert, J. M., on Darwin’s Character, <a href="#Page_19">19</a>, <a href="#Page_20">20</a></li>
-
-<li class="indx">Hereditary Genius, Evidences in the Darwin Family, <a href="#Page_10">10</a>, <a href="#Page_11">11</a></li>
-
-<li class="indx">Heredity, Theories of, <a href="#Page_167">167</a>, <a href="#Page_174">174</a></li>
-
-<li class="indx">Hermaphroditism, <a href="#Page_175">175</a></li>
-
-<li class="indx">Holmes, Dr. Oliver Wendell, his References to Darwin, <a href="#Page_9">9</a>;</li>
-<li class="isub1">his Correction of Darwin, <a href="#Page_9">9</a></li>
-
-<li class="indx">Hooker, Sir Joseph, <a href="#Page_37">37</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">Darwin’s Letters to, on Species-mongers, <a href="#Page_39">39–40</a>;</li>
-<li class="isub1">Darwin’s Opinion of, <a href="#Page_48">48</a>;</li>
-<li class="isub1">Friendship and Correspondence with Darwin, <a href="#Page_50">50</a>;</li>
-<li class="isub1">Lyell’s Correspondence with, as to Specific Centres, <a href="#Page_57">57</a>;</li>
-<li class="isub1">Darwin’s Influence upon, <a href="#Page_110">110</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">awarded the Copley Medal of the Royal Society, <a href="#Page_111">111</a>;</li>
-<li class="isub1">and Darwin, <a href="#Page_146">146</a>;</li>
-<li class="isub1">Darwin Writing on Pangenesis, <a href="#Page_181">181</a>, <a href="#Page_182">182</a><span class="pagenum" id="Page_223">223</span></li>
-
-<li class="indx">Huxley, Prof., Criticisms of Darwin’s Theory, <a href="#Page_46">46</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">on Teleology, <a href="#Page_113">113</a>;</li>
-<li class="isub1">Darwin’s Influence upon, <a href="#Page_119">119–143</a>;</li>
-<li class="isub1">agrees with Darwin on Evolution, <a href="#Page_121">121</a>;</li>
-<li class="isub1">Views on Natural Selection, <a href="#Page_121">121</a>, <a href="#Page_124">124</a>, <a href="#Page_126">126</a>, <a href="#Page_138">138</a>;</li>
-<li class="isub1">Article in the <i>Times</i> on the Origin of Species, <a href="#Page_124">124</a>;</li>
-<li class="isub1">his Article in the <i>Westminster Review</i>, <a href="#Page_125">125</a>;</li>
-<li class="isub1">Lectures on the Causes of the Phenomena of Organic Nature, <a href="#Page_128">128</a>, <a href="#Page_142">142</a>;</li>
-<li class="isub1">Views as to Natural Selection not changed, <a href="#Page_137">137</a>, <a href="#Page_138">138</a>;</li>
-<li class="isub1">Speech at the British Association Meeting at Oxford, <a href="#Page_139">139</a>;</li>
-<li class="isub1">awarded the Darwin Medal of the Royal Society, <a href="#Page_140">140</a>;</li>
-<li class="isub1">Darwinism, not Evolution, <a href="#Page_140">140</a>, <a href="#Page_141">141</a>;</li>
-<li class="isub1">and the Bishop of Oxford, <a href="#Page_155">155</a></li>
-
-<li class="indx">Hybrid Grafts, <a href="#Page_166">166</a></li>
-
-<li class="indx">Hybridism, <a href="#Page_175">175</a>, <a href="#Page_176">176</a></li>
-
-<li class="indx">Hybrids, Tendency to Resemble one Parent, <a href="#Page_171">171</a>;</li>
-<li class="isub1">Sterility of, <a href="#Page_171">171</a>;</li>
-<li class="isub1">Produced by Grafting, <a href="#Page_168">168</a></li>
-
-<li class="indx">Hypothesis and Speculation, Bearing on Science, <a href="#Page_14">14</a>, <a href="#Page_15">15</a></li>
-
-<li class="ifrst">Inheritance, The Theories of, <a href="#Page_167">167</a>, <a href="#Page_174">174</a></li>
-
-<li class="indx">Insectivorous Plants, <a href="#Page_198">198</a></li>
-
-<li class="indx">Instinctive Knowledge in Animals denied by Darwin, <a href="#Page_216">216</a></li>
-
-<li class="ifrst">Jenkin, Fleming, <a href="#Page_81">81</a></li>
-
-<li class="ifrst">Lamarck’s Theory of Evolution, <a href="#Page_99">99</a>;</li>
-<li class="isub1">Comparison with Darwin’s, <a href="#Page_148">148</a>, <a href="#Page_150">150</a></li>
-
-<li class="indx">Lankester, Prof. E. Ray, <a href="#Page_99">99</a>, <a href="#Page_184">184</a></li>
-
-<li class="indx">Linnean Society, Joint Memoirs by Darwin and Wallace, read before, <a href="#Page_65">65</a>, <i xml:lang="la" lang="la">et seq.</i></li>
-
-<li class="indx">Lowe, Robert, <a href="#Page_150">150</a></li>
-
-<li class="indx">Lyell, Sir Charles, Influence on Darwin, <a href="#Page_29">29</a>, <a href="#Page_30">30</a>, <a href="#Page_51">51</a>;</li>
-<li class="isub1">and Continental Extensions, <a href="#Page_53">53</a>;</li>
-<li class="isub1">and Hooker’s Agreement on the Specific Centres Theory, <a href="#Page_57">57</a>;</li>
-<li class="isub1">Darwin’s Appeal to, on the Natural Selection, <a href="#Page_97">97</a>;</li>
-<li class="isub1">Influence of Darwin upon, <a href="#Page_105">105</a>;</li>
-<li class="isub1">Accepts Darwin’s Views, <a href="#Page_108">108</a>, <a href="#Page_109">109</a>;</li>
-<li class="isub1">Death of, <a href="#Page_109">109</a>;</li>
-<li class="isub1">Darwin’s Letter on Pangenesis, <a href="#Page_181">181</a></li>
-
-<li class="indx">Lythrum, Different Forms of Flowers on the, <a href="#Page_195">195</a></li>
-
-<li class="ifrst">Macleay, W. S., <a href="#Page_150">150</a></li>
-
-<li class="indx">Malthus on Population, its Influence on Darwin, <a href="#Page_46">46</a>;</li>
-<li class="isub1">and on Wallace, <a href="#Page_88">88</a>, <a href="#Page_89">89</a></li>
-
-<li class="indx">Man, The Descent of, <a href="#Page_186">186</a></li>
-
-<li class="indx">Meldola, Prof., on Systematic Work, <a href="#Page_37">37</a>;</li>
-<li class="isub1">and Darwin, <a href="#Page_199">199</a>, <i xml:lang="la" lang="la">et seq.</i></li>
-
-<li class="indx">Metamorphosis, <a href="#Page_171">171</a></li>
-
-<li class="indx">Mimetic Resemblance, <a href="#Page_202">202</a></li>
-
-<li class="indx">Mimicry, <a href="#Page_202">202</a>, <a href="#Page_204">204</a>;</li>
-<li class="isub1">Bates’ Theory, <a href="#Page_212">212</a>;</li>
-<li class="isub1">Fritz Müller’s Theory, <a href="#Page_212">212</a>;</li>
-<li class="isub1">Dixey’s paper on, <a href="#Page_214">214</a></li>
-
-<li class="indx">Müller, Fritz, Darwin’s Letters to, <a href="#Page_181">181</a>, <a href="#Page_183">183</a>;</li>
-<li class="isub1">on Mimicry, <a href="#Page_212">212–214</a>;</li>
-<li class="isub1">his Paper Translated, <a href="#Page_213">213</a></li>
-
-<li class="indx">Murray, Andrew, <a href="#Page_152">152</a></li>
-
-<li class="indx">Murray, Dr. John, Controversy as to the Origin of Coral Reefs, <a href="#Page_33">33</a></li>
-
-<li class="ifrst">Naming of Species, Darwin on the, <a href="#Page_39">39</a>, <a href="#Page_40">40</a></li>
-
-<li class="indx">Natural Selection, Early Impressions on Darwin, <a href="#Page_30">30</a>, <a href="#Page_45">45</a>, <a href="#Page_46">46</a>;</li>
-<li class="isub1">Survival of the Fittest, <a href="#Page_56">56</a>;</li>
-<li class="isub1">Specific Centres, <a href="#Page_57">57</a>;</li>
-<li class="isub1">Darwin’s Paper on, <a href="#Page_65">65</a>;</li>
-<li class="isub1">Theory of, <a href="#Page_68">68–70</a>;</li>
-<li class="isub1">Wallace’s Discovery of, <a href="#Page_88">88–91</a>;</li>
-<li class="isub1">Lord Salisbury’s Attack on, <a href="#Page_82">82</a>, <a href="#Page_138">138</a>;</li>
-<li class="isub1">Canon Tristram, the First Publicly to Accept the Theory, <a href="#Page_92">92–94</a>;</li>
-<li class="isub1">Argument for, <a href="#Page_100">100–103</a>;</li>
-<li class="isub1">Huxley not convinced as to Sufficiency of the Evidence of, <a href="#Page_121">121</a>, <a href="#Page_123">123</a>, <a href="#Page_124">124</a>, <a href="#Page_126">126</a>;</li>
-<li class="isub1">as the Highest Attempt to Account for Evolution, <a href="#Page_129">129</a>;</li>
-<li class="isub1">Huxley’s Description of the Theory, <a href="#Page_136">136</a>, <a href="#Page_137">137</a>;</li>
-<li class="isub1">H. C. Watson on, <a href="#Page_144">144</a>;</li>
-<li class="isub1">Hostile Criticisms, <a href="#Page_144">144</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Why the Term was Chosen, <a href="#Page_147">147</a></li>
-
-<li class="indx">“Naturalist’s Voyage, A,” Completion of, <a href="#Page_30">30</a></li>
-
-<li class="indx">Newton, Prof., Speech at the British Association, <a href="#Page_153">153</a></li>
-
-<li class="indx"><i>Nineteenth Century</i>, The Duke of Argyll’s Article in the, <a href="#Page_144">144</a></li>
-
-<li class="ifrst">Orchids, the Fertilisation of, <a href="#Page_193">193</a></li>
-
-<li class="indx">Origin of Species, Darwin’s Theory of the;</li>
-<li class="isub1">Early Reflections upon, <a href="#Page_25">25–29</a>;</li>
-<li class="isub1">Growth of the Theory, <a href="#Page_42">42</a>;</li>
-<li class="isub1">Separate Creation Theory Inadequate, <a href="#Page_42">42</a>;</li>
-<li class="isub1">Principles of Development, <a href="#Page_45">45</a>;</li>
-<li class="isub1">First Account of Darwin’s Theory, <a href="#Page_46">46</a>;</li>
-<li class="isub1">the Sketch Enlarged, <a href="#Page_46">46</a>;</li>
-<li class="isub1">Profs. Huxley and Newton’s Criticisms, <a href="#Page_46">46</a>, <a href="#Page_47">47</a>;</li>
-<li class="isub1">Divergence of Character, <a href="#Page_47">47</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">Competition, <a href="#Page_47">47</a>, <a href="#Page_56">56</a>;</li>
-<li class="isub1">Darwin’s Arrangements for the Publication in case of his Death, <a href="#Page_48">48</a>;</li>
-<li class="isub1">Darwin and Wallace’s Joint Paper Presented to the Linnean Society, <a href="#Page_46">46</a>, <a href="#Page_62">62</a>;</li>
-<li class="isub1">his Confidence, <a href="#Page_48">48</a>;</li>
-<li class="isub1">Correspondence with Friends, <a href="#Page_50">50</a>;</li>
-<li class="isub1">Immutability of Species denied, <a href="#Page_50">50</a>;</li>
-<li class="isub1">Theory not understood by Naturalists, <a href="#Page_55">55</a>;</li>
-<li class="isub1">the Polyphyletic Theory, <a href="#Page_57">57</a>;</li>
-<li class="isub1">Specific Centres, <a href="#Page_57">57</a>;</li>
-<li class="isub1">Darwin and Wallace, <a href="#Page_60">60</a>;</li>
-<li class="isub1">their Papers before the Linnean Society, <a href="#Page_62">62–77</a>;</li>
-<li class="isub1">Struggle for Life, <a href="#Page_65">65–77</a>;</li>
-<li class="isub1">Principles of, <a href="#Page_68">68–70</a>;</li>
-<li class="isub1">Comparison of the Joint Memoir, <a href="#Page_78">78</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Preparation of the Work on, <a href="#Page_95">95</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Interest of Lyell and Hooker in its Publication, <a href="#Page_95">95</a>;</li>
-<li class="isub1">Letters to John Murray, the Publisher, <a href="#Page_97">97</a>;</li>
-<li class="isub1">full Title of the Volume, <a href="#Page_98">98</a>;</li>
-<li class="isub1">Outline of the Book and its Various Editions, <a href="#Page_100">100–104</a>;</li>
-<li class="isub1">its Reception by Lyell, <a href="#Page_105">105</a>;</li>
-<li class="isub1">by Hooker, <a href="#Page_111">111</a>;<span class="pagenum" id="Page_224">224</span></li>
-<li class="isub1">by Asa Gray, <a href="#Page_112">112</a>;</li>
-<li class="isub1">and by Huxley, <a href="#Page_119">119</a>;</li>
-<li class="isub1">Huxley’s Article in the <i>Times</i>, <a href="#Page_124">124</a>;</li>
-<li class="isub1">and in the <i>Westminster Review</i>, <a href="#Page_125">125</a>;</li>
-<li class="isub1">Huxley’s high Tribute to Darwin’s Theory, <a href="#Page_130">130</a>;</li>
-<li class="isub1">Difficulty with which Understood, <a href="#Page_144">144</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Regarded by Darwin as an Abstract of a Larger Work, <a href="#Page_162">162</a></li>
-
-<li class="indx">Osborn, Prof., <a href="#Page_79">79</a>, <a href="#Page_80">80</a></li>
-
-<li class="indx">Oxford, the Bishop of, and Huxley, <a href="#Page_155">155</a></li>
-
-<li class="ifrst">Pangenesis, Darwin’s Hypothesis of, <a href="#Page_164">164</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">his Confidence in the Theory, <a href="#Page_180">180</a>, <i xml:lang="la" lang="la">et seq.</i></li>
-
-<li class="indx">Parallel Roads of Glen Roy, The, <a href="#Page_31">31</a></li>
-
-<li class="indx">Parthenogenesis, <a href="#Page_164">164</a></li>
-
-<li class="indx">Petrels at St. Kilda, West Indian nuts found in, <a href="#Page_96">96</a></li>
-
-<li class="indx">Plants and Animals, Variation of, under Domestication, <a href="#Page_161">161</a>;</li>
-<li class="isub1">Production of Abnormal Parts, <a href="#Page_172">172</a>;</li>
-<li class="isub1">Separate forms on same Individual, <a href="#Page_175">175</a>;</li>
-<li class="isub1">Different forms of Flowers on the same Species, <a href="#Page_194">194</a>;</li>
-<li class="isub1">Climbing, <a href="#Page_196">196</a>;</li>
-<li class="isub1">Power of Movements in, <a href="#Page_197">197</a>;</li>
-<li class="isub1">Insectivorous, <a href="#Page_198">198</a></li>
-
-<li class="indx">Pollen, Fertilisation of Ovule, <a href="#Page_166">166</a></li>
-
-<li class="indx">“Power of Movements in Plants, The,” <a href="#Page_197">197</a></li>
-
-<li class="indx">Protective Mimicry, <a href="#Page_203">203</a></li>
-
-<li class="ifrst">Reproduction of an Amputated Limb or part, <a href="#Page_170">170</a></li>
-
-<li class="indx">Reproduction, Sexual and Asexual, <a href="#Page_164">164</a>, <i xml:lang="la" lang="la">et seq.</i></li>
-
-<li class="indx">Reversion, <a href="#Page_167">167</a>, <a href="#Page_175">175</a></li>
-
-<li class="indx">Rolleston, Prof., <a href="#Page_155">155</a>, <a href="#Page_156">156</a></li>
-
-<li class="indx">Romanes, Prof. G. J., <a href="#Page_185">185</a></li>
-
-<li class="ifrst">Salisbury, Lord, Speech at the British Association Meeting at Oxford, <a href="#Page_82">82</a>, <a href="#Page_83">83</a>, <a href="#Page_138">138</a></li>
-
-<li class="indx">Scientific Discoverer, The Qualifications of a, <a href="#Page_12">12</a></li>
-
-<li class="indx">Seeds, Experiments on the Vitality of, in Salt-Water, <a href="#Page_51">51</a>, <a href="#Page_52">52</a></li>
-
-<li class="indx">Sedgwick, Prof., Darwin’s Friendship with, <a href="#Page_18">18</a>;</li>
-<li class="isub1">his Excursions with, <a href="#Page_20">20</a></li>
-
-<li class="indx">Sexual and Asexual Reproduction, <a href="#Page_164">164</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">Advantages of, <a href="#Page_165">165</a>;</li>
-<li class="isub1">Cross-Fertilisation in Plants, <a href="#Page_166">166</a>;</li>
-<li class="isub1">Characters, <a href="#Page_174">174–177</a>;</li>
-<li class="isub1">Selection Theory, <a href="#Page_67">67</a>, <a href="#Page_188">188</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">rejected by Wallace, <a href="#Page_188">188</a>;</li>
-<li class="isub1">Darwin’s Letter to Meldola, <a href="#Page_201">201</a></li>
-
-<li class="indx">Shrewsbury, Darwin’s Birthplace, <a href="#Page_9">9</a>;</li>
-<li class="isub1">and School-life at, <a href="#Page_16">16</a>;</li>
-<li class="isub1">Re-visited, <a href="#Page_25">25</a></li>
-
-<li class="indx">“South America,” <a href="#Page_190">190</a></li>
-
-<li class="indx">South America, Some Observations on the Geology of, <a href="#Page_26">26</a></li>
-
-<li class="indx">Species, New, The Origin of, <a href="#Page_56">56</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">“Species not Transmutable,” Dr. Bree’s Book, <a href="#Page_149">149</a></li>
-
-<li class="indx">Species-mongers, Darwin’s Dislike of, <a href="#Page_39">39</a>, <a href="#Page_40">40</a></li>
-
-<li class="indx">Speculation and Hypothesis, <a href="#Page_14">14</a>, <a href="#Page_15">15</a></li>
-
-<li class="indx">Spencer, Herbert, Term of Survival of the Fittest, <a href="#Page_148">148</a></li>
-
-<li class="indx">Spontaneous Generation, <a href="#Page_108">108</a>, <a href="#Page_159">159</a></li>
-
-<li class="indx">Sterility of Hybrids, <a href="#Page_171">171</a></li>
-
-<li class="indx">Struggle for Existence, The, <a href="#Page_65">65–67</a>, <a href="#Page_71">71–77</a></li>
-
-<li class="indx">Survival of the Fittest, The, <a href="#Page_148">148</a></li>
-
-<li class="ifrst">Teleology, <a href="#Page_113">113</a>, <a href="#Page_114">114</a></li>
-
-<li class="indx">Ternate, Wallace’s house at, <a href="#Page_63">63</a></li>
-
-<li class="indx"><i>Times</i>, Huxley’s Article on the Origin of Species in, <a href="#Page_124">124</a></li>
-
-<li class="indx">Transmutation of Species, <a href="#Page_26">26</a>, <a href="#Page_149">149</a></li>
-
-<li class="indx">Tristram, Canon, <a href="#Page_92">92–94</a>;</li>
-<li class="isub1">Paper on Ornithology of Northern Africa, <a href="#Page_92">92</a></li>
-
-<li class="indx">Tuckwell, Rev. W., <a href="#Page_155">155</a></li>
-
-<li class="indx">Turkeys, Experimenting upon with Distasteful Caterpillars, <a href="#Page_216">216</a></li>
-
-<li class="indx">Tyndall, Prof., <a href="#Page_157">157</a></li>
-
-<li class="ifrst">Use and Disuse, The Inherited Effects of, <a href="#Page_167">167</a>, <a href="#Page_179">179</a></li>
-
-<li class="ifrst">Variability, <a href="#Page_167">167</a>, <a href="#Page_173">173</a></li>
-
-<li class="indx">Variation, of Organic Being, Darwin’s Papers upon, <a href="#Page_65">65</a>;</li>
-<li class="isub1">Wallace’s Paper on, <a href="#Page_71">71</a>, <i xml:lang="la" lang="la">et seq.</i>;</li>
-<li class="isub1">and Selection Relative Importance of, <a href="#Page_96">96</a>;</li>
-<li class="isub1">Under Domestication, <a href="#Page_115">115</a>, <a href="#Page_161">161</a></li>
-
-<li class="indx">Varieties, Departure from the Original Type, <a href="#Page_71">71–77</a></li>
-
-<li class="indx">“Volcanic Islands,” <a href="#Page_190">190</a></li>
-
-<li class="ifrst">Wallace, Alfred Russel, and Darwin’s Joint Paper Presented to Linnean Society, <a href="#Page_46">46</a>, <a href="#Page_62">62</a>;</li>
-<li class="isub1">and Darwin, <a href="#Page_53">53</a>, <a href="#Page_60">60–64</a>, <a href="#Page_81">81–86</a>, <a href="#Page_134">134</a>;</li>
-<li class="isub1">Paper Published on the Law Regulating new Species, <a href="#Page_60">60</a>;</li>
-<li class="isub1">Essays on Variations from Original Type, <a href="#Page_61">61</a>, <a href="#Page_71">71–77</a>;</li>
-<li class="isub1">house at Ternate, <a href="#Page_63">63</a>;</li>
-<li class="isub1">Comparison of the Joint Memoir, <a href="#Page_78">78–86</a>;</li>
-<li class="isub1">his Discovery of Natural Selection, <a href="#Page_87">87–91</a>;</li>
-<li class="isub1">Darwin’s Letter on Bastian’s Theory of Archebiosis, <a href="#Page_160">160</a>;</li>
-<li class="isub1">Darwin’s Letter to, on Pangenesis, <a href="#Page_182">182</a></li>
-
-<li class="indx">Watson, H. C., <a href="#Page_144">144</a></li>
-
-<li class="indx">Wedgwood, Josiah, <a href="#Page_18">18</a></li>
-
-<li class="indx">Weismann, Prof., on Germ-Plasm, <a href="#Page_179">179</a>;</li>
-<li class="isub1">“Studies in the Theory of Descent,” Meldola’s Translation, <a href="#Page_205">205–210</a></li>
-
-<li class="indx"><i>Westminster Review</i>, Huxley’s Article on Origin of Species in, <a href="#Page_125">125</a></li>
-
-<li class="indx">Wilberforce, Bishop, <a href="#Page_149">149</a></li>
-
-<li class="ifrst">Zoology of the Voyage of the “Beagle,” The, <a href="#Page_31">31</a></li>
-</ul>
-</div></div>
-
-<hr class="narrow1" />
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-<h2 class="nobreak" id="Transcribers_Notes">Transcriber’s Note</h2>
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