SEARCH

SEARCH BY CITATION

References

  • Abrams, P.A. 2001. Modelling the Adaptive Dynamics of traits involved in inter- and intraspecific interactions: an assessment of three methods. Ecol. Lett. 4: 166175.
  • Abrams, P.A., Harada, Y. & Matsuda, H. 1993a. On the relationship between quantitative genetic and ESS models. Evolution 47: 982985.
  • Abrams, P.A., Matsuda, H. & Harada, Y. 1993b. Evolutionarily unstable fitness maxima and stable fitness minima of continuous traits. Evol. Ecol. 7: 465487.
  • Altenberg, L. 1991. Chaos from linear frequency-dependent selection. Am. Nat. 138: 5168.
  • Arnold, S.J., Pfrender, M.E. & Jones, A.G. 2001. The adaptive landscape as a conceptual bridge between micro- and macroevolution. Genetica 112: 932.
  • Asmussen, M.A. 1983. Density-dependent selection incorporating intraspecific competition. Genetics 103: 335350.
  • Asmussen, M.A. & Basnayake, E. 1990. Frequency-dependent selection: the high potential for permanent genetic variation in the diallelic, pairwise interaction model. Genetics 125: 215230.
  • Avise, J.C. 2000. Phylogeography. Harvard University Press, Cambridge, MA.
  • Barton, N.H. & Turelli, M., 1987. Adaptive landscapes, genetic distance and the evolution of quantitative characters. Genet. Res. 49: 157173.
  • Bolnick, D.I. & Doebeli, M. 2003. Sexual dimorphism and adaptive speciation: two sides of the same ecological coin. Evolution 57: 24332449.
  • Bulmer, M.G. 1974. Density-dependent selection and character displacement. Am. Nat. 108: 4558.
  • Bulmer, M.G. 1980. Mathematical Theory of Quantitative Genetics. Oxford University Press, New York.
  • Bürger, R. 2002a. On a genetic model of intraspecific competition and stabilizing selection. Am. Nat. 160: 661682.
  • Bürger, R. 2002b. Additive genetic variation under intraspecific competition and stabilizing selection: a two-locus study. Theor. Popul. Biol. 61: 197213.
  • Caisse, M. & Antonovics, J. 1978. Evolution of reproductive isolation in clinal populations. Heredity 40: 371384.
  • Christiansen, F.B. 1991. On conditions for evolutionary stability for a continuously varying character. Am. Nat. 138: 3750.
  • Christiansen, F.B. & Loeschcke, V. 1980. Evolution and intraspecific exploitative competition I. One-locus theory for small additive gene effects. Theor. Popul. Biol. 18: 297313.
  • Cockerham, C.C., Prout, T., Young, S.S. & Burrows, P.M., 1972: Frequency-dependent selection in randomly mating populations. Am. Nat. 106: 493515.
  • Crosby, J.L. 1970. The evolution of genetic discontinuity: computer models of the selection of barriers to interbreeding between subspecies. Heredity 25: 253297.
  • Crow, J.F. & Kimura, M. 1964. The theory of genetic loads. Proc. XIth Int. Congr. Genet. 2: 495505.
  • Crow, J.F. & Kimura, M. 1970. An Introduction to Population Genetics Theory. Harper and Row, New York.
  • Dickinson, H. & Antonovics, J. 1973. Theoretical considerations of sympatric divergence. Am. Nat. 107: 256274.
  • 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. J. Math. Biol. 34: 579612.
  • Diehl, S.R. & Bush, G.L. 1989. The role of habitat preference in adaptation and speciation. In: Speciation and Its Consequences (D.Otte & J. A.Endler, eds), pp. 345365. Sinauer, Sunderland, MA.
  • Doebeli, M. & Dieckmann, U. 2003. Speciation along environmental gradient. Nature 421: 259264.
  • van Dooren, T.J.M. 1999. The evolutionary ecology of dominance-recessivity. J. Theor. Biol. 198: 519532.
  • van Dooren, T.J.M. 2005. Adaptive dynamics for Mendelian genetics. In: Elements of Adaptive Dynamics (U.Dieckmann & J. A. J.Metz, eds).Cambridge University Press, Cambridge. (in press).
  • van Doorn, G.S. & Weissing, F.J. 2001. Ecological versus sexual selection models of sympatric speciation: a synthesis. Selection 2: 1740.
  • van Doorn, G.S., Luttikhuizen, P.C. & Weissing, F.J. 2001. Sexual selection at the protein level drives the extraordinary divergence of sex-related genes during sympatric speciation. Proc. R. Soc. Lond. B 268: 21552161.
  • Endler, J.A. 1977. Geographic Variation, Speciation and Clines. Princeton University Press, Princeton, NJ.
  • Eshel, I. 1983. Evolutionary and continuous stability. J. Theor. Biol. 103: 99111.
  • Eshel, I. & Motro, U. 1981. Kin selection and strong evolutionary stability of mutual help. Theor. Popul. Biol. 21: 430439.
  • Fear, K.K. & Price, T. 1998. The adaptive surface in ecology. Oikos 82: 440448.
  • Felsenstein, J. 1981. Skepticism towards Santa Rosalia, or why are there so few kinds of animals? Evolution 35: 124138.
  • Fisher, R.A.. 1930. The Genetical Theory of Natural Selection. Oxford University Press, Oxford.
  • Gavrilets, S. 1997. Evolution and speciation on holey adaptive landscapes. Trends Ecol. Evol. 12: 307312.
  • Gavrilets, S. 2003. Models of speciation: what have we learned in 40 years? Evolution 57: 21972215.
  • Gavrilets, S. 2004. Fitness Landscapes and the Origin of Species. Princeton University Press, Princeton, NJ.
  • Gavrilets, S. & Waxman, D. 2002. Sympatric speciation by sexual conflict. Proc. Natl Acad. Sci. USA 99: 1053310538.
  • Geritz, S.A.H. & Kisdi, E. 2000. Adaptive Dynamics in diploid, sexual populations and the evolution of reproductive isolation. Proc. R. Soc. Lond. B 267: 16711678.
  • Geritz, S.A.H., Kisdi, É., Meszéna, G. & Metz, J.A.J. 1998: Evolutionarily singular strategies and the adaptive growth and branching of the evolutionary tree. Evol. Ecol. 12: 3557.
  • Geritz, S.A.H., Gyllenberg, M., Jacobs, F.J.A. & Parvinen, K. 2002. Invasion dynamics and attractor inheritance. J. Math. Biol. 44: 548560.
  • Ginzburg, L.R. 1983. Theory of Natural Selection and Population Growth. Benjamin Cummings Pub. Co., Menlo Park, CA.
  • Haldane, J.B.S. 1927. A mathematical theory of natural and artificial selection. V. Selection and mutation. Proc. Camb. Philos. Soc. 23: 838844.
  • Hofbauer, J. & Sigmund, K. 1990. Adaptive Dynamics and evolutionary stability. Appl. Math. Lett. 3: 7579.
  • Kimura, M. 1983. The Neutral Theory of Molecular Evolution. Cambridge University Press, Cambridge.
  • Kingman, J.F.C. 1978. A simple model for the balance between selection and mutation. J. Appl. Probab. 15: 112.
  • Kisdi, E & Geritz, S.A.H. 1999. Adaptive Dynamics in allele space: evolution of genetic polymorphism by small mutations in a heterogeneous environment. Evolution 53: 9931008.
  • Kostitzin, V.A. 1937. Mathematical Biology. G.G. Harrap & Company Ltd, London, Toronto.
  • Lande, R. 1976. Natural selection and random genetic drift in phenotypic evolution. Evolution 30: 314334.
  • Lewontin, R.C., Ginzburg, L.R. & Tuljapurkar, S.D. 1978. Heterosis as an explanation for large amounts of genetic polymorphism. Genetics 88: 149169.
  • Ludwig, W. 1950. Zur theorie der Konkurrenz. Die Annidation (Einnischung) als funfter Evolutionsfaktor. Zool. Anz. (Ergänzungsband zu Band) 145: 516537.
  • Marks, R.W. & Spencer, H.G. 1991. The maintenance of single-locus polymorphism. II. The evolution of fitnesses and allele frequencies. Am. Nat. 138: 13541371.
  • Matessi, C. & DiPasquale, C. 1996. Long-term evolution of multilocus traits. J. Math. Biol. 34: 613653.
  • Matessi, C., Gimelfarb, A. & Gavrilets, S. 2001. Long term buildup of reproductive isolation promoted by disruptive selection: how far does it go? Selection 2: 4164.
  • Matsuda, H. 1985. Evolutionarily stable strategies for predator switching. J. Theor. Biol. 115: 351366.
  • Maynard Smith, J. 1989. Evolutionary Genetics. Oxford University Press, Oxford.
  • Metz, J.A.J., Nisbet, R.M. & Geritz, S.A.H. 1992. How should we define fitness for general ecological scenarios. Trends Ecol. Evol. 7: 198202.
  • Metz, J.A.J., Geritz, S.A.H., Meszena, G., Jacobs, F.J.A. & van Heerwaarden, J.S. 1996. Adaptive Dynamics, a geometrical study of the consequences of nearly faithful reproduction. In: Stochastic and Spatial Structures of Dynamical Systems (S. J.vanStrien & S. M.Verdyan Lunel, eds), pp. 183231. North Holland, Amsterdam, The Netherlands.
  • Mizera, F. & Meszéna, G. 2003. Spatial niche packing, character displacement and adaptive speciation along an environmental gradient. Evol. Ecol. Res. 2: 363382.
  • Moore, W.S. 1979. A single locus mass-action model of assortative mating, with comments on the process of speciation. Heredity 42: 173186.
  • Moore, W.S. 1981. Assortative mating genes selected along a gradient. Heredity 46: 191195.
  • Mylius, S.D. & Diekmann, O. 2001. The resident strikes back: invader-induced switching of resident attractor. J. Theor. Biol. 211: 297311.
  • Nowak, M & Sigmund, K. 1990. the Evolution of stochastic strategies in the prisoner's dilemma. Acta Appl. Math. 20: 247265.
  • Orr, H.A. 1998. The population genetics of adaptation: the distribution of factors fixed during adaptive evolution. Evolution 52: 935949.
  • Orr, H.A. 1999. The evolutionary genetics of adaptation: a simulation study. Genet. Res. 74: 207214.
  • Provine, W.B. 1971. The Origins of Theoretical Population Genetics. Chicago University Press, Chicago.
  • Provine, W.B. 1986. Sewall Wright and Evolutionary Biology. University of Chicago Press, Chicago.
  • Reed, J & Stenseth, N. 1984. On evolutionarily stable strategies. J. Theor. Biol. 108: 491508.
  • Rice, W.R. 1984. Disruptive selection on habitat preferences and the evolution of reproductive isolation. Evolution 38: 12511260.
  • Roughgarden, J. 1972. Evolution of niche width. Am. Nat. 106: 683718.
  • Roughgarden, J. 1979. Theory of Population Genetics and Evolutionary Ecology: An Introduction. Macmillan, New York.
  • Schaffer, W. 1977. Evolution, population dynamics, and stability: a comment. Theor. Popul. Biol. 11: 326329.
  • Slatkin, M. 1979a. Frequency- and density-dependent selection on a quantitative character. Genetics 93: 755771.
  • Slatkin, M. 1979b. The evolutionary response to frequency- and density-dependent interactions. Am. Nat. 114: 384398.
  • Slatkin, M. 1980. Ecological character displacement. Ecology 61: 163177.
  • Spencer, H.G. & Marks, R.W. 1988. The maintenance of single-locus polymorphism. 1. Numerical studies of a viability selection model. Genetics 120: 605613.
  • Spencer, H.G. & Marks, R.W. 1992. The maintenance of single-locus polymorphism. 4. Models with mutation from existing alleles. Genetics 130: 211221.
  • Taylor, P.D. 1989. Evolutionary stability in one-parameter models under weak selection. Theor. Popul. Biol. 36: 125143.
  • van Tienderen, P.H. & de Jong, G. 1986. Sex-ration under the haystack model – polymorphism may occur. J. Theor. Biol. 122: 6981.
  • Turelli, M. & Ginzburg, L.R. 1983. Should individual fitness increase with heterozygosity? Genetics 104: 191209.
  • Udovic, D. 1980. Frequency-dependent selection, disruptive selection, and the evolution of reproductive isolation. Am. Nat. 116: 621641.
  • Vincent, T.L. & Brown, J.S. 1988. The evolution of ESS theory. Ann. Rev. Ecol. Syst. 19: 423443.
  • Waxman, D. & Peck, J. 1999. Sex and adaptation in a changing environment. Genetics 153: 10411053.
  • Welch, J. & Waxman, D. 2003. Modularity and the cost of complexity. Evolution 57: 17231734.
  • Wilson, D.S. & Turelli, M. 1986. Stable underdominance and the evolutionary invasion of empty niches. Am. Nat. 127: 835850.
  • Wright, S. 1932. The roles of mutation, inbreeding, crossbreeding and selection in evolution. In: Proceedings of the Sixth International Congress on Genetics (Jones, ed.), Austin, TX, Vol. 1, pp. 356366.
  • Wright, S. 1935. Evolution in populations in approximate equilibrium. J. Genet. 30: 257266.
  • Wright, S. 1988. Surfaces of selective value revisited. Am. Nat. 131: 115123.
  • Zeng, Z.-B. & Cockerham, C.C. 1993. Mutation models and quantitative genetic variation. Genetics 133: 729736.