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  • Abrams, P.A. (1975) Limiting similarity and the form of the competition coefficient. Theoretical Population Biology 8, 356375.
  • Abrams, P.A. (1980) Are competition coefficients constant? Inductive vs. deductive approaches. American Naturalist 116, 730735.
  • Abrams, P.A. (1983) The theory of limiting similarity. Annual Review of Ecology and Systematics 14, 359376.
  • Abrams, P.A. (1986) Character displacement and niche shift analyzed using consumer–resource models of competition. Theoretical Population Biology 29, 107160.
  • Abrams, P.A. (1991) The effects of interacting species on predator–prey coevolution. Theoretical Population Biology 39, 241262.
  • Abrams, P.A. (1998) High competition with low similarity and low competition with high similarity: exploitative and apparent competition in consumer–resource systems. American Naturalist 152, 114128.
  • Abrams, P.A. (2000) Character shifts of species that share predators. American Naturalist 156, S45S61.
  • Abrams, P.A. (2006) The effects of switching behavior on the evolutionary diversification of generalist consumers. American Naturalist 168, 645659.
  • Abrams, P.A. & Chen, X. (2002) The evolution of traits affecting resource acquisition and predator vulnerability: character displacement under real and apparent competition. American Naturalist 160, 692704.
  • Abrams, P.A. & Matsuda, H. (1993) Effects of adaptive predatory and antipredator behavior in a two-prey–one-predator system. Evolutionary Ecology 7, 312326.
  • Abrams, P.A. & Matsuda, H. (1997) Prey adaptation as a cause of predator–prey cycles. Evolution 51, 17421750.
  • Abrams, P.A. & Vos, M. (2003) Adaptation, density dependence and the responses of trophic level abundances to mortality. Evolutionary Ecology Research 5, 11131132.
  • Abrams, P.A., Matsuda, H. & Harada, Y. (1993) Evolutionarily unstable fitness maxima and stable fitness minima of continuous traits. Evolutionary Ecology 7, 465487.
  • Agrawal, A.A. (2003) Community genetics: new insights into community ecology by integrating population genetics. Ecology 84, 543544.
  • Antonovics, J. (1976) The input from population genetics: ‘the new ecological genetics’. Systematic Botany 1, 233245.
  • Van Baalen, M. & Sabelis, M.W. (1993) Coevolution of patch selection strategies of predator and prey and the consequences for ecological stability. American Naturalist 142, 646670.
  • Bailey, J.K., Schweitzer, J.A., Rehill, B.J., Lindroth, R.L., Martinsen, G.D. & Whitham, T.G. (2004) Beavers as molecular geneticists: a genetic basis to the foraging of an ecosystem engineer. Ecology 85, 603608.
  • Bascompte, J., Jordano, P. & Olesen, J.M. (2006) Asymmetric coevolutionary networks facilitate biodiversity maintenance. Science 312, 431433.
  • Bohannan, B.J.M. & Lenski, R.E. (2000) Linking genetic change to community evolution: insights from studies of bacteria and bacteriophage. Ecology Letters 3, 362377.
  • Bonsall, M.B., Jansen, V.A.A. & Hassell, M.P. (2004) Life history trade-offs assemble ecological guilds. Science 306, 111114.
  • Brown, J.H., Gillooly, J.F., Allen, A.P., Savage, V.M. & West, G.B. (2004) Toward a metabolic theory of ecology. Ecology 85, 17711789.
  • Brown, W.L. & Wilson, E.O. (1956) Character displacement. Systematic Zoology 5, 4964.
  • Bürger, R. & Gimelfarb, A. (2004) The effects of intraspecific competition and stabilizing selection on a polygenic trait. Genetics 167, 14251443.
  • Bürger, R. & Schneider, K.A. (2006) Intraspecific competitive divergence and convergence under assortative mating. American Naturalist 167, 190205.
  • Caldarelli, G., Higgs, P.G. & McKane, A.J. (1998) Modelling coevolution in multispecies communities. Journal of Theoretical Biology 193, 345358.
  • Case, T.J. & Taper, M.L. (2000) Interspecific competition, environmental gradients, gene flow, and the coevolution of species’ borders. American Naturalist 155, 583605.
  • Chitty, D. (1960) Population processes in the vole and their relevance to general theory. Canadian Journal of Zoology 38, 99113.
  • Coulson, T., Benton, T.G., Lundberg, P., Dall, S.R.X. & Kendall, B.E. (2006) Putting evolutionary biology back in the ecological theatre: a demographic framework mapping genes to communities. Evolutionary Ecology Research 8, 11551171.
  • Damuth, J. (1981) Population density and body size in mammals. Nature 290, 699700.
  • Day, T. (2000) Competition and the effect of spatial resource heterogeneity on evolutionary diversification. American Naturalist 155, 790803.
  • Dieckmann, U. & Doebeli, M. (1999) On the origin of species by sympatric speciation. Nature 400, 354357.
  • Dieckmann, U. & Law, R. (1996) The dynamical theory of coevolution: a derivation from stochastic ecological processes. Journal of Mathematical Biology 34, 579612.
  • Doebeli, M. (1996) An explicit genetic model for ecological character displacement. Ecology 77, 510520.
  • Doebeli, M. & Dieckmann, U. (2000) Evolutionary branching and sympatric speciation caused by different types of ecological interactions. American Naturalist 156, S77S101.
  • Drossel, B., Higgs, P.G. & McKane, A.J. (2001) The influence of predator–prey population dynamics on the long-term evolution of food web structure. Journal of Theoretical Biology 208, 91107.
  • Duffy, M.A. & Sivars-Becker, L. (2007) Rapid evolution and ecological host–parasite dynamics. Ecology Letters 10, 4453.
  • Dwyer, G., Levin, S.A. & Buttel, L. (1990) A simulation model of the population dynamics and evolution of myxomatosis. Ecological Monographs 60, 423447.
  • Egas, M., Sabelis, M.W. & Dieckmann, U. (2005) Evolution of specialization and ecological character displacement of herbivores along a gradient of plant quality. Evolution 59, 507520.
  • Fenner, F. (1983) Biological control, as exemplified by smallpox eradication and myxomatosis. Proceedings of the Royal Society of London, Series B 218, 259285.
  • Fussmann, G.F., Ellner, S.P. & Hairston, N.G. (2003) Evolution as a critical component of plankton dynamics. Proceedings of the Royal Society of London, Series B 270, 10151022.
  • Fussmann, G.F., Ellner, S.P., Hairston, N.G., Jones, L.E., Shertzer, K.W. & Yoshida, T. (2005) Ecological and evolutionary dynamics of experimental plankton communities. Advances in Ecological Research 37, 221243.
  • Geritz, S.A.H., Kisdi, E., Meszena, G. & Metz, J.A.J. (1998) Evolutionarily singular strategies and the adaptive growth and branching of the evolutionary tree. Evolutionary Ecology 12, 3557.
  • Gomulkiewicz, R. (1998) Game theory, optimization, and quantitative genetics. Game Theory and Animal Behavior (eds L.A.Dugatkin and H.K.Reeve), pp. 283303. Oxford University Press, Oxford, UK.
  • Grant, P.R. (1972) Convergent and divergent character displacement. Biological Journal of the Linnean Society 4, 3968.
  • Grant, P.R. & Grant, B.R. (2002) Unpredictable evolution in a 30-year study of Darwin's finches. Science 296, 707711.
  • Grant, P.R. & Grant, B.R. (2006) Evolution of character displacement in Darwin's finches. Science 313, 224226.
  • Hairston, N.G., Ellner, S.P., Geber, M.A., Yoshida, T. & Fox, J.A. (2005) Rapid evolution and the convergence of ecological and evolutionary time. Ecology Letters 8, 11141127.
  • Hilbert, D.W., Swift, D.M., Detling, J.K. & Dyer, M.I. (1981) Relative growth rates and the grazing optimization hypothesis. Oecologia 51, 1418.
  • Hochberg, M.E. & Holt, R.D. (1995) Refuge evolution and the population dynamics of coupled host–parasitoid associations. Evolutionary Ecology 9, 633661.
  • Hubbell, S.P. (2006) Neutral theory and the evolution of ecological equivalence. Ecology 87, 13871398.
  • Jansen, V.A.A. & Mulder, G. (1999) Evolving biodiversity. Ecology Letters 2, 379386.
  • Kinnison, M.T. & Hairston, N.G.H. (2007) Eco-evolutionary conservation biology: contemporary evolution and the dynamics of persistence. Functional Ecology 21, in press.
  • Lande, R. (1976) Natural selection and random genetic drift in phenotypic evolution. Evolution 30, 314334.
  • Levin, S.A. (1972) Mathematical analysis of the genetic feedback mechanism. American Naturalist 106, 145164.
  • Levin, S.A. & Udovic, J.D. (1977) A mathematical model of coevolving populations. American Naturalist 111, 657675.
  • Levins, R. (1968) Evolution in Changing Environments. Princeton University Press, Princeton, NJ, USA.
  • Loeuille, N. & Loreau, M. (2004) Nutrient enrichment and food chains: can evolution buffer top-down control? Theoretical Population Biology 65, 285298.
  • Loeuille, N. & Loreau, M. (2005) Evolutionary emergence of size-structured food webs. Proceedings of the National Academy of Sciences, USA 102, 57615766.
  • Loeuille, N. & Loreau, M. (2006) Evolution of body size in food webs: does the energetic equivalence rule hold? Ecology Letters 9, 171178.
  • Loeuille, N., Loreau, M. & Ferrière, R. (2002) Consequences of plant–herbivore coevolution on the dynamics and functioning of ecosystems. Journal of Theoretical Biology 217, 369381.
  • Loreau, M. (1998) Ecosystem development explained by competition within and between material cycles. Proceedings of the Royal Society of London, Series B 265, 3338.
  • Loreau, M. (2002) Evolutionary processes in ecosystems. Encyclopedia of Global Environmental Change, Vol. 2: The Earth System: Biological and Ecological Dimensions of Global Environmental Change (eds H.A.Mooney and J.Canadell), pp. 292297. John Wiley & Sons, London.
  • Lotka, A.J. (1922) Contribution to the energetics of evolution. Proceedings of the National Academy of Sciences, USA 8, 147151.
  • Lotka, A.J. (1925) Elements of Physical Biology (reprinted as Elements of Mathematical Biology, 1956). Dover Publications, New York.
  • MacArthur, R.H. (1972) Geographical Ecology. Harper & Row, New York.
  • May, R.M. & Anderson, R.M. (1983) Epidemiology and genetics in the coevolution of parasites and hosts. Proceedings of the Royal Society of London, Series B 219, 281313.
  • De Mazancourt, C. & Loreau, M. (2000) Grazing optimization, nutrient cycling, and spatial heterogeneity of plant–herbivore interactions: should a palatable plant evolve? Evolution 54, 8192.
  • De Mazancourt, C., Loreau, M. & Dieckmann, U. (2001) Can the evolution of plant defense lead to plant–herbivore mutualism? American Naturalist 158, 109123.
  • De Mazancourt, C., Loreau, M. & Dieckmann, U. (2005) Understanding mutualism when there is adaptation to the partner. Journal of Ecology 93, 305314.
  • McKane, A.J. (2004) Evolving complex food webs. European Physical Journal B 38, 287295.
  • McNaughton, S.J. (1979) Grazing as an optimization process: grass–ungulate relationships in the Serengeti. American Naturalist 113, 691703.
  • Meyer, J.R., Ellner, S.P., Hairston, N.G. Jr, Jones, L.E. & Yoshida, T. (2006) Prey evolution on the time scale of predator–prey dynamics revealed by allele-specific quantitative PCR. Proceedings of the National Academy of Sciences, USA 103, 1069010695.
  • Neuhauser, C., Andow, D.A., Heimpel, G.E., May, G., Shaw, R.G. & Wagenius, S. (2003) Community genetics: expanding the synthesis of ecology and genetics. Ecology 84, 545558.
  • Nuismer, S.L. & Doebeli, M. (2004) Genetic correlations and the coevolutionary dynamics of three-species systems. Evolution 58, 11651177.
  • Odling-Smee, F.J., Laland, K.N. & Feldman, M.W. (2003) Niche Construction: The Neglected Process in Evolution. Princeton University Press, Princeton, NJ, USA.
  • Odum, H.T. (1983) Systems Ecology. John Wiley & Sons, New York.
  • Odum, H.T. & Pinkerton, R.C. (1955) Time's speed regulator: the optimum efficiency for maximum power output in physical and biological systems. American Scientist 43, 331343.
  • Owen, D.F. & Wiegert, R.G. (1976) Do consumers maximize plant fitness? Oikos 27, 488492.
  • Pease, C.M. (1984) On the evolutionary reversal of competitive dominance. Evolution 38, 10991115.
  • Pimentel, D. (1961) Animal population regulation by the genetic feed-back mechanism. American Naturalist 95, 6579.
  • Pimentel, D. (1968) Population regulation and genetic feedback. Science 159, 14321437.
  • Pimentel, D., Nagel, W.P. & Madden, J.L. (1963) Space–time structure of the environment and the survival of parasite–host systems. American Naturalist 97, 141167.
  • Puccia, C.J. & Levins, R. (1985) Qualitative Modeling of Complex Systems. Harvard University Press, Cambridge, MA, USA.
  • Quince, C., Higgs, P.G. & McKane, A.J. (2005) Topological structure and interaction strengths in model food webs. Ecological Modelling 187, 389412.
  • Roughgarden, J. (1979) Theory of Population Genetics and Evolutionary Ecology: An Introduction. Macmillan, New York.
  • Rundle, H.D., Vamosi, S.M. & Schluter, D. (2003) Experimental test of predation's effect on divergent selection during character displacement in sticklebacks. Proceedings of the National Academy of Sciences, USA 100, 1494314948.
  • Saccheri, I. & Hanski, I. (2006) Natural selection and population dynamics. Trends in Ecology and Evolution 21, 341347.
  • Schaffer, W.M. & Rosenzweig, M.L. (1978) Homage to the Red Queen. I. Coevolution of predators and their victims. Theoretical Population Biology 14, 135157.
  • Scheffer, M. & Van Nes, E.H. (2006) Self-organized similarity, the evolutionary emergence of groups of similar species. Proceedings of the National Academy of Sciences, USA 103, 62306235.
  • Schreiber, S.J. & Vejdani, M. (2006) Handling time promotes the coevolution of aggregation in predator–prey systems. Proceedings of the Royal Society of London, Series B 273, 185191.
  • Slatkin, M. (1980) Ecological character displacement. Ecology 61, 163177.
  • Taper, M.L. & Case, T.J. (1985) Quantitative genetic models for the coevolution of character displacement. Ecology 66, 355371.
  • Taper, M.L. & Case, T.J. (1992) Models of character displacement and the theoretical robustness of taxon cycles. Evolution 46, 317333.
  • Thompson, J.N. (1998) Rapid evolution as an ecological process. Trends in Ecology and Evolution 13, 329332.
  • Tuda, M. (1998) Evolutionary character changes and population responses in an insect host–parasitoid experimental system. Researches on Population Ecology 40, 293299.
  • Tuda, M. & Iwasa, Y. (1998) Evolution of contest competition and its effect on host–parasitoid dynamics. Evolutionary Ecology 12, 855870.
  • Urban, M.C. & Skelly, D.K. (2006) Evolving metacommunities: toward an evolutionary perspective on metacommunities. Ecology 87, 16161626.
  • Vellend, M. (2006) The consequences of genetic diversity in competitive communities. Ecology 87, 304311.
  • Vermeij, G.J. (1987) Evolution and Escalation: An Ecological History of Life. Princeton University Press, Princeton, NJ, USA.
  • Whitham, T.G., Bailey, J.K., Schweitzer, J.A. et al. (2006) A framework for community and ecosystem genetics: from genes to ecosystems. Nature Reviews Genetics 7, 510523.
  • Wootton, J.T. (1994) The nature and consequences of indirect effects in ecological communities. Annual Review of Ecology and Systematics 25, 443466.
  • Wright, S. (1937) The distribution of gene frequencies in populations. Proceedings of the National Academy of Sciences, USA 23, 307320.
  • Yamauchi, A. & Yamamura, N. (2005) Effects of defense evolution and diet choice on population dynamics in a one-predator–two-prey system. Ecology 86, 25132524.
  • Yoshida, T., Jones, L.E., Ellner, S.P., Fussmann, G.F. & Hairston, N.G. (2003) Rapid evolution drives ecological dynamics in a predator–prey system. Nature 424, 303306.
  • Yoshida, T., Hairston, N.G. & Ellner, S.P. (2004) Evolutionary trade-off between defence against grazing and competitive ability in a simple unicellular alga, Chlorella vulgaris. Proceedings of the Royal Society of London, Series B 271, 19471953.