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Effect of variable fishing strategy on fisheries under changing effort and pressure: An agent-based model application

Author

Listed:
  • Cabral, Reniel B.
  • Geronimo, Rollan C.
  • Lim, May T.
  • Aliño, Porfirio M.

Abstract

An agent-based model was used to evaluate the response of a two-species fish community to fishing boat exploration strategies, namely: boats following high-yield boats (Cartesian); boats fishing at random sites (stochast-random); and boats fishing at least exploited sites (stochast-pressure). At low fishing pressure, the stochast-random mode yielded a high average catch per boat while sustaining fish biomass. At high fishing pressure, the Cartesian mode was more effective. For the Cartesian strategy, fish biomass exhibited four distinct behaviors with increasing number of boats. In the first phase, the fish biomass dropped with increasing number of boats due to a corresponding rise in biomass extraction. Rapid exploitation occurred in the second phase, when two or more boats occupied the same initial area, that led to the faster abandonment of those sites which then underwent biomass recovery. In the third phase, adding more boats resulted in a fluctuating stock biomass, where the combined effects of initial spatial distribution of boats and rapid localization led to either full stock recovery when boats were eventually confined to a single location due to spillovers, or stock extirpation when the entire area became fully occupied. Beyond the third phase, stock extirpation was assured. In order to break the pattern of localization (bandwagon effect), we introduced stochast-random intruders in a Cartesian-dominated fishery. Adding a single intruder changed the patchy-structured stock biomass pattern of a purely Cartesian fishery to a uniformly explored stock biomass pattern because of the additional spatial information provided by the intruder. Consequently, the average catch per boat increased but at the expense of a disproportionate decline in equilibrium biomass.

Suggested Citation

  • Cabral, Reniel B. & Geronimo, Rollan C. & Lim, May T. & Aliño, Porfirio M., 2010. "Effect of variable fishing strategy on fisheries under changing effort and pressure: An agent-based model application," Ecological Modelling, Elsevier, vol. 221(2), pages 362-369.
    • Handle: RePEc:eee:ecomod:v:221:y:2010:i:2:p:362-369
    DOI: 10.1016/j.ecolmodel.2009.09.019
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    References listed on IDEAS

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    Cited by:

    1. Cabral, Reniel B. & Aliño, Porfirio M. & Lim, May T., 2013. "A coupled stock-recruitment-age-structured model of the North Sea cod under the influence of depensation," Ecological Modelling, Elsevier, vol. 253(C), pages 1-8.
    2. Thanassekos, Stéphane & Scheld, Andrew M., 2020. "Simulating the effects of environmental and market variability on fishing industry structure," Ecological Economics, Elsevier, vol. 174(C).
    3. 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.
    4. Chion, Clément & Lamontagne, P. & Turgeon, S. & Parrott, L. & Landry, J.-A. & Marceau, D.J. & Martins, C.C.A. & Michaud, R. & Ménard, N. & Cantin, G. & Dionne, S., 2011. "Eliciting cognitive processes underlying patterns of human–wildlife interactions for agent-based modelling," Ecological Modelling, Elsevier, vol. 222(14), pages 2213-2226.
    5. Stelzenmüller, V. & Letschert, J. & Gimpel, A. & Kraan, C. & Probst, W.N. & Degraer, S. & Döring, R., 2022. "From plate to plug: The impact of offshore renewables on European fisheries and the role of marine spatial planning," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    6. Cooper, Rachel & Jarre, Astrid, 2017. "An Agent-based Model of the South African Offshore Hake Trawl Industry: Part I Model Description and Validation," Ecological Economics, Elsevier, vol. 142(C), pages 268-281.

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