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Main Authors: Otsubo, Kai, Kido, Yuta, Mori, Ryutaro
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.23293
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author Otsubo, Kai
Kido, Yuta
Mori, Ryutaro
author_facet Otsubo, Kai
Kido, Yuta
Mori, Ryutaro
contents From collective hunting to environmental problems, social dilemmas are pervasive in human societies. Prior research has documented highly heterogeneous behavioral patterns in such settings. However, how this heterogeneity emerges and how it shapes large-scale cooperation remain unclear. Here, we focus on a robustly observed but underexplored pattern: the hump-shaped strategy (Hump). Individuals adopting Hump match others' contributions up to a threshold, only to reduce their own above it. Using agent-based simulations across group sizes and production-function shapes, we find that Hump is individually adaptive, especially in intermediate-sized groups with step-like production functions. Despite its exploitative nature, Hump also elevates population-level cooperation. The underlying mechanism is that Hump can form a stable equilibrium with unconditional cooperators (AllC), which jointly exclude defectors across a broad range of environments. Our findings suggest that underexplored patterns of behavioral heterogeneity -- including both Hump and AllC -- play a functional role in sustaining large-scale cooperation.
format Preprint
id arxiv_https___arxiv_org_abs_2604_23293
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Partial exploiters sustain cooperation: the hump-shaped strategy stably coexists with unconditional cooperators
Otsubo, Kai
Kido, Yuta
Mori, Ryutaro
Physics and Society
From collective hunting to environmental problems, social dilemmas are pervasive in human societies. Prior research has documented highly heterogeneous behavioral patterns in such settings. However, how this heterogeneity emerges and how it shapes large-scale cooperation remain unclear. Here, we focus on a robustly observed but underexplored pattern: the hump-shaped strategy (Hump). Individuals adopting Hump match others' contributions up to a threshold, only to reduce their own above it. Using agent-based simulations across group sizes and production-function shapes, we find that Hump is individually adaptive, especially in intermediate-sized groups with step-like production functions. Despite its exploitative nature, Hump also elevates population-level cooperation. The underlying mechanism is that Hump can form a stable equilibrium with unconditional cooperators (AllC), which jointly exclude defectors across a broad range of environments. Our findings suggest that underexplored patterns of behavioral heterogeneity -- including both Hump and AllC -- play a functional role in sustaining large-scale cooperation.
title Partial exploiters sustain cooperation: the hump-shaped strategy stably coexists with unconditional cooperators
topic Physics and Society
url https://arxiv.org/abs/2604.23293