OPTIMAL FISH HARVESTING FOR A POPULATION MODELED BY A NONLINEAR PARABOLIC PARTIAL DIFFERENTIAL EQUATION

OPTIMAL FISH HARVESTING FOR A POPULATION MODELED BY A NONLINEAR PARABOLIC PARTIAL DIFFERENTIAL EQUATION

As the human population continues to grow, there is a need for better management of our natural resources in order for our planet to be able to produce enough to sustain us. One important resource we must consider is marine fish populations. We use the tool of optimal control to investigate harvesti...

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Veröffentlicht in:Natural resource modeling 2016-02, Vol.29 (1), p.36-70
Hauptverfasser: KELLY JR, MICHAEL R., XING, YULONG, LENHART, SUZANNE
Format: Artikel
Sprache:eng
Schlagworte:
Fish
fisheries
harvesting
Marine
Marine conservation
optimal control theory
Partial differential equations
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Zusammenfassung:As the human population continues to grow, there is a need for better management of our natural resources in order for our planet to be able to produce enough to sustain us. One important resource we must consider is marine fish populations. We use the tool of optimal control to investigate harvesting strategies for maximizing yield of a fish population in a heterogeneous, finite domain. We determine whether these solutions include no‐take marine reserves as part of the optimal solution. The fishery stock is modeled using a nonlinear, parabolic partial differential equation with logistic growth, movement by diffusion and advection, and with Robin boundary conditions. The objective for the problem is to find the harvest rate that maximizes the discounted yield. Optimal harvesting strategies are found numerically.
ISSN:0890-8575
1939-7445
DOI:10.1111/nrm.12073