| Publication Type: | Journal Article |
| Year of Publication: | 1995 |
| Authors: | DICKINSON, J, Haydock, J, KOENIG, W, STANBACK, M, PITELKA, F |
| Journal: | Molecular Ecology |
| Volume: | 4 |
| Issue: | 6 |
| Date Published: | 1995 |
| ISBN Number: | 1365-294X |
| Keywords: | Acorn Woodpecker, co-operative breeding, DNA fingerprinting, inclusive fitness, mate-guarding, Melanerpes, Melanerpes formicivorus, minisatellite DNA, monogamy, Picidae |
| Abstract: | Abstract Acorn woodpeckers have one of the most complex social systems of any bird species. Breeding units range in size from monogamous pairs to groups of 15 birds that include multiple breeding males and females as well as nonreproductive helpers-at-the-nest. Groups form when young remain at their natal nest to help their parents breed or when single-sex coalitions of siblings disperse to fill a reproductive vacancy on another territory. Plural breeding and helping behaviour are thought to be favoured through indirect fitness benefits for individuals that would otherwise be unable to breed due to a shortage of reproductive vacancies on territories with acorn stores. We report the results of multi-locus DNA fingerprinting of 51 offspring from 18 nests of 16 socially monogamous pairs of acorn woodpeckers. If socially monogamous females mate outside the pair-bond, indirect fitness benefits for cobreeders and helpers will be significantly reduced. Monogamous pairs accounted for all but one of the 51 offspring we tested; the single exception was apparently sired by the putative father, but the putative mother was excluded from maternity. Our results indicate that individuals remaining on their natal territories as helpers are generally the genetic offspring of the pair they help. They also suggest that single-sex coalitions offspring dispersing together from nests of socially monogamous pairs will be full-siblings. |
| URL: | http://dx.doi.org/10.1111/j.1365-294X.1995.tb00277.x |
Taxonomic name: