1. C. Louis Kervran, Transmutations Biologiques et Physique Moderne, Maloine, 1982.
There are also two English-language books by and about Kervran:
* Michel Abehsera and C. Louis Kervran, Biological Transmutations and Their Applications in Chemistry, Physics, Biology, Ecology, Medicine, Nutrition, Agriculture, and Geology. Swan House Publishing Company, 1972.
* C. Louis Kervran, Biological Transmutations. Beekman Publishers, Woodstock, NY, 1980.
2. Hisatoki Komaki, gObservations on the Cold Fusion or the Biological Transmutation of Elements.h 1993 Frontiers of Cold Fusion. Universal Academic Press, pp.555-558.
3. Vladimir I. Vysotski and Alla A. Kornilova 2010, Nuclear Transmutation of Stable and Radioactive Isotopes in Biological Systems. Pentagon Press, New Delhi, 2010.
4. Ref 3, p. 16. See also: Rudolf L. Mossbauer, Zeitschrift fur Physik, Vol 151, 1958, pp.124-143 and T.E. Cranshaw, B.W. Dale, G.O. Longsworth, and C.E. Johnson, Mossbauer Spectroscopy and Its Applications, Cambridge University Press, 1985.
6. Simon Rainville, et al. gA Direct Test of E = mc 2 h Nature, Dec 2005, Vol. 438, pp. 1096-1097. The authors state that this result is 55 times more accurate than the previous best test of E=mc 2 , which was per- formed by comparing the electron and positron masses to the energy released in their annihilation as a gamma ray, for which, see Greene, G.L. Phys. Rev. D 44 R 2216-2219, 1991. In Rainvillefs experiment, the limiting factor in determining the binding energy was the wave- length of the gamma ray, determined by diffraction to only 10 to the minus 7.
7. Ref 3, p. 45 The authors state that this result is 55 times more accurate than the previous best test of E=mc 2 , which was per- formed by comparing the electron and positron masses to the energy released in their annihilation as a gamma ray, for which, see Greene, G.L. Phys. Rev. D 44 R 2216-2219, 1991. In Rainvillefs experiment, the limiting factor in determining the binding energy was the wave- length of the gamma ray, determined by diffraction to only 10 to the minus 7.
8. Ref 3, pp. 128-139 for a full discussion of substitution of one metal for another missing metal in bacteria. The authors state that this result is 55 times more accurate than the previous best test of E=mc 2 , which was per- formed by comparing the electron and positron masses to the energy released in their annihilation as a gamma ray, for which, see Greene, G.L. Phys. Rev. D 44 R 2216-2219, 1991. In Rainvillefs experiment, the limiting factor in determining the binding energy was the wave- length of the gamma ray, determined by diffraction to only 10 to the minus 7.
9. Ref 3, page 113 gPossible scenario of running barrierless nuclear synthesis in growing bacterial systems.h
10. Ref 3, chapter 4.
11. Lyndon H. LaRouche, Jr. gThe Astrophysics of Gurwitsch Radia- tion: The Reciprocity of Extremes,h 21 st Century Science and Technol- ogy, Fall 1998, pp 14-17.
12. Michael Lipkind, gAlexander Gurwitsch and the Concept of the Bio- logical Fieldh (Parts 1 and 2), 21 st Century Science and Technology, Summer 1998 and Fall 1998.
13. Ibid.
14. Fritz-Albert Popp, gBiophotonen?Neue Horizonte in der Medizin,h von der Grundlagen zur Biophotonik, Karl F. Haug Verlag, Stuttgart, 2006, p. 69.
15. Lyndon H Larouche, Jr., gVernadsky and Dirichletfs Principle,h 21 st Century Science and Technology Winter 2005-2006 pp 18-38.
16. Bernhard Riemann, gOn the Hypotheses Which Underlie Geome- try,h David Smith, ed., A Source Book in Mathematics, Dover Publica- tions, 1959, pp. 411-425.
17. Vladimir Vernadsky, The Biosphere, Nevraumont Publishing Co, New York, NY, 1997, translated by David Langmuir.
18. V. Vernadsky, gSome Words about the Noosphere,h Dec 1943, translated from Vernadskyfs book Biosfera (Russian) by Rachel B. Douglas and Jonathan B. Tennenbaum, in 21 st Century Science and Technology Spring 2005 pp. 16-21.