Disassortative mating, sexual specialization, and the evolution of gender dimorphism in heterodichogamous Acer opalus |
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Authors: | Gleiser Gabriela Verdú Miguel Segarra-Moragues José G González-Martínez Santiago C Pannell John R |
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Affiliation: | Centro de Investigaciones sobre Desertificación (CSIC-UV-GV), Camíde la Marjal s/n Apartado Oficial, 46470 Albal (Valencia), Spain;E-mail:;E-mail:;E-mail:;Departamento de Sistemas y Recursos Forestales, Centro de Investigación Forestal, INIA, Carretera de La Coruña km 7.5, 28040 Madrid, Spain;E-mail:;Department of Plant Sciences, University of Oxford, South Parks Road, Oxford OX13RB, United Kingdom;E-mail: |
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Abstract: | In sexually polymorphic species, the morphs are maintained by frequency-dependent selection through disassortative mating. In heterodichogamous populations in which disassortative mating occurs between the protandrous and protogynous morphs, a decrease in female fitness in one morph is hypothesized to drive sexual specialization in the other morph, resulting in dimorphic populations. We test these ideas in a population of the heterodichogamous species, Acer opalus . We assessed both prospective gender of individuals in terms of their allocations and actual parentage using microsatellites; we found that most matings in A. opalus occur disassortatively. We demonstrate that the protogynous morph is maintained by frequency-dependent selection, but that maintenance of males versus protandrous individuals depends on their relative siring success, which changes yearly. Seeds produced later in the reproductive season were smaller than those produced earlier; this should compromise reproduction through ovules in protandrous individuals, rendering them male biased in gender. Time-dependent gender and paternity analyses indicate that the sexual morphs are specialized in their earlier sexual functions, mediated by the seasonal decrease in seed size. Our results confirm that mating patterns are context-dependent and change seasonally, suggesting that sexual specialization can be driven by seasonal effects on fitness gained through one of the two sexual functions. |
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Keywords: | Acer gender specialization heterodichogamy intermorph mating paternity analysis sexual inconstancy |
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