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paco.garcia[at]ebd.csic.es

Sexual conflict

Publications filtered by: Sexual conflict

Transgenerational effects of maternal sexual interactions in seed beetles
Zajitschek, S. R. K., Dowling, D. K., Head, M. L., Rodriguez-Exposito, E. & Garcia-Gonzalez, F. 2018 Transgenerational effects of maternal sexual interactions in seed beetles Heredity, in press
Garcia-Gonzalez, F. 2017 Promiscuity In: Encyclopedia of Animal Cognition and Behavior, (Vonk, J. & Shackelford, T. K., eds.). Springer.
A father effect explains sex-ratio bias
Malo, A. F., Martinez-Pastor, F., Garcia-Gonzalez, F., Garde, J., Ballou, J. D. & Lacy, R. C. 2017 A father effect explains sex-ratio bias Proceedings of the Royal Society of London B, 284: 20171159
Lifetime changes in phenotypic expression and evolutionary potential of female mating traits in Drosophila melanogaster
Travers, L. M., Simmons, L. W. & Garcia-Gonzalez, F. 2016 Lifetime changes in phenotypic expression and evolutionary potential of female mating traits in Drosophila melanogaster Animal Behaviour, 121: 147-155
Abstract

Recognition of the ubiquity of female multiple mating has evoked an important shift in sexual selection research, emphasising the adaptive nature of female mating strategies. While phenotypic changes in female mating traits have been previously studied, little is known about the genetic basis of female mating behaviour and its potential to respond to selection at different stages throughout an individual’s life. Using a large quantitative genetic breeding design, we observed lifetime female mating behaviour in Drosophila melanogaster to examine the effect of female age and mating history on three key mating traits: courtship latency, mating latency and copula duration. Courtship latency (time until males initiate courtship) decreased with the cumulative number of females’ previous matings. Mating latency (defined here as the time between the beginning of courtship and the start of copulation) increased with female age, and copula duration was found to decrease as females aged. We calculated quantitative genetic estimates for mating traits in virgin females and at the females’ third mating to examine changes in the evolutionary potential of mating traits. We found considerable additive genetic variation in courtship latency and mating latency measured in virgin females. Copula duration displayed no heritable variation among females across sire families, but male effects were consistent with the idea that this trait is under male control. Heritability estimates differed significantly from zero in virgin females for courtship latency and mating latency. Heritability estimates did not differ significantly from zero when females were mating for the third time. However, overlapping 84% confidence intervals between heritability estimates obtained from virgin and mated females suggest that female mating strategies may have the potential to respond to selection at these different life stages.

Wild sex: when sex roles get reversed, some females develop a "penis"
Rodriguez-Exposito, E. & Garcia-Gonzalez, F. 2016 Wild sex: when sex roles get reversed, some females develop a "penis" The Conversation
Genetic variation but weak genetic covariation between pre- and postcopulatory episodes of sexual selection in Drosophila melanogaster
Travers, L. M., Garcia-Gonzalez, F. & Simmons, L. W. 2016 Genetic variation but weak genetic covariation between pre- and postcopulatory episodes of sexual selection in Drosophila melanogaster Journal of Evolutionary Biology, 29: 1535-1552
Additive genetic variance in polyandry enables its evolution but polyandry is unlikely to evolve through sexy or good sperm processes
Travers, L. M., Simmons, L. W. & Garcia-Gonzalez, F. 2016 Additive genetic variance in polyandry enables its evolution but polyandry is unlikely to evolve through sexy or good sperm processes Journal of Evolutionary Biology, 29: 916-928.
Abstract

Polyandry is widespread despite its costs. The sexually selected sperm hypotheses (‘sexy’ and ‘good’ sperm) posit that sperm competition plays a role in the evolution of polyandry. Two poorly studied assumptions of these hypotheses are the presence of additive genetic variance in polyandry and sperm competitiveness. Using a quantitative genetic breeding design in a natural population of Drosophila melanogaster, we first established the potential for polyandry to respond to selection. We then investigated whether polyandry can evolve through sexually selected sperm processes. We measured lifetime polyandry and offensive sperm competitiveness (P2) while controlling for sampling variance due to male x male x female interactions. We also measured additive genetic variance in egg-to-adult viability and controlled for its effect on P2 estimates. Female lifetime polyandry showed significant and substantial additive genetic variance and evolvability. In contrast, we found little genetic variance or evolvability in P2 or egg-to-adult viability. Additive genetic variance in polyandry highlights its potential to respond to selection. However, the low levels of genetic variance in sperm competitiveness suggest the evolution of polyandry may not be driven by sexy sperm or good sperm processes.

Travers, L. M., Garcia-Gonzalez, F. & Simmons, L. W. 2015 Live fast die young life history in females: evolutionary trade-off between early life mating and lifespan in female Drosophila melanogaster Scientific Reports, 5: 15469
Abstract

The trade-off between survival and reproduction is fundamental to life history theory. Sexual selection is expected to favour a live fast die young life history pattern in males due to increased risk of extrinsic mortality associated with obtaining mates. Sexual conflict may also drive a genetic trade-off between reproduction and lifespan in females. We found significant additive genetic variance in longevity independent of lifetime mating frequency, and in early life mating frequency. There was significant negative genetic covariance between these traits indicating that females from families characterized by high levels of multiple mating early in life die sooner than females that engage in less intense early life mating.  Thus, despite heritable variation in both traits, their independent evolution is constrained by an evolutionary trade-off. Our findings indicate that, in addition to the well-known male-driven direct costs of mating on female lifespan (mediated by male harassment and the harmful effects of male seminal fluids), females with a genetic propensity to mate multiply live shorter lives. We discuss the potential role of sexual conflict in driving the evolutionary trade-off between reproduction and lifespan in Drosophila. More generally, our data show that, like males, females can exhibit a live fast die young life history strategy.

Transgenerational effects of sexual interactions and sexual conflict: non-sires boost the fecundity of females in the following generation
Garcia-Gonzalez, F. and Dowling, D. K. 2015 Transgenerational effects of sexual interactions and sexual conflict: non-sires boost the fecundity of females in the following generation Biology Letters, 11:20150067
Abstract

The consequences of sexual interactions extend beyond the simple production of offspring. These interactions typically entail direct effects on female fitness, but may also impact the life histories of later generations. Evaluating the cross-generational effects of sexual interactions provides insights into the dynamics of sexual selection and conflict. Such studies can elucidate whether offspring fitness optima diverge across sexes upon heightened levels of sexual interaction among parents. Here, we found that, in Drosophila melanogaster, components of reproductive success in females, but not males, were contingent on the nature of sexual interactions experienced by their mothers. In particular, maternal sexual interactions with non-sires enhanced female fecundity in the following generation. This highlights the importance of non-sire influences of sexual interactions on the expression of offspring life histories.The consequences of sexual interactions extend beyond the simple production of offspring. These interactions typically entail direct effects on female fitness, but may also impact the life histories of later generations. Evaluating the cross-generational effects of sexual interactions provides insights into the dynamics of sexual selection and conflict. Such studies can elucidate whether offspring fitness optima diverge across sexes upon heightened levels of sexual interaction among parents. Here, we found that, in Drosophila melanogaster, components of reproductive success in females, but not males, were contingent on the nature of sexual interactions experienced by their mothers. In particular, maternal sexual interactions with non-sires enhanced female fecundity in the following generation. This highlights the importance of non-sire influences of sexual interactions on the expression of offspring life histories.

Patterns of paternity skew among polyandrous social insects: What can they tell us about the potential for sexual selection?
Jaffé, R., F. Garcia-Gonzalez, S. P. A. den Boer, L. W. Simmons, & B. Baer. 2012 Patterns of paternity skew among polyandrous social insects: What can they tell us about the potential for sexual selection? Evolution, 66:3778-3788
Abstract

Monogamy results in high genetic relatedness among offspring and thus it is generally assumed to be favored by kin selection. Female multiple mating (polyandry) has nevertheless evolved several times in the social Hymenoptera (ants, bees, and wasps), and a substantial amount of work has been conducted to understand its costs and benefits. Relatedness and inclusive fitness benefits are, however, not only influenced by queen mating frequency but also by paternity skew, which is a quantitative measure of paternity biases among the offspring of polyandrous females.We performed a large-scale phylogenetic analysis of paternity skew across polyandrous social Hymenoptera. We found a general and significant negative association between paternity frequency and paternity skew. High paternity skew, which increases relatedness among colony members and thus maximizes inclusive fitness gains, characterized species with low paternity frequency. However, species with highly polyandrous queens had low paternity skew, with paternity equalized among potential sires. Equal paternity shares among fathers are expected to maximize fitness benefits derived from genetic diversity among offspring. We discuss the potential for postcopulatory sexual selection to influence patterns of paternity in social insects, and suggest that sexual selection may have played a key, yet overlooked role in social evolution.

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