Jean-Baptiste Lamarck

Jean-Baptiste Lamarck
Jean-Baptiste Lamarck

Portrait of Jean-Baptiste Lamarck
Born August 1, 1744(1744-08-01)
Bazentin, Picardie
Died December 18, 1829(1829-12-18) (aged 85)
Nationality French
Institutions French Academy of Sciences; Muséum national d'Histoire naturelle; Jardin des Plantes
Known for Evolution; inheritance of acquired characteristics, Influenced Geoffroy
Author abbreviation (botany) Lam.
Author abbreviation (zoology) Lamarck

Jean-Baptiste Pierre Antoine de Monet, Chevalier de la Marck (Bazentin, Somme, 1 August 1744 – Paris, 18 December 1829), often known simply as Lamarck, was a French naturalist. He was a soldier, biologist, academic, and an early proponent of the idea that evolution occurred and proceeded in accordance with natural laws.

Lamarck fought in the Pomeranian War with Prussia, and was awarded a commission for bravery on the battlefield.[1] At his post in Monaco, Lamarck became interested in natural history and resolved to study medicine.[2] He retired from the army after being injured in 1766, and returned to his medical studies.[2]

Lamarck developed a particular interest in botany, and later, after he published a three-volume work Flore françoise, he gained membership of the French Academy of Sciences in 1779. Lamarck became involved in the Jardin des Plantes and was appointed to the Chair of Botany in 1788. When the Muséum national d'Histoire naturelle was founded in 1793, Lamarck was appointed as a professor of zoology.

In 1801, he published Système des animaux sans vertèbres, a major work on the classification of invertebrates, a term he coined. In an 1802 publication, he became one of the first to use the term biology in its modern sense.[3][Note 1] Lamarck continued his work as a premier authority on invertebrate zoology. He is remembered, at least in malacology, as a taxonomist of considerable stature.

In the modern era, Lamarck is primarily remembered for a theory of inheritance of acquired characteristics, called soft inheritance or Lamarckism. However, his idea of soft inheritance was, perhaps, a reflection of the folk wisdom of the time, accepted by many natural historians. Lamarck's contribution to evolutionary theory consisted of the first truly cohesive theory of evolution, in which an alchemical complexifying force drove organisms up a ladder of complexity, and a second environmental force adapted them to local environments through use and disuse of characteristics, differentiating them from other organisms.[4]



Lamarck was born in Bazentin, Picardie, northern France,[2] as the eleventh child in an impoverished aristocratic family.[Note 2] Male members of the Lamarck family had traditionally served in the French army. Lamarck's eldest brother was killed in combat at the Siege of Bergen op Zoom, and two other brothers were still in service when Lamarck was in his teenage years. Yielding to the wishes of his father, Lamarck enrolled in a Jesuit college in Amiens in the late 1750s.[2]

After his father died in 1760, Lamarck bought himself a horse, and rode across the country to join the French army, which was in Germany at the time. Lamarck showed great physical courage on the battlefield in the Pomeranian War with Prussia, and he was even nominated for the lieutenancy.[2] Lamarck's company was left exposed to the direct artillery fire of their enemies, and was quickly reduced to just fourteen men - with no officers. One of the men suggested that the puny, seventeen year-old volunteer should assume command and order a withdrawal from the field; but although Lamarck accepted command, he insisted they remain where they had been posted until relieved.

When their colonel reached the remains of their company, this display of courage and loyalty impressed him so much that Lamarck was promoted to officer on the spot. However, when one of his comrades playfully lifted him by the head, he sustained an inflammation in the lymphatic glands of the neck, and he was sent to Paris to receive treatment.[2] He underwent a complicated operation, and continued his treatment for a year.[5] He was awarded a commission and settled at his post in Monaco. It was there that he encountered Traité des plantes usuelles, a botany book by James Francis Chomel.[2]

An engraving of Lamarck at 35 years of age

With a reduced pension of only 400 francs a year, Lamarck resolved to pursue a profession. He attempted to study medicine, and supported himself by working in a bank office.[2] Lamarck studied medicine for four years, but gave it up under his elder brother's persuasion. He was interested in botany, especially after his visits to the Jardin du Roi, and he became a student under Bernard de Jussieu, a notable French naturalist.[2] Under Jussieu, Lamarck spent ten years studying French flora.

After his studies, in 1778, he published some of his observations and results in a three-volume work, entitled Flore françoise. Lamarck's work was respected by many scholars, and it launched him into prominence in French science. On August 8, 1778, Lamarck married Marie Anne Rosalie Delaporte.[6] Georges-Louis Leclerc, Comte de Buffon, one of the top French scientists of the day, mentored Lamarck, and helped him gain membership to the French Academy of Sciences in 1779 and a commission as a Royal Botanist in 1781, in which he traveled to foreign botanical gardens and museums.[7] Lamarck's first son, André, was born on April 22, 1781, and he made colleague André Thouin the child's godfather.

In his two years of travel, Lamarck collected rare plants that were not available in the Royal Garden, and also other objects of natural history, such as minerals and ores, that were not found in French museums. On January 7, 1786, his second son, Antoine, was born, and Lamarck chose Antoine Laurent de Jussieu, Bernard de Jussieu's nephew, as the boy's godfather.[8] On April 21 of the following year, Charles Rene, Lamarck's third son, was born. René Louiche Desfontaines, a professor of botany at the Royal Garden, was the boy's godfather, and Lamarck's elder sister, Marie Charlotte Pelagie De Monet was the godmother.[8] In 1788, Buffon's successor at the position of Intendant of the Royal Garden, Charles-Claude Flahaut de la Billaderie, comte d'Angiviller, created a position for Lamarck, with a yearly salary of 1,000 francs, as the keeper of the herbarium of the Royal Garden.[2]

In 1790, at the height of the French Revolution, Lamarck changed the name of the Royal Garden from Jardin du Roi to Jardin des Plantes, a name that did not imply such a close association with King Louis XVI.[9] Lamarck had worked as the keeper of the herbarium for five years before he was appointed curator and professor of invertebrate zoology at the Muséum national d'histoire naturelle in 1793.[2] During his time at the herbarium, Lamarck's wife gave birth to three more children before dying on September 27, 1792. With the official title of "Professeur d’Histoire naturelle des Insectes et des Vers", Lamarck received a salary of nearly 2,500 francs per year.[10] The following year on October 9, he married Charlotte Reverdy, who was thirty years his junior.[8] On September 26, 1794, Lamarck was appointed to serve as secretary of the assembly of professors for the museum for a period of one year. In 1797, his second wife Charlotte died, and he married Julie Mallet the following year; she died in 1819.[8]

In his first six years as professor, Lamarck published only one paper, in 1798, on the influence of the moon on the Earth's atmosphere.[2] Lamarck began as an essentialist who believed species were unchanging; however, after working on the molluscs of the Paris Basin, he grew convinced that transmutation or change in the nature of a species occurred over time.[2] He set out to develop an explanation, and on 11 May 1800 (the 21st day of Floreal, Year VIII, in the revolutionary timescale used in France at the time), he presented a lecture at the Muséum national d'histoire naturelle in which he first outlined his newly developing ideas about evolution.

Lamarck, late in life

In 1801, he published Système des Animaux sans Vertebres, a major work on the classification of invertebrates. In the work, he introduced definitions of natural groups among invertebrates. He categorized echinoderms, arachnids, crustaceans and annelids, which he separated from the old taxon for worms known as Vermes.[9] Lamarck was the first to separate arachnids from insects in classification, and he moved crustaceans into a separate class from insects.

In 1802 Lamarck published Hydrogéologie, and became one of the first to use the term biology in its modern sense.[3][11] In Hydrogéologie, Lamarck advocated a steady-state geology based on a strict uniformitarianism. He argued that global currents tended to flow from east to west, and continents eroded on their eastern borders, with the material carried across to be deposited on the western borders. Thus, the Earth's continents marched steadily westward around the globe.

That year, he also published Recherches sur l'Organisation des Corps Vivants, in which he drew out his theory on evolution. He believed that all life was organized in a vertical chain, with gradation between the lowest forms and the highest forms of life, thus demonstrating a path to progressive developments in nature.[12]

In his own work, Lamarck had favored the then-more traditional theory based on the Classical four elements. During Lamarck's lifetime he became controversial, attacking the more enlightened chemistry proposed by Lavoisier. He also came into conflict with the widely respected palaeontologist Georges Cuvier, who was not a supporter of evolution. According to Peter J. Bowler, Cuvier "ridiculed Lamarck's theory of transformation and defended the fixity of species."[13][14] According to Martin J. S. Rudwick:

Cuvier was clearly hostile to the materialistic overtones of current transformist theorizing, but it does not necessarily follow that he regarded species origin as supernatural; certainly he was careful to use neutral language to refer to the causes of the origins of new forms of life, and even of man.[15]

Lamarck gradually turned blind and died in Paris on December 18, 1829. When he died, his family was so poor they had to apply to the Academie for financial assistance. Lamarck's books and the contents of his home were sold at auction, and his body was buried in a temporary lime-pit.[16]

After his death, Cuvier used the forum of a eulogy to denigrate Lamarck:

[Cuvier's] éloge of Lamarck is one of the most deprecatory and chillingly partisan biographies I have ever read – though he was supposedly writing respectful comments in the old tradition of de mortuis nil nisi bonum.[5][17]

Lamarckian evolution

Lamarck stressed two main themes in his biological work. The first was that the environment gives rise to changes in animals. He cited examples of blindness in moles, the presence of teeth in mammals and the absence of teeth in birds as evidence of this principle. The second principle was that life was structured in an orderly manner and that many different parts of all bodies make it possible for the organic movements of animals.[12]

Although he was not the first thinker to advocate organic evolution, he was the first to develop a truly coherent evolutionary theory.[4] He outlined his theories regarding evolution first in his Floreal lecture of 1800, and then in three later published works:

  • Recherches sur l'organisation des corps vivants, 1802.
  • Philosophie Zoologique, 1809.
  • Histoire naturelle des animaux sans vertèbres, (in seven volumes, 1815–1822).

Lamarck employed several mechanisms as drivers of evolution, drawn from the common knowledge of his day and from his own belief in chemistry pre-Lavoisier. He used these mechanisms to explain the two forces he saw as comprising evolution; a force driving animals from simple to complex forms, and a force adapting animals to their local environments and differentiating them from each other. He believed that these forces must be explained as a necessary consequence of basic physical principles, favoring a materialistic attitude toward biology.

Le pouvoir de la vie: The complexifying force

Lamarck referred to a tendency for organisms to become more complex, moving 'up' a ladder of progress. He referred to this phenomenon as Le pouvoir de la vie or la force qui tend sans cesse à composer l'organisation (The force that perpetually tends to make order). Like many natural historians, Lamarck believed that organisms arose in their simplest forms via spontaneous generation.

Lamarck ran against the modern chemistry promoted by Lavoisier (whose ideas he regarded with disdain), preferring to embrace a more traditional alchemical view of the elements as influenced primarily by earth, air, fire and water. He asserted that the natural movements of fluids in living organisms drove them toward ever greater levels of complexity:

The rapid motion of fluids will etch canals between delicate tissues. Soon their flow will begin to vary, leading to the emergence of distinct organs. The fluids themselves, now more elaborate, will become more complex, engendering a greater variety of secretions and substances composing the organs.
- Histoire naturelle des animaux sans vertebres, 1815.

He argued that organisms thus moved from simple to complex in a steady, predictable way based on the fundamental physical principles of alchemy. In this view, simple organisms never disappeared because they were constantly being created by spontaneous generation in what has been described as a 'steady-state biology'. Lamarck saw spontaneous generation as being ongoing, with the simple organisms thus created being transmuted over time becoming more complex. He is sometimes regarded as believing in a teleological (goal-oriented) process where organisms became more perfect as they evolved, though as a materialist, he emphasized that these forces must originate necessarily from underlying physical principles.

L'influence des circonstances: The adaptive force

The second component of Lamarck's theory of evolution was the adaptation of organisms to their environment. This could move organisms upward from the ladder of progress into new and distinct forms with local adaptations. It could also drive organisms into evolutionary blind alleys, where the organism became so finely adapted that no further change could occur. Lamarck argued that this adaptive force was powered by the interaction of organisms with their environment, by the use and disuse of certain characteristics.

First Law: In every animal which has not passed the limit of its development, a more frequent and continuous use of any organ gradually strengthens, develops and enlarges that organ, and gives it a power proportional to the length of time it has been so used; while the permanent disuse of any organ imperceptibly weakens and deteriorates it, and progressively diminishes its functional capacity, until it finally disappears".[18]

This first law says little except "an exaggerated generalization of the belief that exercise develops an organ".[19]

Second Law: All the acquisitions or losses wrought by nature on individuals, through the influence of the environment in which their race has long been placed, and hence through the influence of the predominant use or permanent disuse of any organ; all these are preserved by reproduction to the new individuals which arise, provided that the acquired modifications are common to both sexes, or at least to the individuals which produce the young.[18]

The last clause of this law introduces what is now called soft inheritance. "The second law was widely accepted at the time..[but] has been decisively rejected by modern genetics." [19] However, in the field of epigenetics, there is growing evidence that soft inheritance plays a part in the changing of some organisms' phenotypes: it leaves the DNA unaltered but affects DNA by preventing the expression of genes.[20]


Statue of Lamarck by Léon Fagel in the Jardin des Plantes, Paris.

Lamarck constructed one of the first theoretical frameworks of organic evolution. While this theory was generally rejected during his lifetime,[21] Stephen Jay Gould argues that Lamarck was the "primary evolutionary theorist", in that his ideas, and the way in which he structured his theory set the tone for much of the subsequent thinking in evolutionary biology, through to the present day.[22]

Lamarck is usually remembered for his belief in the inheritance of acquired characteristics, and the use and disuse model by which organisms developed their characteristics. Lamarck incorporated this belief into his theory of evolution, along with other more common beliefs of the time, such as spontaneous generation. The inheritance of acquired characteristics (also called the theory of adaptation or soft inheritance) was rejected by August Weismann in the 1880s[Note 3] when he developed a theory of inheritance in which germ plasm (the sex cells, later redefined as DNA), remained separate and distinct from the soma (the rest of the body); thus nothing which happens to the soma may be passed on with the germ-plasm. This model underlies the modern understanding of inheritance.

Charles Darwin allowed a role for use and disuse as an evolutionary mechanism subsidiary to natural selection, most often in respect of disuse.[Note 4] He praised Lamarck for "the eminent service of arousing attention to the probability of all change in the organic... world, being the result of law, not miraculous interposition".[24] Lamarckism is also occasionally used to describe quasi-evolutionary concepts in societal contexts, though not by Lamarck himself. For example, the memetic theory of cultural evolution is sometimes described as a form of Lamarckian inheritance of non-genetic traits.

In contrast to the eventual general rejection of his proposed mechanism for evolution, Lamarck's seven-volume work on the natural history of invertebrates is recognised as a lasting contribution to zoology.

Species and other taxa named by Lamarck

During his lifetime, Lamarck named a large number of species, many of which have become synonyms. The World Register of Marine Species gives no fewer than 1,634 records.[25] The Indo-Pacific Molluscan Database gives 1,781 records.[26] Among these are some well-known families such as the ark clams (Arcidae), the sea hares (Aplysiidae) and the cockles (Cardiidae). The International Plant Names Index gives 58 records,[27] among including a number of well-known genera such as the mosquito fern (Azolla).

Species named in his honour

The honeybee subspecies Apis mellifera lamarckii is named after Lamarck, as well as the Bluefire jellyfish (Cyaneia lamarckii). A number of plant species have also been named after him, including Amelanchier lamarckii (Juneberry), Digitalis lamarckii and Aconitum lamarckii. The grass genus Lamarckia is named after him.

The International Plant Names Index gives 116 records of plant species named after Lamarck.[28]

Among the marine species, no less than 103 species or genera carry the epithet "lamarcki", "lamarckii" or "lamarckiana", but many have since become synonyms. Marine species with valid names include:[29]

  • Acropora lamarcki Veron, 2002
  • Agaricia lamarcki Milne Edwards & Haime, 1851
  • Ascaltis lamarcki (Haeckel, 1870)
  • Bursa lamarckii (Deshayes, 1853, a frog snail
  • Carinaria lamarckii Blainville, 1817, a small planktonic sea snail
  • Caligodes lamarcki Quidor, 1913
  • Cyanea lamarckii Péron & Lesueur 1810
  • Cyllene desnoyersi lamarcki Cernohorsky, 1975
  • Erosaria lamarckii (J. E. Gray, 1825), a cowrie
  • Genicanthus lamarck (Lacepède, 1802)
  • Gorgonocephalus lamarckii (Müller & Troschel, 1842)
  • Gyroidinoides lamarckiana (d´Orbigny, 1839)
  • Lamarckdromia Guinot & Tavares, 2003
  • Lamarckina Berthelin, 1881
  • Lobophytum lamarcki Tixier-Durivault, 1956
  • Marginella lamarcki Boyer, 2004, a small sea snail
  • Megerlina lamarckiana (Davidson, 1852)
  • Meretrix lamarckii Deshayes, 1853
  • Morum lamarckii (Deshayes, 1844), a small sea snail
  • Mycetophyllia lamarckiana Milne Edwards & Haime, 1848
  • Neotrigonia lamarckii (Gray, 1838)
  • Olencira lamarckii Leach, 1818
  • Petrolisthes lamarckii (Leach, 1820)
  • Pomatoceros lamarcki (Quatrefages, 1866)
  • Quinqueloculina lamarckiana d´Orbigny, 1839
  • Raninoides lamarcki A. Milne-Edwards & Bouvier, 1923
  • Rhizophora x lamarckii Montr.
  • Siphonina lamarckana Cushman, 1927
  • Solen lamarckii Chenu, 1843
  • Spondylus lamarckii Chenu, 1845, a thorny oyster
  • Xanthias lamarckii (H. Milne Edwards, 1834)

Major works

  • 1809. Philosophie zoologique, ou Exposition des considérations relatives à l’histoire naturelle des animaux..., Paris.

On invertebrate classification:

  • 1801. Système des animaux sans vertèbres, ou tableau général des classes, des ordres et des genres de ces animaux; présentant leurs caractères essentiels et leur distribution, d'après la considération de leurs..., Paris, Detreville, VIII : 1-432.
  • 1815-1822. Histoire naturelle des animaux sans vertèbres, présentant les caractères généraux et particuliers de ces animaux..., Tome 1 (1815): 1-462; Tome 2 (1816): 1-568; Tome 3 (1816): 1-586; Tome 4 (1817): 1-603; Tome 5 (1818): 1-612; Tome 6, Pt.1 (1819): 1-343; Tome 6, Pt.2 (1822): 1-252; Tome 7 (1822): 1-711.

The standard author abbreviation Lam. is used to indicate Lamarck as the author when citing a botanical name.[30]

See also


  1. ^ The term "biology" was also introduced independently by Thomas Beddoes (in 1799), Karl Friedrich Burdach (in 1800) and Gottfried Reinhold Treviranus (Biologie oder Philosophie der lebenden Natur, 1802).
  2. ^ His noble title was Chevalier, which is French for knight.
  3. ^ It was rejected during Lamarck's lifetime by William Lawrence, whose remarkable anticipation of hard inheritance has often gone unnoticed.[citation needed]
  4. ^ Ernst Mayr commented: "Curiously few evolutionists have noted that, in addition to natural selection, Darwin admits use and disuse as an important evolutionary mechanism. In this he is perfectly clear. For instance,…on page 137 he says that the reduced size of the eyes in moles and other burrowing mammals is 'probably due to gradual reduction from disuse, but aided perhaps by natural selection'. In the case of cave animals, when speaking of the loss of eyes he says, 'I attribute their loss wholly to disuse' (p137) On page 455 he begins unequivocally, 'At whatever period of life disuse or selection reduces an organ…' The importance he gives to use or disuse is indicated by the frequency with which he invokes this agent of evolution in the Origin. I find references on pages 11, 43, 134, 135, 136, 137, 447, 454, 455, 472, 479, and 480."[23]



Further reading

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