Female‐driven intersexual coevolution in beetle genitalia

Genital coevolution is a pervasive phenomenon as changes in one sex tend to impose fitness consequences on the other, generating sexual conflict. Sexual conflict is often thought to cause stronger selection on males due to the Darwin–Bateman's anisogamy paradigm. However, recent studies have de...

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Veröffentlicht in:	Journal of evolutionary biology 2020-07, Vol.33 (7), p.957-965
Hauptverfasser:	Genevcius, Bruno C., Baker, Joanna, Bianchi, Filipe M., Marvaldi, Adriana E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Animals Biological Coevolution Coevolution Coleoptera - anatomy & histology Coleoptera - genetics Female Females Genitalia Genitalia - anatomy & histology Hypotheses macro‐evolution Male Males Natural selection Oviposition Ovipositor Phylogeny reproduction Selection, Genetic sexual selection sexually antagonistic coevolution Statistics
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container_title	Journal of evolutionary biology
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creator	Genevcius, Bruno C. Baker, Joanna Bianchi, Filipe M. Marvaldi, Adriana E.
description	Genital coevolution is a pervasive phenomenon as changes in one sex tend to impose fitness consequences on the other, generating sexual conflict. Sexual conflict is often thought to cause stronger selection on males due to the Darwin–Bateman's anisogamy paradigm. However, recent studies have demonstrated that female genitalia may be equally elaborated and perform diverse extra‐copulatory functions. These characteristics suggest that female genitals can also be primary targets of selection, especially where natural selection acts on female‐exclusive functions such as oviposition. Here, we test this hypothesis in a statistical phylogenetic framework across the whole beetle (Coleoptera) phylogeny, investigating whether coevolution of specific genital traits may be triggered by changes in females. We focus on traits of the proctiger, which composes part of the male terminalia and the female ovipositor. Our results present a comprehensive case of male–female genital coevolution and provide solid statistical evidence for a female‐initiated coevolutionary process where the vast majority of evolutionary transitions in males have occurred only after changes in females. We corroborate the hypothesis that female traits may change independently and elicit counter‐adaptations in males. Furthermore, by showing a consistent pattern across the phylogeny of the most diverse group of animals, our results suggest that this female‐driven dynamics may persist through long time scales. We investigated whether female genital traits under natural selection may trigger genital coevolution. By reconstructing the evolution of proctigeral traits across the beetle phylogeny, we revealed a female‐initiated coevolutionary process where the vast majority of transitions in males are contingent on previous changes in females.
doi_str_mv	10.1111/jeb.13627
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Our results present a comprehensive case of male–female genital coevolution and provide solid statistical evidence for a female‐initiated coevolutionary process where the vast majority of evolutionary transitions in males have occurred only after changes in females. We corroborate the hypothesis that female traits may change independently and elicit counter‐adaptations in males. Furthermore, by showing a consistent pattern across the phylogeny of the most diverse group of animals, our results suggest that this female‐driven dynamics may persist through long time scales. We investigated whether female genital traits under natural selection may trigger genital coevolution. 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Our results present a comprehensive case of male–female genital coevolution and provide solid statistical evidence for a female‐initiated coevolutionary process where the vast majority of evolutionary transitions in males have occurred only after changes in females. We corroborate the hypothesis that female traits may change independently and elicit counter‐adaptations in males. Furthermore, by showing a consistent pattern across the phylogeny of the most diverse group of animals, our results suggest that this female‐driven dynamics may persist through long time scales. We investigated whether female genital traits under natural selection may trigger genital coevolution. 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Our results present a comprehensive case of male–female genital coevolution and provide solid statistical evidence for a female‐initiated coevolutionary process where the vast majority of evolutionary transitions in males have occurred only after changes in females. We corroborate the hypothesis that female traits may change independently and elicit counter‐adaptations in males. Furthermore, by showing a consistent pattern across the phylogeny of the most diverse group of animals, our results suggest that this female‐driven dynamics may persist through long time scales. We investigated whether female genital traits under natural selection may trigger genital coevolution. 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subjects	Adaptation Animals Biological Coevolution Coevolution Coleoptera - anatomy & histology Coleoptera - genetics Female Females Genitalia Genitalia - anatomy & histology Hypotheses macro‐evolution Male Males Natural selection Oviposition Ovipositor Phylogeny reproduction Selection, Genetic sexual selection sexually antagonistic coevolution Statistics
title	Female‐driven intersexual coevolution in beetle genitalia
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