Cross-sex genetic correlation does not extend to sexual size dimorphism in spiders

Males and females are often subjected to different selection pressures for homologous traits, resulting in sex-specific optima. Because organismal attributes usually share their genetic architectures, sex-specific selection may lead to intralocus sexual conflict. Evolution of sexual dimorphism may resolve this conflict, depending on the degree of cross-sex genetic correlation (r _MF) and the strength of sex-specific selection. In theory, high r _MF implies that sexes largely share the genetic base for a given trait and are consequently sexually monomorphic, while low r _MF indicates a sex-specific genetic base and sexual dimorphism. Here, we broadly test this hypothesis on three spider species with varying degrees of female-biased sexual size dimorphism, Larinioides sclopetarius (sexual dimorphism index, SDI?=?0.85), Nuctenea umbratica (SDI?=?0.60), and Zygiella x-notata (SDI?=?0.46). We assess r _MF via same-sex and opposite-sex heritability estimates. We find moderate body mass heritability but no obvious patterns in sex-specific heritability. Against the prediction, the degree of sexual size dimorphism is unrelated to the relative strength of same-sex versus opposite-sex heritability. Our results do not support the hypothesis that sexual size dimorphism is negatively associated with r _MF. We conclude that sex-specific genetic architecture may not be necessary for the evolution of a sexually dimorphic trait.