Sexual selection and fertility.

Genetic models are analyzed in which sexual selection is combined with fertility selection. In these models, the sexual selection acts on males, the fertility selection on either males, females or both sexes. The phenotypes thus selected may be determined either by dominant and recessive alleles or by each homozygous and heterozygous genotype. Polymorphisms of dominant and recessive phenotypes can be maintained in equilibrium by a balance between sexual and fertility selection. Generally fertility selection has a greater effect than viability selection in determining the point of equilibrium. The dominant phenotype is maintained at a lower frequency when at a fertility disadvantage than when at a viability disadvantage. When about 20% or more of the females mate preferentially, the models show that equilibria will be established at very different frequencies depending on whether fertility selection acts on males, females or both sexes. These results, applied to data of preferential mating of melanic two-spot ladybirds, predict differences in fertility which can be use to test the models. Symmetric models of preferences for each genotype also give rise to polymorphisms if the heterozygotes obtain an overall advantage.