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Article

Selection to outsmart the germs: The evolution of disease recognition and social cognition

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Citation

Kessler SE, Bonnell TR, Byrne RW & Chapman CA (2017) Selection to outsmart the germs: The evolution of disease recognition and social cognition. Journal of Human Evolution, 108, pp. 92-109. https://doi.org/10.1016/j.jhevol.2017.02.009

Abstract
The emergence of providing care to diseased conspecifics must have been a turning point during the evolution of hominin sociality. On a population level, care may have minimized the costs of socially transmitted diseases at a time of increasing social complexity, although individual care-givers probably incurred increased transmission risks. We propose that care-giving likely originated within kin networks, where the costs may have been balanced by fitness increases obtained through caring for ill kin. We test a novel hypothesis of hominin cognitive evolution in which disease may have selected for the cognitive ability to recognize when a conspecific is infected. Because diseases may produce symptoms that are likely detectable via the perceptual-cognitive pathways integral to social cognition, we suggest that disease recognition and social cognition may have evolved together. Using agent-based modeling, we test 1) under what conditions disease can select for increasing disease recognition and care-giving among kin, 2) whether providing care produces greater selection for cognition than an avoidance strategy, and 3) whether care-giving alters the progression of the disease through the population. The greatest selection was produced by diseases with lower risks to the care-giver and prevalences low enough not to disrupt the kin networks. When care-giving and avoidance strategies were compared, only care-giving reduced the severity of the disease outbreaks and subsequent population crashes. The greatest selection for increased cognitive abilities occurred early in the model runs when the outbreaks and population crashes were most severe. Therefore, over the course of human evolution, repeated introductions of novel diseases into na?ve populations could have produced sustained selection for increased disease recognition and care-giving behavior, leading to the evolution of increased cognition, social complexity, and, eventually, medical care in humans. Finally, we lay out predictions derived from our disease recognition hypothesis that we encourage paleoanthropologists, bioarchaeologists, primatologists, and paleogeneticists to test.

Keywords
Agent-based modelDisease transmission; Cooperation; Hominin evolution; Social complexity; Kin selection

Journal
Journal of Human Evolution: Volume 108

StatusPublished
FundersFonds de Recherche du Québec - Nature et Technologies and Québec Center for Biodiversity Science
Publication date31/07/2017
Publication date online17/05/2017
Date accepted by journal26/02/2017
URL
PublisherElsevier BV
ISSN0047-2484

People (1)

Dr Sharon Kessler

Dr Sharon Kessler

Lecturer in Psychology, Psychology

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