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Georges Louis Leclerc, Count of Buffon (French pronunciation: [ʒɔʁʒ lwi ləklɛʁ kɔ̃t də byfɔ̃]; 7 September 1707 – 16 April 1788) was a French naturalist, mathematician, cosmologist, and encyclopedic author.

His works influenced the next two generations of naturalists, including Jean-Baptiste Lamarck and Georges Cuvier. Buffon published thirty-six quarto volumes of his Histoire naturelle during his lifetime; with additional volumes based on his notes and further research being published in the two decades following his death.[1]

It has been said that "Truly, Buffon was the father of all thought in natural history in the second half of the 18th century".[2]

Buffon held the position of intendant (director) at the Jardin du Roi, now called the Jardin des Plantes; it is the French equivalent of Kew Gardens.

Biography
Early life

Georges Louis Leclerc (later Count de Buffon) was born at Montbard, in the Province of Burgundy to Benjamin Leclerc, a minor local official in charge of the salt tax and Anne-Christine Marlin also from a family of civil servants. Georges was named after his mother’s uncle (his godfather) Georges Blaisot, the tax-farmer of the Duke of Savoy for all of Sicily. In 1714 Blaisot died childless, leaving a considerable fortune to his seven-year-old godson. Benjamin Leclerc then purchased an estate containing the nearby village of Buffon and moved the family to Dijon acquiring various offices there as well as a seat in the Dijon Parlement. Georges attended the Jesuit College of Godrans in Dijon from the age of ten onwards. From 1723–1726 he then studied law in Dijon, the prerequisite for continuing the family tradition in civil service. In 1728 Georges left Dijon to study mathematics and medicine at the University of Angers in Switzerland. At Angers in 1730 he made the acquaintance of the young English Duke of Kingston, who was on his grand tour of Europe, and traveled with him and a large and expensive entourage for a year and a half through southern France and parts of Italy. There are persistent but completely undocumented rumors from this period about duels, abductions and secret trips to England. In 1732 after the death of his mother and before the impending remarriage of his father, Georges left Kingston and returned to Dijon to secure his inheritance. Having added “de Buffon” to his name while traveling with the Duke, he repurchased the village of Buffon, which his father had meanwhile sold off. With a fortune of about 80 000 livres Buffon set himself up in Paris to pursue science, at first primarily mathematics and mechanics, and the increase of his fortune.
Career

In 1732 he moved to Paris, where he made the acquaintance of Voltaire and other intellectuals. He first made his mark in the field of mathematics and, in his Sur le jeu de franc-carreau, introduced differential and integral calculus into probability theory; the problem of Buffon's needle in probability theory is named after him. In 1734 he was admitted to the French Academy of Sciences. During this period he corresponded with the Swiss mathematician Gabriel Cramer.

His protector Maurepas had asked the Academy of Sciences to do research on wood for the construction of ships in 1733. Soon afterward, Buffon began a long-term study, performing some of the most comprehensive tests to date on the mechanical properties of wood. Included were a series of tests to compare the properties of small specimens with those of large members. After carefully testing more than a thousand small specimens without knots or other defects, Buffon concluded that it was not possible to extrapolate to the properties of full-size timbers, and he began a series of tests on full-size structural members.

In 1739 he was appointed head of the Parisian Jardin du Roi with the help of Maurepas; he held this position to the end of his life. Buffon was instrumental in transforming the Jardin du Roi into a major research center and museum. He also enlarged it, arranging the purchase of adjoining plots of land and acquiring new botanical and zoological specimens from all over the world.

Thanks to his talent as a writer, he was invited to join Paris's second great academy, the Académie Française in 1753. In his Discours sur le style ("Discourse on Style"), pronounced before the Académie Française, he said, "Writing well consists of thinking, feeling and expressing well, of clarity of mind, soul and taste .... The style is the man himself" ("Le style c'est l'homme même").[3] Unfortunately for him, Buffon's reputation as a literary stylist also gave ammunition to his detractors: The mathematician Jean le Rond D'Alembert, for example, called him "the great phrase-monger".

In 1752 Buffon married Marie-Françoise de Saint-Belin-Malain, the daughter of an impoverished noble family from Burgundy, who was enrolled in the convent school run by his sister. Madame de Buffon’s second child, a son born in 1764, survived childhood; she herself died in 1769. When in 1772 Buffon became seriously ill and the promise that his son (then only 8) should succeed him as director of the Jardin became clearly impracticable and was withdrawn, the King raised Buffon’s estates in Burgundy to the status of a county – and thus Buffon (and his son) became a Count. Buffon died in Paris in 1788.
Publications
Bronze statue of Buffon wearing a ruffled shirt and a long coat, holding a bird with wings spread.
Statue of Buffon in the Jardin des Plantes
"Preuves de la théorie de la Terre", in the Buffon Museum, Montbard, Côte-d'Or, France

Buffon's Histoire naturelle, générale et particulière (1749–1788: in 36 volumes; an additional volume based on his notes appeared in 1789) was originally intended to cover all three "kingdoms" of nature but the Histoire naturelle ended up being limited to the animal and mineral kingdoms. "Written in a brilliant style, this work was read ... by every educated person in Europe".[2] Those who assisted him in the production of this great work included Louis-Jean-Marie Daubenton, Philibert Guéneau de Montbeillard, and Gabriel-Léopold Bexon, along with numerous artists. Buffon's Histoire naturelle was translated into many different languages, making him one of the most widely read authors of the day, a rival to Montesquieu, Rousseau, and Voltaire.[4]

In the opening volumes of the Histoire naturelle Buffon questioned the usefulness of mathematics, criticized Carl Linnaeus's taxonomical approach to natural history, outlined a history of the Earth with little relation to the Biblical account, and proposed a theory of reproduction that ran counter to the prevailing theory of pre-existence. The early volumes were condemned by the Faculty of Theology at the Sorbonne. Buffon published a retraction, but he continued publishing the offending volumes without any change.

In the course of his examination of the animal world, Buffon noted that despite similar environments, different regions have distinct plants and animals, a concept later known as Buffon's Law. This is considered to be the first principle of biogeography. He made the suggestion that species may have both "improved" and "degenerated" after dispersing from a center of creation. In volume 14 he argued that all the world's quadrupeds had developed from an original set of just thirty-eight quadrupeds.[5] On this basis, he is sometimes considered a "transformist" and a precursor of Darwin. He also asserted that climate change may have facilitated the worldwide spread of species from their centers of origin. Still, interpreting his ideas on the subject is not simple, for he returned to topics many times in the course of his work.

Buffon considered the similarities between humans and apes, but ultimately rejected the possibility of a common descent. He debated with James Burnett, Lord Monboddo on the relationship of the primates to man, Monboddo insisting, against Buffon, on a close relationship.[6]

At one point, Buffon propounded a theory that nature in the New World was inferior to that of Eurasia. He argued that the Americas were lacking in large and powerful creatures, and that even the people were less virile than their European counterparts. He ascribed this inferiority to the marsh odors and dense forests of the American continent. These remarks so incensed Thomas Jefferson that he dispatched twenty soldiers to the New Hampshire woods to find a bull moose for Buffon as proof of the "stature and majesty of American quadrapeds".[7] Buffon later admitted his error.

In Les époques de la nature (1778) Buffon discussed the origins of the solar system, speculating that the planets had been created by a comet's collision with the sun.[8] He also suggested that the earth originated much earlier than 4004 BC, the date determined by Archbishop James Ussher. Basing his figures on the cooling rate of iron tested at his Laboratory the Petit Fontenet at Montbard, he calculated that the age of the earth was 75,000 years. Once again, his ideas were condemned by the Sorbonne, and once again he issued a retraction to avoid further problems.[9]
Racial studies
See also: Scientific racism

Buffon and Johann Blumenbach were believers in monogenism, the concept that all races have a single origin. They also believed in the "Degeneration theory" of racial origins. They both said that Adam and Eve were Caucasian and that other races came about by degeneration from environmental factors, such as the sun and poor dieting. They believed that the degeneration could be reversed if proper environmental control was taken, and that all contemporary forms of man could revert to the original Caucasian race.[10]

Buffon and Blumenbach claimed that Negroid pigmentation arose because of the heat of the tropical sun. They suggested cold wind caused the tawny colour of the Eskimos. They thought the Chinese relatively fair skinned compared to the other Asian stocks because they kept mostly in towns and were protected from environmental factors. Buffon said that food and the mode of living could make races degenerate and distinguish them from the original Caucasian race.[10]

Buffon believed humanity was only 6000 years old (the time since Adam). Many scientific racialists pointed out at the time that it would have been difficult for races to change so markedly in genotype and phenotype in such a short period of time. Believing in monogenism, Buffon thought that skin colour could change in a single lifetime, depending on the conditions of climate and diet.[11]

Buffon was an advocate of the Asia hypothesis; in his book Histoire Naturelle, he argued that man's birthplace must be in a high temperate zone. As he believed good climate conditions would breed healthy humans, he hypothesized that the most logical place to look for the first humans' existence would be in Asia and around the Caspian Sea region.[12]
Relevance to modern biology

Charles Darwin wrote in his preliminary historical sketch added to the third edition of On the Origin of Species: "Passing over... Buffon, with whose writings I am not familiar". Then, from the fourth edition onwards, he amended this to say that "the first author who in modern times has treated it [evolution] in a scientific spirit was Buffon. But as his opinions fluctuated greatly at different periods, and as he does not enter on the causes or means of the transformation of species, I need not here enter on details".[13]

The paradox of Buffon is that, according to Ernst Mayr:

He was not an evolutionist, yet he was the father of evolutionism. He was the first person to discuss a large number of evolutionary problems, problems that before Buffon had not been raised by anybody.... he brought them to the attention of the scientific world.

Except for Aristotle and Darwin, no other student of organisms [whole animals and plants] has had as far-reaching an influence.

He brought the idea of evolution into the realm of science. He developed a concept of the "unity of type", a precursor of comparative anatomy. More than anyone else, he was responsible for the acceptance of a long-time scale for the history of the earth. He was the founder of biogeography. And yet, he hindered evolution by his frequent endorsement of the immutability of species. He provided a criterion of species, fertility among members of a species, that was thought impregnable.[2]
See also

Scientific Revolution
Suites à Buffon

References

^ Farber, Paul. 2000. Finding Order in Nature. Baltimore: Johns Hopkins University Press. p 14
^ a b c Mayr, Ernst 1981. The Growth of Biological Thought. Cambridge: Harvard. p 330
^ Fellows, Otis E. and Stephen F. Milliken 1972. Buffon. New York: Twayne. pp 149–54
^ Buffon, Georges Louis Leclerc, Comte de", Encyclopedia of Life Sciences. Biographies Plus Illustrated, H.W. Wilson Company, 2001. vnweb.hwwilsonweb.com (Accessed December 26, 2005)
^ Roger, Jacques 1989. Buffon: un philosophe au Jardin du Roi Paris: Fayard. pp 434–5
^ Cloyd E.L. 1972. James Burnett, Lord Monboddo (Oxford: Clarendon Press.
^ Bryson, Bill 2004. A Short History of Nearly Everything. New York: Broadway Books. p 81
^ L’Histoire Naturelle, générale et particulière, avec la description du Cabinet du Roi
^ Jean Stengers 1974. "Buffon et la Sorbonne" in Etudes sur le XVIIIe siecle, ed. Roland Mortier and Hervé Hasquin. Brussels: Université de Bruxelles. pp 113–24
^ a b Marvin Harris, The Rise of Anthropological Theory: A History of Theories of Culture, 2001, p. 84
^ Harris, Rise of Anthropological Theory, 2001, p. 86
^ Human Evolution: a guide to the debates, Brian Regal, p. 72
^ Darwin, Charles 1861. On the Origin of Species, An historical sketch: 3rd edition. xiii. 4th edition of 1866 xiii.

External links

(French) The Buffon project : L'histoire naturelle
Digital text Kyoto University
O'Connor, John J.; Robertson, Edmund F., "Georges Louis Leclerc, Count of Buffon", MacTutor History of Mathematics archive, University of St Andrews.
Buffon's American Degeneracy, from The Academy of Natural Sciences
William Smellie's English Translation of Buffon's Natural History, General and Particular, 3rd Edition
(French) Discours sur le Style – at athena.unige.ch

The term parametric continuity was introduced to distinguish it from geometric continuity (Gn) which removes restrictions on the speed with which the parameter traces out the curve.[3]

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