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Sexual selection drives sex difference in adult life expectancy across mammals and birds

Johanna Staerk, Dalia A. Conde, Morgane Tidière, Jean‐François Lemaître, András Liker, Balázs Vági, Samuel Pavard, Mathieu Giraudeau, Simeon Q. Smeele, Orsolya Vincze, Victor Ronget, Rita da Silva, Zjef Pereboom, Mads F. Bertelsen, Jean‐Michel Gaillard, Tamás Székely, Fernando Colchero

2025Science Advances10 citationsDOIOpen Access PDF

Abstract

Across human cultures and historical periods, women, on average, live longer than men, a pattern best understood from a comparative evolutionary perspective. Here, we analyzed adult life expectancy in 528 mammal and 648 bird species in zoos. Like humans, 72% of mammals exhibited a female life expectancy advantage, while 68% of birds showed a male advantage, as expected from the harmful effects of sex chromosomes described by the heterogametic sex hypothesis. Yet, sex differences varied widely. In zoos, we found strong evidence that this variation generally correlated with both the mating system and sexual size dimorphism. Although with weaker evidence, the patterns remained consistent in populations from the wild, with an even larger effect of the mating system. Thus, even in zoos, where environmental pressures are largely reduced, precopulatory sexual selection seems to play a fundamental role in shaping sex differences in life expectancy in mammals and birds.

Topics & Concepts

MatingBiologySexual selectionLife expectancyMammalHeterogametic sexExpectancy theoryZoologySexual dimorphismSexual behaviorMating systemDemographyEcologyReproductionSex characteristicsSelection (genetic algorithm)Evolutionary biologySexual differenceVariation (astronomy)LongevityAnimal sexual behaviourMating preferencesRace (biology)Same sexReproductive successGroup livingAnimal Behavior and ReproductionEvolutionary Psychology and Human BehaviorWildlife Ecology and Conservation
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