FEMALE PROMISCUITY IS POSITIVELY ASSOCIATED WITH NEUTRAL AND SELECTED GENETIC DIVERSITY IN PASSERINE BIRDS

Passerine birds show large interspecific variation in extrapair paternity rates. There is accumulating evidence that such promiscuous behavior is driven by indirect, genetic benefits to females. Sexual selection theory distinguishes between two types of genetic benefits, additive and nonadditive effects, mediated by preferences for good and compatible genes, respectively. Good genes preferences should imply directional selection and mating skew among males, and thus reduced genetic diversity in the population. In contrast, compatible genes preferences should give balancing selection that retains genetic diversity. Here, we test how well these predictions fit with patterns of variation in genetic diversity and promiscuity levels among passerine birds. We found that more promiscuous species had higher nucleotide diversity at autosomal introns, but not at Z‐chromosome introns. We also found that major histocompatibility complex (MHC) class IIB alleles had higher sequence diversity, and therefore should recognize a broader spectrum of pathogens, in more promiscuous species. Our results suggest that female promiscuity targets a multitude of autosomal genes for their nonadditive, compatibility benefits. Also, as immunity genes seem to be of particular importance, we hypothesize that interspecific variation in female promiscuity among passerine birds has arisen in response to the strength of pathogen‐mediated selection.     

Microsatellite identification of extrapair sires in a socially monogamous warbler

Few studies of avian mating systems have identified the siresof extrapair young, and hence it has been difficult to determinethe scale at which reproductive interactions occur. For instance,females may be free to copulate with any male in the population(a "global" scale of interactions), or females may be restrictedto copulating only with males on neighboring territories (a"local" scale). The scale of such interactions has importantconsequences for an understanding of the evolutionary causesand consequences of extrapair fertilizations. We used five hypervariable microsatellite loci and multilocus DNA fingerprintingto examine parentage of more than 400 nestling black-throatedblue warblers (Dendroica caerulescens). Extrapair fertilizationswere common, and the microsatellite markers allowed us to identifythe sires for 89% of the young analyzed. Most identified extrapairsires were males on neighboring or nearby territories, andmost nestlings for whom we could not identify a sire came fromterritories at the edge of the study plot. Thus, reproductive interactions appear to be more local than global in this population.Extrapair fertilizations contributed significantly to totalvariation in male reproductive success. However, the standardizedvariance in male reproductive success (0.68-0.74) was not substantiallygreater than that for females (0.53-0.60), and the contributionof extrapair fertilizations (9-14%) was much lower than thecontribution of within-pair fertilizations (75-77%). This suggeststhat the local scale of reproductive interactions may limitvariation in male reproductive success and hence the opportunityfor selection.     

Female sexual receptivity after partial copulations in the wolf spider (Schizocosa malitiosa)

Mated females of the wolf spider Schizocosa malitiosa are frequently refractory to further copulations. Copulation consists of two successive behavioural patterns: pattern I (PI) and pattern II (PII). During PI males make multiple consecutive insertions with each palp, and in PII males alternate the use of palps after each insertion until dismounting. As both patterns are inseminatory, another function – such as generating female reluctance – is suggested for this complex behaviour. Here we test experimentally whether female spiders mated only with PI, or only with PII, are reluctant to re-mate. Each copulating male was interrupted immediately after the end of PI (phase A), and the same male was instantly exposed to a second virgin female. After re-mounting, the male initially performed a brief recapitulation of PI followed by PII (both together considered as phase B). For testing female sexual reluctance, females were exposed to a second male 3 days after the partial mating, but whenever the mounting occurred it was interrupted. Females were raised and progeny was counted. Phase-A-mated females were more reluctant to re-mating than phase-B-mated females, but their respective progeny was similar. We suggest that female reluctance is caused by sperm-associated substances transferred during PI.     

Female extrapair mate choice in a cooperative breeder: trading sex for help and increasing offspring heterozygosity

Sexual conflict between males and females over mating is common. Females that copulate with extrapair mates outside the pair-bond may gain (i) direct benefits such as resources or increased paternal care, (ii) indirect genetic benefits for their offspring, or (iii) insurance against infertility in their own social mate. Few studies have been able to demonstrate the different contexts in which females receive varying types of benefits from extrapair mates. Here, I examined sexual conflict, female extrapair mate choice, and patterns of extrapair paternity in the cooperatively breeding superb starling Lamprotornis superbus using microsatellite markers. Although extrapair paternity was lower than many other avian cooperative breeders (14% of offspring and 25% of nests), females exhibited two distinct mating patterns: half of the extrapair fertilizations were with males from inside the group, whereas half were with males from outside the group. Females with few potential helpers copulated with extrapair mates from within their group and thereby gained direct benefits in the form of additional helpers at the nest, whereas females paired to mates that were relatively less heterozygous than themselves copulated with extrapair mates from outside the group and thereby gained indirect genetic benefits in the form of increased offspring heterozygosity. Females did not appear to gain fertility insurance from copulating with extrapair mates. This is the first study to show that individuals from the same population mate with extrapair males and gain both direct and indirect benefits, but that they do so in different contexts.     

When mothers make sons sexy: maternal effects contribute to the increased sexual attractiveness of extra-pair offspring

Quality differences between offspring sired by the social and by an extra-pair partner are usually assumed to have a genetic basis, reflecting genetic benefits of female extra-pair mate choice. In the zebra finch (Taeniopygia guttata), we identified a colour ornament that is under sexual selection and appears to have a heritable basis. Hence, by engaging in extra-pair copulations with highly ornamented males, females could, in theory, obtain genes for increased offspring attractiveness. Indeed, sons sired by extra-pair partners had larger ornaments, seemingly supporting the genetic benefit hypothesis. Yet, when comparing ornament size of the social and extra-pair partners, there was no difference. Hence, the observed differences most likely had an environmental basis, mediated, for example, via differential maternal investment of resources into the eggs fertilized by extra-pair and social partners. Such maternal effects may (at least partly) be mediated by egg size, which we found to be associated with mean ornament expression in sons. Our results are consistent with the idea that maternal effects can shape sexual selection by altering the genotype-phenotype relationship for ornamentation. They also caution against automatically attributing greater offspring attractiveness or viability to an extra-pair mate's superior genetic quality, as without controlling for differential maternal investment we may significantly overestimate the role of genetic benefits in the evolution of extra-pair mating behaviour.