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RESEARCH PRODUCT
Temperature as a modulator of sexual selection
Francisco Garcia-gonzalezFrancisco Garcia-gonzalezPau CarazoDaniel W. A. NobleDaniel W. A. NobleRoberto García-roasubject
0106 biological sciencesMaleSexual SelectionPopulationBiology010603 evolutionary biology01 natural sciencesbepress|Life Sciences|Ecology and Evolutionary BiologyGeneral Biochemistry Genetics and Molecular BiologySexual conflict03 medical and health sciencesbepress|Life SciencesHumansSelection Geneticbepress|Life Sciences|Ecology and Evolutionary Biology|Behavior and EthologyeducationSelection (genetic algorithm)030304 developmental biologyAbiotic componenteducation.field_of_study0303 health sciencesTemperaturesSexual conflictReproductive successReproductionTemperatureSelecció naturalPopulation viabilityMeta-analysisPhenotypeSexual selectionEvolutionary biology13. Climate actionSexual selectionTraitEvolutionary ecologyFemaleRapid environmental changeGeneral Agricultural and Biological Sciencesbepress|Life Sciences|Ecology and Evolutionary Biology|EvolutionEvolució (Biologia)description
A central question in ecology and evolution is to understand why sexual selection varies so much in strength across taxa; it has long been known that ecological factors are crucial to this. Temperature is a particularly salient abiotic ecological factor that modulates a wide range of physiological, morphological and behavioural traits, impacting individuals and populations at a global taxonomic scale. Furthermore, temperature exhibits substantial temporal variation (e.g. daily, seasonally and inter-seasonally), and hence for most species in the wild sexual selection will regularly unfold in a dynamic thermal environment. Unfortunately, studies have so far almost completely neglected the role of temperature as a modulator of sexual selection. Here, we outline the main pathways through which temperature can affect the intensity and form (i.e. mechanisms) of sexual selection, via: (i) direct effects on secondary sexual traits and preferences (i.e. trait variance, opportunity for selection and trait–fitness covariance), and (ii) indirect effects on key mating parameters, sex-specific reproductive costs/benefits, trade-offs, demography and correlated abiotic factors. Building upon this framework, we show that, by focusing exclusively on the first-order effects that environmental temperature has on traits linked with individual fitness and population viability, current global warming studies may be ignoring eco-evolutionary feedbacks mediated by sexual selection. Finally, we tested the general prediction that temperature modulates sexual selection by conducting a meta-analysis of available studies experimentally manipulating temperature and reporting effects on the variance of male/female reproductive success and/or traits under sexual selection. Our results show a clear association between temperature and sexual selection measures in both sexes. In short, we suggest that studying the feedback between temperature and sexual selection processes may be vital to developing a better understanding of variation in the strength of sexual selection in nature, and its consequences for population viability in response to environmental change (e.g. global warming).
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-12-03 |