Annila, A. and S. N. Salthe (2010), “Physical foundations of evolutionary theory,” Journal of Non-equilibrium Thermodynamics 35: 301-321.

Batten, D.; S.N. Salthe and F. Boschetti (2009), “Visions of evolution: self-organization proposes what natural selection disposes,” Biological Theory 3 (1): 17-29.

Bejan, A. and S. Lorente (2010), “The constructal law of design and evolution in nature,” Philosophical Transactions of the Royal Society B, 365: 1335-1347.

Brooks, D. R. and E. O. Wiley (1988), Evolution As Entropy: Toward a Unified Theory of Biology. (2nd Ed.) Chicago: University of Chicago Press.

Conway Morris, S. (2003), Life's Solution: Inevitable Humans in a Lonely Universe. Cambridge, UK: Cambridge University Press.

Dewar, R. C. (2003), “Information theory explanation of the fluctuation theorem, maximum entropy production, and self-organized criticality in non-equilibrium stationary states,” Journal of Physics, A, Mathematics and General 36: L631-L641.

Elton, C. (1927), Animal Ecology. London: Sidgwick & Jackson.

Fisher, R. A. (1929/1958), The Genetical Theory of Natural Selection. New York: Dover.

Hall, B. K. (1997), “Phylotypic stage or phantom: Is there a highly conserved embryonic stage in vertebrates?”, Trends in Ecology and Evolution 12: 461- 463.

Kleidon, A. (2010), “Non-equilibrium thermodynamics, maximum entropy production and earth-system evolution,” Philosophical Transactions of the Royal Society A 368: 181-196.

Leander, B. S. (2008), “Different modes of convergent evolution reflect phylogenetic distances: A reply to Arendt and Reznick,” Trends in Ecology and Evolution 23: 481- 482.

Lorenz, R. D. (2002), “Planets, life and the production of entropy,” International Journal of Astrobiology 1: 3-13.

Mahulikar, S. P. and H. Herwig (2004), “Conceptual investigation of the entropy principle for identification of directives for creation, existence and total destruction of order,” Physica Scripta 70: 212-221.

Matsuno, K. and R. Swenson (1999), “Thermodynamics in the present progressive mode and its role in the context of the origin of life,” BioSystems 51: 53-61.

Odum, H. T. and R. C. Pinkerton (1955), “Time speed regulator, the optimun efficiency for maximum output in physical and biological systems,” American Scientist 43: 331-343.

Prigogine, I. (1980), From Being to Becoming: Time and Complexity in the Physical Sciences. San Francisco: Freeman.

Salthe, S. N. (2008), “Natural selection in relation to complexity,” Artificial Life 14: 363-374.

Salthe, S. N. (2009), “Darwin and some leading ideas in Western culture,” Ludus Vitalis 17 (32): 173-178.

Salthe, S. N. (2010), “The development (and evolution) of the universe,” Foundations of Science 15: 357-367.

Sharma, V. and A. Annila (2007), “Natural processÅnatural selection,” Biophysical Chemistry 127: 123-126.

Swenson, R. (1997), “Autocatakinetics, evolution, and the law of maximum entropy production,” Advances in Human Ecology 6: 1-47.

Van Valen, L. (1962), “A study of fluctuating asymmetry,” Evolution 16: 125-142.34-m