Experimental evidence for effects of sexual selection on condition-dependent mutation rates.

Sexual selection depletes genetic variation but depleted genetic variation limits the efficacy of sexual selection-a long-standing enigma known as the lek paradox. Here we offer a twist to this paradox by showing that sexual selection and the generation of new genetic variation via mutation may be entangled in an evolutionary feedback loop. We induced DNA damage in the germline of male seed beetles evolved under regimes manipulating the opportunity for natural and sexual selection, and quantified de novo mutations in F2-F7 generations by measuring mutation load. Sexually selected males passed on smaller loads, suggesting that selection for male quality not only purges segregating deleterious alleles, but can also reduce the rate at which such alleles originate de novo. However, when engaging in socio-sexual interactions, males evolved exclusively under sexual selection transferred greater loads, suggesting that trade-offs between naturally and sexually selected fitness components can increase mutation rate. These results offer causality to the widely observed male mutation bias and have implications for the maintenance of genetic variation in fitness.