Your search keyword '"Oddmund Kleven"' showing total 2 results

1. No evidence for increased offspring heterozygosity from extrapair mating in the reed bunting (Emberiza schoeniclus)

Author

Oddmund Kleven and Jan T. Lifjeld

Subjects

Emberiza schoeniclus, extrapair paternity, genetic benefits, half-sibling comparisons, heterozygosity, Genetics, biology, Offspring, Bunting, Zoology, biology.organism_classification, Passerine, Brood, Loss of heterozygosity, biology.animal, Genotype, Animal Science and Zoology, Mating, Ecology, Evolution, Behavior and Systematics

Abstract

It has been hypothesized that females mate multiply to increase the heterozygosity of their progeny because heterozygous individuals are assumed to have a fitness advantage. Females can maximize heterozygosity of their offspring by mating with genetically unrelated and/or heterozygous males. We tested these predictions in a socially monogamous passerine, the reed bunting (Emberiza schoeniclus), where extrapair paternity occurs frequently. The results based on genotypes at nine microsatellite loci revealed that females were no less genetically related to the extrapair male(s) (EPMs) than to their pair male (i.e., breeding partner) and that EPMs were no more heterozygous than the males they cuckolded. In addition, a direct comparison of maternal half-siblings naturally raised in the same brood showed that extrapair young were no more heterozygous than within-pair young. Thus, female reed buntings do not seem to mate with EPMs to increase offspring heterozygosity. It is not yet known whether extrapair mating involves any benefits at all to females in this species. Key words: Emberiza schoeniclus, extrapair paternity, genetic benefits, half-sibling comparisons, heterozygosity. [Behav Ecol]

Published

2005

2. Sex allocation and parental quality in tree swallows.

Author

Kira E. Delmore, Oddmund Kleven, Terje Laskemoen, Susan A. Crowe, Jan T. Lifjeld, and Raleigh J. Robertson

Subjects

*BIOLOGY, *HUMAN sexuality, *SEXOLOGY, *PHYSICAL characteristics (Human body)

Abstract

In species with extrapair mating, females may choose a social mate who will contribute to the successful raising of their brood and a sire who can enhance the genetic quality of offspring. Female choice of social mate and genetic sire may thus be independent events, directed toward different types of reproductive benefits. Furthermore, if reproductive benefits derived through mating preferences differ for sons and daughters, a coupling between sex ratio adjustment and mate choice would be favored by selection. In this paper, we examined whether females adjust the primary sex ratio of offspring to the quality of the social male and/or the extrapair sire in a socially monogamous species with frequent extrapair mating, the tree swallow Tachycineta bicolor. Recent evidence suggests that females obtain compatible genes’ benefits through extrapair mating in this species. If genetic quality is more important for male than female fitness and contributes to higher variance in reproductive success among males than females, sex allocation theory would predict a male-biased sex ratio among extrapair offspring. However, we found no indication of sex ratio bias with paternity in mixed paternity broods. Instead, females skewed the sex ratio toward males in broods without extrapair paternity, which probably reflects a higher phenotypic quality of these males. Furthermore, we confirmed earlier findings that females in good condition produce male-biased broods. Thus, our results indicate that female tree swallows adjust the primary sex ratio to the phenotypic quality of their social mate and themselves and not to the genetic sire of their offspring. [ABSTRACT FROM AUTHOR]

Published

2008