LC–8 LITERATURE CITED
spp.): Genetic, morphological, and behavioural evidence. Mol. Ecol.
10: 661–671.
- Coolon, J. D., C. J. McManus, K. R. Stevenson, B. R. Graveley, and
P. J. Wittkopp. 2014. Tempo and mode of regulatory evolution in
Drosophila. Genome Res. 24: 797–808. - Coyne, J. A. 1974. The evolutionary origin of hybrid inviability.
Evolution 28: 505–506. - Coyne, J. A. 1984. Genetic basis of male sterility in hybrids between
two closely related species of Drosophila. Proc. Natl. Acad. Sci. USA 81:
4444–4447. - Coyne, J. A., and H. A. Orr. 1997. “Patterns of speciation in
Drosophila” revisited. Evolution 51: 295–303. - Coyne, J. A., and H. A. Orr. 2004. Speciation. Sinauer, Sunderland,
MA - Coyne, J. A., and T. D. Price. 2000. Little evidence for sympatric
speciation in island birds. Evolution 54: 2166–2171. - Cracraft, J. 1989. Speciation and its ontology: The empirical
consequences of alternative species concepts for understanding
patterns and processes of differentiation. In D. Otte and J. A.
Endler (eds.), Speciation and Its Consequences, pp. 29–59. Sinauer,
Sunderland, MA. - Crespi, B., and P. Nosil. 2013. Conflictual speciation: Species
formation via genomic conflict. Trends Ecol. Evol. 28: 48–57. - Cruikshank, T. E., and M. W. Hahn. 2014. Reanalysis suggests that
genomic islands of speciation are due to reduced diversity, not
reduced gene flow. Mol. Ecol. 23: 3133–3157. - Dobzhansky, Th. 1937. Genetics and the Origin of Species. Columbia
University Press, New York. - Dodd, D. M. B. 1989. Reproductive isolation as a consequence
of adaptive divergence in Drosophila pseudoobscura. Evolution 43:
1308–1311. - Eberhard, W. G. 1996. Female Control: Sexual Selection by Cryptic
Female Choice. Princeton University Press, Princeton, NJ. - Feder, J. L., and 9 others. 2003. Allopatric genetic origins for
sympatric host-plant shifts and race formation in Rhagoletis. Proc.
Natl. Acad. Sci. USA 100: 10314–10319. - Felsenstein. J. 1981. Skepticism towards Santa Rosalia, or why are
there so few kinds of animals? Evolution 35: 124–138. - Fjeldså, J., R. C. K. Bowie, and C. Rahbek. 2012. The role of mountain
ranges in the diversification of birds. Annu. Rev. Ecol. Evol. Syst. 43:
249–265. - Fontaine, M. C., and 18 others. 2015. Extensive introgression in a
malaria vector species complex revealed by phylogenomics. Science
347: 42. - Fowler, N. L., and D. A. Levin. 1984. Ecological constraints on the
establishment of a novel polyploid in competition with its diploid
progenitor. Am. Nat. 124: 703–711. - Friesen, V. L., and 6 others. 2007. Sympatric speciation by allochrony
in a seabird. Proc. Natl. Acad. Sci. USA 104: 18589–18594. - Fry, J. D. 2003. Multilocus models of sympatric speciation: Bush vs.
Rice vs. Felsenstein. Evolution 57: 1735–1746. - Futuyma, D. J. 1991. A new species of Ophraella Wilcox (Coleoptera:
Chrysomelidae) from the southeastern United States. J. NY Entomol.
Soc. 99: 643–653. - Galiana, A., A. Moya, and F. J. Ayala. 1993. Founder-flush speciation
in Drosophila pseudoobscura: A large-scale experiment. Evolution 47:
432–444. - Galindo, B. E., V. D. Vacquier, and W. J. Swanson. 2003. Positive
selection in the egg receptor for abalone sperm lysin. Proc. Natl. Acad.
Sci. USA 100: 4639–4643. - Grace, J. L., and K. L. Shaw. 2011. Coevolution of male mating
signal and female preference during early lineage divergence of the
Hawaiian cricket, Laupala cerasina. Evolution 65: 2184–2196. - Hardwick, K. M., J. M. Robertson, and E. B. Rosenblum. 2013.
Asymmetrical mate preference in recently adapted White Sands and
black lava populations of Sceloporus undulatus. Curr. Zool. 59: 20–30.
35. Heliconius Genome Consortium. 2012. Butterfly genome reveals
promiscuous exchange of mimicry adaptations among species.
Nature 487: 94–98.
36. Hoffmann, A. A., and L. H. Rieseberg. 2008. Revisiting the impact of
inversions in evolution: From population genetic markers to drivers
of adaptive shifts and speciation? Annu. Rev. Ecol. Evol. Syst. 39:
21–42.
37. Hopkins, R. 2013. Reinforcement in plants. New Phytol. 197: 1095–
1103.
38. Husband, B. C. 2000. Constraints on polyploid evolution: A test of
the minority cytotype exclusion principle. Proc. R. Soc. Lond. B 267:
217–223.
39. Kampen, H. 2005. Integration of Anopheles beklemishevi (Diptera:
Culicidae) in a PCR assay diagnostic for Palaearctic Anopheles
maculipennis sibling species. Parasitol. Res. 97: 113–117.
40. Kaneshiro, K. Y. 1980. Sexual isolation, speciation and the direction
of evolution. Evolution 34: 437–444.
41. Katakura, H., and T. Hosogai. 1994. Performance of hybrid ladybird
beetles (Epilachna) on the host plants of parental species. Entomol.
Exp. Appl. 71: 81–85.
42. Kirkpatrick, M., and V. Ravigné. 2002. Speciation by natural and
sexual selection: Models and experiments. Am. Nat. 159: S22–S35.
43. Kisel, Y., and T. G. Barraclough. 2010. Speciation has a spatial scale
that depends on gene flow. Am. Nat. 175: 316–334.
44. Knowlton, N., L. A. Weigt, L. A. Solórzano, D. K. Mills, and E.
Bermingham. 1993. Divergence in proteins, mitochondrial DNA, and
reproductive compatibility across the Isthmus of Panama. Science
260: 1629–1632.
45. Kocher, T. D. 2004. Adaptive evolution and explosive speciation: The
cichlid fish model. Nat. Rev. Genet. 5: 288–298.
46. Kocher, T. D., J. A. Conroy, K. R. McKaye, and J. R. Stauffer. 1993.
Similar morphologies of cichlid fish in Lakes Tanganyika and Malawi
are due to convergence. Mol. Phylogenet. Evol. 2: 158–165.
47. Kozak, K. H., and J. J. Wiens. 2006. Does niche conservatism promote
speciation? A case study in North American salamanders. Evolution
60: 2604–2621.
48. Kronforst, M. R., L. G. Young, D. D. Kapan, C. McNeely, R. J. O’Neill,
and L. E. Gilbert. 2006. Linkage of butterfly mate preference and
wing color preference cue at the genomic location of wingless. Proc.
Natl. Acad. Sci. USA 103: 6575–6580.
49. Lessios, H. A. 2008. The great American schism: Divergence of
marine organisms after the rise of the Central American Isthmus.
Annu. Rev. Ecol. Evol. Syst. 39: 63–91.
50. Levin, D. A. 1983. Polyploidy and novelty in flowering plants. Am.
Nat. 122: 1–25.
51. Mallet, J. 2005. Hybridization as an invasion of the genome. Trends
Ecol. Evol. 20: 229–237.
52. Martin, M. D., and T. C. Mendelson. 2014. Changes in sexual signals
are greater than changes in ecological traits in a dichromatic group
of fishes. Evolution 68: 3618–3628.
53. Masly, J. P. 2012. 170 Years of “lock-and-key”: Genital
morphology and reproductive isolation. Intl. J. Evol. Biol. 247352.
doi:10.1155/2012/247352.
54. Matute, D. 2013. The role of founder effects on the evolution of
reproductive isolation. J. Evol. Biol. 26: 2299–2311.
55. Mayr, E. 1942. Systematics and the Origin of Species. Columbia
University Press, New York.
56. Mayr, E. 1954. Change of genetic environment and evolution. In J.
Huxley, A. C. Hardy, and E. B. Ford (eds.), Evolution as a Process, pp.
157–180. Allen and Unwin, London.
57. Mayr, E. 1963. Animal Species and Evolution. Harvard University Press,
Cambridge, MA.
58. Mayr, E. 1982. Processes of speciation in animals. In C. Barigozzi
(ed.), Mechanisms of Speciation, pp. 1–19. Alan R. Liss, New York.
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