The effect of spatial heterogeneity and mobility on the performance of social-ecological systems
Authored by Marco A Janssen, Irene Perez
Date Published: 2015
DOI: 10.1016/j.ecolmodel.2014.10.014
Sponsors:
No sponsors listed
Platforms:
NetLogo
Model Documentation:
ODD
Flow charts
Mathematical description
Model Code URLs:
https://www.comses.net/codebases/3976/releases/1.0.0/
Abstract
We use an agent-based model to analyze the effects of spatial
heterogeneity and agents' mobility on social-ecological outcomes. Our
model is a stylized representation of a dynamic population of agents
moving and harvesting a renewable resource. Cooperators (agents who
harvest an amount close to the maximum sustainable yield) and selfish
agents (those who harvest an amount greater than the sustainable yield)
are simulated in the model. Three indicators of the outcomes of the
system are analyzed: the number of settlements, the resource level, and
the proportion of cooperators in the population. Our paper adds a more
realistic approach to previous studies on the evolution of cooperation
by considering a social-ecological system in which agents move in a
landscape to harvest a renewable resource. Our results conclude that
resource dynamics play an important role when studying levels of
cooperation and resource use. Our simulations show that the agents'
mobility significantly affects the outcomes of the system. This response
is nonlinear and very sensible to the type of spatial distribution of
the resource richness. In our simulations, better outcomes of long-term
sustainability of the resource are obtained with moderate agent mobility
and cooperation is enhanced in harsh environments with low resource
level in which cooperative groups have natural boundaries fostered by
agents' low mobility. Published by Elsevier B.V.
Tags
Cooperation
Evolutionary games
Protocol