Cheating monkeys undermine group strength in enemy territory

In many social animals, group-mates cooperate to defend their range against intrusion by neighboring groups. Because group size tends to be highly variable, such conflicts are often asymmetric. Although numerical superiority is assumed to provide a competitive advantage, small groups can generally d...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2012-01, Vol.109 (2), p.501-505
Main Authors: Crofoot, Margaret Chatham, Gilby, Ian C.
Format: Article
Language:English
Subjects:
Acoustic Stimulation
Aggression
Animal behavior
Animal communication
Animals
Asymmetry
Biological Sciences
Cebus - physiology
Collective action problem
Cooperative Behavior
Deception
Evolution
Group Processes
Group size
Human aggression
Logistic Models
Logistic regression
Monkeys
Monkeys & apes
Observation
Panama
Perceptual localization
Primates
Social groups
Territoriality
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Summary:In many social animals, group-mates cooperate to defend their range against intrusion by neighboring groups. Because group size tends to be highly variable, such conflicts are often asymmetric. Although numerical superiority is assumed to provide a competitive advantage, small groups can generally defend their ranges, even when greatly outnumbered. The prevailing explanation for this puzzling phenomenon is that individuals in relatively large groups experience a greater temptation to flee from conflicts, in effect leveling the balance of power. Using playback experiments simulating territorial intrusions by wild capuchin monkey (Cebus capucinus) groups, we show that such a collective action problem does indeed undermine the competitive ability of large groups. Focal capuchins were more likely to run away from territorial intrusions when their group had a numeric advantage; each one-individual increase in relative group size raised the odds of flight by 25%. However, interaction location had a more important impact on individuals' reactions, creating a strong home-field advantage. After controlling for relative group size, the odds that a focal animal fled were 91% lower in experiments that occurred in the center compared with on the edge of its group's range, whereas the odds that it rushed toward the speaker were more than sixfold higher. These location-dependent patterns of defection and cooperation create a competitive advantage for residents over intruders across a wide range of relative group sizes, which may stabilize range boundaries and provide a general explanation for how groups of widely divergent sizes can coexist, even in the face of intense intergroup competition.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1115937109