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Female mating bias results in conflicting sex-specific offspring fitness

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  • Kenneth M. Fedorka

    (University of South Carolina
    University of Georgia)

  • Timothy A. Mousseau

    (University of South Carolina)

Abstract

Indirect-benefit models of sexual selection assert that females gain heritable offspring advantages through a mating bias for males of superior genetic quality. This has generally been tested by associating a simple morphological quality indicator (for example, bird tail length) with offspring viability1. However, selection acts simultaneously on many characters, limiting the ability to detect significant associations, especially if the simple indicator is weakly correlated to male fitness2,3. Furthermore, recent conceptual developments suggest that the benefits gained from such mating biases may be sex-specific because of sexually antagonistic genes that differentially influence male and female reproductive ability4. A more suitable test of the indirect-benefit model would examine associations between an aggregate quality indicator1,3 (such as male mating success) and gender-specific adult fitness components, under the expectation that these components may trade off1. Here, we show that a father's mating success in the cricket, Allonemobius socius, is positively genetically correlated with his son's mating success but negatively with his daughter's reproductive success. This provides empirical evidence that a female mating bias can result in sexually antagonistic offspring fitness.

Suggested Citation

  • Kenneth M. Fedorka & Timothy A. Mousseau, 2004. "Female mating bias results in conflicting sex-specific offspring fitness," Nature, Nature, vol. 429(6987), pages 65-67, May.
    • Handle: RePEc:nat:nature:v:429:y:2004:i:6987:d:10.1038_nature02492
    DOI: 10.1038/nature02492
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    Cited by:

    1. Victor Zeng & Ben Ewen-Campen & Hadley W Horch & Siegfried Roth & Taro Mito & Cassandra G Extavour, 2013. "Developmental Gene Discovery in a Hemimetabolous Insect: De Novo Assembly and Annotation of a Transcriptome for the Cricket Gryllus bimaculatus," PLOS ONE, Public Library of Science, vol. 8(5), pages 1-22, May.

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