Unravelling the effects of differential maternal allocation and male genetic quality on offspring viability in the dung beetle, Onthophagus sagittarius

Abstract

Good genes models of mate choice assume heritability of fitness-related traits. However, maternal effects can inflate estimates of trait heritability, and genotype-environment interactions can have significant effects on good genes processes of evolution. Thus, partitioning genetic and maternal/environmental sources of variation in studies of good genes mate choice represents an empirical challenge. In this study, we used the dung beetle Onthophagus sagittarius to examine additive genetic and maternal effects on egg-to-adult offspring viability. We used a half-sib full-sib breeding design and manipulated the maternally provided environment by reducing or increasing the mass of the brood ball within which each offspring developed. We found evidence of differential allocation of investment by females in the brood balls they produced. However, experimental manipulations of maternal allocation to brood balls had only a weak and non-significant influence on the sire effects on offspring viability. Significant additive genetic effects on offspring viability were pervasive across our manipulations of the maternally provided larval environment. This finding indicates that although females do show differential allocation to offspring based on sire phenotype, ‘good genes’ benefits of mate choice are not dependent upon differential maternal allocation.