Sexual dimorphism in immunocompetence: what does life-history theory predict?

doi:10.1093/beheco/ark018

Behavioral Ecology Advance Access originally published online on June 1, 2006
Behavioral Ecology 2006 17(5):751-756; doi:10.1093/beheco/ark018

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© The Author 2006. Published by Oxford University Press on behalf of the International Society for Behavioral Ecology. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Sexual dimorphism in immunocompetence: what does life-history theory predict?

Andrew M. Stoehr^a and Hanna Kokko^b

^a Department of Biology, University of California, Riverside, CA 92521, USA, and ^b Laboratory of Ecological and Evolutionary Dynamics, Department of Biological and Environmental Science, University of Helsinki, Finland

Address correspondence to A.M. Stoehr. E-mail: andrew.stoehr{at}email.ucr.edu.

Sexual dimorphism in immunocompetence, usually in the directionof inferior male immunocompetence, has historically been explainedas the result of proximate physiological mechanisms such asthe immunosuppressive effects of the male hormone testosterone.More recently, it has been argued that this pattern is bestunderstood as a result of resource-based trade-offs betweenmale mating effort and immune defense, a trade-off that femalesdo not make. The central prediction of this hypothesis is thatas the strength of sexual selection on males increases, themagnitude of the sex differences in immunocompetence will increase.Two implicit assumptions of this argument are that 1) longevityis of more importance for female than for male fitness and 2)that the primary benefit of immunocompetence is increased longevity.However, both of these assumptions may not be as broadly applicableas has been argued. We have modeled the optimal allocation toimmunocompetence for males and females without making theseassumptions. We find that the optimal allocation to immune defensefor males decreases as the strength of sexual selection increases,as predicted. However, males may still invest more, relativeto females, into immunocompetence if the impact of parasiteson condition differs for the sexes and/or if the relationshipbetween condition and reproduction differs for the sexes. Weargue that these previously overlooked assumptions may be criticalfor predicting sex-specific patterns of immunocompetence.

Key words: ecological immunology, immune defense, life-history theory, sexual selection.

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