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Lamarck, the Founder of Evolution Part 8

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In each of these annuals Lamarck took great care to avoid making any positive predictions. "No one," he says, "could make these predictions without deceiving himself and abusing the confidence of persons who might place reliance on them." He only intended to propose simple probabilities.

After the publication of the first of these annuals, at the request of Lamarck, who had made it the subject of a memoir read to the Inst.i.tute in 1800 (9 ventose, l'an IX.), Chaptal, Minister of the Interior, thought it well to establish in France a regular correspondence of meteorological observations made daily at different points remote from each other, and he conferred the direction of it on Lamarck. This system of meteorological reports lasted but a short time, and was not maintained by Chaptal's successor. After three of these annual reports had appeared, Lamarck rather suddenly stopped publis.h.i.+ng them, and an incident occurred in connection with their cessation which led to the story that he had suffered ill treatment and neglect from Napoleon I.

It has been supposed that Lamarck, who was frank and at times brusque in character, had made some enemies, and that he had been represented to the Emperor as a maker of almanacs and of weather predictions, and that Napoleon, during a reception, showing to Lamarck his great dissatisfaction with the annuals, had ordered him to stop their publication.

But according to Bourguin's statement this is not the correct version.

He tells us:

"According to traditions preserved in the family of Lamarck things did not happen so at all. During a reception given to the Inst.i.tute at the Tuileries, Napoleon, who really liked Lamarck, spoke to him in a jocular way about his weather probabilities, and Lamarck, very much provoked (_tres contrarie_) at being thus chaffed in the presence of his colleagues, resolved to stop the publication of his observations on the weather. What proves that this version is the true one is that Lamarck published another annual which he had in preparation for the year 1810. In the preface he announced that his age, ill health, and his circ.u.mstances placed him in the unfortunate necessity of ceasing to busy himself with this periodical work. He ended by inviting those who had the taste for meteorological observations, and the means of devoting their time to it, to take up with confidence an enterprise good in itself, based on a genuine foundation, and from which the public would derive advantageous results."

These opuscles, such as they were, in which Lamarck treated different subjects bearing on the winds, great droughts, rainy seasons, tides, etc., became the precursors of the _Annuaires du Bureau des Longitudes_.

An observation of Lamarck's on a rare and curious form of cloud has quite recently been referred to by a French meteorologist. It is probable, says M. E. Durand-Greville in _La Nature_, November 24, 1900, that Lamarck was the first to observe the so-called pocky or festoon cloud, or mammato-cirrus cloud, which at rare intervals has been observed since his time.[59]

Full of over confidence in the correctness of his views formed without reference to experiments, although Lavoisier, by his discovery of oxygen in the years 1772-85, and other researches, had laid the foundations of the antiphlogistic or modern chemistry, Lamarck quixotically attempted to subst.i.tute his own speculative views for those of the discoverers of oxygen--Priestley (1774) and the great French chemist Lavoisier.

Lamarck, in his _Hydrogeologie_ (1802), went so far as to declare:

"It is not true, and it seems to me even absurd to believe that pure air, which has been justly called _vital air_, and which chemists now call _oxygen gas_, can be the radical of saline matters--namely, can be the principle of acidity, of causticity, or any salinity whatever. There are a thousand ways of refuting this error without the possibility of a reply.... This hypothesis, the best of all those which had been imagined when Lavoisier conceived it, cannot now be longer held, since I have discovered what is really _caloric_" (p. 161).

After paying his respects to Priestley, he asks: "What, then, can be the reason why the views of chemists and mine are so opposed?" and complains that the former have avoided all written discussion on this subject. And this after his three physico-chemical works, the _Refutation_, the _Recherches_, and the _Memoires_ had appeared, and seemed to chemists to be unworthy of a reply.

It must be admitted that Lamarck was on this occasion unduly self-opinionated and stubborn in adhering to such views at a time when the physical sciences were being placed on a firm and lasting basis by experimental philosophers. The two great lessons of science--to suspend one's judgment and to wait for more light in theoretical matters on which scientific men were so divided--and the necessity of adhering to his own line of biological study, where he had facts of his own observing on which to rest his opinions, Lamarck did not seem ever to have learned.

The excuse for his rash and quixotic course in respect to his physico-chemical vagaries is that he had great mental activity. Lamarck was a synthetic philosopher. He had been brought up in the encyclopaedic period of learning. He had from his early manhood been deeply interested in physical subjects. In middle age he probably lived a very retired life, did not mingle with his compeers or discuss his views with them.

So that when he came to publish them, he found not a single supporter.

His speculations were received in silence and not deemed worthy of discussion.

A very just and discriminating judge of Lamarck's work, Professor Cleland, thus refers to his writings on physics and chemistry:

"The most prominent defect in Lamarck must be admitted, quite apart from all consideration of the famous hypothesis which bears his name, to have been want of control in speculation. Doubtless the speculative tendency furnished a powerful incentive to work, but it outran the legitimate deductions from observation, and led him into the production of volumes of worthless chemistry without experimental basis, as well as into spending much time in fruitless meteorological predictions." (_Encyc. Brit._, Art. LAMARCK.)

How a modern physicist regards Lamarck's views on physics may be seen by the following statement kindly written for this book by Professor Carl Barus of Brown University, Providence:

"Lamarck's physical and chemical speculations, made throughout on the basis of the alchemistic philosophy of the time, will have little further interest to-day than as evidence showing the broadly philosophic tendencies of Lamarck's mind. Made without experiment and without mathematics, the contents of the three volumes will hardly repay perusal, except by the historian interested in certain aspects of pre-Lavoisierian science. The temerity with which physical phenomena are referred to occult static molecules, permeated by subtle fluids, the whole mechanism left without dynamic quality, since the ma.s.s of the molecule is to be non-essential, is markedly in contrast with the discredit into which such hypotheses have now fallen. It is true that an explanation of natural phenomena in terms "le feu ethere, le feu calorique, et le feu fixe" might be interpreted with reference to the modern doctrine of energy; but it is certain that Lamarck, antedating Fresnel, Carnot, Ampere, not to mention their great followers, had not the faintest inkling of the possibility of such an interpretation. Indeed, one may readily account for the resemblance to modern views, seeing that all speculative systems of science must to some extent run in parallel, inasmuch as they begin with the facts of common experience. Nor were his speculations in any degree stimulating to theoretical science.

Many of his mechanisms in which the ether operates on a plane of equality with the air can only be regarded with amus.e.m.e.nt. The whole of his elaborate schemes of color cla.s.sification may be instanced as forerunners of the methods commercially in vogue to-day; they are not the harbingers of methods scientifically in vogue. One looks in vain for research adequate to carry the load of so much speculative text.

"Even if we realize that the beginnings of science could but be made amid such groping in the dark, it is a pity that a man of Lamarck's genius, which seems to have been dest.i.tute of the instincts of an experimentalist, should have lavished so much serious thought in evolving a system of chemical physics out of himself."

The chemical status of Lamarck's writings is thus stated by Professor H.

Carrington Bolton in a letter dated Was.h.i.+ngton, D. C., February 9, 1900:

"Excuse delay in replying to your inquiry as to the chemical status of the French naturalist, Lamarck. Not until this morning have I found it convenient to go to the Library of Congress. That Library has not the _Recherches_ nor the _Memoires_, but the position of Lamarck is well known. He had no influence on chemistry, and his name is not mentioned in the princ.i.p.al histories of chemistry. He made no experiments, but depended upon his imagination for his facts; he opposed the tenets of the new French school founded by Lavoisier, and proposed a fanciful scheme of abstract principles that remind one of alchemy.

"Cuvier, in his _eloge_ (_Memoires Acad. Royale des Sciences_, 1832), estimates Lamarck correctly as respects his position in physical science."

Lamarck boldly carried the principle of change and evolution into inorganic nature by the same law of change of circ.u.mstances producing change of species.

Under the head, "De l'espece parmi les mineraux," p. 149, the author states that he had for a long time supposed that there were no species among minerals. Here, also, he doubts, and boldly, if not rashly, in this case, opposes accepted views, and in this field, as elsewhere, shows, at least, his independence of thought.

"They teach in Paris," he says, "that the integrant molecule of each kind of compound is invariable in nature, and consequently that it is as old as nature, hence, mineral species are constant.

"For myself, I declare that I am persuaded, and even feel convinced, that the integrant molecule of every compound substance whatever, may change its nature, namely, may undergo changes in the number and in the proportions of the principles which compose it."

He enlarges on this subject through eight pages. He was evidently led to take this view from his a.s.sumption that everything, every natural object, organic or inorganic, undergoes a change. But it may be objected that this view will not apply to minerals, because those of the archaean rocks do not differ, and have undergone no change since then to the present time, unless we except such minerals as are alteration products due to metamorphism. The primary laws of nature, of physics, and of chemistry are unchangeable, while change, progression from the generalized to the specialized, is distinctly characteristic of the organic as opposed to the inorganic world.

FOOTNOTES:

[58] "On the Influence of the Moon on the Earth's Atmosphere," _Journal de Physique_, prairial, l'an VI. (1798).

[59] Nature, Dec. 6, 1900.

CHAPTER VIII

LAMARCK'S WORK IN GEOLOGY

Whatever may be said of his chemical and physical lucubrations, Lamarck in his geological and palaeontological writings is, despite their errors, always suggestive, and in some most important respects in advance of his time. And this largely for the reason that he had once travelled, and to some extent observed geological phenomena, in the central regions of France, in Germany, and Hungary; visiting mines and collecting ores and minerals, besides being in a degree familiar with the French cretaceous fossils, but more especially those of the tertiary strata of Paris and its vicinity. He had, therefore, from his own experience, slight as it was, some solid grounds of facts and observations on which to meditate and from which to reason.

He did not attempt to touch upon cosmological theories--chaos and creation--but, rather, confined himself to the earth, and more particularly to the action of the ocean, and to the changes which he believed to be due to organic agencies. The most impressive truth in geology is the conception of the immensity of past time, and this truth Lamarck fully realized. His views are to be found in a little book of 268 pages, ent.i.tled _Hydrogeologie_. It appeared in 1802 (an X.), or ten years before the first publication of Cuvier's famous _Discours sur les Revolutions de la Surface du Globe_ (1812). Written in his popular and attractive style, and thoroughly in accord with the cosmological and theological prepossessions of the age, the Discours was widely read, and pa.s.sed through many editions. On the other hand, the _Hydrogeologie_ died stillborn, with scarcely a friend or a reader, never reaching a second edition, and is now, like most of his works, a bibliographical rarity.

The only writer who has said a word in its favor, or contrasted it with the work of Cuvier, is the judicious and candid Huxley, who, though by no means favorable to Lamarck's factors of evolution, frankly said:

"The vast authority of Cuvier was employed in support of the traditionally respectable hypotheses of special creation and of catastrophism; and the wild speculations of the _Discours sur les Revolutions de la Surface du Globe_ were held to be models of sound scientific thinking, while the really much more sober and philosophic hypotheses of the _Hydrogeologie_ were scouted."[60]

Before summarizing the contents of this book, let us glance at the geological atmosphere--thin and tenuous as it was then--in which Lamarck lived. The credit of being the first observer, before Steno (1669), to state that fossils are the remains of animals which were once alive, is due to an Italian, Frascatero, of Verona, who wrote in 1517.

"But," says Lyell,[61] "the clear and philosophical views of Frascatero were disregarded, and the talent and argumentative powers of the learned were doomed for three centuries to be wasted in the discussion of these two simple and preliminary questions: First, whether fossil remains had ever belonged to living creatures; and, secondly, whether, if this be admitted, all the phenomena could not be explained by the deluge of Noah."

Previous to this the great artist, architect, engineer, and musician, Leonardo da Vinci (1452-1519), who, among other great works, planned and executed some navigable ca.n.a.ls in Northern Italy, and who was an observer of rare penetration and judgment, saw how fossil sh.e.l.ls were formed, saying that the mud of rivers had covered and penetrated into the interior of fossil sh.e.l.ls at a time when these were still at the bottom of the sea near the coast.[62]

That versatile and observing genius, Bernard Palissy, as early as 1580, in a book ent.i.tled _The Origin of Springs from Rain-water_, and in other writings, criticized the notions of the time, especially of Italian writers, that petrified sh.e.l.ls had all been left by the universal deluge.

"It has happened," said Fontenelle, in his eulogy on Palissy, delivered before the French Academy a century and a half later, "that a potter who knew neither Latin nor Greek dared, toward the end of the sixteenth century, to say in Paris, and in the presence of all the doctors, that fossil sh.e.l.ls were veritable sh.e.l.ls deposited at some time by the sea in the places where they were then found; that the animals had given to the figured stones all their different shapes, and that he boldly defied all the school of Aristotle to attack his proofs."[63]

Then succeeded, at the end of the seventeenth century, the forerunners of modern geology: Steno (1669), Leibnitz (1683), Ray (1692), Woodward (1695), Vallisneri (1721), while Moro published his views in 1745. In the eighteenth century Reaumur[64] (1720) presented a paper on the fossil sh.e.l.ls of Touraine.

Cuvier[65] thus pays his respects, in at least an unsympathetic way, to the geological essayists and compilers of the seventeenth century:

"The end of the seventeenth century lived to see the birth of a new science, which took, in its infancy, the high-sounding name of 'Theory of the Earth.' Starting from a small number of facts, badly observed, connecting them by fantastic suppositions, it pretended to go back to the origin of worlds, to, as it were, play with them, and to create their history. Its arbitrary methods, its pompous language, altogether seemed to render it foreign to the other sciences, and, indeed, the professional savants for a long time cast it out of the circle of their studies."

Their views, often premature, composed of half-truths, were mingled with glaring errors and fantastic misconceptions, but were none the less germinal. Leibnitz was the first to propose the nebular hypothesis, which was more fully elaborated by Kant and Laplace. Buffon, influenced by the writing of Leibnitz, in his _Theorie de la Terre_, published in 1749, adopted his notion of an original volcanic nucleus and a universal ocean, the latter as he thought leaving the land dry by draining into subterranean caverns. He also dimly saw, or gathered from his reading, that the mountains and valleys were due to secondary causes; that fossiliferous strata had been deposited by ocean currents, and that rivers had transported materials from the highlands to the lowlands. He also states that many of the fossil sh.e.l.ls which occur in Europe do not live in the adjacent seas, and that there are remains of fishes and of plants not now living in Europe, and which are either extinct or live in more southern climates, and others in tropical seas. Also that the bones and teeth of elephants and of the rhinoceros and hippopotamus found in Siberia and elsewhere in northern Europe and Asia indicate that these animals must have lived there, though at present restricted to the tropics. In his last essay, _epoques de la Nature_ (1778), he claims that the earth's history may be divided into epochs, from the earliest to the present time. The first epoch was that of fluidity, of incandescence, when the earth and the planets a.s.sumed their form; the second, of cooling; the third, when the waters covered the earth, and volcanoes began to be active; the fourth, that of the retreat of the seas, and the fifth the age when the elephants, the hippopotamus, and other southern animals lived in the regions of the north; the sixth, when the two continents, America and the old world, became separate; the seventh and last being the age of man. Above all, by his attractive style and bold suggestions he popularized the subjects and created an interest in these matters and a spirit of inquiry which spread throughout France and the rest of Europe.

But notwithstanding the crude and uncritical nature of the writings of the second half of the eighteenth century, resulting from the lack of that more careful and detailed observation which characterizes our day, there was during this period a widespread interest in physical and natural science, and it led up to that more exact study of nature which signalizes the nineteenth century. "More new truths concerning the external world," says Buckle, "were discovered in France during the latter half of the eighteenth century than during all preceding periods put together."[66] As Perkins[67] says: "Interest in scientific study, as in political investigation, seemed to rise suddenly from almost complete inactivity to extraordinary development. In both departments English thinkers had led the way, but if the impulse to such investigations came from without, the work done in France in every branch of scientific research during the eighteenth century was excelled by no other nation, and England alone could a.s.sert any claim to results of equal importance. The researches of Coulomb in electricity, of Buffon in geology, of Lavoisier in chemistry, of Daubenton in comparative anatomy, carried still farther by their ill.u.s.trious successors towards the close of the century, did much to establish conceptions of the universe and its laws upon a scientific basis." And not only did Rousseau make botany fas.h.i.+onable, but Goldsmith wrote from Paris in 1755: "I have seen as bright a circle of beauty at the chemical lectures of Rouelle as gracing the court of Versailles." Pet.i.t lectured on astronomy to crowded houses, and among his listeners were gentlemen and ladies of fas.h.i.+on, as well as professional students.[68] The popularizers of science during this period were Voltaire, Montesquieu, Alembert, Diderot, and other encyclopaedists.

Here should be mentioned one of Buffon's contemporaries and countrymen; one who was the first true field geologist, an observer rather than a compiler or theorist. This was Jean E. Guettard (1715-1786). He published, says Sir Archibald Geikie, in his valuable work, _The Founders of Geology_, about two hundred papers on a wide range of scientific subjects, besides half a dozen quarto volumes of his observations, together with many excellent plates. Geikie also states that he is undoubtedly ent.i.tled to rank among the first great pioneers of modern geology. He was the first (1751) to make a geological map of northern France, and roughly traced the limits of his three bands or formations from France across the southeastern English counties. In his work on "The degradation of mountains effected in our time by heavy rains, rivers, and the sea,"[69] he states that the sea is the most potent destroyer of the land, and that the material thus removed is deposited either on the land or along the sh.o.r.es of the sea. He thought that the levels of the valleys are at present being raised, owing to the deposit of detritus in them. He points out that the deposits laid down by the ocean do not extend far out to sea, "that consequently the elevations of new mountains in the sea, by the deposition of sediment, is a process very difficult to conceive; that the transport of the sediment as far as the equator is not less improbable; and that still more difficult to accept is the suggestion that the sediment from our continent is carried into the seas of the New World. In short, we are still very little advanced towards the theory of the earth as it now exists." Guettard was the first to discover the volcanoes of Auvergne, but he was "hopelessly wrong" in regard to the origin of basalt, forestalling Werner in his mistakes as to its aqueous origin. He was thus the first Neptunist, while, as Geikie states, his "observations in Auvergne practically started the Vulcanist camp."

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