Variation in the benefits of multiple mating on female fertility in wild stalk‐eyed flies

Polyandry, female mating with multiple males, is widespread across many taxa and almost ubiquitous in insects. This conflicts with the traditional idea that females are constrained by their comparatively large investment in each offspring, and so should only need to mate once or a few times. Females...

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Veröffentlicht in:	Ecology and evolution 2017-12, Vol.7 (23), p.10103-10115
Hauptverfasser:	Meade, Lara, Harley, Elisabeth, Cotton, Alison, Howie, James M., Pomiankowski, Andrew, Fowler, Kevin
Format:	Artikel
Sprache:	eng
Schlagworte:	Demographics Diopsidae Division Eggs ejaculate partitioning Fecundity Females Fertility Genetic factors Insects Males mating systems Offspring Original Research Polyandry Species sperm depletion Taxa wild‐caught flies
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creator	Meade, Lara Harley, Elisabeth Cotton, Alison Howie, James M. Pomiankowski, Andrew Fowler, Kevin
description	Polyandry, female mating with multiple males, is widespread across many taxa and almost ubiquitous in insects. This conflicts with the traditional idea that females are constrained by their comparatively large investment in each offspring, and so should only need to mate once or a few times. Females may need to mate multiply to gain sufficient sperm supplies to maintain their fertility, especially in species in which male promiscuity results in division of their ejaculate among many females. Here, we take a novel approach, utilizing wild‐caught individuals to explore how natural variation among females and males influences fertility gains for females. We studied this in the Malaysian stalk‐eyed fly species Teleopsis dalmanni. After an additional mating, females benefit from greatly increased fertility (proportion fertile eggs). Gains from multiple mating are not uniform across females; they are greatest when females have high fecundity or low fertility. Fertility gains also vary spatially, as we find an additional strong effect of the stream from which females were collected. Responses were unaffected by male mating history (males kept with females or in male‐only groups). Recent male mating may be of lesser importance because males in many species, including T. dalmanni, partition their ejaculate to maintain their fertility over many matings. This study highlights the importance of complementing laboratory studies with data on wild‐caught populations, where there is considerable heterogeneity between individuals. Future research should focus on environmental, demographic and genetic factors that are likely to significantly influence variation in individual female fecundity and fertility. Here, we utilize wild‐caught individuals of the promiscuous stalk‐eyed fly species Teleopsis dalmanni, to explore how variation in female and male sperm limitation influences fertility gains for females. An additional mating increased female fertility, but gains were not uniform across individuals, through space or time, and were unaffected by male mating history.
doi_str_mv	10.1002/ece3.3486
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This conflicts with the traditional idea that females are constrained by their comparatively large investment in each offspring, and so should only need to mate once or a few times. Females may need to mate multiply to gain sufficient sperm supplies to maintain their fertility, especially in species in which male promiscuity results in division of their ejaculate among many females. Here, we take a novel approach, utilizing wild‐caught individuals to explore how natural variation among females and males influences fertility gains for females. We studied this in the Malaysian stalk‐eyed fly species Teleopsis dalmanni. After an additional mating, females benefit from greatly increased fertility (proportion fertile eggs). Gains from multiple mating are not uniform across females; they are greatest when females have high fecundity or low fertility. Fertility gains also vary spatially, as we find an additional strong effect of the stream from which females were collected. Responses were unaffected by male mating history (males kept with females or in male‐only groups). Recent male mating may be of lesser importance because males in many species, including T. dalmanni, partition their ejaculate to maintain their fertility over many matings. This study highlights the importance of complementing laboratory studies with data on wild‐caught populations, where there is considerable heterogeneity between individuals. Future research should focus on environmental, demographic and genetic factors that are likely to significantly influence variation in individual female fecundity and fertility. Here, we utilize wild‐caught individuals of the promiscuous stalk‐eyed fly species Teleopsis dalmanni, to explore how variation in female and male sperm limitation influences fertility gains for females. 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Responses were unaffected by male mating history (males kept with females or in male‐only groups). Recent male mating may be of lesser importance because males in many species, including T. dalmanni, partition their ejaculate to maintain their fertility over many matings. This study highlights the importance of complementing laboratory studies with data on wild‐caught populations, where there is considerable heterogeneity between individuals. Future research should focus on environmental, demographic and genetic factors that are likely to significantly influence variation in individual female fecundity and fertility. Here, we utilize wild‐caught individuals of the promiscuous stalk‐eyed fly species Teleopsis dalmanni, to explore how variation in female and male sperm limitation influences fertility gains for females. 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Responses were unaffected by male mating history (males kept with females or in male‐only groups). Recent male mating may be of lesser importance because males in many species, including T. dalmanni, partition their ejaculate to maintain their fertility over many matings. This study highlights the importance of complementing laboratory studies with data on wild‐caught populations, where there is considerable heterogeneity between individuals. Future research should focus on environmental, demographic and genetic factors that are likely to significantly influence variation in individual female fecundity and fertility. Here, we utilize wild‐caught individuals of the promiscuous stalk‐eyed fly species Teleopsis dalmanni, to explore how variation in female and male sperm limitation influences fertility gains for females. 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subjects	Demographics Diopsidae Division Eggs ejaculate partitioning Fecundity Females Fertility Genetic factors Insects Males mating systems Offspring Original Research Polyandry Species sperm depletion Taxa wild‐caught flies
title	Variation in the benefits of multiple mating on female fertility in wild stalk‐eyed flies
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