期刊
THEORETICAL ECOLOGY
卷 12, 期 2, 页码 131-144出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s12080-018-0399-7
关键词
Fisheries bioeconomics; Marine protected areas; Optimal control; Destructive fishing; Ecosystem-based management
类别
资金
- National Science Foundation [DEB-1558904]
- National Institute for Mathematical and Biological Synthesis
- National Science Foundation through NSF [DBI-1300426]
- University of Tennessee, Knoxville
Marine fisheries are a significant source of protein for many human populations. In some locations, however, destructive fishing practices have negatively impacted the quality of fish habitat and reduced the habitat's ability to sustain fish stocks. Improving the management of stocks that can be potentially damaged by harvesting requires improved understanding of the spatiotemporal dynamics of the stocks, their habitats, and the behavior of the harvesters. We develop a mathematical model for both a fish stock as well as its habitat quality. Both are modeled using nonlinear, parabolic partial differential equations, and density dependence in the growth rate of the fish stock depends upon habitat quality. The objective is to find the dynamic distribution of harvest effort that maximizes the discounted net present value of the coupled fishery-habitat system. The value derives both from extraction (and sale) of the stock and the provisioning of ecosystem services by the habitat. Optimal harvesting strategies are found numerically. The results suggest that no-take marine reserves can be an important part of the optimal strategy and that their spatiotemporal configuration depends both on the vulnerability of habitat to fishing damage and on the timescale of habitat recovery when fishing ceases.
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