Conditions for sympatric speciation: A diploid model incorporating habitat fidelity and non-habitat assortative mating (original) (raw)
References
Barton, N.H. and Charlesworth, B. (1984) Genetic revolutions, founder effects, and speciation.Ann. Rev. Ecol. Syst.15 133–64. Google Scholar
Barton, N.H., Jones, J.S. and Mallet, J. (1988) No barriers to speciation.Nature 336 13–14. Google Scholar
Bush, G.L. (1969) Sympatric host race formation and speciation in frugivorous flies of the genus_Rhagoletis_.Evolution23 237–51. Google Scholar
Bush, G.L. (1975) Sympatric speciation in phytophagous parasitic insects. In_Evolutionary strategies of parasitic insects_ (P.W. Price, ed.), pp. 187–206. Plenum, London. Google Scholar
Bush, G.L. (1982) What do we really know about speciation? In_Perspectives on evolution_ (R. Milkman, ed.), pp. 119–28. Sinauer Associates, Sunderland, MA. Google Scholar
Bush, G.L. (1992) A reaffirmation of Santa Rosalia, or why are there so many kinds of small animals. In_Evolutionary patterns and processes_ (D. Edwards and D.R. Lees, eds), pp. 229–49. Academic Press, New York. Google Scholar
Bush, G.L. and Howard, D.J. (1986) Allopatric and non-allopatric speciation; assumptions and evidence. In_Evolutionary processes and theory_ (S. Karlin and E. Nevo, eds), pp. 411–38. Academic Press, New York. Google Scholar
Crawford, D.J., Stuessy, T.F., Haines, D.W., Cosner, M.B., Silva, O.M. and Lopez, P. (1992) Allozyme diversity within and divergence among four species of Robinsonia (Asteraceae: Senecioneae), a genus endemic to the Jan Fernandez Islands, Chile. American Journal of Botany79 962–6 Google Scholar
De Meeus, T., Michalakis, Y., Renaud, F. and Olivieri, I. (1993) Polymorphism in heterogeneous environments, evolution of habitat selection and sympatric speciation: soft and hard selection models.Evol. Ecol.7 175–98. Google Scholar
Dickinson, H. and Antonovics, J. (1973) Theoretical considerations of sympatric divergence.Am. Nat.107 256–74. Google Scholar
Diehl, S.R. and Bush, G.L. (1989) The role of habitat preference in adaptation and speciation. In_Speciation and its consequences_ (D. Otte and J. Endler, eds), pp. 345–65. Sinauer Associates, Sunderland, MA. Google Scholar
Feder, J.L., Chilcote, C.A. and Bush, G.L. (1989) Are the apple maggot,Rhagoletis pomonella, and blueberry maggot,R. mendax, distinct species? Implications for sympatric speciation.Entomol. Exp. Appl.51 113–23. Google Scholar
Felsenstein, J. (1981) Scepticism towards Santa Rosalia, or why are there so few kinds of animals.Evolution35 124–38. Google Scholar
Fialkowski, K.R. (1988) Lottery of sympatric speciation computer model.J. Theor. Biol.130 379–90. Google Scholar
Fialkowski, K.R. (1992) Sympatric speciation: a simulation model of imperfect assortative mating.J. Theor. Biol.157 9–30. Google Scholar
Futuyma, D. (1986)Evolutionary Biology, 2nd edn. Sinauer Associates, Sunderland, MD. Google Scholar
Futuyma, D. and Mayer, G.C. (1980) Non-allopatric speciation in animals.Syst. Zool.29 254–71. Google Scholar
Gibbons, R.H. (1979) A model for sympatric speciation in_Megarhyssa_ (Hymenoptera: Ichneumonidae): competitive speciation.Am. Nat.114 719–41. Google Scholar
Grant, P.R. (1986)Ecology and Evolution of Darwin's Finches. Princeton University Press, Princeton, NJ. Google Scholar
Grula, J.W. and Taylor, O.R., Jr (1979) The inheritance of pheromone production in the sulphur butterflies_Colias eurytheme_ and_C. philodice_.Heredity42 359–71. Google Scholar
Haldane, J.B.S. (1930) A note on Fisher's theory of the origin of dominance.Am. Nat.64 87–90. Google Scholar
Heatwole, H. and Davis, D.M. (1965) Ecology of three species of parasitic insects of the genus_Megarhyssa_ (Hymenoptera: Ichneumonidae).Ecology46 140–50. Google Scholar
Hutchinson, G.E. (1968) When are species necessary? In_Population biology and evolution_ (R.C. Lewontin, ed.) pp. 177–86. Syracuse University Press, Syracuse, NY. Google Scholar
Kondrashov, A.S. (1983a) Multilocus model of sympatric speciation. I. One character.Theor. Pop. Biol.24 121–35. Google Scholar
Kondrashov, A.S. (1983b) Multilocus model of sympatric speciation. II. Two characters.Theor. Pop. Biol.24 121–35. Google Scholar
Kondrashov, A.S. (1986) Multilocus model of sympatric speciation. III. Computer simulations.Theor. Pop. Biol.29 1–15. Google Scholar
Kondrashov, A.S. and Mina, M.V. (1986) Sympatric speciation: when is it possible?Biol. J. Linn. Soc.27 201–23. Google Scholar
Lack, D. (1947)Darwin's Finches. Cambridge University Press, Cambridge. Google Scholar
Levene, H. (1953) Genetic equilibrium when more than one ecological niche is available.Am. Nat.87 331–33. Google Scholar
Liberman, U. and Feldman, M.W. (1989) The reduction principle for genetic modifiers of the migration rate. In_Mathematical evolutionary theory_ (M.W. Feldman, ed.), pp. 111–44. Princeton University Press, Princeton, NJ. Google Scholar
Maynard Smith, J. (1962) Disruptive selection, polymorphism and sympatric speciation.Nature195 60–2. Google Scholar
Maynard Smith, J. (1965) Mr. J. Maynard Smith (comments).Proc. R. Entomol. Soc. London30 22–3. Google Scholar
Maynard Smith, J. (1966) Sympatric speciation.Am. Nat.100 637–50. Google Scholar
Mayr, E. (1963)Animal Species and Evolution. Harvard University Press, Cambridge, MA. Google Scholar
Moody, M. (1981) Polymorphism with selection and genotype-dependent migration.J. Math. Biol.11 245–67. Google Scholar
Murray, M.G. (1990) Comparative morphology and mate competition of flightless male fig wasps.Anim. Behav.39 434–43. Google Scholar
Nagylaki, T. and Moody, M. (1980) Diffusion model for genotype-dependent migration.Proc. Natl Acad. Sci. USA77 4842–6. Google Scholar
Nei, M. and Li, W.H. (1973) Linkage disequilibrium in subdivided populations.Genetics75 213–19. Google Scholar
Paterson, H.E.H. (1981) The continuing search for the unknown and the unknowable: a critique of contemporary ideas on speciation.South Africa J. Sci.77 119–33. Google Scholar
Pimentel, D., Smith, G.J.C. and Soans, J.S. (1967) A population model of sympatric speciation.Am. Nat.101 493–504. Google Scholar
Rausher, M.D. (1984) The evolution of habitat preference in subdivided populations.Evolution38 596–608. Google Scholar
Rice, W.R. (1984) Disruptive selection on habitat preference and the evolution of reproductive isolation: a simulation study.Evolution38 1251–60. Google Scholar
Rice, W.R. (1987) Selection via habitat specialization: the evolution of reproductive isolation as a correlated character.Evol. Ecol.1 301–14. Google Scholar
Rice, W.R. and Salt, G.W. (1990) The evolution of reproductive isolation as a correlated character under sympatric conditions: tall evidence.Evolution44 1140–52. Google Scholar
R'Kha, S., Capy, P. and David, J.R. (1991) Host-plant specialization in the_Drosophila melanogaster_ species complex: a physiological, behavioral, and genetical analysis.Proc. Nat Acad. Sci. USA88 1835–9. Google Scholar
Roelofs, W.R., Glover, T., Tang, X., Sreng, I., Robbins, D., Eckenrode, C., Lofstedt, G., Hannon, B.S. and Bengtsson, B.O. (1987) Sex pheromone production and perception in European corn borer moths is determined by both autosomal and sex-linked genes.Proc. Natl Acad. Sci. USA84 7585–9. Google Scholar
Rosenzweig, M.L. (1978) Competitive speciation.Biol.J. Linn. Soc.10 275–89. Google Scholar
Seger, J. (1985) Intraspecific resource competition as a cause of sympatric speciation. In_Evolution_ (P.J. Greenwood, P.H. Harveyand and M. Slatkin, eds), pp. 43–53. Cambridge University Press, Cambridge. Google Scholar
Shaw, R.G. and Platenkamp, G.A.J. (1993) Quantitative genetics of response to competitors in_Nemophila menziesii_: a greenhouse study.Evolution47 801–12. Google Scholar
Slatkin, M. (1982) Pleiotropy and parapatric speciation.Evolution36 263–70. Google Scholar
Smouse, P.E. and Neel, J.V. (1977) Multivariate analysis of gametic disequilibrium in the Yanomama.Genetics85 733–52. Google Scholar
Soans, A.B., Pimentel, D. and Soans, J.S. (1974) Evolution of reproductive isolation in allopatric and sympatric populations.Am. Nat.108 117–24. Google Scholar
Sved, J.A. and Ma, O. (1970) The evolution of dominance. In_Mathematical topics in population genetics_ (K. Kojima, ed.), pp. 289–316. Springer-Verlag, New York. Google Scholar
Tauber, C.A. and Tauber, M.J. (1977) A genetic model for sympatric speciation through habitat diversification and seasonal isolation.Nature268 702–5. Google Scholar
Tauber, C.A. and Tauber, M.J. (1989) Sympatric speciation in insects: perception and perspective. In_Speciation and its consequences_ (D. Otte and J. Endler, eds), pp. 307–343. Sinauer Associates, Sunderland, MA. Google Scholar
Taylor, O.R., Jr (1972) Random vs. non-random mating in the sulfur butterflies,Colias eurytheme and_C. philodice_ (Lepidoptera, Pieridae).Evolution26 344–56. Google Scholar
Templeton, A.R. (1989) The meaning of species and speciation: a genetic perspective. In_Speciation and its consequences_ (D. Otte and J. Endler, eds), pp. 3–27. Sinauer Associates, Sunderland, MA. Google Scholar
Wade, M.J., Patterson, H., Chang, N. and Johnson, N.A. (1994) Postcopulatory, prezygotic isolation in flour beetles.Heredity72 163–7. Google Scholar
White, M.J.D. (1978)Modes of Speciation. W.H. Freeman, San Francisco. Google Scholar
Wood, T.K. and Guttman, S.I. (1983)Enchenopa binotata complex: sympatric speciation?Science220 310–12. Google Scholar