The Propensity Interpretation of Fitness | Philosophy of Science | Cambridge Core (original) (raw)

Abstract

The concept of “fitness” is a notion of central importance to evolutionary theory. Yet the interpretation of this concept and its role in explanations of evolutionary phenomena have remained obscure. We provide a propensity interpretation of fitness, which we argue captures the intended reference of this term as it is used by evolutionary theorists. Using the propensity interpretation of fitness, we provide a Hempelian reconstruction of explanations of evolutionary phenomena, and we show why charges of circularity which have been levelled against explanations in evolutionary theory are mistaken. Finally, we provide a definition of natural selection which follows from the propensity interpretation of fitness, and which handles all the types of selection discussed by biologists, thus improving on extant definitions.

References

Bethell, T. (1976) “Darwin's Mistake.” Harper's Magazine, 70–75.Google Scholar

Cain, A. J., and Sheppard, P. M. (1950) “Selection in the Polymorphic Land Snail Cepala Nemoralis.” vol. 4, Heredity: 275–294.CrossRef Google Scholar

Cain, A. J., and Sheppard, P. M. (1954) “Natural Selection in Cepaea.” Genetics 39: 89–116.Google Scholar

Coffa, J. A. (1977) “Probabilities: Reasonable or True?” Philosophy of Science, 43: 186–198.CrossRef Google Scholar

Crow, J. F. and Kimura, M. (1970) An Introduction to Population Genetics Theory. New York: Harper and Row.Google Scholar

Dobzhansky, T. (1970) Genetics of the Evolutionary Process. New York: Columbia University Press.Google Scholar

Dobzhansky, T., and Levene, H. (1951) “Development of Heterosis Through Natural Selection in Experimental Populations of Drosophila Pseudoobscura.” American Naturalist 85: 246–264.CrossRef Google Scholar

Ford, E. B. (1964) Ecological Genetics. New York: Wiley.Google Scholar

Grant, V. (1977) Organismic Evolution. San Francisco: W. H. Freeman.Google Scholar

Hamilton, W. D. (1964) “The Genetical Evolution of Social Behavior. I.” Journal of Theoretical Biology, 7: 1–16.CrossRef Google Scholar

Hull, D. (1974) Philosophy of Biological Theory. Englewood Cliffs, New Jersey: Prentice Hall.Google Scholar

Kettlewell, H. B. D. (1955) “Selection Experiments on Industrial Melanism in the Lepidoptera.” Heredity, 9: 323–342.CrossRef Google Scholar

Kettlewell, H. B. D. (1956) “Further Selection Experiments on Industrial Melanism in the Lepidoptera.” Heredity, 10: 287–301.CrossRef Google Scholar

Kojima, K. (1971) “Is There a Constant Fitness Value for a Given Genotype?” Evolution, 25: 281–285.CrossRef Google Scholar

Kyburg, H. (1974) British Journal for the Philosophy of Science “Propensities and Probabilities” 25, no.4: 358–374.Google Scholar

Lerner, I. M. (1958) The Genetic Basis of Selection. New York: Wiley.Google Scholar

Levins, R. (1970) “Fitness and Optimization.” Mathematical Topics in Population Genetics. New York: Springer Verlag.Google Scholar

Levins, R. (1968) Evolution in Changing Environments. Princeton: Princeton University Press.CrossRef Google Scholar

Mettler, L. E. and Gregg, T. G. (1969) Population Genetics and Evolution. Englewood Cliffs, New Jersey: Prentice Hall.Google Scholar

Popper, K. (1974) “Intellectual Autobiography.” The Philosophy of Karl Popper, (Shilpp, ed.). LaSalle, Illinois: Open Court.Google Scholar

Ruse, M. (1969) “Confirmation and Falsification of Theories of Evolution.” Scientia, 1–29.Google Scholar

Ruse, M. (1973) The Philosophy of Biology. London: Hutchingson.Google Scholar

Smart, J. J. C. (1963) Philosophy and Scientific Realism. London: Routledge and Kegan Paul.Google Scholar

Thoday, J. M. (1953) “Components of Fitness.” Symposia of the Society for Experimental Biology, 7: 96–113.Google Scholar

Wallace, B. (1968) Topics in Population Genetics. New York: W. W. Norton.Google Scholar

Wallace, B. (1963) Further data on the over-dominance of induced mutations. Genetics 48: 633–651.CrossRef Google Scholar

Williams, M. B. (1970) “Deducing the Consequences of Evolution: A Mathematical Model.” Journal of Theoretical Biology, 29: 343–385.CrossRef Google Scholar PubMed

Williams, M. B. (1973a) “The Logical Status of Natural Selection and other Evolutionary Controversies: Resolution by Axiomatization.” Methodological Unity of Science (Bunge, ed.). Dordrecht, Holland: Reidel.Google Scholar

Williams, M. B. (1973b) “Falsifiable Predictions of Evolutionary Theory.” Philosophy of Science, 40: 518–537.CrossRef Google Scholar

Williams, M. B. (1976) “The Logical Structure of Functional Explanations in Biology.” Proceedings of the Philosophy of Science Association 1976: East Lansing: Philosophy of Science Asso., 37–46.CrossRef Google Scholar

Wilson, E. O. (1975) Sociobiology. Cambridge, Massachusetts: Harvard University Press.Google Scholar

Wright, S. (1955) “Classification of the Factors of Evolution.” Cold Spring Harbor Symposia on Quantitative Biology, 20: 16–24.CrossRef Google Scholar PubMed