Spatial self-structuring accelerates adaptive speciation in sexual populations

Evolutionary Ecology Research

Volumn 14, Issue 5, 2012, Pages 583-599

  Fazalova, Varvara ^a,b   Dieckmann, Ulf ^a  

^a INTERNATIONAL INSTITUTE FOR APPLIED SYSTEMS ANALYSIS   (Austria)

^b LIMNOLOGICAL INSTITUTE   (Russian Federation)

Author keywords

Adaptive speciation; Assortative mating; Frequency dependent selection; Homogeneous habitat; Mating cost; Multiple loci; Spatial self structuring; Waiting time until speciation

Indexed keywords

EID: 84873619953     PISSN: 15220613     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (55)

1. Bolnick, D.I. 2004. Waiting for sympatric speciation. Evolution, 58: 895-899.
2. Bürger, R. and Schneider, K.A. 2006. Intraspecific competitive divergence and convergence under assortative mating. Am. Nat., 167: 190-205.
3. Bürger, R., Schneider, K.A. and Willensdorfer, M., 2006. The conditions for speciation through intraspecific competition. Evolution, 60: 2185-2206.
4. Day, T. 2000. Sexual selection and the evolution of costly female preferences: spatial effects. Evolution, 54: 715-730.
5. Day, T. 2001. Population structure inhibits evolutionary diversification under competition for resources. Genetica, 112/113: 71-86.
6. Dieckmann, U. and Doebeli, M. 1999. On the origin of species by sympatric speciation. Nature, 400: 354-357.
7. Dieckmann, U. and Doebeli, M. 2004. Adaptive dynamics of speciation: sexual populations. In Adaptive Speciation (U. Dieckmann, M. Doebeli, J.A.J. Metz and D. Tautz, eds.), pp. 76-111. Cambridge: Cambridge University Press.
8. Dieckmann, U., Doebeli, M., Metz, J.A.J. and Tautz, D., eds. 2004. Adaptive Speciation. Cambridge: Cambridge University Press.
9. Dobzhansky, T.G. 1951. Genetics and the Origin of Species, 3rd edn. New York: Columbia University Press.
10. Doebeli, M. 1996. A quantitative genetic competition model for sympatric speciation. J. Evol. Biol., 9: 893-909.
11. Doebeli, M. and Dieckmann, U. 2003. Speciation along environmental gradients. Nature, 421: 259-264.
12. Doebeli, M. and Dieckmann, U. 2004. Adaptive dynamics of speciation: spatial structure. In Adaptive Speciation (U. Dieckmann, M. Doebeli, J.A.J. Metz and D. Tautz, eds.), pp. 140-167. Cambridge: Cambridge University Press.
13. Doebeli, M. and Dieckmann, U. 2005. Adaptive dynamics as a mathematical tool for studying the ecology of speciation processes. J. Evol. Biol., 18: 1194-1200.
14. Doebeli, M., Blok, H.J., Leimar, O. and Dieckmann, U. 2007. Multimodal pattern formation in phenotype distributions of sexual populations. Proc. R. Soc. Lond. B, 274: 347-357.
15. Drossel, B. and McKane, A. 2000. Competitive speciation in quantitative genetic models. J. Theor. Biol., 204: 467-478.
16. Endler, J.A. 1977. Geographic Variation, Speciation, and Clines. Princeton, NJ: Princeton University Press.
17. Felsenstein, J. 1981. Skepticism towards Santa Rosalia, or why are there so few kinds of animals? Evolution, 35: 124-138.
18. Gavrilets, S. and Vose, A. 2005. Dynamic patterns of adaptive radiation. Proc. Natl. Acad. Sci. USA, 102: 18040-18045.
19. Gavrilets, S., Li, H. and Vose, M.D. 1998. Rapid parapatric speciation on holey adaptive landscapes. Proc. R. Soc. Lond. B, 265: 1483-1489.
20. Gavrilets, S., Li, H. and Vose, M.D. 2000. Patterns of parapatric speciation. Evolution, 54: 1126-1134
21. Gillespie, D.T. 1976. A general method for numerically simulating the stochastic time evolution of coupled chemical reactions. J. Comp. Phys., 22: 403-434.
22. Gourbiere, S. 2004. How do natural and sexual selection contribute to sympatric speciation? J. Evol. Biol., 17: 1297-1309.
23. Heinz, S., Mazzucco, R. and Dieckmann, U. 2009. Speciation and the evolution of dispersal along environmental gradients. Evol. Ecol. Res., 23: 53-70.
24. Kawata, M. 2002. Invasion of vacant niches and subsequent sympatric speciation. Proc. R. Soc. Lond. B, 269: 55-63.
25. Kirkpatrick, M. and Nuismer, S.L. 2004. Sexual selection can constrain sympatric speciation. Proc. R. Soc. Lond. B, 271: 687-693.
26. Kondrashov, A.S. and Kondrashov, F.A. 1999. Interactions among quantitative traits in the course of sympatric speciation. Nature, 400: 351-354.
27. Kopp, M. and Hermisson, J. 2008. Competitive speciation and costs of choosiness. J. Evol. Biol., 21: 1005-1023.
28. Lion, S. and van Baalen, M. 2008. Self-structuring in spatial evolutionary ecology. Ecol. Lett., 11: 277-295.
29. Mágori, K., Szabó, P., Mizera, F. and Meszéna, G. 2005. Adaptive dynamics on a lattice: role of spatiality in competition, co-existence and evolutionary branching. Evol. Ecol. Res., 7: 1-21.
30. Mallet, J. 2008. Hybridization, ecological races and the nature of species: empirical evidence for the ease of speciation. Phil. Trans. R. Soc. Lond. B, 363: 2971-2986.
31. Mallet, J., Meyer, A., Nosil, P. and Feder, J.L. 2009. Space, sympatry and speciation. J. Evol. Biol., 22: 2332-2341.
32. Matessi, C., Gimelfarb, A. and Gavrilets, S. 2002. Long-term buildup of reproductive isolation promoted by disruptive selection: how far does it go? Selection, 2: 41-64.
33. Maynard Smith, J. 1966. Sympatric speciation. Am. Nat., 100: 637-650.
34. Mayr, E. 1942. Systematics and the Origin of Species. New York: Columbia University Press.
35. Mayr, E. 1963. Animal Species and Evolution. Cambridge, MA: Harvard University Press.
36. Mizera, F. and Meszéna, G. 2003. Spatial niche packing, character displacement and adaptive speciation along an environmental gradient. Evol. Ecol. Res., 5: 363-382.
37. Noest, A.J. 1997. Instability of the sexual continuum. Proc. R. Soc. Lond. B, 264: 1389-1393.
38. Otto, S.P., Servedio, M.R. and Nuismer, S.L. 2008. Frequency-dependent selection and the evolution of assortative mating. Genetics, 179: 2091-2112.
39. Payne, J.L., Mazzucco, R. and Dieckmann, U. 2011. The evolution of conditional dispersal and reproductive isolation along environmental gradients. J. Theor. Biol., 273: 147-155.
40. Pennings, P.S., Kopp, M., Meszéna G., Dieckmann U. and Hermisson J. 2008. An analytically tractable model for competitive speciation. Am. Nat., 171: E44-E71.
41. Rettelbach, A., Hermisson, J., Dieckmann, U. and Kopp M. 2011. Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection. Theor. Popul. Biol., 79: 82-96.
42. Ripa, J. 2008. When is sympatric speciation truly adaptive? An analysis of the joint evolution of resource utilization and assortative mating. Evol. Ecol., 23: 31-52.
43. Rosenzweig, M.L. 1978. Competitive speciation. Biol. J. Linn. Soc., 10: 275-289.
44. Schluter, D. 2000. The Ecology of Adaptive Radiation. New York: Oxford University Press.
45. Schluter, D. and Conte, G.L. 2009. Genetics and ecological speciation. Proc. Natl. Acad. Sci. USA, 106: 9955-9962.
46. Schneider, K.A. and Bürger, R. 2006. Does competitive divergence occur if assortative mating is costly? J. Evol. Biol., 19: 570-588.
47. Seger, J. 1985. Intraspecific resource competition as a cause of sympatric speciation. In Evolution: Essays in Honor of John Maynard Smith (P. Greenwood, P. Harvey and M. Slatkin, eds.), pp. 43-53. Cambridge: Cambridge University Press.
48. Servedio, M.R. 2011. Limits to the evolution of assortative mating by female choice under restricted gene flow. Proc. R. Soc. Lond. B, 278: 179-187.
49. Slatkin, M. 1979. Frequency- and density-dependent selection on a quantitative character. Genetics, 93: 755-771.
50. Smith, H.M. 1955. The perspective of species. Turtox News, 33: 74-77.
51. Smith, H.M. 1965. More evolutionary terms. Syst. Zool., 14: 57-58.
52. Thibert-Plante, X. and Hendry, A.P. 2011. Factors influencing progress toward ecological speciation. J. Evol. Biol., 24: 2186-2196.
53. Udovic, D. 1980. Frequency-dependent selection, disruptive selection, and the evolution of reproductive isolation. Am. Nat., 116: 621-641.
54. Wright, S. 1943. Isolation by distance. Genetics, 28: 114-138.
55. Young, W.R., Roberts, A.J. and Stuhne, G. 2001. Reproductive pair correlations and the clustering of organisms. Nature, 412: 328-331.