Clutch-size adjustments and skew models: effects on reproductive partitioning and group stability

Hamilton, Ian M; Heg, Dik (2007). Clutch-size adjustments and skew models: effects on reproductive partitioning and group stability. Behavioral Ecology, 18(2), pp. 467-476. New York, N.Y.: Oxford University Press 10.1093/beheco/arl108

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Reproductive skew theory seeks to integrate social and ecological factors thought to influence the division of reproduction among group-living animals. However, most reproductive skew models only examine interactions between individuals of the same sex. Here, we suggest that females can influence group stability and conflict among males by modifying their clutch size and may do so if they benefit from the presence of subordinate male helpers or from reduced conflict. We develop 3 models, based on concessions-based, restraint, and tug-of-war models, in which female clutch size is variable and ask when females will increase their clutch size above that which would be optimal in the absence of male-male conflict. In concessions-based and restraint models, females should increase clutch size above their optima if the benefits of staying for subordinate males are relatively low. Relatedness between males has no effect on clutch size. When females do increase clutch size, the division of reproduction between males is not influenced by relatedness and does not differ between restraint and concessions-based models. Both of these predictions are in sharp contrast to previous models. In tug-of-war models, clutch size is strongly influenced by relatedness between males, with the largest clutches, but the fewest surviving offspring, produced when males are unrelated. These 3 models demonstrate the importance of considering third-party interests in the decisions of group-living organisms.

Item Type:

Journal Article (Original Article)


08 Faculty of Science > Department of Biology > Institute of Ecology and Evolution (IEE)

UniBE Contributor:

Heg, Dierik Hans




Oxford University Press




Factscience Import

Date Deposited:

04 Oct 2013 14:58

Last Modified:

24 Oct 2019 20:59

Publisher DOI:


Web of Science ID:




URI: (FactScience: 56040)

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