Evolutionary dynamics of predator-prey systems: an ecological perspective (original) (raw)
References
Abrams, P. A.: Is predator-prey coevolution an arms race? Trends Ecol. Evol.1, 108–110 (1986) Article Google Scholar
Abrams, P. A.: The importance of intraspecific frequency-dependent selection in modelling competitive coevolution. Evol. Ecol.3, 215–220 (1989) Article Google Scholar
Abrams, P. A., Matsuda, H., Harada, Y.: Evolutionarily unstable fitness maxima and stable fitness minima of continuous traits. Evol. Ecol.7, 465–487 (1993) Article Google Scholar
Anderson, P. A., May, R. M.: Coevolution of hosts and parasites. Parasitology85, 411–426 (1982) Article Google Scholar
Bakker, R. T.: The deer flees, the wolf pursues: incongruencies in predator-prey coevolution. In: Futuyma, D. J., Slatkin, M. (eds.) Coevolution, pp. 350–382. Sunderland Massachusetts: Sinauer Associates 1983 Google Scholar
Brown, J. S., Vincent, T. L.: Coevolution as an evolutionary game. Evolution41, 66–79 (1987a) Article Google Scholar
Brown, J. S., Vincent, T. L.: Fredator-prey coevolution as an evolutionary game. In: Cohen, Y. (ed.) Applications of Control Theory in Ecology, pp. 83–101. Lecture Notes in Biomathematics 73. Berlin: Springer Verlag 1987b Google Scholar
Brown, J. S., Vincent, T. L.: Organization of predatorprey communities as an evolutionary game. Evolution46, 1269–1283 (1992) Article Google Scholar
Carroll, L.: Through the Looking Glass and what Alice found there. London: Macmillan 1871 (Harmondsworth Middlesex: Penguin Books 1970) Google Scholar
Christiansen, F. B.: On conditions for evolutionary stability for a continuously varying character. Amer. Natur.138, 37–50 (1991) Article Google Scholar
Darwin, C.: The Origin of Species by Means of Natural Selection. John Murray 1859 (Harmondsworth Middlesex: Penguin Books 1968) Google Scholar
Dawkins, R., Krebs, J. R.: Arms races between and within species. Proc. R. Soc. Lond. B205, 489–511 (1979) Article Google Scholar
Dieckmann, U.: Coevolutionary dynamics of stochastic replicator systems. Berichte des Forschungszentrums Jülich, 3018, Jülich Germany 1994
Dieckmann, U., Law, R.: The dynamical theory of coevolution: a derivation from stochastic ecological processes. J. Math. Biol.34, 579–612 (1996) ArticleMathSciNetMATH Google Scholar
Dieckmann, U., Marrow, P., Law, R.: Evolutionary cycling in predator-prey interactions: population dynamics and the Red Queen. J. Theor. Biol.176, 91–102 (1995) Article Google Scholar
Dwyer, G., Levin, S. A., Buttel, L.: A simulation model of the poulation dynamics and evolution of myxomatosis. Ecol. Monogr.60, 423–447 (1990) Article Google Scholar
Edley, M. E., Law, R.: Evolution of life histories and yields in experimental populations of_Daphnia magna_. Biol. J. Linn. Soc.34, 309–326 (1988) Google Scholar
Ehrlich, P. R., Raven, P. H.: Butterflies and plants: a study in coevolution. Evolution18, 586–608 (1964) Article Google Scholar
Eshel, I., Motro, U.: Kin selection and strong evolutionary stability of mutual help. Theor. Pop. Biol.19, 420–433. (1981) ArticleMathSciNetMATH Google Scholar
Falconer, D. S.: Introduction to Quantitative Genetics. 3rd Edition. Harlow: Longman 1989 Google Scholar
Fenner, F., Ratcliffe, F. N.: Myxomatosis. Cambridge University Press 1965
Fisher, R. A.: The Genetical Theory of Natural Selection. 2nd Edition. New York: Dover Publications 1958 Google Scholar
Futuyma, D. J., Slatkin, M.: Introduction. In: Futuyma, D. J., Slatkin, M. (eds.) Coevolution, pp. 1–13. Sunderland Massachusetts: Sinauer Associates 1983 Google Scholar
Gatto, M.: The evolutionary optimality of oscillatory and chaotic dynamics in simple population models. Theor. Pop. Biol.43, 310–336 (1993) ArticleMATH Google Scholar
Godfray, H. C. J., Cook, L. M., Hassell, M. P.: Population dynamics, natural selection and chaos. In: Berry, R. J., Crawford, T. J., Hewitt, G. M. (eds) Genes in ecology, pp 55–86. Oxford: Blackwell Scientific Publications (1993) Google Scholar
Hansen, T. F.: Evolution of stability parameters in single-species population models: stability or chaos? Theor. Pop. Biol.42, 199–217 (1992) ArticleMATH Google Scholar
Hassell, M. P., Lawton, J. H., May, R. M.: Patterns of dynamical behaviour in single-species populations. J. Anim. Ecol.45, 471–486 (1976) Google Scholar
Hutchinson, G. E.: The Ecological Theater and the Evolutionary Play. New Haven Connecticutt: Yale University Press 1967 Google Scholar
Iwasa, Y., Pomiankowski, A., Nee, S.: The evolution of costly mate preferences. II. The “handicap” principle. Evolution45, 1431–1442 (1991) Article Google Scholar
Janzen, D. H.: When is it coevolution? Evolution34, 611–612 (1980) Article Google Scholar
Jayakar, S. D., Zonta L. A.: Coevolution at two trophic levels. In: Wöhrmann, K., Jain, S. K. (eds) Population Biology, pp. 349–366. Berlin: Springer Verlag 1990 Google Scholar
Kauffman, S. A.: The Origins of Order: Self-Organization and Selection in Evolution. New York: Oxford University Press 1993 Google Scholar
Kauffman, S. A., Johnsen, S.: Coevolution to the edge of chaos: coupled fitness landscapes, poised states, and coevolutionary avalanches. J. theor Biol.149, 467–505 (1991) Google Scholar
Kitchell, J. A., Boggs, C. H., Kitchell, J. F., Rice, J. A.: Prey selection by natacid gastropods: experimental tests and application to the fossil record. Palaeobiology7, 533–552 (1981) Google Scholar
Lande, R.: Quantitative genetic analysis of multivariate evolution, applied to brain:body size allometry. Evolution33, 402–416 (1979) Article Google Scholar
Levin, S. A., Segel, L. A., Adler, F. R.: Diffuse coevolution in plant-herbivore communities. Theor. Pop. Biol.37, 171–191 (1990) ArticleMathSciNetMATH Google Scholar
Lewontin, R. C.: Fitness, survival, and optimality. In: Horn, D. J., Stairs, G. R., Mitchell, R. D. (eds.) Analysis of Ecological Systems, pp. 3–21. Ohio State University Press 1979
Marrow, P., Law, R., Cannings, C.: The coevolution of predator-prey interactions: ESSs and Red Queen dynamics. Proc. R. Soc. Lond. B250, 133–141 (1992) Google Scholar
Marrow, P., Cannings, C.: Evolutionary instability in predator-prey systems. J. theor. Biol.160, 135–150 (1993) Article Google Scholar
Mather, K.: Genetical Structure of Populations. London: Chapman and Hall 1973 Google Scholar
Maynard Smith, J.: A comment on the Red Queen. Amer. Natur.110, 325–330 (1976) Article Google Scholar
Maynard Smith, J.: Evolution and the Theory of Games. Cambridge University Press 1982
Maynard Smith, J., Price, G. R.: The logic of animal conflict. Nature Lond.246, 15–18 (1973) Article Google Scholar
Metz, J. A. J., Nisbet, R. M., Geritz, S. A. H.: How should we define ‘fitness’ for general ecological scenarios? Trends Ecol. Evol.7, 198–202 (1992) Article Google Scholar
Metz, J. A. J, Geritz, S. A. H., Iwasa, Y: On the dynamical classification of evolutionarily singular strategies. University of Leiden Preprint, Leiden, The Netherlands (1994)
Michod, R. E.: Evolution of life histories in response to age-specific mortality factors. Amer. Natur.113, 531–550 (1979) ArticleMathSciNet Google Scholar
Parker, G. A.: Arms races in evolution — an ESS to the opponent-independent costs game. J. theor. Biol.101, 619–648 (1983) Article Google Scholar
Parker, G. A.: Population consequences of evolutionarily stable strategies. In: Sibly, R. M., Smith, R. H. (eds) Behavioural Ecology: Ecological Consequences of Adaptive Behaviour, pp 33–57. Oxford: Blackwell Scientific 1985 Google Scholar
Parker, G. A., Maynard Smith, J.: Optimality theory in evolutionary biology. Nature Lond. 348, 27–33 (1990) Article Google Scholar
Pimentel, D.: Population regulation and genetic feedback. Science 159, 1432–1437 (1968) Google Scholar
Pimm, S. L., Lawton, J. H., Cohen, J. E.: Food web patterns and their consquences. Nature, Lond.350, 669–674 (1991) Article Google Scholar
Rand, D. A., Wilson, H. B.: Chaotic stochasticity: a ubiquitous source of unpredictability in epidemics. Proc. Roy. Soc. Lond. B246, 179–184 (1991) Google Scholar
Reed, J., Stenseth, N. C.: On evolutionarily stable strategies. J. theor. Biol.108, 491–508 (1984) MathSciNet Google Scholar
Rosenzweig, M. L.: Evolution of the predator isocline. Evolution27, 84–94 (1973) Article Google Scholar
Rosenzweig, M. L., Brown, J. S., Vincent, T. L.: Red Queens and ESS: the coevolution of evolutionary rates. Evol. Ecol.1, 59–94 (1987) Article Google Scholar
Roughgarden, J.: Theory of population genetics and evolutionary ecology: an introduction. New York: Macmillan 1979. Google Scholar
Roughgarden, J.: The theory of coevolution. In: Futuyma, D. J., Slatkin, M. (eds) Coevolution, pp. 33–64. Sunderland Massachusetts: Sinauer Associates 1983. Google Scholar
Roughgarden, J.: Community coevolution: a comment. Evolution41, 1130–1134 (1987) Article Google Scholar
Saloniemi, I.: A coevolutionary predator-prey model with quantitative characters. Amer. Natur.141, 880–896 (1993) Article Google Scholar
Slatkin, M., Maynard Smith, J.: Models of coevolution. Q. Rev. Biol.54, 233–263 (1979) Article Google Scholar
Slobodkin, L. B.: How to be a predator. Amer. Zool.8, 43–51 (1968) Google Scholar
Slobodkin, L. B.: Prudent predation does not require group selection. Amer. Natur.108, 665–678 (1974) Article Google Scholar
Stanley, S. M., Van Valkenburg, B., Steneck, R. S.: Coevolution and the fossil record. In: Futuyma, D. J., Slatkin, M. (eds.) Coevolution, pp. 328–349. Sunderland Massachusetts: Sinauer Associates 1983 Google Scholar
Stenseth, N. C.: Darwinian evolution in ecosystems: a survey of some ideas and difficulties together with some possible solutions. In: Castri, J. L., Karlquist, A. (eds) Complexity, language and life: mathematical approaches, pp 105–145. Berlin: Springer-Verlag 1986 Google Scholar
Stenseth, N. C., Maynard Smith, J.: Coevolution in ecosystems: Red Queen evolution or stasis? Evolution38, 870–880 (1984) Article Google Scholar
Stokes, T. K., Gurney, W. S. C., Nisbet, R. M., Blythe, S. P.: Parameter evolution in a laboratory insect population. Theor. Pop. Biol.34, 248–265 (1988) ArticleMATH Google Scholar
Takada, T., Kigami, J.: The dynamical attainability of ESS in evolutionary games. J. Math. Biol.29, 513–529 (1991) ArticleMathSciNetMATH Google Scholar
Taper, M. L., Case, T. J.: Models of character displacement and the theoretical robustness of taxon cycles. Evolution46, 317–333 (1992) Article Google Scholar
Taylor, P. D.: Evolutionary stability in one-parameter models under weak selection. Theor. Pop. Biol.36, 125–143 (1989) ArticleMATH Google Scholar
Turchin, P., Taylor, A. D.: Complex dynamics in ecological time series. Ecology73, 289–305 (1992) Article Google Scholar
van Kampen, N. G.: Stochastic processes in physics and chemistry. Amsterdam: North Holland 1981 MATH Google Scholar
Van Valen, L.: A new evolutionary law. Evol. Theory1, 1–30 (1973) Google Scholar
Vermeij, G. J.: Unsuccessful predation and evolution. Amer. Natur.120, 701–720 (1982) Article Google Scholar
Vermeij, G. J.: Intimate associations and coevolution in the sea. In: Futuyma, D. J., Slatkin, M. (eds.) Coevolution, pp. 311–327. Sunderland Massachusetts: Sinauer Associates 1983 Google Scholar
Vermeij, G. J.: Evolution and escalation: an ecological history of life. Princeton New Jersey: Princeton University Press 1987 Google Scholar
Vermeij, G. J., Covitch, A. P.: Coevolution of freshwater gastropods and their predators. Amer. Natur.112, 833–843 (1978) Article Google Scholar
Vincent, T. L.: Strategy dynamics and the ESS. In: Vincent, T. L., Mees, A. I., Jennings, L. S. (eds.) Dynamics of Complex Interconnected Biological Systems, pp. 236–262. Basel: Birkhäuser 1991 Google Scholar
West, K., Cohen, A., Baron, M.: Morphology and behaviour of crabs and gastropods from Lake Tanganyika, Africa: impllications for lacustrine predator-prey coevolution. Evolution45, 589–607 (1991) Article Google Scholar