Abstract
Much debate surrounds the exact rules that influence mating behaviour, and in particular the selective forces that explain the evolution of female preferences. A key example is the lek paradox, in which female choice is expected rapidly to become ineffective owing to loss of additive genetic variability for the preferred traits1,2,3. Here we exploit a remarkable system in which female fur seals exert choice by moving across a crowded breeding colony to visit largely static males. We show that females move further to maximize the balance between male high multilocus heterozygosity and low relatedness. Such a system shows that female choice can be important even in a strongly polygynous species, and at the same time may help to resolve the lek paradox because heterozygosity has low heritability and inbreeding avoidance means there is no single ‘best’ male for all females.
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Acknowledgements
We thank D. Briggs, S. Robinson, M. Jessop, K. Reid, R. Taylor, T. Walker and N. Warren for help with logistics and fieldwork. We are also grateful to T. Clutton-Brock, S. Hodge and K. Isvaran for helpful comments on the manuscript. This work was funded by the Natural Environment Research Council (NERC) and the Antarctic Funding Initiative (AFI), and contributes to the BAS DISCOVERY 2010 science programme. J.I.H. was also funded by the Isaac Newton Trust, Balfour fund and Cambridge University VIP scheme. Fieldwork was approved by BAS and the University of Cambridge Animal Ethics Board. Samples were collected and retained under permits issued by the Department for Environment, Food and Rural Affairs (DEFRA), and in accordance with the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES).
Author Contributions J.I.H. contributed to the concept, genotyping, data analysis, and writing; W.A. to the concept, data analysis and writing; and J.F. and P.N.T. to field project coordination and the collection of tissue samples and observational data.
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Hoffman, J., Forcada, J., Trathan, P. et al. Female fur seals show active choice for males that are heterozygous and unrelated. Nature 445, 912–914 (2007). https://doi.org/10.1038/nature05558
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DOI: https://doi.org/10.1038/nature05558
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