Model for reproducing paper results: "Mutual Aid: when does resource scarcity favour group cooperation?"
An illustrative model developed with netlogo 5.3.1 for Ecological Complexity paper. This model makes it possible to reproduce the results, to understand their limits and the epistemological scope. Paper abstract : understanding the origins, conditions, advantages, and limitations of cooperation in natural and social systems has motivated many investigations in the biological and social sciences. To investigate individual cooperative behaviour in the face of temporal and spatial heterogeneity of resources we considered a definition of cooperation at the same ontological level as competition. We define a cooperative behaviour when an agent acts upon one or more resource(s) with a beneficial result in at least one resource for a recipient of this action, and with a selection process for this behaviour on the side of the acting agent. We implemented an agent-based model that represents the interactions of agents through their use of resources. With this model, we illustrated how scarcity of resources in space and time might create situations where cooperative behaviour is beneficial to individuals or to egalitarian groups. Simulations highlighted that temporal scarcity as spatial scarcity of the resource procures advantages to egalitarian groups over competitive individuals. Additionally, the factors favouring equity among agents for the access to the resource promote the success of cooperation. Simulations also showed the limitations imposed by group size on cooperation in the context of a common-pool management system. The possibility of using indicators of (spatio-temporal) resource variability to characterize the potential for the emergence of cooperation is an interesting research objective for future work.
| Main Authors: | , |
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| Other Authors: | |
| Format: | Simulation data biblioteca |
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CIRAD Dataverse
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| Subjects: | Computer and Information Science, Earth and Environmental Sciences, Social Sciences, Agent-based model, Spatial heterogeneity, Temporal heterogeneity, |
| Online Access: | http://dx.doi.org/10.18167/DVN1/SEKDSE |
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