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Lamarckism

February 16, 2024

Lamarckism, also known as Lamarckian inheritance or neo-Lamarckism,[2] is the notion that an organism can pass on to its offspring physical characteristics that the parent organism acquired through use or disuse during its lifetime. It is also called the inheritance of acquired characteristics or more recently soft inheritance. The idea is named after the French zoologist Jean-Baptiste Lamarck (1744–1829), who incorporated the classical era theory of soft inheritance into his theory of evolution as a supplement to his concept of orthogenesis, a drive towards complexity.

Lamarck argued, as part of his theory of heredity, that a blacksmith's sons inherit the strong muscles he acquires from his work.[1]

Introductory textbooks contrast Lamarckism with Charles Darwin's theory of evolution by natural selection. However, Darwin's book On the Origin of Species gave credence to the idea of heritable effects of use and disuse, as Lamarck had done, and his own concept of pangenesis similarly implied soft inheritance.[2][3]

Many researchers from the 1860s onwards attempted to find evidence for Lamarckian inheritance, but these have all been explained away,[4][5] either by other mechanisms such as genetic contamination or as fraud. August Weismann's experiment, considered definitive in its time, is now considered to have failed to disprove Lamarckism, as it did not address use and disuse. Later, Mendelian genetics supplanted the notion of inheritance of acquired traits, eventually leading to the development of the modern synthesis, and the general abandonment of Lamarckism in biology. Despite this, interest in Lamarckism has continued.

Since c. 2000 new experimental results in the fields of epigenetics, genetics, and somatic hypermutation proved the possibility of transgenerational epigenetic inheritance of traits acquired by the previous generation. These proved a limited validity of Lamarckism. The inheritance of the hologenome, consisting of the genomes of all an organism's symbiotic microbes as well as its own genome, is also somewhat Lamarckian in effect, though entirely Darwinian in its mechanisms.

Early history edit

Origins edit

 
Jean-Baptiste Lamarck repeated the ancient folk wisdom of the inheritance of acquired characteristics.

The inheritance of acquired characteristics was proposed in ancient times and remained a current idea for many centuries. The historian of science Conway Zirkle wrote in 1935 that:[6]

Lamarck was neither the first nor the most distinguished biologist to believe in the inheritance of acquired characters. He merely endorsed a belief which had been generally accepted for at least 2,200 years before his time and used it to explain how evolution could have taken place. The inheritance of acquired characters had been accepted previously by Hippocrates, Aristotle, Galen, Roger Bacon, Jerome Cardan, Levinus Lemnius, John Ray, Michael Adanson, Jo. Fried. Blumenbach and Erasmus Darwin among others.[6]

Zirkle noted that Hippocrates described pangenesis, the theory that what is inherited derives from the whole body of the parent, whereas Aristotle thought it impossible; but that all the same, Aristotle implicitly agreed to the inheritance of acquired characteristics, giving the example of the inheritance of a scar, or of blindness, though noting that children do not always resemble their parents. Zirkle recorded that Pliny the Elder thought much the same. Zirkle pointed out that stories involving the idea of inheritance of acquired characteristics appear numerous times in ancient mythology and the Bible, and persisted through to Rudyard Kipling's Just So Stories.[7] The idea is mentioned in 18th century sources such as Diderot's D'Alembert's Dream.[8] Erasmus Darwin's Zoonomia (c. 1795) suggested that warm-blooded animals develop from "one living filament... with the power of acquiring new parts" in response to stimuli, with each round of "improvements" being inherited by successive generations.[9]

Darwin's pangenesis edit

 
Charles Darwin's pangenesis theory. Every part of the body emits tiny gemmules which migrate to the gonads and contribute to the next generation via the fertilised egg. Changes to the body during an organism's life would be inherited, as in Lamarckism.
Main article: Pangenesis

Charles Darwin's On the Origin of Species proposed natural selection as the main mechanism for development of species, but (like Lamarck) gave credence to the idea of heritable effects of use and disuse as a supplementary mechanism.[10] Darwin subsequently set out his concept of pangenesis in the final chapter of his book The Variation of Animals and Plants Under Domestication (1868), which gave numerous examples to demonstrate what he thought was the inheritance of acquired characteristics. Pangenesis, which he emphasised was a hypothesis, was based on the idea that somatic cells would, in response to environmental stimulation (use and disuse), throw off 'gemmules' or 'pangenes' which travelled around the body, though not necessarily in the bloodstream. These pangenes were microscopic particles that supposedly contained information about the characteristics of their parent cell, and Darwin believed that they eventually accumulated in the germ cells where they could pass on to the next generation the newly acquired characteristics of the parents.[11][12]

Darwin's half-cousin, Francis Galton, carried out experiments on rabbits, with Darwin's cooperation, in which he transfused the blood of one variety of rabbit into another variety in the expectation that its offspring would show some characteristics of the first. They did not, and Galton declared that he had disproved Darwin's hypothesis of pangenesis, but Darwin objected, in a letter to the scientific journal Nature, that he had done nothing of the sort, since he had never mentioned blood in his writings. He pointed out that he regarded pangenesis as occurring in protozoa and plants, which have no blood, as well as in animals.[13]

Lamarck's evolutionary framework edit

 
Lamarck's two-factor theory involves 1) a complexifying force that drives animal body plans towards higher levels (orthogenesis) creating a ladder of phyla, and 2) an adaptive force that causes animals with a given body plan to adapt to circumstances (use and disuse, inheritance of acquired characteristics), creating a diversity of species and genera. Lamarckism is the name now widely used for the adaptive force.
Further information: Jean-Baptiste Lamarck § Lamarckian evolution

Between 1800 and 1830, Lamarck proposed a systematic theoretical framework for understanding evolution. He saw evolution as comprising four laws:[14][15]

  1. "Life by its own force, tends to increase the volume of all organs which possess the force of life, and the force of life extends the dimensions of those parts up to an extent that those parts bring to themselves;"
  2. "The production of a new organ in an animal body, results from a new requirement arising. and which continues to make itself felt, and a new movement which that requirement gives birth to, and its upkeep/maintenance;"
  3. "The development of the organs, and their ability, are constantly a result of the use of those organs."
  4. "All that has been acquired, traced, or changed, in the physiology of individuals, during their life, is conserved through the genesis, reproduction, and transmitted to new individuals who are related to those who have undergone those changes."

Lamarck's discussion of heredity edit

In 1830, in an aside from his evolutionary framework, Lamarck briefly mentioned two traditional ideas in his discussion of heredity, in his day considered to be generally true. The first was the idea of use versus disuse; he theorized that individuals lose characteristics they do not require, or use, and develop characteristics that are useful. The second was to argue that the acquired traits were heritable. He gave as an imagined illustration the idea that when giraffes stretch their necks to reach leaves high in trees, they would strengthen and gradually lengthen their necks. These giraffes would then have offspring with slightly longer necks. In the same way, he argued, a blacksmith, through his work, strengthens the muscles in his arms, and thus his sons would have similar muscular development when they mature. Lamarck stated the following two laws:[1]

  1. Première Loi: Dans tout animal qui n' a point dépassé le terme de ses développemens, l' emploi plus fréquent et soutenu d' un organe quelconque, fortifie peu à peu cet organe, le développe, l' agrandit, et lui donne une puissance proportionnée à la durée de cet emploi; tandis que le défaut constant d' usage de tel organe, l'affoiblit insensiblement, le détériore, diminue progressivement ses facultés, et finit par le faire disparoître.[1]
  2. Deuxième Loi: Tout ce que la nature a fait acquérir ou perdre aux individus par l' influence des circonstances où leur race se trouve depuis long-temps exposée, et, par conséquent, par l' influence de l' emploi prédominant de tel organe, ou par celle d' un défaut constant d' usage de telle partie; elle le conserve par la génération aux nouveaux individus qui en proviennent, pourvu que les changemens acquis soient communs aux deux sexes, ou à ceux qui ont produit ces nouveaux individus.[1]

English translation:

  1. First Law [Use and Disuse]: 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.
  2. Second Law [Soft Inheritance]: 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.[16]

In essence, a change in the environment brings about change in "needs" (besoins), resulting in change in behaviour, causing change in organ usage and development, bringing change in form over time—and thus the gradual transmutation of the species. The evolutionary biologists and historians of science Conway Zirkle, Michael Ghiselin, and Stephen Jay Gould have pointed out, these ideas were not original to Lamarck.[6][2][17]

Weismann's experiment edit

 
August Weismann's germ plasm theory. The hereditary material, the germ plasm, is confined to the gonads and the gametes. Somatic cells (of the body) develop afresh in each generation from the germ plasm, creating an invisible "Weismann barrier" to Lamarckian influence from the soma to the next generation.

August Weismann's germ plasm theory held that germline cells in the gonads contain information that passes from one generation to the next, unaffected by experience, and independent of the somatic (body) cells. This implied what came to be known as the Weismann barrier, as it would make Lamarckian inheritance from changes to the body difficult or impossible.[18]

Weismann conducted the experiment of removing the tails of 68 white mice, and those of their offspring over five generations, and reporting that no mice were born in consequence without a tail or even with a shorter tail. In 1889, he stated that "901 young were produced by five generations of artificially mutilated parents, and yet there was not a single example of a rudimentary tail or of any other abnormality in this organ."[19] The experiment, and the theory behind it, were thought at the time to be a refutation of Lamarckism.[18]

The experiment's effectiveness in refuting Lamarck's hypothesis is doubtful, as it did not address the use and disuse of characteristics in response to the environment. The biologist Peter Gauthier noted in 1990 that:[20]

Can Weismann's experiment be considered a case of disuse? Lamarck proposed that when an organ was not used, it slowly, and very gradually atrophied. In time, over the course of many generations, it would gradually disappear as it was inherited in its modified form in each successive generation. Cutting the tails off mice does not seem to meet the qualifications of disuse, but rather falls in a category of accidental misuse... Lamarck's hypothesis has never been proven experimentally and there is no known mechanism to support the idea that somatic change, however acquired, can in some way induce a change in the germplasm. On the other hand it is difficult to disprove Lamarck's idea experimentally, and it seems that Weismann's experiment fails to provide the evidence to deny the Lamarckian hypothesis, since it lacks a key factor, namely the willful exertion of the animal in overcoming environmental obstacles.[20]

Ghiselin also considered the Weismann tail-chopping experiment to have no bearing on the Lamarckian hypothesis, writing in 1994 that:[2]

The acquired characteristics that figured in Lamarck's thinking were changes that resulted from an individual's own drives and actions, not from the actions of external agents. Lamarck was not concerned with wounds, injuries or mutilations, and nothing that Lamarck had set forth was tested or "disproven" by the Weismann tail-chopping experiment.[2]

The historian of science Rasmus Winther stated that Weismann had nuanced views about the role of the environment on the germ plasm. Indeed, like Darwin, he consistently insisted that a variable environment was necessary to cause variation in the hereditary material.[21]

Textbook Lamarckism edit

 
The long neck of the giraffe is often used as an example in popular explanations of Lamarckism. However, this was only a small part of his theory of evolution towards "perfection"; it was a hypothetical illustration; and he used it to discuss his theory of heredity, not evolution.[2]

The identification of Lamarckism with the inheritance of acquired characteristics is regarded by evolutionary biologists including Ghiselin as a falsified artifact of the subsequent history of evolutionary thought, repeated in textbooks without analysis, and wrongly contrasted with a falsified picture of Darwin's thinking. Ghiselin notes that "Darwin accepted the inheritance of acquired characteristics, just as Lamarck did, and Darwin even thought that there was some experimental evidence to support it."[2] Gould wrote that in the late 19th century, evolutionists "re-read Lamarck, cast aside the guts of it ... and elevated one aspect of the mechanics—inheritance of acquired characters—to a central focus it never had for Lamarck himself."[22] He argued that "the restriction of 'Lamarckism' to this relatively small and non-distinctive corner of Lamarck's thought must be labelled as more than a misnomer, and truly a discredit to the memory of a man and his much more comprehensive system."[3][23]

Neo-Lamarckism edit

Context edit

Further information: Eclipse of Darwinism and Orthogenesis
 
Edward Drinker Cope

The period of the history of evolutionary thought between Darwin's death in the 1880s, and the foundation of population genetics in the 1920s and the beginnings of the modern evolutionary synthesis in the 1930s, is called the eclipse of Darwinism by some historians of science. During that time many scientists and philosophers accepted the reality of evolution but doubted whether natural selection was the main evolutionary mechanism.[24]

Among the most popular alternatives were theories involving the inheritance of characteristics acquired during an organism's lifetime. Scientists who felt that such Lamarckian mechanisms were the key to evolution were called neo-Lamarckians. They included the British botanist George Henslow (1835–1925), who studied the effects of environmental stress on the growth of plants, in the belief that such environmentally-induced variation might explain much of plant evolution, and the American entomologist Alpheus Spring Packard, Jr., who studied blind animals living in caves and wrote a book in 1901 about Lamarck and his work.[25][26] Also included were paleontologists like Edward Drinker Cope and Alpheus Hyatt, who observed that the fossil record showed orderly, almost linear, patterns of development that they felt were better explained by Lamarckian mechanisms than by natural selection. Some people, including Cope and the Darwin critic Samuel Butler, felt that inheritance of acquired characteristics would let organisms shape their own evolution, since organisms that acquired new habits would change the use patterns of their organs, which would kick-start Lamarckian evolution. They considered this philosophically superior to Darwin's mechanism of random variation acted on by selective pressures. Lamarckism also appealed to those, like the philosopher Herbert Spencer and the German anatomist Ernst Haeckel, who saw evolution as an inherently progressive process.[25] The German zoologist Theodor Eimer combined Larmarckism with ideas about orthogenesis, the idea that evolution is directed towards a goal.[27]

With the development of the modern synthesis of the theory of evolution, and a lack of evidence for a mechanism for acquiring and passing on new characteristics, or even their heritability, Lamarckism largely fell from favour. Unlike neo-Darwinism, neo-Lamarckism is a loose grouping of largely heterodox theories and mechanisms that emerged after Lamarck's time, rather than a coherent body of theoretical work.[28]

19th century edit

 
Charles-Édouard Brown-Séquard tried to demonstrate Lamarckism by mutilating guinea pigs.

Neo-Lamarckian versions of evolution were widespread in the late 19th century. The idea that living things could to some degree choose the characteristics that would be inherited allowed them to be in charge of their own destiny as opposed to the Darwinian view, which placed them at the mercy of the environment. Such ideas were more popular than natural selection in the late 19th century as it made it possible for biological evolution to fit into a framework of a divine or naturally willed plan, thus the neo-Lamarckian view of evolution was often advocated by proponents of orthogenesis.[29] According to the historian of science Peter J. Bowler, writing in 2003:

One of the most emotionally compelling arguments used by the neo-Lamarckians of the late nineteenth century was the claim that Darwinism was a mechanistic theory which reduced living things to puppets driven by heredity. The selection theory made life into a game of Russian roulette, where life or death was predetermined by the genes one inherited. The individual could do nothing to mitigate bad heredity. Lamarckism, in contrast, allowed the individual to choose a new habit when faced with an environmental challenge and shape the whole future course of evolution.[30]

Scientists from the 1860s onwards conducted numerous experiments that purported to show Lamarckian inheritance. Some examples are described in the table.

19th century experiments attempting to demonstrate Lamarckian inheritance
Scientist Date Experiment Claimed result Rebuttal
Charles-Édouard Brown-Séquard 1869 to 1891 Cut sciatic nerve and dorsal spinal cord of guinea pigs, causing abnormal nervous condition resembling epilepsy Epileptic offspring Not Lamarckism, as no use and disuse in response to environment; results could not be replicated; cause possibly a transmitted disease.[31][32][33][34][35][36]
Gaston Bonnier 1884, 1886 Transplant plants at different altitudes in Alps, Pyrenees Acquired adaptations Not controlled from weeds; likely cause genetic contamination[37]
Joseph Thomas Cunningham 1891, 1893, 1895 Shine light on underside of flatfish Inherited production of pigment Disputed cause[38][39][40][41][42][43]
Max Standfuss 1892 to 1917 Raise butterflies at low temperature Variations in offspring even without low temperature Richard Goldschmidt agreed; Ernst Mayr "difficult to interpret".[44][45][46][47]

Early 20th century edit

 
Paul Kammerer claimed in the 1920s to have found evidence for Lamarckian inheritance in midwife toads, in a case celebrated by the journalist Arthur Koestler, but the results are thought to be either fraudulent or at best misinterpreted.

A century after Lamarck, scientists and philosophers continued to seek mechanisms and evidence for the inheritance of acquired characteristics. Experiments were sometimes reported as successful, but from the beginning these were either criticised on scientific grounds or shown to be fakes.[48][49][50][4][5] For instance, in 1906, the philosopher Eugenio Rignano argued for a version that he called "centro-epigenesis",[51][52][53][54][55][56] but it was rejected by most scientists.[57] Some of the experimental approaches are described in the table.

Early 20th century experiments attempting to demonstrate Lamarckian inheritance
Scientist Date Experiment Claimed result Rebuttal
William Lawrence Tower 1907 to 1910 Colorado potato beetles in extreme humidity, temperature Heritable changes in size, colour Criticised by William Bateson; Tower claimed all results lost in fire; William E. Castle visited laboratory, found fire suspicious, doubted claim that steam leak had killed all beetles, concluded faked data.[58][59][60][49][50]
Gustav Tornier 1907 to 1918 Goldfish, embryos of frogs, newts Abnormalities inherited Disputed; possibly an osmotic effect[61][62][63][64]
Charles Rupert Stockard 1910 Repeated alcohol intoxication of pregnant guinea pigs Inherited malformations Raymond Pearl unable to reproduce findings in chickens; Darwinian explanation[65][48]
Francis Bertody Sumner 1921 Reared mice at different temperatures, humidities Inherited longer bodies, tails, hind feet Inconsistent results[66][67]
Michael F. Guyer, Elizabeth A. Smith 1918 to 1924 Injected fowl serum antibodies for rabbit lens-protein into pregnant rabbits Eye defects inherited for 8 generations Disputed, results not replicated[68][69]
Paul Kammerer 1920s Midwife toad Black foot-pads inherited Fraud, ink injected; or, results misinterpreted; case celebrated by Arthur Koestler arguing that opposition was political[4][70]
William McDougall 1920s Rats solving mazes Offspring learnt mazes quicker (20 vs 165 trials) Poor experimental controls[71][72][73][74][75][76][5]
John William Heslop-Harrison 1920s Peppered moths exposed to soot Inherited mutations caused by soot Failure to replicate results; implausible mutation rate[77][78]
Ivan Pavlov 1926 Conditioned reflex in mice to food and bell Offspring easier to condition Pavlov retracted claim; results not replicable[79][80]
Coleman Griffith, John Detlefson 1920 to 1925 Reared rats on rotating table for 3 months Inherited balance disorder Results not replicable; likely cause ear infection[81][82][83][84][85][86]
Victor Jollos [pl] 1930s Heat treatment in Drosophila melanogaster Directed mutagenesis, a form of orthogenesis Results not replicable[87][88]

Late 20th century edit

The British anthropologist Frederic Wood Jones and the South African paleontologist Robert Broom supported a neo-Lamarckian view of human evolution. The German anthropologist Hermann Klaatsch relied on a neo-Lamarckian model of evolution to try and explain the origin of bipedalism. Neo-Lamarckism remained influential in biology until the 1940s when the role of natural selection was reasserted in evolution as part of the modern evolutionary synthesis.[89]Herbert Graham Cannon, a British zoologist, defended Lamarckism in his 1959 book Lamarck and Modern Genetics.[90] In the 1960s, "biochemical Lamarckism" was advocated by the embryologist Paul Wintrebert.[91]

Neo-Lamarckism was dominant in French biology for more than a century. French scientists who supported neo-Lamarckism included Edmond Perrier (1844–1921), Alfred Giard (1846–1908), Gaston Bonnier (1853–1922) and Pierre-Paul Grassé (1895–1985). They followed two traditions, one mechanistic, one vitalistic after Henri Bergson's philosophy of evolution.[92]

In 1987, Ryuichi Matsuda coined the term "pan-environmentalism" for his evolutionary theory which he saw as a fusion of Darwinism with neo-Lamarckism. He held that heterochrony is a main mechanism for evolutionary change and that novelty in evolution can be generated by genetic assimilation.[93][94] His views were criticized by Arthur M. Shapiro for providing no solid evidence for his theory. Shapiro noted that "Matsuda himself accepts too much at face value and is prone to wish-fulfilling interpretation."[94]

Ideological neo-Lamarckism edit

 
Trofim Lysenko promoted an ideological form of neo-Lamarckism which adversely influenced Soviet agricultural policy in the 1930s.
Main article: Lysenkoism

A form of Lamarckism was revived in the Soviet Union of the 1930s when Trofim Lysenko promoted the ideologically driven research programme, Lysenkoism; this suited the ideological opposition of Joseph Stalin to genetics. Lysenkoism influenced Soviet agricultural policy which in turn was later blamed for the numerous massive crop failures experienced within Soviet states.[95]

Critique edit

George Gaylord Simpson in his book Tempo and Mode in Evolution (1944) claimed that experiments in heredity have failed to corroborate any Lamarckian process.[96] Simpson noted that neo-Lamarckism "stresses a factor that Lamarck rejected: inheritance of direct effects of the environment" and neo-Lamarckism is closer to Darwin's pangenesis than Lamarck's views.[97] Simpson wrote, "the inheritance of acquired characters, failed to meet the tests of observation and has been almost universally discarded by biologists."[98]

Zirkle pointed out that Lamarck did not originate the hypothesis that acquired characteristics could be inherited, so it is incorrect to refer to it as Lamarckism:

What Lamarck really did was to accept the hypothesis that acquired characters were heritable, a notion which had been held almost universally for well over two thousand years and which his contemporaries accepted as a matter of course, and to assume that the results of such inheritance were cumulative from generation to generation, thus producing, in time, new species. His individual contribution to biological theory consisted in his application to the problem of the origin of species of the view that acquired characters were inherited and in showing that evolution could be inferred logically from the accepted biological hypotheses. He would doubtless have been greatly astonished to learn that a belief in the inheritance of acquired characters is now labeled "Lamarckian," although he would almost certainly have felt flattered if evolution itself had been so designated.[7]

Peter Medawar wrote regarding Lamarckism, "very few professional biologists believe that anything of the kind occurs—or can occur—but the notion persists for a variety of nonscientific reasons." Medawar stated there is no known mechanism by which an adaptation acquired in an individual's lifetime can be imprinted on the genome and Lamarckian inheritance is not valid unless it excludes the possibility of natural selection, but this has not been demonstrated in any experiment.[99]

Martin Gardner wrote in his book Fads and Fallacies in the Name of Science (1957):

A host of experiments have been designed to test Lamarckianism. All that have been verified have proved negative. On the other hand, tens of thousands of experiments— reported in the journals and carefully checked and rechecked by geneticists throughout the world— have established the correctness of the gene-mutation theory beyond all reasonable doubt... In spite of the rapidly increasing evidence for natural selection, Lamarck has never ceased to have loyal followers.... There is indeed a strong emotional appeal in the thought that every little effort an animal puts forth is somehow transmitted to his progeny.[100]

According to Ernst Mayr, any Lamarckian theory involving the inheritance of acquired characters has been refuted as "DNA does not directly participate in the making of the phenotype and that the phenotype, in turn, does not control the composition of the DNA."[101] Peter J. Bowler has written that although many early scientists took Lamarckism seriously, it was discredited by genetics in the early twentieth century.[102]

Mechanisms resembling Lamarckism edit

Studies in the field of epigenetics, genetics and somatic hypermutation[103][104] have highlighted the possible inheritance of traits acquired by the previous generation.[105][106][107][108][109] However, the characterization of these findings as Lamarckism has been disputed.[110][111][112][113]

Transgenerational epigenetic inheritance edit

 
DNA molecule with epigenetic marks, created by methylation, enabling a neo-Lamarckian pattern of inheritance for some generations.
Further information: Transgenerational epigenetic inheritance and Contribution of epigenetic modifications to evolution

Epigenetic inheritance has been argued by scientists including Eva Jablonka and Marion J. Lamb to be Lamarckian.[114] Epigenetics is based on hereditary elements other than genes that pass into the germ cells. These include methylation patterns in DNA and chromatin marks on histone proteins, both involved in gene regulation. These marks are responsive to environmental stimuli, differentially affect gene expression, and are adaptive, with phenotypic effects that persist for some generations. The mechanism may also enable the inheritance of behavioral traits, for example in chickens,[115][116][117] rats[118][119] and human populations that have experienced starvation, DNA methylation resulting in altered gene function in both the starved population and their offspring.[120] Methylation similarly mediates epigenetic inheritance in plants such as rice.[121][122] Small RNA molecules, too, may mediate inherited resistance to infection.[123][124][125] Handel and Romagopalan commented that "epigenetics allows the peaceful co-existence of Darwinian and Lamarckian evolution."[126]

Joseph Springer and Dennis Holley commented in 2013 that:[127]

Lamarck and his ideas were ridiculed and discredited. In a strange twist of fate, Lamarck may have the last laugh. Epigenetics, an emerging field of genetics, has shown that Lamarck may have been at least partially correct all along. It seems that reversible and heritable changes can occur without a change in DNA sequence (genotype) and that such changes may be induced spontaneously or in response to environmental factors—Lamarck's "acquired traits." Determining which observed phenotypes are genetically inherited and which are environmentally induced remains an important and ongoing part of the study of genetics, developmental biology, and medicine.[127]

The prokaryotic CRISPR system and Piwi-interacting RNA could be classified as Lamarckian, within a Darwinian framework.[128][129] However, the significance of epigenetics in evolution is uncertain. Critics such as the evolutionary biologist Jerry Coyne point out that epigenetic inheritance lasts for only a few generations, so it is not a stable basis for evolutionary change.[130][131][132][133]

The evolutionary biologist T. Ryan Gregory contends that epigenetic inheritance should not be considered Lamarckian. According to Gregory, Lamarck did not claim that the environment directly affected living things. Instead, Lamarck "argued that the environment created needs to which organisms responded by using some features more and others less, that this resulted in those features being accentuated or attenuated, and that this difference was then inherited by offspring." Gregory has stated that Lamarckian evolution in epigenetics is more like Darwin's point of view than Lamarck's.[110]

In 2007, David Haig wrote that research into epigenetic processes does allow a Lamarckian element in evolution but the processes do not challenge the main tenets of the modern evolutionary synthesis as modern Lamarckians have claimed. Haig argued for the primacy of DNA and evolution of epigenetic switches by natural selection.[134] Haig has written that there is a "visceral attraction" to Lamarckian evolution from the public and some scientists, as it posits the world with a meaning, in which organisms can shape their own evolutionary destiny.[135]

Thomas Dickens and Qazi Rahman (2012) have argued that epigenetic mechanisms such as DNA methylation and histone modification are genetically inherited under the control of natural selection and do not challenge the modern synthesis. They dispute the claims of Jablonka and Lamb on Lamarckian epigenetic processes.[136]

 
Edward J. Steele's disputed[137] Neo-Lamarckian mechanism involves somatic hypermutation and reverse transcription by a retrovirus to breach the Weismann barrier to germline DNA.

In 2015, Khursheed Iqbal and colleagues discovered that although "endocrine disruptors exert direct epigenetic effects in the exposed fetal germ cells, these are corrected by reprogramming events in the next generation."[138] Also in 2015, Adam Weiss argued that bringing back Lamarck in the context of epigenetics is misleading, commenting, "We should remember [Lamarck] for the good he contributed to science, not for things that resemble his theory only superficially. Indeed, thinking of CRISPR and other phenomena as Lamarckian only obscures the simple and elegant way evolution really works."[139]

Somatic hypermutation and reverse transcription to germline edit

In the 1970s, the Australian immunologist Edward J. Steele developed a neo-Lamarckian theory of somatic hypermutation within the immune system and coupled it to the reverse transcription of RNA derived from body cells to the DNA of germline cells. This reverse transcription process supposedly enabled characteristics or bodily changes acquired during a lifetime to be written back into the DNA and passed on to subsequent generations.[140][141]

The mechanism was meant to explain why homologous DNA sequences from the VDJ gene regions of parent mice were found in their germ cells and seemed to persist in the offspring for a few generations. The mechanism involved the somatic selection and clonal amplification of newly acquired antibody gene sequences generated via somatic hypermutation in B-cells. The messenger RNA products of these somatically novel genes were captured by retroviruses endogenous to the B-cells and were then transported through the bloodstream where they could breach the Weismann or soma-germ barrier and reverse transcribe the newly acquired genes into the cells of the germ line, in the manner of Darwin's pangenes.[104][103][142]

 
Neo-Lamarckian inheritance of hologenome[143]

The historian of biology Peter J. Bowler noted in 1989 that other scientists had been unable to reproduce his results, and described the scientific consensus at the time:[137]

There is no feedback of information from the proteins to the DNA, and hence no route by which characteristics acquired in the body can be passed on through the genes. The work of Ted Steele (1979) provoked a flurry of interest in the possibility that there might, after all, be ways in which this reverse flow of information could take place. ... [His] mechanism did not, in fact, violate the principles of molecular biology, but most biologists were suspicious of Steele's claims, and attempts to reproduce his results have failed.[137]

Bowler commented that "[Steele's] work was bitterly criticized at the time by biologists who doubted his experimental results and rejected his hypothetical mechanism as implausible."[137]

Hologenome theory of evolution edit

Further information: hologenome theory of evolution

The hologenome theory of evolution, while Darwinian, has Lamarckian aspects. An individual animal or plant lives in symbiosis with many microorganisms, and together they have a "hologenome" consisting of all their genomes. The hologenome can vary like any other genome by mutation, sexual recombination, and chromosome rearrangement, but in addition it can vary when populations of microorganisms increase or decrease (resembling Lamarckian use and disuse), and when it gains new kinds of microorganism (resembling Lamarckian inheritance of acquired characteristics). These changes are then passed on to offspring.[144] The mechanism is largely uncontroversial, and natural selection does sometimes occur at whole system (hologenome) level, but it is not clear that this is always the case.[143]

 
Lamarckian use and disuse compared to Darwinian evolution, the Baldwin effect, and Waddington's genetic assimilation. All the theories offer explanations of how organisms respond to a changed environment with adaptive inherited change.

Baldwin effect edit

Further information: Baldwin effect

The Baldwin effect, named after the psychologist James Mark Baldwin by George Gaylord Simpson in 1953, proposes that the ability to learn new behaviours can improve an animal's reproductive success, and hence the course of natural selection on its genetic makeup. Simpson stated that the mechanism was "not inconsistent with the modern synthesis" of evolutionary theory,[145] though he doubted that it occurred very often or could be proven to occur. He noted that the Baldwin effect provided a reconciliation between the neo-Darwinian and neo-Lamarckian approaches, something that the modern synthesis had seemed to render unnecessary. In particular, the effect allows animals to adapt to a new stress in the environment through behavioural changes, followed by genetic change. This somewhat resembles Lamarckism but without requiring animals to inherit characteristics acquired by their parents.[146] The Baldwin effect is broadly accepted by Darwinists.[147]

In sociocultural evolution edit

Within the field of cultural evolution, Lamarckism has been applied as a mechanism for dual inheritance theory.[148] Gould viewed culture as a Lamarckian process whereby older generations transmitted adaptive information to offspring via the concept of learning. In the history of technology, components of Lamarckism have been used to link cultural development to human evolution by considering technology as extensions of human anatomy.[149]

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Bibliography edit

Further reading edit

  • Barthélemy-Madaule, Madeleine (1982). Lamarck, the Mythical Precursor: A Study of the Relations Between Science and Ideology. English translation by M. H. Shank. MIT Press. ISBN 978-0-262-02179-1. LCCN 82010061. OCLC 8533097. Translation of Lamarck, ou, Le mythe du précurseur (1979)
  • Bowler, Peter J. (1989). The Mendelian Revolution: The Emergence of Hereditarian Concepts in Modern Science and Society. Johns Hopkins University Press. ISBN 978-0-8018-3888-0. LCCN 89030914. OCLC 19322402.
  • Burkeman, Oliver (19 March 2010). "Why everything you've been told about evolution is wrong". The Guardian.
  • Rutherford, Adam (19 March 2010). "Beyond a 'Darwin was wrong' headline". The Guardian.
  • Cook, George M. (December 1999). "Neo-Lamarckian Experimentalism in America: Origins and Consequences". The Quarterly Review of Biology. 74 (4): 417–437. doi:10.1086/394112. JSTOR 2664721. PMID 10672643. S2CID 12954177.
  • Desmond, Adrian (1989). The Politics of Evolution: Morphology, Medicine, and Reform in Radical London. Science and its Conceptual Foundations. University of Chicago Press. ISBN 978-0-226-14346-0. LCCN 89005137. OCLC 709606191.
  • Fecht, Sarah (October 19, 2011). "Longevity Shown for First Time to Be Inherited via a Non-DNA Mechanism". Scientific American. Retrieved 2015-11-05.
  • Gissis, Snait B.; Jablonka, Eva., eds. (2011). Transformations of Lamarckism: From Subtle Fluids to Molecular Biology. Vienna Series in Theoretical Biology. Illustrations by Anna Zeligowski. MIT Press. ISBN 978-0-262-01514-1. LCCN 2010031344. OCLC 662152397.
  • Honeywill, Ross (2008). Lamarck's Evolution: Two Centuries of Genius and Jealousy. Pier 9. ISBN 978-1-921208-60-7. LCCN 2011431766. OCLC 746154950.
  • Jablonka, Eva; Lamb, Marion J. (2008). "The Epigenome in Evolution: Beyond The Modern Synthesis" (PDF). Information Bulletin VOGiS. 12 (1/2): 242–254.
  • Medawar, Peter (1990). Pyke, David (ed.). The Threat and the Glory: Reflections on Science and Scientists. Foreword by Lewis Thomas (1st U.S. ed.). HarperCollins. ISBN 978-0-06-039112-6. LCCN 89046107. OCLC 21977349. Contains the BBC Reith Lectures "The Future of Man."
  • Molino, Jean (2000). "Toward an Evolutionary Theory of Music and Language". In Wallin, Nils L. [in Swedish]; Merker, Björn; Brown, Steven (eds.). The Origins of Music. MIT Press. pp. 165–176. ISBN 978-0-262-23206-7. LCCN 98054088. OCLC 44963330. "Consists of papers given at a workshop on the origins of music held in Fiesole, Italy, May 1997, the first of a series called Florentine Workshops in Biomusicology."
  • Peng, Wayne (December 27, 2011). "Lamarckian viral defense in worms". Nature Genetics. 44: 15. doi:10.1038/ng.1062. S2CID 32406225.
  • Pennisi, Elizabeth (September 6, 2013). "Evolution Heresy? Epigenetics Underlies Heritable Plant Traits". Science. 341 (6150): 1055. doi:10.1126/science.341.6150.1055. PMID 24009370.
  • Persell, Stuart (1999). Neo-Lamarckism and the Evolution Controversy in France, 1870-1920. Studies in French Civilization. Vol. 14. Edwin Mellen Press. ISBN 978-0-7734-8275-3. LCCN 98048633. OCLC 40193707.
  • Seki, Yoshiyuki (April 2013). Groszmann, Roberto J.; Iwakiri, Yasuko; Taddei, Tamar H. (eds.). "Serum-mediated transgenerational effects on sperm: Evidence for lamarckian inheritance?". Hepatology. 57 (4): 1663–1665. doi:10.1002/hep.26240. PMID 23568276. S2CID 5288601.
  • Waddington, Conrad H. (1961). "The Human Evolutionary System". In Banton, Michael (ed.). Darwinism and the Study of Society: A Centenary Symposium; Chicago, IL. Tavistock Publications; Quadrangle Books. LCCN 61007932. OCLC 1003950. "Essays ... based upon papers read at a conference held at the University of Edinburgh ... 1959."
  • Ward, Lester Frank (1891). Neo-Darwinism and Neo-Lamarckism. Press of Gedney & Roberts. LCCN 07037459. OCLC 4115244. "Annual address of the president of the Biological Society of Washington. Delivered January 24, 1891. (From the Proceedings, vol. VI.)" Neo-Darwinism and neo-Lamarckism (1891) at the Internet Archive.
  • Whitelaw, Emma (February 2006). "Epigenetics: Sins of the fathers, and their fathers". European Journal of Human Genetics. 14 (2): 131–132. doi:10.1038/sj.ejhg.5201567. PMID 16421606. S2CID 36863159.
  • Yongsheng Liu (September 2007). "Like father like son. A fresh review of the inheritance of acquired characteristics". EMBO Reports. 8 (9): 798–803. doi:10.1038/sj.embor.7401060. PMC 1973965. PMID 17767188.

External links edit

February 16, 2024
lamarckism, also, known, lamarckian, inheritance, notion, that, organism, pass, offspring, physical, characteristics, that, parent, organism, acquired, through, disuse, during, lifetime, also, called, inheritance, acquired, characteristics, more, recently, sof. Lamarckism also known as Lamarckian inheritance or neo Lamarckism 2 is the notion that an organism can pass on to its offspring physical characteristics that the parent organism acquired through use or disuse during its lifetime It is also called the inheritance of acquired characteristics or more recently soft inheritance The idea is named after the French zoologist Jean Baptiste Lamarck 1744 1829 who incorporated the classical era theory of soft inheritance into his theory of evolution as a supplement to his concept of orthogenesis a drive towards complexity Lamarck argued as part of his theory of heredity that a blacksmith s sons inherit the strong muscles he acquires from his work 1 Introductory textbooks contrast Lamarckism with Charles Darwin s theory of evolution by natural selection However Darwin s book On the Origin of Species gave credence to the idea of heritable effects of use and disuse as Lamarck had done and his own concept of pangenesis similarly implied soft inheritance 2 3 Many researchers from the 1860s onwards attempted to find evidence for Lamarckian inheritance but these have all been explained away 4 5 either by other mechanisms such as genetic contamination or as fraud August Weismann s experiment considered definitive in its time is now considered to have failed to disprove Lamarckism as it did not address use and disuse Later Mendelian genetics supplanted the notion of inheritance of acquired traits eventually leading to the development of the modern synthesis and the general abandonment of Lamarckism in biology Despite this interest in Lamarckism has continued Since c 2000 new experimental results in the fields of epigenetics genetics and somatic hypermutation proved the possibility of transgenerational epigenetic inheritance of traits acquired by the previous generation These proved a limited validity of Lamarckism The inheritance of the hologenome consisting of the genomes of all an organism s symbiotic microbes as well as its own genome is also somewhat Lamarckian in effect though entirely Darwinian in its mechanisms Contents 1 Early history 1 1 Origins 1 2 Darwin s pangenesis 1 3 Lamarck s evolutionary framework 1 4 Lamarck s discussion of heredity 1 5 Weismann s experiment 2 Textbook Lamarckism 3 Neo Lamarckism 3 1 Context 3 2 19th century 3 3 Early 20th century 3 4 Late 20th century 3 5 Ideological neo Lamarckism 3 6 Critique 4 Mechanisms resembling Lamarckism 4 1 Transgenerational epigenetic inheritance 4 2 Somatic hypermutation and reverse transcription to germline 4 3 Hologenome theory of evolution 4 4 Baldwin effect 5 In sociocultural evolution 6 References 7 Bibliography 8 Further reading 9 External linksEarly history editOrigins edit nbsp Jean Baptiste Lamarck repeated the ancient folk wisdom of the inheritance of acquired characteristics The inheritance of acquired characteristics was proposed in ancient times and remained a current idea for many centuries The historian of science Conway Zirkle wrote in 1935 that 6 Lamarck was neither the first nor the most distinguished biologist to believe in the inheritance of acquired characters He merely endorsed a belief which had been generally accepted for at least 2 200 years before his time and used it to explain how evolution could have taken place The inheritance of acquired characters had been accepted previously by Hippocrates Aristotle Galen Roger Bacon Jerome Cardan Levinus Lemnius John Ray Michael Adanson Jo Fried Blumenbach and Erasmus Darwin among others 6 Zirkle noted that Hippocrates described pangenesis the theory that what is inherited derives from the whole body of the parent whereas Aristotle thought it impossible but that all the same Aristotle implicitly agreed to the inheritance of acquired characteristics giving the example of the inheritance of a scar or of blindness though noting that children do not always resemble their parents Zirkle recorded that Pliny the Elder thought much the same Zirkle pointed out that stories involving the idea of inheritance of acquired characteristics appear numerous times in ancient mythology and the Bible and persisted through to Rudyard Kipling s Just So Stories 7 The idea is mentioned in 18th century sources such as Diderot s D Alembert s Dream 8 Erasmus Darwin s Zoonomia c 1795 suggested that warm blooded animals develop from one living filament with the power of acquiring new parts in response to stimuli with each round of improvements being inherited by successive generations 9 Darwin s pangenesis edit nbsp Charles Darwin s pangenesis theory Every part of the body emits tiny gemmules which migrate to the gonads and contribute to the next generation via the fertilised egg Changes to the body during an organism s life would be inherited as in Lamarckism Main article Pangenesis Charles Darwin s On the Origin of Species proposed natural selection as the main mechanism for development of species but like Lamarck gave credence to the idea of heritable effects of use and disuse as a supplementary mechanism 10 Darwin subsequently set out his concept of pangenesis in the final chapter of his book The Variation of Animals and Plants Under Domestication 1868 which gave numerous examples to demonstrate what he thought was the inheritance of acquired characteristics Pangenesis which he emphasised was a hypothesis was based on the idea that somatic cells would in response to environmental stimulation use and disuse throw off gemmules or pangenes which travelled around the body though not necessarily in the bloodstream These pangenes were microscopic particles that supposedly contained information about the characteristics of their parent cell and Darwin believed that they eventually accumulated in the germ cells where they could pass on to the next generation the newly acquired characteristics of the parents 11 12 Darwin s half cousin Francis Galton carried out experiments on rabbits with Darwin s cooperation in which he transfused the blood of one variety of rabbit into another variety in the expectation that its offspring would show some characteristics of the first They did not and Galton declared that he had disproved Darwin s hypothesis of pangenesis but Darwin objected in a letter to the scientific journal Nature that he had done nothing of the sort since he had never mentioned blood in his writings He pointed out that he regarded pangenesis as occurring in protozoa and plants which have no blood as well as in animals 13 Lamarck s evolutionary framework edit nbsp Lamarck s two factor theory involves 1 a complexifying force that drives animal body plans towards higher levels orthogenesis creating a ladder of phyla and 2 an adaptive force that causes animals with a given body plan to adapt to circumstances use and disuse inheritance of acquired characteristics creating a diversity of species and genera Lamarckism is the name now widely used for the adaptive force Further information Jean Baptiste Lamarck Lamarckian evolution Between 1800 and 1830 Lamarck proposed a systematic theoretical framework for understanding evolution He saw evolution as comprising four laws 14 15 Life by its own force tends to increase the volume of all organs which possess the force of life and the force of life extends the dimensions of those parts up to an extent that those parts bring to themselves The production of a new organ in an animal body results from a new requirement arising and which continues to make itself felt and a new movement which that requirement gives birth to and its upkeep maintenance The development of the organs and their ability are constantly a result of the use of those organs All that has been acquired traced or changed in the physiology of individuals during their life is conserved through the genesis reproduction and transmitted to new individuals who are related to those who have undergone those changes Lamarck s discussion of heredity edit In 1830 in an aside from his evolutionary framework Lamarck briefly mentioned two traditional ideas in his discussion of heredity in his day considered to be generally true The first was the idea of use versus disuse he theorized that individuals lose characteristics they do not require or use and develop characteristics that are useful The second was to argue that the acquired traits were heritable He gave as an imagined illustration the idea that when giraffes stretch their necks to reach leaves high in trees they would strengthen and gradually lengthen their necks These giraffes would then have offspring with slightly longer necks In the same way he argued a blacksmith through his work strengthens the muscles in his arms and thus his sons would have similar muscular development when they mature Lamarck stated the following two laws 1 Premiere Loi Dans tout animal qui n a point depasse le terme de ses developpemens l emploi plus frequent et soutenu d un organe quelconque fortifie peu a peu cet organe le developpe l agrandit et lui donne une puissance proportionnee a la duree de cet emploi tandis que le defaut constant d usage de tel organe l affoiblit insensiblement le deteriore diminue progressivement ses facultes et finit par le faire disparoitre 1 Deuxieme Loi Tout ce que la nature a fait acquerir ou perdre aux individus par l influence des circonstances ou leur race se trouve depuis long temps exposee et par consequent par l influence de l emploi predominant de tel organe ou par celle d un defaut constant d usage de telle partie elle le conserve par la generation aux nouveaux individus qui en proviennent pourvu que les changemens acquis soient communs aux deux sexes ou a ceux qui ont produit ces nouveaux individus 1 English translation First Law Use and Disuse 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 Second Law Soft Inheritance 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 16 In essence a change in the environment brings about change in needs besoins resulting in change in behaviour causing change in organ usage and development bringing change in form over time and thus the gradual transmutation of the species The evolutionary biologists and historians of science Conway Zirkle Michael Ghiselin and Stephen Jay Gould have pointed out these ideas were not original to Lamarck 6 2 17 Weismann s experiment edit nbsp August Weismann s germ plasm theory The hereditary material the germ plasm is confined to the gonads and the gametes Somatic cells of the body develop afresh in each generation from the germ plasm creating an invisible Weismann barrier to Lamarckian influence from the soma to the next generation August Weismann s germ plasm theory held that germline cells in the gonads contain information that passes from one generation to the next unaffected by experience and independent of the somatic body cells This implied what came to be known as the Weismann barrier as it would make Lamarckian inheritance from changes to the body difficult or impossible 18 Weismann conducted the experiment of removing the tails of 68 white mice and those of their offspring over five generations and reporting that no mice were born in consequence without a tail or even with a shorter tail In 1889 he stated that 901 young were produced by five generations of artificially mutilated parents and yet there was not a single example of a rudimentary tail or of any other abnormality in this organ 19 The experiment and the theory behind it were thought at the time to be a refutation of Lamarckism 18 The experiment s effectiveness in refuting Lamarck s hypothesis is doubtful as it did not address the use and disuse of characteristics in response to the environment The biologist Peter Gauthier noted in 1990 that 20 Can Weismann s experiment be considered a case of disuse Lamarck proposed that when an organ was not used it slowly and very gradually atrophied In time over the course of many generations it would gradually disappear as it was inherited in its modified form in each successive generation Cutting the tails off mice does not seem to meet the qualifications of disuse but rather falls in a category of accidental misuse Lamarck s hypothesis has never been proven experimentally and there is no known mechanism to support the idea that somatic change however acquired can in some way induce a change in the germplasm On the other hand it is difficult to disprove Lamarck s idea experimentally and it seems that Weismann s experiment fails to provide the evidence to deny the Lamarckian hypothesis since it lacks a key factor namely the willful exertion of the animal in overcoming environmental obstacles 20 Ghiselin also considered the Weismann tail chopping experiment to have no bearing on the Lamarckian hypothesis writing in 1994 that 2 The acquired characteristics that figured in Lamarck s thinking were changes that resulted from an individual s own drives and actions not from the actions of external agents Lamarck was not concerned with wounds injuries or mutilations and nothing that Lamarck had set forth was tested or disproven by the Weismann tail chopping experiment 2 The historian of science Rasmus Winther stated that Weismann had nuanced views about the role of the environment on the germ plasm Indeed like Darwin he consistently insisted that a variable environment was necessary to cause variation in the hereditary material 21 Textbook Lamarckism edit nbsp The long neck of the giraffe is often used as an example in popular explanations of Lamarckism However this was only a small part of his theory of evolution towards perfection it was a hypothetical illustration and he used it to discuss his theory of heredity not evolution 2 The identification of Lamarckism with the inheritance of acquired characteristics is regarded by evolutionary biologists including Ghiselin as a falsified artifact of the subsequent history of evolutionary thought repeated in textbooks without analysis and wrongly contrasted with a falsified picture of Darwin s thinking Ghiselin notes that Darwin accepted the inheritance of acquired characteristics just as Lamarck did and Darwin even thought that there was some experimental evidence to support it 2 Gould wrote that in the late 19th century evolutionists re read Lamarck cast aside the guts of it and elevated one aspect of the mechanics inheritance of acquired characters to a central focus it never had for Lamarck himself 22 He argued that the restriction of Lamarckism to this relatively small and non distinctive corner of Lamarck s thought must be labelled as more than a misnomer and truly a discredit to the memory of a man and his much more comprehensive system 3 23 Neo Lamarckism editContext edit Further information Eclipse of Darwinism and Orthogenesis nbsp Edward Drinker CopeThe period of the history of evolutionary thought between Darwin s death in the 1880s and the foundation of population genetics in the 1920s and the beginnings of the modern evolutionary synthesis in the 1930s is called the eclipse of Darwinism by some historians of science During that time many scientists and philosophers accepted the reality of evolution but doubted whether natural selection was the main evolutionary mechanism 24 Among the most popular alternatives were theories involving the inheritance of characteristics acquired during an organism s lifetime Scientists who felt that such Lamarckian mechanisms were the key to evolution were called neo Lamarckians They included the British botanist George Henslow 1835 1925 who studied the effects of environmental stress on the growth of plants in the belief that such environmentally induced variation might explain much of plant evolution and the American entomologist Alpheus Spring Packard Jr who studied blind animals living in caves and wrote a book in 1901 about Lamarck and his work 25 26 Also included were paleontologists like Edward Drinker Cope and Alpheus Hyatt who observed that the fossil record showed orderly almost linear patterns of development that they felt were better explained by Lamarckian mechanisms than by natural selection Some people including Cope and the Darwin critic Samuel Butler felt that inheritance of acquired characteristics would let organisms shape their own evolution since organisms that acquired new habits would change the use patterns of their organs which would kick start Lamarckian evolution They considered this philosophically superior to Darwin s mechanism of random variation acted on by selective pressures Lamarckism also appealed to those like the philosopher Herbert Spencer and the German anatomist Ernst Haeckel who saw evolution as an inherently progressive process 25 The German zoologist Theodor Eimer combined Larmarckism with ideas about orthogenesis the idea that evolution is directed towards a goal 27 With the development of the modern synthesis of the theory of evolution and a lack of evidence for a mechanism for acquiring and passing on new characteristics or even their heritability Lamarckism largely fell from favour Unlike neo Darwinism neo Lamarckism is a loose grouping of largely heterodox theories and mechanisms that emerged after Lamarck s time rather than a coherent body of theoretical work 28 19th century edit nbsp Charles Edouard Brown Sequard tried to demonstrate Lamarckism by mutilating guinea pigs Neo Lamarckian versions of evolution were widespread in the late 19th century The idea that living things could to some degree choose the characteristics that would be inherited allowed them to be in charge of their own destiny as opposed to the Darwinian view which placed them at the mercy of the environment Such ideas were more popular than natural selection in the late 19th century as it made it possible for biological evolution to fit into a framework of a divine or naturally willed plan thus the neo Lamarckian view of evolution was often advocated by proponents of orthogenesis 29 According to the historian of science Peter J Bowler writing in 2003 One of the most emotionally compelling arguments used by the neo Lamarckians of the late nineteenth century was the claim that Darwinism was a mechanistic theory which reduced living things to puppets driven by heredity The selection theory made life into a game of Russian roulette where life or death was predetermined by the genes one inherited The individual could do nothing to mitigate bad heredity Lamarckism in contrast allowed the individual to choose a new habit when faced with an environmental challenge and shape the whole future course of evolution 30 Scientists from the 1860s onwards conducted numerous experiments that purported to show Lamarckian inheritance Some examples are described in the table 19th century experiments attempting to demonstrate Lamarckian inheritance Scientist Date Experiment Claimed result RebuttalCharles Edouard Brown Sequard 1869 to 1891 Cut sciatic nerve and dorsal spinal cord of guinea pigs causing abnormal nervous condition resembling epilepsy Epileptic offspring Not Lamarckism as no use and disuse in response to environment results could not be replicated cause possibly a transmitted disease 31 32 33 34 35 36 Gaston Bonnier 1884 1886 Transplant plants at different altitudes in Alps Pyrenees Acquired adaptations Not controlled from weeds likely cause genetic contamination 37 Joseph Thomas Cunningham 1891 1893 1895 Shine light on underside of flatfish Inherited production of pigment Disputed cause 38 39 40 41 42 43 Max Standfuss 1892 to 1917 Raise butterflies at low temperature Variations in offspring even without low temperature Richard Goldschmidt agreed Ernst Mayr difficult to interpret 44 45 46 47 Early 20th century edit nbsp Paul Kammerer claimed in the 1920s to have found evidence for Lamarckian inheritance in midwife toads in a case celebrated by the journalist Arthur Koestler but the results are thought to be either fraudulent or at best misinterpreted A century after Lamarck scientists and philosophers continued to seek mechanisms and evidence for the inheritance of acquired characteristics Experiments were sometimes reported as successful but from the beginning these were either criticised on scientific grounds or shown to be fakes 48 49 50 4 5 For instance in 1906 the philosopher Eugenio Rignano argued for a version that he called centro epigenesis 51 52 53 54 55 56 but it was rejected by most scientists 57 Some of the experimental approaches are described in the table Early 20th century experiments attempting to demonstrate Lamarckian inheritance Scientist Date Experiment Claimed result RebuttalWilliam Lawrence Tower 1907 to 1910 Colorado potato beetles in extreme humidity temperature Heritable changes in size colour Criticised by William Bateson Tower claimed all results lost in fire William E Castle visited laboratory found fire suspicious doubted claim that steam leak had killed all beetles concluded faked data 58 59 60 49 50 Gustav Tornier 1907 to 1918 Goldfish embryos of frogs newts Abnormalities inherited Disputed possibly an osmotic effect 61 62 63 64 Charles Rupert Stockard 1910 Repeated alcohol intoxication of pregnant guinea pigs Inherited malformations Raymond Pearl unable to reproduce findings in chickens Darwinian explanation 65 48 Francis Bertody Sumner 1921 Reared mice at different temperatures humidities Inherited longer bodies tails hind feet Inconsistent results 66 67 Michael F Guyer Elizabeth A Smith 1918 to 1924 Injected fowl serum antibodies for rabbit lens protein into pregnant rabbits Eye defects inherited for 8 generations Disputed results not replicated 68 69 Paul Kammerer 1920s Midwife toad Black foot pads inherited Fraud ink injected or results misinterpreted case celebrated by Arthur Koestler arguing that opposition was political 4 70 William McDougall 1920s Rats solving mazes Offspring learnt mazes quicker 20 vs 165 trials Poor experimental controls 71 72 73 74 75 76 5 John William Heslop Harrison 1920s Peppered moths exposed to soot Inherited mutations caused by soot Failure to replicate results implausible mutation rate 77 78 Ivan Pavlov 1926 Conditioned reflex in mice to food and bell Offspring easier to condition Pavlov retracted claim results not replicable 79 80 Coleman Griffith John Detlefson 1920 to 1925 Reared rats on rotating table for 3 months Inherited balance disorder Results not replicable likely cause ear infection 81 82 83 84 85 86 Victor Jollos pl 1930s Heat treatment in Drosophila melanogaster Directed mutagenesis a form of orthogenesis Results not replicable 87 88 Late 20th century edit The British anthropologist Frederic Wood Jones and the South African paleontologist Robert Broom supported a neo Lamarckian view of human evolution The German anthropologist Hermann Klaatsch relied on a neo Lamarckian model of evolution to try and explain the origin of bipedalism Neo Lamarckism remained influential in biology until the 1940s when the role of natural selection was reasserted in evolution as part of the modern evolutionary synthesis 89 Herbert Graham Cannon a British zoologist defended Lamarckism in his 1959 book Lamarck and Modern Genetics 90 In the 1960s biochemical Lamarckism was advocated by the embryologist Paul Wintrebert 91 Neo Lamarckism was dominant in French biology for more than a century French scientists who supported neo Lamarckism included Edmond Perrier 1844 1921 Alfred Giard 1846 1908 Gaston Bonnier 1853 1922 and Pierre Paul Grasse 1895 1985 They followed two traditions one mechanistic one vitalistic after Henri Bergson s philosophy of evolution 92 In 1987 Ryuichi Matsuda coined the term pan environmentalism for his evolutionary theory which he saw as a fusion of Darwinism with neo Lamarckism He held that heterochrony is a main mechanism for evolutionary change and that novelty in evolution can be generated by genetic assimilation 93 94 His views were criticized by Arthur M Shapiro for providing no solid evidence for his theory Shapiro noted that Matsuda himself accepts too much at face value and is prone to wish fulfilling interpretation 94 Ideological neo Lamarckism edit nbsp Trofim Lysenko promoted an ideological form of neo Lamarckism which adversely influenced Soviet agricultural policy in the 1930s Main article Lysenkoism A form of Lamarckism was revived in the Soviet Union of the 1930s when Trofim Lysenko promoted the ideologically driven research programme Lysenkoism this suited the ideological opposition of Joseph Stalin to genetics Lysenkoism influenced Soviet agricultural policy which in turn was later blamed for the numerous massive crop failures experienced within Soviet states 95 Critique edit George Gaylord Simpson in his book Tempo and Mode in Evolution 1944 claimed that experiments in heredity have failed to corroborate any Lamarckian process 96 Simpson noted that neo Lamarckism stresses a factor that Lamarck rejected inheritance of direct effects of the environment and neo Lamarckism is closer to Darwin s pangenesis than Lamarck s views 97 Simpson wrote the inheritance of acquired characters failed to meet the tests of observation and has been almost universally discarded by biologists 98 Zirkle pointed out that Lamarck did not originate the hypothesis that acquired characteristics could be inherited so it is incorrect to refer to it as Lamarckism What Lamarck really did was to accept the hypothesis that acquired characters were heritable a notion which had been held almost universally for well over two thousand years and which his contemporaries accepted as a matter of course and to assume that the results of such inheritance were cumulative from generation to generation thus producing in time new species His individual contribution to biological theory consisted in his application to the problem of the origin of species of the view that acquired characters were inherited and in showing that evolution could be inferred logically from the accepted biological hypotheses He would doubtless have been greatly astonished to learn that a belief in the inheritance of acquired characters is now labeled Lamarckian although he would almost certainly have felt flattered if evolution itself had been so designated 7 Peter Medawar wrote regarding Lamarckism very few professional biologists believe that anything of the kind occurs or can occur but the notion persists for a variety of nonscientific reasons Medawar stated there is no known mechanism by which an adaptation acquired in an individual s lifetime can be imprinted on the genome and Lamarckian inheritance is not valid unless it excludes the possibility of natural selection but this has not been demonstrated in any experiment 99 Martin Gardner wrote in his book Fads and Fallacies in the Name of Science 1957 A host of experiments have been designed to test Lamarckianism All that have been verified have proved negative On the other hand tens of thousands of experiments reported in the journals and carefully checked and rechecked by geneticists throughout the world have established the correctness of the gene mutation theory beyond all reasonable doubt In spite of the rapidly increasing evidence for natural selection Lamarck has never ceased to have loyal followers There is indeed a strong emotional appeal in the thought that every little effort an animal puts forth is somehow transmitted to his progeny 100 According to Ernst Mayr any Lamarckian theory involving the inheritance of acquired characters has been refuted as DNA does not directly participate in the making of the phenotype and that the phenotype in turn does not control the composition of the DNA 101 Peter J Bowler has written that although many early scientists took Lamarckism seriously it was discredited by genetics in the early twentieth century 102 Mechanisms resembling Lamarckism editStudies in the field of epigenetics genetics and somatic hypermutation 103 104 have highlighted the possible inheritance of traits acquired by the previous generation 105 106 107 108 109 However the characterization of these findings as Lamarckism has been disputed 110 111 112 113 Transgenerational epigenetic inheritance edit nbsp DNA molecule with epigenetic marks created by methylation enabling a neo Lamarckian pattern of inheritance for some generations Further information Transgenerational epigenetic inheritance and Contribution of epigenetic modifications to evolution Epigenetic inheritance has been argued by scientists including Eva Jablonka and Marion J Lamb to be Lamarckian 114 Epigenetics is based on hereditary elements other than genes that pass into the germ cells These include methylation patterns in DNA and chromatin marks on histone proteins both involved in gene regulation These marks are responsive to environmental stimuli differentially affect gene expression and are adaptive with phenotypic effects that persist for some generations The mechanism may also enable the inheritance of behavioral traits for example in chickens 115 116 117 rats 118 119 and human populations that have experienced starvation DNA methylation resulting in altered gene function in both the starved population and their offspring 120 Methylation similarly mediates epigenetic inheritance in plants such as rice 121 122 Small RNA molecules too may mediate inherited resistance to infection 123 124 125 Handel and Romagopalan commented that epigenetics allows the peaceful co existence of Darwinian and Lamarckian evolution 126 Joseph Springer and Dennis Holley commented in 2013 that 127 Lamarck and his ideas were ridiculed and discredited In a strange twist of fate Lamarck may have the last laugh Epigenetics an emerging field of genetics has shown that Lamarck may have been at least partially correct all along It seems that reversible and heritable changes can occur without a change in DNA sequence genotype and that such changes may be induced spontaneously or in response to environmental factors Lamarck s acquired traits Determining which observed phenotypes are genetically inherited and which are environmentally induced remains an important and ongoing part of the study of genetics developmental biology and medicine 127 The prokaryotic CRISPR system and Piwi interacting RNA could be classified as Lamarckian within a Darwinian framework 128 129 However the significance of epigenetics in evolution is uncertain Critics such as the evolutionary biologist Jerry Coyne point out that epigenetic inheritance lasts for only a few generations so it is not a stable basis for evolutionary change 130 131 132 133 The evolutionary biologist T Ryan Gregory contends that epigenetic inheritance should not be considered Lamarckian According to Gregory Lamarck did not claim that the environment directly affected living things Instead Lamarck argued that the environment created needs to which organisms responded by using some features more and others less that this resulted in those features being accentuated or attenuated and that this difference was then inherited by offspring Gregory has stated that Lamarckian evolution in epigenetics is more like Darwin s point of view than Lamarck s 110 In 2007 David Haig wrote that research into epigenetic processes does allow a Lamarckian element in evolution but the processes do not challenge the main tenets of the modern evolutionary synthesis as modern Lamarckians have claimed Haig argued for the primacy of DNA and evolution of epigenetic switches by natural selection 134 Haig has written that there is a visceral attraction to Lamarckian evolution from the public and some scientists as it posits the world with a meaning in which organisms can shape their own evolutionary destiny 135 Thomas Dickens and Qazi Rahman 2012 have argued that epigenetic mechanisms such as DNA methylation and histone modification are genetically inherited under the control of natural selection and do not challenge the modern synthesis They dispute the claims of Jablonka and Lamb on Lamarckian epigenetic processes 136 nbsp Edward J Steele s disputed 137 Neo Lamarckian mechanism involves somatic hypermutation and reverse transcription by a retrovirus to breach the Weismann barrier to germline DNA In 2015 Khursheed Iqbal and colleagues discovered that although endocrine disruptors exert direct epigenetic effects in the exposed fetal germ cells these are corrected by reprogramming events in the next generation 138 Also in 2015 Adam Weiss argued that bringing back Lamarck in the context of epigenetics is misleading commenting We should remember Lamarck for the good he contributed to science not for things that resemble his theory only superficially Indeed thinking of CRISPR and other phenomena as Lamarckian only obscures the simple and elegant way evolution really works 139 Somatic hypermutation and reverse transcription to germline edit In the 1970s the Australian immunologist Edward J Steele developed a neo Lamarckian theory of somatic hypermutation within the immune system and coupled it to the reverse transcription of RNA derived from body cells to the DNA of germline cells This reverse transcription process supposedly enabled characteristics or bodily changes acquired during a lifetime to be written back into the DNA and passed on to subsequent generations 140 141 The mechanism was meant to explain why homologous DNA sequences from the VDJ gene regions of parent mice were found in their germ cells and seemed to persist in the offspring for a few generations The mechanism involved the somatic selection and clonal amplification of newly acquired antibody gene sequences generated via somatic hypermutation in B cells The messenger RNA products of these somatically novel genes were captured by retroviruses endogenous to the B cells and were then transported through the bloodstream where they could breach the Weismann or soma germ barrier and reverse transcribe the newly acquired genes into the cells of the germ line in the manner of Darwin s pangenes 104 103 142 nbsp Neo Lamarckian inheritance of hologenome 143 The historian of biology Peter J Bowler noted in 1989 that other scientists had been unable to reproduce his results and described the scientific consensus at the time 137 There is no feedback of information from the proteins to the DNA and hence no route by which characteristics acquired in the body can be passed on through the genes The work of Ted Steele 1979 provoked a flurry of interest in the possibility that there might after all be ways in which this reverse flow of information could take place His mechanism did not in fact violate the principles of molecular biology but most biologists were suspicious of Steele s claims and attempts to reproduce his results have failed 137 Bowler commented that Steele s work was bitterly criticized at the time by biologists who doubted his experimental results and rejected his hypothetical mechanism as implausible 137 Hologenome theory of evolution edit Further information hologenome theory of evolution The hologenome theory of evolution while Darwinian has Lamarckian aspects An individual animal or plant lives in symbiosis with many microorganisms and together they have a hologenome consisting of all their genomes The hologenome can vary like any other genome by mutation sexual recombination and chromosome rearrangement but in addition it can vary when populations of microorganisms increase or decrease resembling Lamarckian use and disuse and when it gains new kinds of microorganism resembling Lamarckian inheritance of acquired characteristics These changes are then passed on to offspring 144 The mechanism is largely uncontroversial and natural selection does sometimes occur at whole system hologenome level but it is not clear that this is always the case 143 nbsp Lamarckian use and disuse compared to Darwinian evolution the Baldwin effect and Waddington s genetic assimilation All the theories offer explanations of how organisms respond to a changed environment with adaptive inherited change Baldwin effect edit Further information Baldwin effect The Baldwin effect named after the psychologist James Mark Baldwin by George Gaylord Simpson in 1953 proposes that the ability to learn new behaviours can improve an animal s reproductive success and hence the course of natural selection on its genetic makeup Simpson stated that the mechanism was not inconsistent with the modern synthesis of evolutionary theory 145 though he doubted that it occurred very often or could be proven to occur He noted that the Baldwin effect provided a reconciliation between the neo Darwinian and neo Lamarckian approaches something that the modern synthesis had seemed to render unnecessary In particular the effect allows animals to adapt to a new stress in the environment through behavioural changes followed by genetic change This somewhat resembles Lamarckism but without requiring animals to inherit characteristics acquired by their parents 146 The Baldwin effect is broadly accepted by Darwinists 147 In sociocultural evolution editWithin the field of cultural evolution Lamarckism has been applied as a mechanism for dual inheritance theory 148 Gould viewed culture as a Lamarckian process whereby older generations transmitted adaptive information to offspring via the concept of learning In the history of technology components of Lamarckism have been used to link cultural development to human evolution by considering technology as extensions of human anatomy 149 References edit a b c d Lamarck 1830 p 235 a b c d e f g Ghiselin Michael T 1994 The Imaginary Lamarck A Look at Bogus History in Schoolbooks The Textbook Letter September October 1994 Archived from the original on 12 October 2000 Retrieved 17 February 2006 a b Gould 2002 pp 177 178 a b c Bowler 2003 pp 245 246 a b c Medawar 1985 p 168 a b c Zirkle Conway 1935 The Inheritance of Acquired Characters and the Provisional Hypothesis of Pangenesis The American Naturalist 69 724 417 445 doi 10 1086 280617 S2CID 84729069 a b Zirkle Conway January 1946 The Early History of the Idea of the Inheritance of Acquired Characters and of Pangenesis Transactions of the American Philosophical Society 35 2 91 151 doi 10 2307 1005592 JSTOR 1005592 Diderot Denis Ballestero Manuel 1992 El sueno de D Alembert y Suplemento al viaje de Bougainville First ed Madrid Debate ISBN 84 7444 583 3 OCLC 433436276 Darwin 1794 1796 Vol I section XXXIX Desmond amp Moore 1991 p 617 But Darwin was loath to let go of the notion that a well used and strengthened organ could be inherited Darwin Charles April 27 1871 Pangenesis Nature 3 78 502 503 Bibcode 1871Natur 3 502D doi 10 1038 003502a0 Holterhoff Kate 2014 The History and Reception of Charles Darwin s Hypothesis of Pangenesis Journal of the History of Biology 47 4 661 695 doi 10 1007 s10739 014 9377 0 PMID 24570302 S2CID 207150548 Liu Yongsheng 2008 A new perspective on Darwin s Pangenesis Biological Reviews 83 2 141 149 doi 10 1111 j 1469 185x 2008 00036 x PMID 18429766 S2CID 39953275 Larson Edward J 2004 A Growing sense of progress Modern Library pp 38 41 a href Template Cite book html title Template Cite book cite book a work ignored help Gould Stephen 2001 The lying stones of Marrakech penultimate reflections in natural history Vintage pp 119 121 ISBN 978 0 09 928583 0 Lamarck 1914 p 113 Gould 2002 pp 170 191 a b Romanes George John 1893 An examination of Weismannism Open Court OL 23380098M Weismann 1889 The Supposed Transmission of Mutilations 1888 p 432 a b Gauthier Peter March May 1990 Does Weismann s Experiment Constitute a Refutation of the Lamarckian Hypothesis BIOS 61 1 2 6 8 JSTOR 4608123 Winther Rasmus 2001 August Weismann on Germ Plasm Variation Journal of the History of Biology 34 3 517 555 doi 10 1023 A 1012950826540 PMID 11859887 S2CID 23808208 Gould 1980 p 66 Gould Stephen Jay October 4 1979 Another Look at Lamarck New Scientist Vol 84 no 1175 pp 38 40 Retrieved 2015 11 09 Quammen 2006 p 216 a b Bowler 2003 pp 236 244 Quammen 2006 pp 218 220 Quammen 2006 p 221 Bowler Peter J 1989 1983 Evolution The History of an Idea Revised ed University of California Press pp 257 264 279 280 ISBN 978 0520063860 Bowler 1992 Bowler 2003 p 367 Mumford 1921 p 209 Mason 1956 p 343 Burkhardt 1995 p 166 Raitiere 2012 p 299 Linville amp Kelly 1906 p 108 Aminoff 2011 p 192 Kohler 2002 p 167 Cunningham Joseph Thomas 1891 An Experiment concerning the Absence of Color from the lower Sides of Flat fishes Zoologischer Anzeiger 14 27 32 Cunningham Joseph Thomas May 1893 Researches on the Coloration of the Skins of Flat Fishes Journal of the Marine Biological Association of the United Kingdom 3 1 111 118 Bibcode 1893JMBUK 3 111C doi 10 1017 S0025315400049596 S2CID 84934811 Cunningham Joseph Thomas May 1895 Additional Evidence on the Influence of Light in producing Pigments on the Lower Sides of Flat Fishes PDF Journal of the Marine Biological Association of the United Kingdom 4 1 53 59 Bibcode 1895JMBUK 4 53C doi 10 1017 S0025315400050761 S2CID 86159587 Moore Eldon September 15 1928 The New View of Mendelism The Spectator Book review Vol 141 no 5229 p 337 Retrieved 2015 10 24 Review of Modern Biology 1928 by J T Cunningham Cock amp Forsdyke 2008 pp 132 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Philosophy 23 26 718 720 doi 10 2307 2014451 JSTOR 2014451 1 Upon the Inheritance of Acquired Characters 2 Biological Aspects of Human Problems Nature Book review 89 2232 576 578 August 8 1912 Bibcode 1912Natur 89 576 doi 10 1038 089576a0 S2CID 3984855 Bateson William July 3 1919 Dr Kammerer s Testimony to the Inheritance of Acquired Characters Nature Letter to editor 103 2592 344 345 Bibcode 1919Natur 103 344B doi 10 1038 103344b0 S2CID 4146761 Bateson 1913 pp 219 227 Weinstein 1998 A Note on W L Tower s Lepinotarsa Work pp 352 353 MacBride Ernest January 1924 The work of tornier as affording a possible explanation of the causes of mutations The Eugenics Review 15 4 545 555 PMC 2942563 PMID 21259774 Cunningham 1928 pp 84 97 Sladden Dorothy E May 1930 Experimental Distortion of Development in Amphibian Tadpoles Proceedings of the Royal Society B 106 744 318 325 doi 10 1098 rspb 1930 0031 Sladden Dorothy E November 1932 Experimental Distortion of Development in Amphibian Tadpoles Part II Proceedings of the Royal Society B 112 774 1 12 Bibcode 1932RSPSB 112 1S doi 10 1098 rspb 1932 0072 Blumberg 2010 pp 69 70 Young 1922 p 249 Child 1945 pp 146 173 Guyer Michael F Smith E A March 1920 Transmission of Eye Defects Induced in Rabbits by Means of Lens Sensitized Fowl Serum PNAS 6 3 134 136 Bibcode 1920PNAS 6 134G doi 10 1073 pnas 6 3 134 PMC 1084447 PMID 16576477 Medawar 1985 p 169 Moore 2002 p 330 McDougall William April 1938 Fourth Report on a Lamarckian Experiment General Section British Journal of Psychology 28 4 365 395 doi 10 1111 j 2044 8295 1938 tb00882 x Pantin Carl F A November 1957 Oscar Werner Tiegs 1897 1956 Biographical Memoirs of Fellows of the Royal Society 3 247 255 doi 10 1098 rsbm 1957 0017 S2CID 84312439 Agar Wilfred E Drummond Frank H Tiegs Oscar W July 1935 A First Report on a Test of McDougall S Lamarckian Experiment on the Training of Rats The Journal of Experimental Biology 12 3 191 211 doi 10 1242 jeb 12 3 191 Agar Wilfred E Drummond Frank H Tiegs Oscar W October 1942 Second Report on a Test of McDougall s Lamarckian Experiment on the Training of Rats The Journal of Experimental Biology 19 2 158 167 doi 10 1242 jeb 19 2 158 Agar Wilfred E Drummond Frank H Tiegs Oscar W June 1948 Third Report on a Test of McDougall S Lamarckian Experiment on the Training of Rats The Journal of Experimental Biology 25 2 103 122 doi 10 1242 jeb 25 2 103 Retrieved 2015 10 28 Agar Wilfred E Drummond Frank H Tiegs Oscar W Gunson Mary M September 1954 Fourth Final Report on a Test of McDougall S Lamarckian Experiment on the Training of Rats The Journal of Experimental Biology 31 3 308 321 doi 10 1242 jeb 31 3 307 Hagen 2002 p 144 During the 1920s the entomologist J W Heslop Harrison published experimental data supporting his claim that chemicals in soot caused widespread mutations from light winged to the dark winged form Because these mutations were supposedly passed on to subsequent generations Harrison claimed that he had documented a case of inheritance of acquired traits Other biologists failed to replicate Harrison s results and R A Fisher pointed out that Harrison s hypothesis required a mutation rate far higher than any previously reported Moore amp Decker 2008 p 203 McDougall 1934 p 180 Macdowell E Carleton Vicari Emilia M May 1921 Alcoholism and the behavior of white rats I The influence of alcoholic grandparents upon maze behavior Journal of Experimental Zoology 33 1 208 291 Bibcode 1921JEZ 33 208M doi 10 1002 jez 1400330107 Griffith Coleman R November December 1920 The Effect upon the White Rat of Continued Bodily Rotation The American Naturalist 54 635 524 534 doi 10 1086 279783 JSTOR 2456346 S2CID 84453628 Griffith Coleman R December 15 1922 Are Permanent Disturbances of Equilibration Inherited Science 56 1459 676 678 Bibcode 1922Sci 56 676G doi 10 1126 science 56 1459 676 PMID 17778266 Detlefsen John A 1923 Are the Effects of Long Continued Rotation in Rats Inherited Proceedings of the American Philosophical Society 62 5 292 300 JSTOR 984462 Detlefsen John A April 1925 The inheritance of acquired characters Physiological Reviews 5 2 224 278 doi 10 1152 physrev 1925 5 2 244 Dorcus Roy M June 1933 The effect of intermittent rotation on orientation and the habituation of nystagmus in the rat and some observations on the effects of pre natal rotation on post natal development Journal of Comparative Psychology 15 3 469 475 doi 10 1037 h0074715 Otho S A Sprague Memorial Institute 1940 p 162 Jollos Victor in Polish September 1934 Inherited changes produced by heat treatment in Drosophila melanogaster Genetica 16 5 6 476 494 doi 10 1007 BF01984742 S2CID 34126149 Harwood 1993 pp 121 131 Wood 2013 Cannon 1975 Boesiger 1974 p 29 Loison Laurent November 2011 French Roots of French Neo Lamarckisms 1879 1985 Journal of the History of Biology 44 4 713 744 doi 10 1007 s10739 010 9240 x PMID 20665089 S2CID 3398698 Pearson Roy Douglas March 1988 Reviews Acta Biotheoretica Book review 37 1 31 36 doi 10 1007 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cancer Critical analysis of strand biased and codon context mutation signatures DNA Repair 45 2016 1 2 4 doi 10 1016 j dnarep 2016 07 001 PMID 27449479 a b Steele E J 1981 Somatic selection and adaptive evolution on the inheritance of acquired characters 2nd ed University of Chicago Press Roth Tania L Lubin Farah D Funk Adam J et al May 2009 Lasting Epigenetic Influence of Early Life Adversity on the BDNF Gene Biological Psychiatry 65 9 760 769 doi 10 1016 j biopsych 2008 11 028 PMC 3056389 PMID 19150054 Arai Junko A Shaomin Li Hartley Dean M et al February 4 2009 Transgenerational Rescue of a Genetic Defect in Long Term Potentiation and Memory Formation by Juvenile Enrichment The Journal of Neuroscience 29 5 1496 1502 doi 10 1523 JNEUROSCI 5057 08 2009 PMC 3408235 PMID 19193896 Hackett Jamie A Sengupta Roopsha Zylicz Jan J et al January 25 2013 Germline DNA Demethylation Dynamics and Imprint Erasure Through 5 Hydroxymethylcytosine Science 339 6118 448 452 Bibcode 2013Sci 339 448H doi 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Richards Eric J May 2006 Inherited epigenetic variation revisiting soft inheritance Nature Reviews Genetics 7 5 395 401 doi 10 1038 nrg1834 PMID 16534512 S2CID 21961242 Natt Daniel Lindqvist Niclas Stranneheim Henrik et al July 28 2009 Pizzari Tom ed Inheritance of Acquired Behaviour Adaptations and Brain Gene Expression in Chickens PLOS ONE 4 7 e6405 Bibcode 2009PLoSO 4 6405N doi 10 1371 journal pone 0006405 PMC 2713434 PMID 19636381 Sheau Fang Ng Lin Ruby C Y Laybutt D Ross et al October 21 2010 Chronic high fat diet in fathers programs b cell dysfunction in female rat offspring Nature 467 7318 963 966 Bibcode 2010Natur 467 963N doi 10 1038 nature09491 PMID 20962845 S2CID 4308799 Gibson Andrea June 16 2013 Obese male mice father offspring with higher levels of body fat Press release Ohio University Retrieved 2015 11 02 Lumey Lambert H Stein Aryeh D Ravelli Anita C J July 1995 Timing of prenatal starvation in women and birth weight in their first and second born offspring The Dutch 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Hobert O 17 July 2014 Starvation induced transgenerational inheritance of small RNAs in C elegans Cell 158 2 277 287 doi 10 1016 j cell 2014 06 020 PMC 4377509 PMID 25018105 Handel Adam E Ramagopalan Sreeram V May 13 2010 Is Lamarckian evolution relevant to medicine BMC Medical Genetics 11 73 doi 10 1186 1471 2350 11 73 PMC 2876149 PMID 20465829 a b Springer amp Holley 2013 p 94 Koonin Eugene V Wolf Yuri I November 11 2009 Is evolution Darwinian or and Lamarckian Biology Direct 4 42 doi 10 1186 1745 6150 4 42 PMC 2781790 PMID 19906303 Koonin Eugene V February 2019 CRISPR a new principle of genome engineering linked to conceptual shifts in evolutionary biology Biology amp Philosophy 34 9 9 doi 10 1007 s10539 018 9658 7 PMC 6404382 PMID 30930513 Coyne Jerry October 24 2010 Epigenetics the light and the way Why Evolution Is True Blog Retrieved 2015 11 04 Coyne Jerry September 23 2013 Epigenetics smackdown at the Guardian Why Evolution is True Blog Retrieved 2015 11 04 Gonzalez Recio O 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The Evolutionary Synthesis Perspectives on the Unification of Biology New preface by Ernst Mayr Harvard University Press ISBN 978 0 674 27226 2 LCCN 98157613 OCLC 503188713 McDougall William 1934 Modern Materialism and Emergent Evolution Methuen Medawar Peter 1985 Originally published 1983 Aristotle to Zoos A Philosophical Dictionary of Biology Oxford Paperbacks Reprint ed Harvard University Press ISBN 978 0 19 283043 2 LCCN 84016529 OCLC 11030267 Mitman Gregg 1992 The State of Nature Ecology Community and American Social Thought 1900 1950 Science and its Conceptual Foundations University of Chicago Press ISBN 978 0 226 53236 3 LCCN 91045638 OCLC 25130594 Moore David S 2015 The Developing Genome An Introduction to Behavioral Epigenetics Oxford University Press ISBN 978 0 19 992234 5 LCCN 2014049505 OCLC 894139943 Moore Randy Decker Mark D 2008 More Than Darwin An Encyclopedia of the People and Places of the Evolution creationism Controversy Greenwood Press ISBN 978 0 313 34155 7 LCCN 2007044406 OCLC 177023758 Moore James R ed 2002 Originally published 1989 History Humanity and Evolution Essays for John C Greene Cambridge University Press ISBN 978 0 521 52478 0 LCCN 89032583 OCLC 49784849 Morgan Thomas Hunt 1903 Evolution and Adaptation The Macmillan Company Macmillan and Co Ltd LCCN 03027216 OCLC 758217701 Evolution and adaptation 1903 at the Internet Archive Mumford Frederick Blackmar 1921 Originally published 1917 The Breeding of Animals The Rural Text Book Series The Macmillan Company LCCN 17007834 OCLC 5429719 The breeding of animals 1921 at the Internet Archive Newman Horatio Hackett 1921 Readings in Evolution Genetics and Eugenics University of Chicago Press LCCN 21017204 OCLC 606993 Readings in evolution genetics and eugenics 1921 at the Internet Archive Otho S A Sprague Memorial Institute 1940 Studies from the Otho S A Sprague Memorial Institute Collected Reprints Vol 25 Otho S A Sprague Memorial Institute OCLC 605547177 Quammen David 2006 The Reluctant Mr Darwin An Intimate Portrait of Charles Darwin and the Making of His Theory of Evolution Great Discoveries 1st ed Atlas Books Norton ISBN 978 0 393 05981 6 LCCN 2006009864 OCLC 65400177 Raitiere Martin N 2012 The Complicity of Friends How George Eliot G H Lewes and John Hughlings Jackson Encoded Herbert Spencer s Secret Bucknell University Press ISBN 978 1 61148 418 2 LCCN 2012030762 OCLC 806981125 Rignano Eugenio 1906 Sur La Transmissibilite Des Caracteres Acquis Hypothese D une Centro epigenese in French Felix Alcan OCLC 5967582 Harvey Basil C H 1911 Eugenio Rignano Upon the Inheritance of Acquired Characters A Hypothesis of Heredity Development and Assimilation Authorized English translation by Basil C H Harvey Open Court Publishing Company LCCN 11026509 OCLC 1311084 Eugenio Rignano upon the inheritance of acquired characters 1911 at the Internet Archive Rignano Eugenio 1926 Biological Memory International Library of Psychology Philosophy and Scientific Method Translated with an introduction by Ernest MacBride Kegan Paul Trench Trubner amp Co Harcourt Brace amp Company LCCN 26009586 OCLC 811731 Simpson George Gaylord 1944 Tempo and Mode in Evolution Transactions of the New York Academy of Sciences Columbia Biological Series Columbia University Press 15 45 60 doi 10 1111 j 2164 0947 1945 tb00215 x LCCN a45000404 OCLC 993515 PMID 21012247 Simpson George Gaylord 1964 This View of Life The World of an Evolutionist 1st ed Harcourt Brace amp World LCCN 64014636 OCLC 230986 Simpson George Gaylord 1965 Life An Introduction to Biology 2nd ed Harcourt Brace amp World LCCN 65014384 OCLC 165951 Springer Joseph T Holley Dennis 2013 An Introduction to Zoology 1st ed Jones amp Bartlett Learning ISBN 978 1 4496 4891 6 LCCN 2011022399 OCLC 646112356 Steele Edward J Lindley Robyn A Blanden Robert V 1998 Lamarck s Signature How Retrogenes Are Changing Darwin s Natural Selection Paradigm Helix Books Frontiers of Science Perseus Books ISBN 978 0 7382 0014 9 LCCN 98087900 OCLC 40449772 Weismann August 1889 Poulton Edward B Schonland Selmar Shipley Arthur E eds Essays Upon Heredity and Kindred Biological Problems Clarendon Press LCCN 77010494 OCLC 488543825 Retrieved 2015 10 30 Wilkins John S 2009 Originally published 2001 in Laurent John Nightingale John eds Darwinism and Evolutionary Economics chapter 8 pp 160 183 Cheltenham UK Edward Elgar The Appearance of Lamarckism in the Evolution of Culture In Hodgson Geoffrey M ed Darwinism and Economics The International Library of Critical Writings in Economics Series Vol 233 Edward Elgar ISBN 978 1 84844 072 2 LCCN 2008939772 OCLC 271774708 Wood Bernard ed 2013 Wiley Blackwell Encyclopedia of Human Evolution First paperback ed Wiley Blackwell ISBN 978 1 118 65099 8 LCCN 2013012756 OCLC 841039552 Young Robert Thompson 1922 Biology in America R G Badger LCCN 22019903 OCLC 370597 Biology in America 1922 at the Internet ArchiveFurther reading editBarthelemy Madaule Madeleine 1982 Lamarck the Mythical Precursor A Study of the Relations Between Science and Ideology English translation by M H Shank MIT Press ISBN 978 0 262 02179 1 LCCN 82010061 OCLC 8533097 Translation of Lamarck ou Le mythe du precurseur 1979 Bowler Peter J 1989 The Mendelian Revolution The Emergence of Hereditarian Concepts in Modern Science and Society Johns Hopkins University Press ISBN 978 0 8018 3888 0 LCCN 89030914 OCLC 19322402 Burkeman Oliver 19 March 2010 Why everything you ve been told about evolution is wrong The Guardian Rutherford Adam 19 March 2010 Beyond a Darwin was wrong headline The Guardian Cook George M December 1999 Neo Lamarckian Experimentalism in America Origins and Consequences The Quarterly Review of Biology 74 4 417 437 doi 10 1086 394112 JSTOR 2664721 PMID 10672643 S2CID 12954177 Desmond Adrian 1989 The Politics of Evolution Morphology Medicine and Reform in Radical London Science and its Conceptual Foundations University of Chicago Press ISBN 978 0 226 14346 0 LCCN 89005137 OCLC 709606191 Fecht Sarah October 19 2011 Longevity Shown for First Time to Be Inherited via a Non DNA Mechanism Scientific American Retrieved 2015 11 05 Gissis Snait B Jablonka Eva eds 2011 Transformations of Lamarckism From Subtle Fluids to Molecular Biology Vienna Series in Theoretical Biology Illustrations by Anna Zeligowski MIT Press ISBN 978 0 262 01514 1 LCCN 2010031344 OCLC 662152397 Honeywill Ross 2008 Lamarck s Evolution Two Centuries of Genius and Jealousy Pier 9 ISBN 978 1 921208 60 7 LCCN 2011431766 OCLC 746154950 Jablonka Eva Lamb Marion J 2008 The Epigenome in Evolution Beyond The Modern Synthesis PDF Information Bulletin VOGiS 12 1 2 242 254 Medawar Peter 1990 Pyke David ed The Threat and the Glory Reflections on Science and Scientists Foreword by Lewis Thomas 1st U S ed HarperCollins ISBN 978 0 06 039112 6 LCCN 89046107 OCLC 21977349 Contains the BBC Reith Lectures The Future of Man Molino Jean 2000 Toward an Evolutionary Theory of Music and Language In Wallin Nils L in Swedish Merker Bjorn Brown Steven eds The Origins of Music MIT Press pp 165 176 ISBN 978 0 262 23206 7 LCCN 98054088 OCLC 44963330 Consists of papers given at a workshop on the origins of music held in Fiesole Italy May 1997 the first of a series called Florentine Workshops in Biomusicology Peng Wayne December 27 2011 Lamarckian viral defense in worms Nature Genetics 44 15 doi 10 1038 ng 1062 S2CID 32406225 Pennisi Elizabeth September 6 2013 Evolution Heresy Epigenetics Underlies Heritable Plant Traits Science 341 6150 1055 doi 10 1126 science 341 6150 1055 PMID 24009370 Persell Stuart 1999 Neo Lamarckism and the Evolution Controversy in France 1870 1920 Studies in French Civilization Vol 14 Edwin Mellen Press ISBN 978 0 7734 8275 3 LCCN 98048633 OCLC 40193707 Seki Yoshiyuki April 2013 Groszmann Roberto J Iwakiri Yasuko Taddei Tamar H eds Serum mediated transgenerational effects on sperm Evidence for lamarckian inheritance Hepatology 57 4 1663 1665 doi 10 1002 hep 26240 PMID 23568276 S2CID 5288601 Waddington Conrad H 1961 The Human Evolutionary System In Banton Michael ed Darwinism and the Study of Society A Centenary Symposium Chicago IL Tavistock Publications Quadrangle Books LCCN 61007932 OCLC 1003950 Essays based upon papers read at a conference held at the University of Edinburgh 1959 Ward Lester Frank 1891 Neo Darwinism and Neo Lamarckism Press of Gedney amp Roberts LCCN 07037459 OCLC 4115244 Annual address of the president of the Biological Society of Washington Delivered January 24 1891 From the Proceedings vol VI Neo Darwinism and neo Lamarckism 1891 at the Internet Archive Whitelaw Emma February 2006 Epigenetics Sins of the fathers and their fathers European Journal of Human Genetics 14 2 131 132 doi 10 1038 sj ejhg 5201567 PMID 16421606 S2CID 36863159 Yongsheng Liu September 2007 Like father like son A fresh review of the inheritance of acquired characteristics EMBO Reports 8 9 798 803 doi 10 1038 sj embor 7401060 PMC 1973965 PMID 17767188 External links editJean Baptiste Lamarck 1744 1829 at the University of California Museum of Paleontology Retrieved from https en wikipedia org w index php title Lamarckism amp oldid 1202265400, wikipedia, wiki, book, books, library,

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