Abstract
AbstractSexual selection may increase population‐level fitness by facilitating the removal of deleterious mutations with pleiotropic effects on competition for fertilizations as well as other fitness components in both sexes. Under inbreeding, this could promote purging selection, that is the removal of deleterious recessive alleles exposed in homozygotes via matings between closely related individuals. Here, in two independent experiments, we found no evidence for short‐term purging of the inbreeding load from severely bottlenecked populations of red flour beetles, Tribolium castaneum. We hypothesize that sexual selection may have dual effects on purging, corresponding to good‐genes versus compatible‐genes mechanisms. Whereas the former should facilitate the removal of inbreeding load from bottlenecked populations, the latter may actually hamper this process while simultaneously limiting inbreeding depression by preventing the expression of deleterious recessives.
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