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Patterns, Models, and Predictions: Robert MacArthur's Approach to Ecology

Published online by Cambridge University Press:  01 January 2022

Yoichi Ishida
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Abstract

Robert MacArthur's mathematical ecology is often regarded as ahistorical and has been criticized by historically oriented ecologists and philosophers for ignoring the importance of history. I clarify and defend his approach, especially his use of simple mathematical models to explain patterns in data and to generate predictions that stimulate empirical research. First I argue that it is misleading to call his approach ahistorical because it is not against historical explanation. Next I distinguish three kinds of criticism of his approach and argue that his approach is compatible with the first two of them. Finally, I argue that the third kind of criticism, advanced by Kim Sterelny and Paul Griffiths, is largely irrelevant to MacArthur's approach.

Type
Philosophy of Biology
Information
Philosophy of Science , Volume 74 , Issue 5: Proceedings of the 2006 Biennial Meeting of the Philosophy of Science Association. Part I: Contributed Papers. Edited by Cristina Bicchieri and Jason Alexander , December 2007 , pp. 642 - 653
Copyright
Copyright © The Philosophy of Science Association

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Footnotes

I am especially grateful to Thomas Nickles for encouragement and helpful comments on earlier versions of this paper. Thanks also to Guy Hoelzer, Stephen Jenkins, and Jay Odenbaugh for comments on an earlier draft, Kim Sterelny for clarifications of the Tasmania example, Gregory Mikkelson for references, and the audience at PSA 2006 for discussions.

References

Blondel, Jacques, and Vigne, Jean-Denis (1993), “Space, Time, and Man as Determinants of Diversity of Birds and Mammals in the Mediterranean Region”, in Ricklefs, R. E. and Schluter, D. (eds.), Species Diversity in Ecological Communities: Historical and Biogeographical Perspectives. Chicago: University of Chicago Press, 135146Google Scholar
Brooks, Daniel R., and McLennan, Deborah A. (1991), Phylogeny, Ecology, and Behavior: A Research Program in Comparative Biology. Chicago: University of Chicago Press.Google Scholar
Brooks, Daniel R., and McLennan, Deborah A. (2002), The Nature of Diversity. Chicago: University of Chicago Press.CrossRefGoogle Scholar
Brown, James H. (1971), “Mammals on Mountaintops: Nonequilibrium Insular Biogeography”, Mammals on Mountaintops: Nonequilibrium Insular Biogeography 105:467478.Google Scholar
Brown, James H. (1999), “The Legacy of Robert MacArthur: From Geographical Ecology to Macroecology”, The Legacy of Robert MacArthur: From Geographical Ecology to Macroecology 80:333344.Google Scholar
Brown, James H., et al. (2001), “Regulation of Diversity: Maintenance of Species Richness in Changing Environments”, Regulation of Diversity: Maintenance of Species Richness in Changing Environments 126:321332.Google ScholarPubMed
Cooper, Gregory J. (2003), The Science of the Struggle for Existence: On the Foundations of Ecology. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Kingsland, Sharon E. (1995), Modeling Nature: Episodes in the History of Population Ecology. 2nd ed. Chicago: University of Chicago Press.Google Scholar
Levins, Richard (1966), “The Strategy of Model Building in Population Biology”, The Strategy of Model Building in Population Biology 54:421431.Google Scholar
Levins, Richard (1968), Evolution in Changing Environments. Princeton, NJ: Princeton University Press.CrossRefGoogle Scholar
MacArthur, Robert H. (1972), Geographical Ecology: Patterns in the Distribution of Species. New York: Harper & Row.Google Scholar
MacArthur, Robert H., and Wilson, Edward O. (1963), “An Equilibrium Theory of Insular Zoogeography”, An Equilibrium Theory of Insular Zoogeography 17:373387.Google Scholar
MacArthur, Robert H., and Wilson, Edward O. (1967), The Theory of Island Biogeography. Princeton, NJ: Princeton University Press.Google Scholar
Mikkelson, Gregory M. (2001), “Complexity and Verisimilitude: Realism for Ecology”, Complexity and Verisimilitude: Realism for Ecology 16:533546.Google Scholar
Mikkelson, Gregory M. (2003), “Ecological Kinds and Ecological Laws”, Ecological Kinds and Ecological Laws 70:13901400.Google Scholar
Puccia, Charles J., and Levins, Richard (1985), Qualitative Modeling of Complex Systems: An Introduction to Loop Analysis and Time Averaging. Cambridge, MA: Harvard University Press.CrossRefGoogle Scholar
Ricklefs, Robert E. (1987), “Community Diversity: Relative Roles of Local and Regional Processes”, Community Diversity: Relative Roles of Local and Regional Processes 235:167171.Google ScholarPubMed
Ricklefs, Robert E., and Schluter, Dolph (1993), “Species Diversity: Regional and Historical Influences”, in Ricklefs, Robert E. and Schluter, Dolph (eds.), Species Diversity in Ecological Communities: Historical and Geographical Perspectives. Chicago: University of Chicago Press, 350363.Google Scholar
Roughgarden, Jonathan, Gaines, Steven, and Possingham, Hugh (1988), “Recruitment Dynamics in Complex Life Cycles”, Recruitment Dynamics in Complex Life Cycles 241:14601466.Google ScholarPubMed
Simberloff, Daniel S. (1976), “Species Turnover and Equilibrium Island Biogeography”, Species Turnover and Equilibrium Island Biogeography 194:472478.Google ScholarPubMed
Simberloff, Daniel S., and Wilson, Edward O. (1969), “Experimental Zoogeography of Islands: The Colonization of Empty Islands”, Experimental Zoogeography of Islands: The Colonization of Empty Islands 50:278296.Google Scholar
Sterelny, Kim (2001), “Darwin’s Tangled Bank”, in The Evolution of Agency and Other Essays. Cambridge: Cambridge University Press, 152178.Google Scholar
Sterelny, Kim, and Griffiths, Paul E. (1999), Sex and Death: An Introduction to Philosophy of Biology. Chicago: University of Chicago Press.CrossRefGoogle Scholar
Wimsatt, William C. (1980), “Reductionistic Research Strategies and Their Biases in the Units of Selection Controversy”, in Nickles, Thomas (ed.), Scientific Discovery: Case Studies. Dordrecht: Reidel, 213259.CrossRefGoogle Scholar
Wimsatt, William C. (1987), “False Models as Means to Truer Theories”, in Nitecki, Matthew H. and Hoffman, Antoni (eds.), Neutral Models in Biology. New York: Oxford University Press, 2355.Google Scholar