Paul Kammerer

Paul Kammerer (17 August 1880, in Vienna – 23 September 1926, in Puchberg am Schneeberg) was an Austrian biologist who studied and advocated the Lamarckian theory of inheritance – the notion that organisms may pass to their offspring characteristics they have acquired in their lifetime. He began his academic career at the Vienna Academy studying music but graduated with a degree in biology.

Work

Paul Kammerer

Kammerer's work in biology largely involved altering the breeding and development of amphibians. He coerced ovoviviparous fire salamanders to become viviparous, and viviparous alpine salamanders to become ovoviviparous. In lesser-known experiments, he manipulated and bred olms. He made olms produce live young, and he bred dark-colored olms with full vision. He supported the Lamarckian theory of the heritability of acquired characteristics, and experimented extensively in an effort to prove this theory.^[1]

Kammerer succeeded in making midwife toads breed in the water by increasing the temperature of their tanks, forcing them to retreat to the water to cool off. The male midwife toads were not genetically programmed for the underwater mating that necessarily followed and thus, over the span of two generations, Kammerer reported that his midwife toads were exhibiting black nuptial pads on their feet to give them more traction in this underwater mating process. While the prehistoric ancestors of midwife toads had these pads, Kammerer considered this an acquired characteristic brought about by adaptation to environment.^[1] Claims arose that the result of the experiment had been falsified. The most notable of these claims was made by Dr. G. K. Noble, Curator of Reptiles at the American Museum of Natural History, in the scientific journal Nature. Noble, after a microscopic examination, claimed that the black pads actually had a far more mundane explanation: they had simply been injected with Indian ink.^[2]

In a letter Kammerer stated that after reading Noble's paper he reexamined his specimen and confirmed that India ink had been injected into the pads.^[3] Kammerer suggested that his specimens had been altered by a laboratory assistant.^[4] The criminologist Edward Sagarin has written that "Kammerer maintained his total innocence and declared his ignorance of the forger's identity. There is still doubt about whether an obliging (or hostile) assistant was responsible for the forgery, but Kammerer's scientific credibility was nevertheless irremediably damaged."^[5] Science historian Peter J. Bowler has written that most biologists believe that Kammerer was a fraud, and even among those who believe he was honest claim he misinterpreted the results of his experiments.^[6]

Six weeks after the accusation by Noble, Kammerer committed suicide in the forest of Schneeberg,^[1] an event whose complex meaning is discussed by journalist Arthur Koestler.^[7]

Aftermath

The Lamarckian biologist Ernest MacBride supported the experiments of Kammerer but commented they would have to be repeated if they were to be accepted by other scientists.^[8] The British zoologist Harold Munro Fox had attempted to replicate some of Kammerer's experiments but produced negative results.^[9] Biology professor Harry Gershenowitz also attempted to duplicate Kammerer's experiment with a related species Bombina orientalis but due to lack of funds had to terminate the experiment.^[10]

Interest in Kammerer revived in 1971 with the publication of Arthur Koestler's book, The Case of the Midwife Toad. Koestler surmised that Kammerer's experiments on the midwife toad may have been tampered with by a Nazi sympathizer at the University of Vienna. Certainly, as Koestler writes, "the Hakenkreuzler, the swastika-wearers, as the Austrian Nazis of the early days were called, were growing in power. One center of ferment was the University of Vienna^[11] where, on the traditional Saturday morning student parades, bloody battles were fought. Kammerer was known by his public lectures and newspaper articles as an ardent pacifist and Socialist; it was also known that he was going to build an institute in Soviet Russia. "An act of sabotage in the laboratory would have been…in keeping with the climate of those days."

Koestler's claims have been criticized by the scientific community.^[12] Gordon Stein has noted:

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Koestler's book favors evidence that exonerates Kammerer, while downplaying or ignoring evidence against him... [His] own hidden agenda may be that if Kammerer was right, then Lamarck's idea that acquired characteristics can be inherited is strengthened. The Lamarckian idea supports many ideas that foster parapsychology's theoretical basis. Kammerer was quite interested in the study of coincidences, as was Koestler.^[3]

As a consequence of Noble's refutation (see above), interest in Lamarckian inheritance diminished except in the Soviet Union where it was championed by Lysenko.

Historian of biology Sander Gliboff and Professor in the Department of History and Philosophy of Science, Indiana University, has commented that, though Kammerer's conclusions proved false, his evidence was probably genuine and that he did not simply argue for Lamarckism and against Darwinism as those theories are now understood. Rather, if we look beyond the scandal, the story shows us much about the competing theories of biological and cultural evolution and the range of new ideas about heredity and variation in early 20th-century biology and the changes in experimental approach that have occurred since that time.^[13]

In 2009, developmental biologist Alexander Vargas, Professor in the Department of Biology, University of Chile, suggested that the inheritance of acquired traits (Lamarckian inheritance) that Kammerer reported to observe in his toad experiments could be authentic, and explainable by results from the emerging field of epigenetics.^[14][15] In Vargas' view, Kammerer could actually be considered the discoverer of non-Mendelian, epigenetic inheritance, wherein chemical modifications to parental DNA (e.g., through DNA methylation) are passed on to subsequent generations. Furthermore, In Vargas' view, the parent-of-origin effect poorly understood at the time of Kammerer's work might be explained retrospectively, in relation to similar effects seen in other organisms. Professor Gliboff of Indiana University (see above) has subsequently argued that Vargas "constructed his model without first reading Kammerer's original articles", and that Vargas is "seriously misinformed about what Kammerer did and what the results even were", such that Vargas' "model... cannot explain the results... originally reported...". Gliboff goes on to strongly challenge Kammerer's being given credit for discovery of parent-of-origin effects, and to state that "Vargas' historical inferences about the Kammerer affair... [and] negative reactions of geneticists... are unsupported and do not stand up to scrutiny." ^[16] Hence, the reinterpretation of Kammerer's work in light of epigenetic discoveries remains controversial.

Seriality theory

Kammerer's other passion was collecting coincidences. He published a book with the title Das Gesetz der Serie (The Law of the Series; never translated into English) in which he recounted some 100 anecdotes of coincidences that had led him to formulate his theory of Seriality.

He postulated that all events are connected by waves of seriality. These unknown forces would cause what we would perceive as just the peaks, or groupings and coincidences. Kammerer was known, for example, to make notes in public parks of what numbers of people were passing by, how many carried umbrellas etc. Albert Einstein called the idea of Seriality "interesting, and by no means absurd",^[17] while Carl Jung drew upon Kammerer's work in his essay Synchronicity. Koestler reported that, when researching for his biography about Kammerer, he himself was subjected to "a meteor shower" of coincidences - as if Kammerer's ghost were grinning down at him saying, "I told you so!".^[18]

References

1. ↑ ^{1.0 1.1 1.2} Lua error in package.lua at line 80: module 'strict' not found.
2. ↑ Lua error in package.lua at line 80: module 'strict' not found.
3. ↑ ^{3.0 3.1} Stein, Gordon. (1993). Encyclopedia of Hoaxes. Gale Group. p. 248. ISBN 0-8103-8414-0
4. ↑ Oldroyd, David Roger. (1980). Darwinian Impacts: An Introduction to the Darwinian Revolution. Open University Press. p. 179. ISBN 978-0868400334
5. ↑ Sagarin, Edward. (1977). Deviance and Social Change. Sage Publications. p. 115. ISBN 978-0803908055
6. ↑ Bowler, Peter J. (2003). Evolution: The History of an Idea. University of California Press. pp. 265-266. ISBN 0-520-23693-9
7. ↑ Koestler, Arthur. (1973). The Case of the Midwife Toad. Vintage (first published 1971). ISBN 978-0394718231
8. ↑ MacBride, Ernest. (1929). Evolution. J. Cape & H. Smith. p. 38
9. ↑ Fox, Harold Munro. (1923). Dr. Kammerer's Ciona Experiments. Nature 112: 653-654.
10. ↑ Gerschenowitz, Harry. (1983). Arthur Koestler’s Osculation with Lamarckism and Neo-Lamarckism. International Journal of Heritage Studies 18: 1-8.
11. ↑ University 1938-1945
12. ↑ Aronson, Lester. (1975). The Case of The Case of the Midwife Toad. Behavior Genetics 5: 115-125.
13. ↑ Lua error in package.lua at line 80: module 'strict' not found.
14. ↑ Lua error in package.lua at line 80: module 'strict' not found.
15. ↑ Vargas, Alexander. (2009). Did Paul Kammerer discover epigenetic inheritance? A modern look at the controversial midwife toad experiments. J Exp Zool B Mol Dev Evol, 312(7):667-78. doi: 10.1002/jez.b.21319
16. ↑ Gliboff, Sander AO (2009) "Did Paul Kammerer discover epigenetic inheritance? No and why not", J Exp Zool B Mol Dev Evol, 314(8):616-24. doi: 10.1002/jez.b.21374
17. ↑ Arthur Koestler. (1972). The Roots of Coincidence. Vintage. p. 87. ISBN 978-0394719344
18. ↑ Alister Hardy, Robert Harvie, Arthur Koestler. (1973). The Challenge of Chance: Experiments and Speculations. Hutchinson. p. 198

Further reading

• Aronson, Lester. (1975). The Case of The Case of the Midwife Toad. Behavior Genetics 5: 115-125.
• Bateson, William. (1919). Dr. Kammerer's Testimony to the Inheritance of Acquired Characters. Nature 203: 344.
• Gliboff, Sander. (2005). Paul Kammerer and the Art of Biological Transformation. Endeavour 29: 162–167.
• Gliboff, Sander. (2006). The Case of Paul Kammerer: Evolution and Experimentation in the Early 20th Century. Journal of the History of Biology 39: 525-563.
• Kammerer, Paul. (1926). Paul Kammerer’s Letter to the Moscow Academy of Sciences. Science 64: 493-494.
• Koestler, Arthur. (1971). The Case of the Midwife Toad. London: Hutchinson.
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• Noble, G. K. (1926) Kammerer’s Alytes. Nature 18: 209-210.
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• Svardal H. (2010). Can Epigenetics Solve the Case of the Midwife Toad?—A Comment on Vargas. Journal of Experimental Zoology 312: 667-678.
• Wagner, G. P. (2009). Paul Kammerer’s midwife toads: about the reliability of experiments and our ability to make sense of them. Journal of Experimental Zoology 312: 665-666.
• Weissmann G. (2010). The Midwife Toad and Alma Mahler: Epigenetics or a Matter of Deception?. FASEB Journal 24: 2591-2595.
• Zirkle, C. (1954). The Citation of Fraudulent Data. Science 120: 189-190.

External links

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• NNDB on Paul Kammerer
• The Case of the Midwife Toad
• Kammerer and Seriality