References
- Abbott, E. A. 1884. Flatland: A romance of many dimensions. Reprinted 1991, with a new introduction by T. Banchoff, Princeton Univ. Press, Princeton, NJ.
- Berryman, A. A. 2003. On principles, laws, and theory in population ecology. Oikos 103: 695-701.
- Boerlijst, M. C., Hogeweg, P. 1995. Spatial gradients enhance persistence of hypercycles. Physica D 88: 29-39.
- Browne, J. 2003. Charles Darwin, a biography, Vol. 2: The power of place. Princeton Univ. Press, Princeton, NJ.
- Colyvan, M., Ginzburg, L. R. 2003. The Galilean turn in population ecology. Biology and Philosophy 18: 401-414.
- Crow, J. F., Kimura, M. 1970. An introduction to population genetics theory. Harper & Row, New York.
- Darwin, C. 1859; 1964. On the origin of species. A facsimile of the first edition, with an introduction by Ernst Mayr. Harvard Univ. Press, Cambridge, MA.
- Darwin, F., ed. 1892, reprinted 1958. The autobiography of Charles Darwin, and selected letters. Dover, New York.
- Dieckmann, U., Tautz, D., Doebeli, M., Metz, J. A. J. 2004. Epilogue. In: Dieckmann, U., Doebeli, M., Metz, J. A. J., Tautz, D., eds. Adaptive speciation. Cambridge Univ. Press, Cambridge, UK, pp. 380-394.
- Eigen, M., Schuster, P. 1979. The hypercycle—a principle of natural self-organization. Part B: The abstract hypercycle. Naturwissenschaften 65: 7-41.
- Fryxell, J. M., Hazell, M., Borger, L., Dalziel, B. D., Haydon, D. T., Morales, J. M., McIntosh, T., Rosatte, R. C. 2008. Multiple movement modes by large herbivores at multiple spatiotemporal scales. PNAS 105: 19114-19119.
- Getz, W. M. 1984. Population dynamics: a resource per-capita approach. J. Theor. Biol. 108: 623-644.
- Ginzburg, L. R. 1998. Assuming reproduction to be a function of consumption raises doubts about some popular predator-prey models. Journal of Animal Ecology 67: 325-327.
- Ginzburg, L., Colyvan, M. 2004. Ecological orbits: how planets move and populations grow. Oxford University Press, Oxford, UK.
- Ginzburg, L. R., Jensen, C. X. J., Yule, J. V. 2007. Aiming the "unreasonable effectiveness of mathematics" at ecological theory. Ecological Modelling 207: 356-362.
- Gutierrez, A. P. 1992. Physiological basis of ratio-dependent predator-prey theory: the metabolic pool model as a paradigm. Ecology 73: 1552-1563.
- Hogeweg, P., Takeuchi, N. 2003. Multilevel selection in models of prebiotic evolution: compartments and spatial self-organization. Origins of Life and Evolution of the Biosphere 33: 375-403.
- Johnson, C. R., Boerjlist, M. C. 2002. Selection at the level of the community: the importance of spatial structure. Trends in Ecology and Evolution 17: 83-90.
- Kooijman, S. A. L. M. 1993. Dynamic energy budgets in biological systems. Cambridge Univ. Press, Cambridge, UK.
- Lockwood, D. R. 2008. When logic fails ecology. Quarterly Review of Biology 83: 57-64.
- Maynard Smith, J. 1979. Hypercycles and the origin of life. Nature 280: 445-446.
- Maynard Smith, J., Szathmary, E. 1998. The major transitions in evolution. Oxford Univ. Press, Oxford, UK.
- Meinesz, A. 2006. How life began: evolution's three geneses. Univ. of Chicago Press, Chicago, IL.
- Murray, B. G. 2000. Universal laws and predictive theory in ecology and evolution. Oikos 89: 403-408.
- Nathan, R. 2008. An emerging movement ecology paradigm. PNAS 105: 19050-19051.
- Nowak, M. A. 2006. Evolutionary dynamics. Harvard Univ. Press, Cambridge, MA.
- Okasha, S. 2009. Evolution and the levels of selection. Oxford Univ. Press, Oxford, UK.
- Owen-Smith, N. 2005. Incorporating fundamental laws of biology and physics into population ecology: the metaphysiological approach. Oikos 111: 611-615.
- Quine, W. V. O. 1960. Word and object. New York: MIT Press, Cambridge, MA.
- Rainey, P. B., Travisano, M. 1998. Adaptive radiation in a heterogeneous environment. Nature 394: 69-72.
- Reiners, W. A., Driese, K. L. 2004. Transport processes in nature: propagation of ecological influences through environmental space. Cambridge Univ. Press, Cambridge, UK.
- Turchin, P. 2001. Does population ecology have general laws? Oikos 94: 17-26.