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Simulations of agents in social networks harvesting a resource

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  • Little, L.R.
  • McDonald, A.D.

Abstract

Managing natural resources increasingly requires an understanding not only of the underlying resource dynamics but also the dynamics of human use. In an agent-based model, we simulate agents harvesting a renewable resource, and examine the effect of agents in different social networks on their ability to exploit the resource under different levels of uncertainty. When uncertainty in the resource is high, under assumed conditions, ordered social networks can exploit the resources better by passing information among the agents than when individuals act independently of each other. The more highly connected random networks, however, leads to lower aggregate harvests. When a single “skilled” agent is able to obtain a greater harvest than the others, a hierarchical performance among agents results, with those connected directly to the “skilled” agent obtaining higher harvests than those that are not.

Suggested Citation

  • Little, L.R. & McDonald, A.D., 2007. "Simulations of agents in social networks harvesting a resource," Ecological Modelling, Elsevier, vol. 204(3), pages 379-386.
    • Handle: RePEc:eee:ecomod:v:204:y:2007:i:3:p:379-386
    DOI: 10.1016/j.ecolmodel.2007.01.013
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    References listed on IDEAS

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    Cited by:

    1. Carrella, Ernesto & Saul, Steven & Marshall, Kristin & Burgess, Matthew G. & Cabral, Reniel B. & Bailey, Richard M. & Dorsett, Chris & Drexler, Michael & Madsen, Jens Koed & Merkl, Andreas, 2020. "Simple Adaptive Rules Describe Fishing Behaviour Better than Perfect Rationality in the US West Coast Groundfish Fishery," Ecological Economics, Elsevier, vol. 169(C).
    2. Mark D Humphries & Kevin Gurney, 2008. "Network ‘Small-World-Ness’: A Quantitative Method for Determining Canonical Network Equivalence," PLOS ONE, Public Library of Science, vol. 3(4), pages 1-10, April.
    3. Lei Cheng & Lei Shi & Yuxi Xie & Weihua Zeng, 2020. "Restructuring China’s Water Environment Management System: A Social Network Perspective," Sustainability, MDPI, vol. 12(20), pages 1-17, October.
    4. Little, L. Richard & Punt, André E. & Mapstone, Bruce D. & Begg, Gavin A. & Goldman, Barry & Williams, Ashley J., 2009. "An agent-based model for simulating trading of multi-species fisheries quota," Ecological Modelling, Elsevier, vol. 220(23), pages 3404-3412.
    5. Davis, Natalie & Jarvis, Andrew & Polhill, J. Gareth, 2022. "Co-evolution of network structure and consumer inequality in a spatially explicit model of energetic resource acquisition," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 608(P1).
    6. Sylvie Geisendorf & Christian Klippert, 2022. "Integrated sustainability policy assessment – an agent-based ecological-economic model," Journal of Evolutionary Economics, Springer, vol. 32(3), pages 1017-1048, July.
    7. Ling, Stephen & Milner-Gulland, E.J., 2008. "Developing an artificial ecology for use as a strategic management tool: A case study of ibex hunting in the North Tien Shan," Ecological Modelling, Elsevier, vol. 210(1), pages 15-36.
    8. Burgess, Matthew G. & Carrella, Ernesto & Drexler, Michael & Axtell, Robert L. & Bailey, Richard M. & Watson, James R. & Cabral, Reniel B. & Clemence, Michaela & Costello, Christopher & Dorsett, Chris, 2018. "Opportunities for agent-based modeling in human dimensions of fisheries," SocArXiv gzhm5, Center for Open Science.

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