Genotype × Environment interaction and the evolution of sexual dimorphism: adult nutritional environment mediates selection and expression of sex-specific genetic variance in Drosophila melanogaster.
{"title":"Genotype × Environment interaction and the evolution of sexual dimorphism: adult nutritional environment mediates selection and expression of sex-specific genetic variance in Drosophila melanogaster.","authors":"Stephen P De Lisle","doi":"10.1093/jeb/voae050","DOIUrl":null,"url":null,"abstract":"<p><p>Sexual conflict plays a key role in the dynamics of adaptive evolution in sexually reproducing populations, and theory suggests an important role for variance in resource acquisition in generating or masking sexual conflict over fitness and life history traits. Here, I used a quantitative genetic genotype × environment experiment in Drosophila melanogaster to test the theoretical prediction that variance in resource acquisition mediates variation in sex-specific component fitness. Holding larval conditions constant, I found that adult nutritional environments characterized by high protein content resulted in reduced survival of both sexes and lower male reproductive success compared to an environment of lower protein content. Despite reduced mean fitness of both sexes in high protein environments, I found a sex*treatment interaction for the relationship between resource acquisition and fitness; estimates of the adaptive landscape indicate males were furthest from their optimum resource acquisition level in high protein environments, and females were furthest in low protein environments. Expression of genetic variance in resource acquisition and survival was highest for each sex in the environment it was best adapted to, although the treatment effects on expression of genetic variance eroded in the path from resource acquisition to total fitness. Cross-sex genetic correlations were strongly positive for resource acquisition, survival, and total fitness and negative for mating success, although estimation error was high for all. These results demonstrate that environmental effects on resource acquisition can have predictable consequences for the expression of sex-specific genetic variance but also that these effects of resource acquisition can erode through life history.</p>","PeriodicalId":50198,"journal":{"name":"Journal of Evolutionary Biology","volume":" ","pages":"770-778"},"PeriodicalIF":2.1000,"publicationDate":"2024-07-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Evolutionary Biology","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1093/jeb/voae050","RegionNum":3,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"ECOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Sexual conflict plays a key role in the dynamics of adaptive evolution in sexually reproducing populations, and theory suggests an important role for variance in resource acquisition in generating or masking sexual conflict over fitness and life history traits. Here, I used a quantitative genetic genotype × environment experiment in Drosophila melanogaster to test the theoretical prediction that variance in resource acquisition mediates variation in sex-specific component fitness. Holding larval conditions constant, I found that adult nutritional environments characterized by high protein content resulted in reduced survival of both sexes and lower male reproductive success compared to an environment of lower protein content. Despite reduced mean fitness of both sexes in high protein environments, I found a sex*treatment interaction for the relationship between resource acquisition and fitness; estimates of the adaptive landscape indicate males were furthest from their optimum resource acquisition level in high protein environments, and females were furthest in low protein environments. Expression of genetic variance in resource acquisition and survival was highest for each sex in the environment it was best adapted to, although the treatment effects on expression of genetic variance eroded in the path from resource acquisition to total fitness. Cross-sex genetic correlations were strongly positive for resource acquisition, survival, and total fitness and negative for mating success, although estimation error was high for all. These results demonstrate that environmental effects on resource acquisition can have predictable consequences for the expression of sex-specific genetic variance but also that these effects of resource acquisition can erode through life history.
基因型 x 环境交互作用与性双态性的进化:成年营养环境介导了黑腹蝇虫性别特异性遗传变异的选择和表达。
性冲突在有性繁殖种群的适应性进化动态中起着关键作用,而理论表明,资源获取的差异在产生或掩盖有关适应性和生活史特征的性冲突方面起着重要作用。在这里,我利用黑腹果蝇的定量遗传基因型 x 环境实验,验证了资源获取的差异介导性别特异性成分适应性差异的理论预测。在幼虫条件不变的情况下,我发现与蛋白质含量较低的环境相比,蛋白质含量高的成虫营养环境会导致雌雄果蝇的存活率降低,雄果蝇的繁殖成功率也会降低。尽管在高蛋白环境中雌雄个体的平均体能都有所下降,但我发现在资源获取和体能之间存在性别*处理的交互作用;对适应性景观的估计表明,在高蛋白环境中雄性个体离最佳资源获取水平最远,而在低蛋白环境中雌性个体离最佳资源获取水平最远。在最适应的环境中,每种性别在资源获取和存活方面的遗传变异表达都是最高的,尽管在从资源获取到总适应度的过程中,处理对遗传变异表达的影响会减弱。跨性别遗传相关性在资源获取、存活率和总适合度方面呈强正值,而在交配成功率方面呈负值,尽管所有相关性的估计误差都很大。这些结果表明,环境对资源获取的影响会对性别特异性遗传变异的表达产生可预测的后果,而且这些资源获取的影响会在整个生活史中逐渐消失。
期刊介绍:
It covers both micro- and macro-evolution of all types of organisms. The aim of the Journal is to integrate perspectives across molecular and microbial evolution, behaviour, genetics, ecology, life histories, development, palaeontology, systematics and morphology.