Georges Cuvier

Britannica Concise Encyclopedia: Georges-Léopold-Chrétien-Frédéric-Dagobert Baron Cuvier

(born Aug. 23, 1769, Montbéliard, France — died May 13, 1832, Paris) French zoologist and statesman who established the sciences of comparative anatomy and paleontology. As a staff member at the Museum of Natural History in Paris, he published Le Règne animal distribué d'après son organisation (1817), which described his "correlation of parts" theory, in which every animal organ is functionally related to all the other organs and that an animal's functions and habits determine its anatomic form. Cuvier's classification of all animals into four completely discrete groups was a significant advance over the system of Carolus Linnaeus. He applied his functional concept to the study of fossils, postulating that huge land upheavals and floods were the principal factor in the creation and destruction of species. Though the theory did not last, Cuvier's work put paleontology on a firm empirical foundation. As Napoleon's inspector of public instruction, he helped establish France's provincial universities, and he also served as chancellor of the University of Paris.

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Scientist: Cuvier, Georges Léopold Chrétien Frédéric Dagobert

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Georges Léopold Chrétien
Frédéric Dagobert Cuvier

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[b. Montbéliard, France, August 23, 1769, d. Paris, May 13, 1832]

Cuvier played a major role in establishing the fields of comparative anatomy and paleontology. He made the first important studies of fossils, applying his knowledge of comparative anatomy to the reconstruction of skeletons of extinct animals found in rocks quarried near Paris. Cuvier noted the similarity of fossil and living forms but did not believe in evolution. His theory of catastrophism proposed that a succession of disasters through time killed all life, after which new life forms were created.

Biography: Baron Georges Léopold Cuvier

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The French zoologist and biologist Baron Georges Léopold Cuvier (1769-1832) made significant contributions in the fields of paleontology, comparative anatomy, and taxonomy and was one of the chief spokesmen for science in postrevolutionary France.

Georges Léopold Cuvier was born on Aug. 23, 1769, in Montbéliard, a small, French-speaking town in the duchy of Württemberg, where his father was commandant of the local artillery. Cuvier was christened Jean Léopold Nicolas Frédéric, but after the death of his elder brother, Georges, in 1769, he was known as Georges. His parents hoped that he would keep up the family tradition of one son from each generation training for the Lutheran ministry, but instead Cuvier attended the Académie Caroline in Stuttgart (1784-1788), studying commerce and economics, police and public administration, law, and chemistry, mineralogy, botany, and zoology. He was active in the school's natural-history society and studied privately under K. F. Kielmeyer, one of the early German Naturphilosophes.

Soon after graduation, Cuvier became tutor to the D'Hericys family, Protestant nobles who lived in Normandy, with whom he remained until 1793. When his home district was absorbed into France that year, Cuvier became a French citizen. He served as secretary of Becaux-Cauchois until 1795 and then moved to Paris. He obtained a position as assistant to the professor of comparative anatomy at the Jardin des Plantes (later the National Museum of Natural History) and began his first course of lectures in comparative anatomy there in December. At the same time, he was elected a member of the anatomy and zoology section of the Institut de France. In 1800 Cuvier was appointed secretary for the physical sciences section of the Institute and professor of general natural history at the Collège de France.

From 1800 until his death Cuvier was very active both as a research scientist and as a scientific educationalist and administrator. Moreover, under successive French governments he held various offices of state and investigated and reported on state problems. These concerned not only science but also religion, as Cuvier remained a devout Lutheran throughout his life. In 1802 Napoleon appointed him inspector general of higher schools; later he was responsible for reorganizing education in Italy, the Netherlands, and other conquered territory beyond the borders of France. Also in 1802, he became professor of comparative anatomy at the Jardin des Plantes. The following year Cuvier was appointed one of the two permanent secretaries of the Académie des Sciences of the Institut de France. In 1807-1808 he prepared a special report for Napoleon on the development of science since the French Revolution.

Cuvier married Anne Marie Coquet de Trazaille, a widow with four children, in 1804. Of their own four children, only one daughter survived infancy.

In the 15 years after his arrival in Paris, Cuvier was at his most active in scientific research. He published major works on animal classification, fossils, theoretical paleontology, natural history, and comparative anatomy. His later life was taken up more and more by administrative and state matters, so that although he continued to publish much scientific work it did not have the originality of his earlier publications.

Cuvier was appointed a councilor of the Napoleonic University of France in 1808. He was a member of the Council of State from 1813 until his death. In 1817 he became vice president of the Ministry of the Interior; the following year he was elected a member of the Académie Française. In 1820 he was made a baron. From 1821 to 1827 Cuvier was chancellor of the University of France. In 1822 he was appointed grand master of the Faculties of Protestant Theology in the University of Paris, and in 1826 he was made a grand officer of the Legion of Honor. In 1828 he became director of all non-Catholic churches in France. In 1831 Louis Philippe raised Cuvier to the peerage. He died on May 13, 1832.

In public life Cuvier was, above all, concerned for good order. His generally conservative attitudes were at least partly a response to the chaos and breakdown of social order which he had experienced in the years of the French Revolution. As a scientist who did not depend on his political activities for recognition or status, Cuvier was more concerned with the good working of the various institutions of French life than with party and personality politics. As an adviser to the state on education, he strongly opposed the influence of the Roman Catholic Church and particularly that of the Society of Jesus. He supported secular education and tried to see that it included a fair proportion of natural science.

Contributions to Science

Cuvier's life spanned the period during which it became possible in France, for virtually the first time, to make a profession of science. He was not trained to be a scientist, as professional training in the sciences was virtually unknown when he went through college. He and his colleagues took part in setting up the first such courses in France.

Soon after Cuvier arrived in Paris in 1795, he took up the problem of the classification of animals and together with a colleague published a very important paper on the classification of mammals. Cuvier was concerned with the practical question of which features of an animal should be used to distinguish it from other species. Underlying the need for a practical system of classification was his search for a theoretical justification for the taxonomic system he advocated. Throughout his life he continued to be concerned with the problem of classification.

In 1798 Cuvier published an introductory textbook in natural history, Tableau élémentaire de I'histoire naturelle des animaux, which became the standard text for French colleges. He was also aware of the need for a comprehensive reference book and manual in zoology, and in 1817 he published the four-volume Le Règne animal. …, whose full title, "The Animal Kingdom, arranged according to structure, in order to form a basis for zoology, and as an introduction to comparative anatomy," well describes the functions he hoped it would serve. The work was revised and reissued in five volumes in 1829-1830; by then it had been translated into many languages and had become a standard zoological reference throughout the world.

Cuvier's lectures in comparative anatomy were collected and edited by two of his assistants and published in five volumes between 1800 and 1805 under the title Leçons d'anatomie comparée. His concern for classification led him to pay special attention to the anatomy of the various systems of organs as he developed his own theories about which systems should be used for purposes of classification.

Another area in which Cuvier carried out major research was the study of fossils. He believed that a study of fossil animals would clarify geological theories about the development and history of the earth. From 1796 until 1812 he published a series of papers on the fossil remains of animals and their significance for geology; they were collected in four volumes in 1812 as Recherches sur les ossements fossiles de quadrupèdes.

Appended to this collection was a summary of Cuvier's views about the formation of the different surface layers of the earth, which was later revised and entitled Discours sur les révolutions de la surface du globe. In this work he put forward the view that the earth had suffered successive catastrophes in the form of floods which had swamped all but the highest mountains. This view of geological history became known as catastrophism; it was opposed by the uniformitarians, who believed that the surface structure of the earth was due to ordinary everyday causes, which continued to be active up to the present, and not just catastrophic events.

Cuvier and Classification

By the end of the 18th century biologists were faced with an enormous problem of classification because of the large number of new animal and plant specimens collected from different parts of the world. The ideas and practices which had been developed from the time of Carl Linnaeus were no longer satisfactory. One aspect of the problem of classification was its philosophical basis. For some naturalists a system of classification was merely an arbitrary but practical way to distinguish between and learn about different animals. Others, however, argued that there was a "natural" system of classification which indicated some sort of real relationship between the animals in the different parts of the system.

Cuvier believed that animals could be classified into different kinds and that each kind of animal could be represented for classification purposes by an ideal "type." The animal type would include all the characteristics distinguishing it from other types. According to Cuvier, types would not change from generation to generation. He arrived at the mature statement of his view on classification in 1812. He classified all animals into four main branches (embranchements) according to the construction of their nervous system; he used the nervous system because he considered it the most important system physiologically or functionally. Less important, or subordinate, systems of characteristics were used to create classificatory subdivisions within the four branches. He called this method of classification the principle of the subordination of characters.

Cuvier justified his system of classification philosophically by arguing along Aristotelian lines that animals were distinguished from other orders of creation by their ability to sense and perceive things. Hence, he argued, the most important, or the most "animalistic," physiological system was that responsible for sensation, namely, the nervous system. He then based his system of classification of animals on the differences of their nervous system. "In considering the animal kingdom from this point of view," he said, " … I have found that there exist four principal forms, four general plans, upon which all of the animals seem to have been modeled …." (quoted in William Coleman, 1964). These four models, or branches, of the animal kingdom were the Vertebrata, the Mollusca, the Articulata, and the Radiata.

This new system of classification, together with the encyclopedic works which Cuvier based on it, greatly helped the naturalists of his day to assimilate and understand all the new information about animals. Despite its success, however, his system was immediately challenged by those whose philosophy of biology differed considerably from his own.

Theory of Evolution

Cuvier did not live to see Charles Darwin propound his theory of evolution by natural selection, yet he is frequently portrayed as one of the most important anti-evolutionary figures in the history of biology. This reputation arose largely from the clash with his contemporaries Jean Baptiste de Lamarck and étienne Geoffroy Saint-Hilaire, who supported evolutionary ideas.

Lamarck taught that there was no such thing as a constant species. He held that the more individual animals he examined, the less certain he became about saying that there were definite boundaries between the forms of different species. Moreover, he put forward the view that the form of species changed from generation to generation through the effects of use or disuse on the various parts of animals. The usage of different organs would change because of changes in the environment. Lamarck pointed to the fossil remains of animals as evidence supporting his theory. Among the fossils were animal forms no longer existing on earth. These, he claimed, were ancestor to the present array of animals.

Cuvier agreed with Lamarck that there was much variation among animals. But he held that most of the variation was among the secondary, or subordinate, characters of animals and that these were not important for the functional integrity of the animals. Organs such as the heart and lungs and the nervous and digestive systems - which were important for the functional integrity of an animal - varied slightly and within very definite limits in the one species, according to Cuvier. However, his strongest argument was that Lamarck could produce no evidence of the transformation of species, whereas Cuvier could show, from evidence recently brought back to France by Napoleon's army, that domestic animals had not changed since the time of the ancient Egyptians. Furthermore, he showed that the disappearance of various fossil animals was due to their becoming extinct rather than transforming into new species.

Both Lamarck and Geoffroy Saint-Hilaire supported the idea that all animals could be arranged into a "great chain of being" from the simplest to the most complex and that this was shown by certain similarities in the structures of all the species. Cuvier also strongly opposed this idea, which was used by some evolutionists. For him the four branches of the animal kingdom which he had postulated could in no way be likened to each other.

Cuvier's arguments against evolution fitted very well into his own conservative philosophy of biology and with his Christian faith, which supported the view that all present species must have descended from a common pair of ancestors created by God at the beginning of the world. Because his brilliant biological system fitted so well with the conservative point of view in both science and theology, his arguments against the evolution theory have been used countless times since his death.

Georges Cuvier
Georges Cuvier
Born	August 23, 1769(1769-08-23) Montbéliard
Died	13 May 1832 (aged 62) Paris
Nationality	French
Fields	natural history, paleontology, anatomy
Institutions	Muséum National d'Histoire Naturelle
Known for	establishing the fields of stratigraphy and comparative anatomy; the first thorough, published documentation of faunal succession in the fossil record; making extinction an accepted scientific phenomenon; opposition to gradualistic theories of evolution

Life and scientific career

Gorges Cuvier

Portrait by Francois Andre Vincent, Whitfield Fine Art

Cuvier was born in Montbéliard, France (in department of Doubs), where his protestant ancestors had lived since the time of the Reformation,^[2] under the name of Johann Leopold Nicolaus Friedrich Kuefer.^[3]At the time the town, then named Mömpelgard, lay in the Duchy of Württemberg, but later became part of France (1805). He was the son of a retired military officer, who had served 40 years in the French army.^[4] His mother, who was much younger than his father, tutored him diligently throughout his early years so that he easily excelled the other children at school.^[5] During his gynasium years, he had little trouble acquiring Latin and Greek, and was always at the head of his class in mathematics, history, and geography.^[6] According to Lee (1833, p. 11), "The history of mankind was, from the earliest period of his life, a subject of the most indefatigable application; and long lists of sovereigns, princes, and the driest chronological facts, once arranged in his memory, were never forgotten."

Soon after entering the gymnasium, at age 10, he encountered a copy of Gesner's Historiae Animalium, the work that first sparked his interest in natural history. He then began frequent visits to the home of a relation where he could borrow volumes of Buffon's massive Histoire Naturelle. All of these he read and re-read, retaining so much of the information that by the age of twelve "he was as familiar with quadrupeds and birds as a first-rate naturalist."^[7] He remained at the gymnasium for four years.

Cuvier spent an additional four years at the Caroline Academy in Stuttgart, where he excelled in all of his coursework. Although he knew no German on his arrival, after only nine months study he managed to win the school prize for that language. Upon graduation, he had no money to await appointment to academic office. So in July, 1788 he took a job in Normandy as tutor to the only son of the Comte d'Héricy, a Protestant noble. It was here during the early 1790s that he began his comparisons of fossils with extant forms. Cuvier regularly attended meetings held at the nearby town of Valmont for the discussion of agricultural topics. There, he became acquainted with Henri Alexandre Tessier (1741-1837), a physician and well-known agronomist who had fled the Terror in Paris and assumed a false identity. After hearing Tessier speak on agricultural matters, Cuvier recognized him as the author of certain articles on agriculture in the Encyclopédie Méthodique and addressed him as M. Tessier. Tessier replied in dismay, "I am known, then, and consequently lost." — " Lost!" replied M. Cuvier; "no; you are henceforth the object of our most anxious care."^[8] They soon became intimate and Tessier introduced Cuvier to his colleagues in Paris — "I have just found a pearl in the dunghill of Normandy," he wrote his friend Antoine-Augustin Parmentier.^[9] As a result Cuvier entered into correspondence with several leading naturalists of the day and was invited to Paris. Arriving in the spring of 1795, at the age of 26, he soon became the assistant of Jean-Claude Mertrud (1728– 1802), who had been appointed to the newly created chair of comparative anatomy at the Jardin des Plantes.^[10]

This illustration of an Indian elephant jaw and a mammoth jaw was included in 1799 when Cuvier's 1796 paper on living and fossil elephants was printed.

The Institut de France was founded in the same year, and he was elected a member of its Academy of Sciences. In 1796 he began to lecture at the École Centrale du Pantheon, and at the opening of the National Institute in April, he read his first palaeontological paper, which was subsequently published in 1800 under the title Mémoires sur les espèces d'éléphants vivants et fossiles. In this paper he analyzed skeletal remains of Indian and African elephants as well as mammoth fossils, and a fossil skeleton known at that time as the 'Ohio animal'. Cuvier's analysis established, for the first time, the fact that African and Indian elephants were different species and that mammoths were not the same species as either African or Indian elephants and therefore must be extinct. He further stated that the 'Ohio animal' represented another extinct species that was even more different from living elephants than mammoths were. Years later, in 1806, he would return to the 'Ohio animal' in another paper and give it the name mastodon.

In his second paper in the year 1796, he would describe and analyse a large skeleton found in Paraguay, which he would name megatherium. He concluded that this skeleton represented yet another extinct animal and, by comparing its skull with living species of tree dwelling sloths, that it was a kind of ground dwelling giant sloth. Together these two 1796 papers were a landmark event in the history of paleontology and in the development of comparative anatomy as well. They also greatly enhanced Cuvier's personal reputation, and they essentially ended what had been a long running debate about the reality of extinction.

In 1799 he succeeded Daubenton as professor of natural history in the College de France. In 1802 he became titular professor at the Jardin des Plantes; and in the same year he was appointed commissary of the Institute to accompany the inspectors general of public instruction. In this latter capacity he visited the south of France; but in the early part of 1803, he was chosen Permanent Secretary of the Department of Physical Sciences of the Academy, and he consequently abandoned the earlier appointment and returned to Paris. In 1806, he became a foreign member of the Royal Society and in 1812, a foreign members of the Royal Swedish Academy of Sciences.

He now devoted himself more especially to three lines of inquiry: (i) the structure and classification of the Mollusca; (ii) the comparative anatomy and systematic arrangement of the fishes; (iii) fossil mammals and reptiles and, secondarily, the osteology of living forms belonging to the same groups.

In 1821, Cuvier made what has been called his "Rash Dictum": he remarked that it was unlikely that any large animal remained undiscovered. Many such discoveries have been made since Cuvier's statement.

Scientific ideas and their impact

Extinction

At the time Cuvier presented his 1796 paper on living and fossil elephants, it was still widely believed that no species of animal had ever become extinct, because God's creation had been perfect. Authorities such as Buffon had claimed that fossils found in Europe of animals such as the wooly rhinoceros and mammoth were remains of animals still living in the tropics (ie rhinoceros and elephants), which had shifted out of Europe and Asia as the earth became cooler. Cuvier's early work demonstrated conclusively that this was not the case.^[11]

Catastrophism

Cuvier came to believe that most if not all the animal fossils he examined were remains of species that were now extinct. Near the end of his 1796 paper on living and fossil elephants he said:

All of these facts, consistent among themselves, and not opposed by any report, seem to me to prove the existence of a world previous to ours, destroyed by some kind of catastrophe.

This led Cuvier to become an active proponent of the geological school of thought called catastrophism that maintained that many of the geological features of the earth and the past history of life could be explained by catastrophic events that had caused the extinction of many species of animals. Over the course of his career Cuvier came to believe that there had not been a single catastrophe but several, resulting in a succession of different faunas. He wrote about these ideas many times, in particular he discussed them in great detail in the preliminary discourse (introduction) to a collection of his papers, Recherches sur les ossemens fossiles de quadrupèdes, on quadruped fossils published in 1812. The 'Preliminary Discourse' became very well known and unauthorized (and in the case of English not entirely accurate) translations were made into English, German and Italian. In 1826 Cuvier would publish a revised version under the name Discours sur les révolutions de la surface du globe.

After Cuvier's death the catastrophic school of geological thought lost ground to uniformitarianism, as championed by Charles Lyell and others, which claimed that the geological features of the earth were best explained by currently observable forces, such as erosion and volcanism, acting gradually over an extended period of time. However, the increasing interest in the topic of mass extinction starting in the late 20th century has led to a resurgence of interest among historians of science and other scholars in this aspect of Cuvier's work.

Stratigraphy

Cuvier collaborated for several years with Alexandre Brongniart, an instructor at the Paris mining school, to produce a monograph on the geology of the region around Paris. They published a preliminary version in 1808 and the final version was published in 1811. In this monograph they identified characteristic fossils of different rock layers that they used to analyze the geological column, the ordered layers of sedimentary rock, of the Paris basin. They concluded that the layers had been laid down over an extended period during which there clearly had been faunal succession and that the area had been submerged under sea water at times and at other times under fresh water. Along with William Smith's work during the same period on a geological map of England, which also used characteristic fossils and the principle of faunal succession to correlate layers of sedimentary rock, the monograph helped establish the scientific discipline of stratigraphy. It was a major development in the history of paleontology and the history of geology.^[12]

Age of reptiles

In 1800, Cuvier was the first to correctly identify in print, working only from a drawing, a fossil found in Bavaria as a small flying reptile^[13], which he named the Ptero-Dactyle in 1809^[14] (later Latinized as Pterodactylus antiquus)--the first known member of the diverse order of pterosaurs. In 1808 Cuvier identified a fossil found in Maastricht as giant marine lizard, which he named Mosasaurus, the first known mosasaur. Cuvier speculated that there had been a time when reptiles rather than mammals had been the dominant fauna.^[15] This speculation was confirmed over the next two decades by a series of spectacular finds, mostly by English geologists and fossil collectors, who found and described the first ichthyosaurs, plesiosaurs, and dinosaurs.

Principle of correlation of parts

In a 1798 paper on the fossil remains of an animal found in some plaster quarries near Paris Cuvier wrote:

Today comparative anatomy has reached such a point of perfection that, after inspecting a single bone, one can often determine the class, and sometimes even the genus of the animal to which it belonged, above all if that bone belonged to the head or the limbs. ... This is because the number, direction, and shape of the bones that compose each part of an animal's body are always in a necessary relation to all the other parts, in such a way that - up to a point - one can infer the whole from any one of them and vice versa.

This idea is sometimes referred to as 'Cuvier's principle of correlation of parts', and while Cuvier's description may somewhat exaggerate its power, the basic concept is central to comparative anatomy and paleontology.

Opposition to gradualistic theories of evolution

Cuvier was critical of the evolutionary theories proposed by his contemporaries Lamarck and Geoffroy Saint-Hilaire, which involved the gradual transmutation of one form into another. He repeatedly emphasized that his extensive experience with fossil material indicated that one fossil form does not, as a rule, gradually change into a succeeding, distinct fossil form. Instead, he said, the typical form makes an abrupt appearance in the fossil record, and persists unchanged to the time of its extinction (this is the well-documented paleontological phenomenon now referred to as "punctuated equilibrium").^[16] In other words, Cuvier was a saltationist. While, like other saltationists, he offered no explanation of how saltational evolution might occur, he was skeptical of the gradual mechanisms of change that Lamarck and Geoffroy Saint-Hilaire proposed. Moreover, his commitment to the principle of correlation of parts caused him to doubt that any mechanism could ever gradually modify any part of an animal in isolation from all the other parts (in the way Lamarck proposed), without rendering the animal unable to survive.^[17] In his Éloge de M. de Lamarck (Praise for M. de Lamarck),^[18]^,^[19] Cuvier noted that Lamarck's theory of evolution

"rested on two arbitrary suppositions; the one, that it is the seminal vapor which organizes the embryo; the other, that efforts and desires may engender organs. A system established on such foundations may amuse the imagination of a poet; a metaphysician may derive from it an entirely new series of systems; but it cannot for a moment bear the examination of anyone who has dissected a hand, a viscus, or even a feather."

He also pointed out that Napoleon's expedition to Egypt had retrieved animals mummified thousands of years previously that seemed no different from their modern counterparts.^[20] "Certainly," Cuvier wrote, "one cannot detect any greater difference between these creatures and those we see, than between the human mummies and the skeletons of present-day men."^[21] Lamarck dismissed this conclusion, arguing that evolution happened much too slowly to be observed over just a few thousand years. Cuvier, however, in turn criticized how Lamarck and other naturalists conveniently introduced hundreds of thousands of years "with a stroke of a pen" to uphold their theory. Instead, he argued that one can only judge what a long time would produce by multiplying what a lesser time produces. Since a lesser time produced no organic changes, neither, probably, would a much longer time.^[22]

Cuvier’s claim that new fossil forms appear abruptly in the geological record and then continue without alteration in overlying strata was used by later thinkers to support creationism (Gillispie 1996, p. 103). The abruptness seemed consistent with special creation by God (although Cuvier's finding that different types made their paleontological debuts in different geological strata clearly did not). The lack of change was consistent with the supposed sacred immutability of "species," but, again, the idea of extinction, of which Cuvier was the great proponent, obviously was not.

In particular, he nowhere refers to the Bible in scientific argument. In fact, his claims concerning past history often conflicted with Scripture (Coleman 1962; Russell 1982). A creationist would say that the various life forms existing today are not only constant in form over time, but also that they have been constant since "the Beginning." Cuvier consistently argued the contrary (i.e., that new types regularly replace older types in the fossil record). Cuvier explained the abrupt appearance of new fossil forms in terms of immigration, not creation: "I only say that they did not originally inhabit the places where we find them at present, and that they must have come from some other part of the globe" (Cuvier 1827, p. 113; Russell 1982, p. 41–44). Nowhere did he advance the hypothesis of successive new creations (Russell 1982, p. 43). Moreover, since he consistently promoted the idea that there has been a temporal succession of forms in the geological record (ibid), he could not have believed the various life forms that exist today were specially created "in the Beginning."

Many writers have unjustly accused Cuvier of obstinately maintaining that fossil human beings could never be found. In his Essay on the Theory of the Earth, he did say that "no human bones have yet been found among fossil remains," but he made it clear exactly what he meant: "When I assert that human bones have not been hitherto found among extraneous fossils, I must be understood to speak of fossils, or petrifactions, properly so called" (Cuvier 1818, p. 130). Petrified bones, which have had time to mineralize and turn to stone, are typically far older than ordinary bones. Cuvier's point was that all human fossils that he knew of were of relatively recent age because they 1) had not been petrified and 2) had been found only in superficial strata (Cuvier 1818, pp. 133–134; English translation quoted from Cuvier 1827, p. 121). But he was not dogmatic in this claim. When new evidence came to light, he included in a later edition an appendix describing a skeleton that he freely admitted was an "instance of a fossil human petrifaction" (Cuvier 1827, p. 407).^[23]

The harshness of his criticism and the strength of his reputation continued to discourage naturalists from speculating about the gradual transmutation of species, right up until Darwin published The Origin of Species more than two decades after Cuvier's death.^[24]

Chief scientific work

On comparative anatomy and classification

in 1798 Cuvier published his first independent work, the Tableau élémentaire de l'histoire naturelle des animaux, which was an abridgment of his course of lectures at the École du Pantheon, and may be regarded as the foundation and first statement of his natural classification of the animal kingdom.

In 1800 he published the Leçons d'anatomie comparée, assisted by A. M. C. Duméril for the first two volumes and Georges Louis Duvernoy for the three later ones.

On molluscs

Cuvier's papers on the Mollusca began appearing as early as 1792, but most of his memoirs on this branch were published in the Annales du museum between 1802 and 1815; they were subsequently collected as Mémoires pour servir de l'histoire et a l'anatomie des mollusques, published in one volume at Paris in 1817.

On fish

Cuvier's researches on fish, begun in 1801, finally culminated in the publication of the Histoire naturelle des poissons, which contained descriptions of 5000 species of fishes, and was the joint production of Cuvier and Achille Valenciennes. Cuvier's work on this project extended over the years 1828–1831.

On palaeontology and osteology

In this field Cuvier published a long list of memoirs, partly relating to the bones of extinct animals, and partly detailing the results of observations on the skeletons of living animals, specially examined with a view of throwing light upon the structure and affinities of the fossil forms.

Among living forms he published papers relating to the osteology of the Rhinoceros Indicus, the tapir, Hyrax capensis, the hippopotamus, the sloths, the manatee, etc.

He produced an even larger body of work on fossils, dealing with the extinct mammals of the Eocene beds of Montmartre, the fossil species of hippopotamus, a marsupial (which he called Didelphys gypsorum), the Megalonyx, the Megatherium, the cave-hyena, the pterodactyl, the extinct species of rhinoceros, the cave bear, the mastodon, the extinct species of elephant, fossil species of manatee and seals, fossil forms of crocodilians, chelonians, fish, birds, etc. The department of palaeontology dealing with the Mammalia may be said to have been essentially created and established by Cuvier.

The results of Cuvier's principal palaeontological and geological investigations were ultimately given to the world in the form of two separate works: Recherches sur les ossemens fossiles de quadrupèdes (Paris, 1812; later editions in 1821 and 1825); and Discours sur les revolutions de la surface du globe (Paris, 1825). In this latter work he expounded a scientific theory of Catastrophism.

The Animal Kingdom

None of Cuvier's works attained a higher reputation than his Le Règne Animal, the first edition of which appeared in four octavo volumes in 1817, and the second in five volumes in 1829–1830. In this classic work Cuvier embodied the results of the whole of his previous researches on the structure of living and fossil animals. The whole of the work was his own, with the exception of the section on Insecta, in which he was assisted by his friend Latreille. It was translated into English many times, often with substantial notes and supplementary material updating the book in accordance with the expansion of knowledge.

Memorial bust by David d'Angers, 1833

Official and public work

Apart from his own original investigations in zoology and paleontology Cuvier carried out a vast amount of work as perpetual secretary of the National Institute, and as an official connected with public education generally; and much of this work appeared ultimately in a published form. Thus, in 1808 he was placed by Napoleon upon the council of the Imperial University, and in this capacity he presided (in the years 1809, 1811 and 1813) over commissions charged to examine the state of the higher educational establishments in the districts beyond the Alps and the Rhine which had been annexed to France, and to report upon the means by which these could be affiliated with the central university. Three separate reports on this subject were published by him.

In his capacity, again, of perpetual secretary of the Institute, he not only prepared a number of éloges historiques on deceased members of the Academy of Sciences, but he was the author of a number of reports on the history of the physical and natural sciences, the most important of these being the Rapport historique sur le progrès des sciences physiques depuis 1789, published in 1810.

Prior to the fall of Napoleon (1814) he had been admitted to the council of state, and his position remained unaffected by the restoration of the Bourbons. He was elected chancellor of the university, in which capacity he acted as interim president of the council of public instruction, whilst he also, as a Lutheran, superintended the faculty of Protestant theology. In 1819 he was appointed president of the committee of the interior, and retained the office until his death.

In 1826 he was made grand officer of the Legion of Honour; he was subsequently appointed president of the council of state. Member of the Doctrinaires, he was nominated to the ministry of the interior in the beginning of 1832.

Animals named after Cuvier

Cuvier is commemorated in the naming of many animals; they include Cuvier's beaked whale, Cuvier's Gazelle, Cuvier's toucan, Cuvier's Bichir, Galeocerdo cuvier (tiger shark), and Anolis cuvieri, a lizard from Puerto Rico. There are also some extinct animals named after Cuvier, such as the South American giant sloth Catonyx cuvieri.

Principal Scientific Publications

Tableau élémentaire de l'histoire naturelle des animaux (1797-1798)
Leçons d'anatomie comparée (5 volumes, 1800-1805) (text in French)
Essais sur la géographie minéralogique des environs de Paris, avec une carte géognostique et des coupes de terrain, with Alexandre Brongniart (1811)
Le Règne animal distribué d'après son organisation, pour servir de base à l'histoire naturelle des animaux et d'introduction à l'anatomie comparée (4 volumes, 1817)
Recherches sur les ossemens fossiles de quadrupèdes, où l'on rétablit les caractères de plusieurs espèces d'animaux que les révolutions du globe paroissent avoir détruites (4 volumes, 1812) (text in French) 2 3 4
Mémoires pour servir à l'histoire et à l'anatomie des mollusques (1817)
Éloges historiques des membres de l'Académie royale des sciences, lus dans les séances de l'Institut royal de France par M. Cuvier (3 volumes, 1819-1827) Vol. 1 , Vol. 2 , and Vol. 3 , (text in French)
Théorie de la terre (1821)
Discours sur les révolutions de la surface du globe et sur les changements qu'elles ont produits dans le règne animal (1822). New edition: Christian Bourgeois, Paris, 1985. (text in French)
Histoire des progrès des sciences naturelles depuis 1789 jusqu'à ce jour (5 volumes, 1826-1836)
Histoire naturelle des poissons (11 volumes, 1828-1848), continued by Achille Valenciennes
Histoire des sciences naturelles depuis leur origine jusqu'à nos jours, chez tous les peuples connus, professée au Collège de France (5 volumes, 1841-1845), edited, annotated, and published by Magdeleine de Saint-Agit

Cuvier also collaborated on the Dictionnaire des sciences naturelles (61 volumes, 1816-1845) and on the Biographie universelle (45 volumes, 1843-18??)

Notes

^ Lee, 1833.
^ Lee 1833, p. 8.
^ Buffetaut, E., 2002, Cuvier — le découvreur de mondes disparus, Pour la Science
^ Lee 1833, p. 8.
^ Lee 1833, p. 8.
^ Lee 1833, p. 11.
^ Lee 1833, p. 11.
^ Lee 1833, p. 22.
^ Lee 1833, p. 22, footnote.
^ Lee 1833, p. 23.
^ Rudwick, Georges Cuvier, Fossil Bones, and Geological Catastrophes pp 22-24.
^ Rudwick, Georges Cuvier Fossil Bones and Geological Catastrophes pp.129-133
^ Cuvier, G. (1801). [Reptile volant]. In: Extrait d'un ouvrage sur les espèces de quadrupèdes dont on a trouvé les ossemens dans l'intérieur de la terre. Journal de Physique, de Chimie et d'Histoire Naturelle, 52: 253–267.
^ Cuvier, G. (1809). "Mémoire sur le squelette fossile d'un reptile volant des environs d'Aichstedt, que quelques naturalistes ont pris pour un oiseau, et dont nous formons un genre de Sauriens, sous le nom de Ptero-Dactyle." Annales du Muséum national d'Histoire Naturelle, Paris, 13: 424–437.
^ Rudwick p 158
^ http://www.macroevolution.net/georges-cuvier.html
^ needs citation
^ http://www.lamarck.cnrs.fr/ice/ice_page_detail.php?lang=fr&type=text&bdd=lamarck&table=bio_lamarck&typeofbookDes=T%C3%A9moignages%20et%20biographies&bookId=3&title=&pageChapter=%C3%89LOGE%20DE%20M.%20DE%20LAMARCK,PAR%20M.%20LE%20BARON%20CUVIER&pageOrder=1&facsimile=off&search=no&num=&nav=1
^ http://www.victorianweb.org/science/science_texts/cuvier/cuvier_on_lamarck.htm
^ Zimmer, Evolution: the triumph of an idea pp 19
^ Rudwick, Georges Cuvier, Fossil Bones, and Geological Catastrophes, pp 229
^ Rudwick, Georges Cuvier, Fossil Bones, and Geological Catastrophes, pp 228-229
^ The material in the preceeding three paragraphs is based on notes in McCarthy (2008).
^ Larson, Evolution: the history of a scientific theory pp 9-10

References

A. P. de Candolle, "Mort de G. Cuvier", Bibliothique universelle (1832, 59, p. 442)
PJM Flourens, Éloge historique de G. Cuvier, 1834, published as an introduction to the Éloges historiques of Cuvier
Coleman, W. 1962. Georges Cuvier, Zoologist. Cambridge: Harvard University Press.
Cuvier, G. (1815). Essay on the Theory of the Earth. Blackwood (reissued by Cambridge University Press, 2009; ISBN 9781108005555)
Cuvier, G. (Baron). 1818. Essay on the theory of the earth. New York: Kirk & Mercein.
Cuvier, G. (Baron). 1827. Essay on the theory of the earth. 5th ed. London: T. Cadell
Gillispie, C. C. 1996. Genesis and geology. Cambridge: Harvard University Press.
Histoire des travaux de Georges Cuvier (3rd ed., Paris, 1858)
Larson, Edward J., Evolution: The Remarkable History of a Scientific Theory. The Modern Library: New York, 2004. ISBN 0-679-64288-9
CL Laurillard, "Cuvier," Biographie universelle, supp. vol. 61 (1836)
Lee, Mrs. R. 1833. Memoirs of Baron Cuvier. London: Longman, Reese, Orme, Brown, Green, and Longman.
This article incorporates text from the Encyclopædia Britannica, Eleventh Edition, a publication now in the public domain.
McCarthy, E.M. 2008. Macroevolution: The Origin of New Life Forms.
Dorinda Outram, Georges Cuvier: Vocation, Science and Authority in Post-Revolutionary France (Palgrave Macmillan, 1984)
Pietro Corsi, Rapport historique sur les progrès des sciences naturelles depuis 1789, et sur leur état actuel, présenté à Sa Majesté l'Empereur et Roi, en son Conseil d'État, le 6 février 1808, par la classe des sciences physiques et mathématiques de l'Institut... conformément à l'arrêté du gouvernement du 13 ventôse an X (Paris, 2005)
Russell, E. S. 1982. Form and function: A contribution to the history of animal morphology. Chicago: University of Chicago Press.
Philippe Taquet, Georges Cuvier, Naissance d'un Génie; 539 pages; Ed. Odile jacob, Paris, 2006; ISBN 2-7381-0969-1 (in French)
Rudwick, Martin J.S. Georges Cuvier, Fossil Bones, and Geological Catastrophes (The University of Chicago Press, 1997) ISBN 0-226-73106-5
Zimmer, Carl, Evolution:the triumph of an idea Harper Perennial New York 2006 ISBN 0-06-113840-1

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