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- Title
Harvest control rules for mixed-stock fisheries coping with autocorrelated recruitment variation, conservation of weak stocks, and economic well-being.
- Authors
Hawkshaw, Michael; Walters, Carl; Jacobson, Larry
- Abstract
Dynamic programming is used to construct harvest control rules that account for persistent changes in productivity, exploitation rate constraints that prevent extinction of nontarget weak stocks, and an economic objective that recognizes moderate income to be more important to fishermen than maximization of total profit. Persistent productivity changes imply downward adjustment in spawning abundance targets during periods of low productivity, while conservation constraints simply imply upper limits on exploitation rate at high stock sizes. When the economic objective is to maximize the logarithm of net income (diminishing marginal utility or welfare from higher incomes), the optimum control rule shifts from a fixed escapement form to a curve where exploitation rate increases smoothly from zero at the minimum stock size that can be fished profitably to the upper limit set by a conservation constraint. This policy is not the fixed-exploitation rate form that has been historically suggested as a way of stabilizing harvests without major loss in profits. Application of harvest control rules constructed using dynamic programming in a mixed-stock salmon fishery in fact results in total profits close to those obtainable with fixed escapement policies but without the frequent low catches or closures implied by fixed escapement policies.
- Subjects
FISH stocking; SALMON fisheries; FISH conservation; AUTOCORRELATION (Statistics); DYNAMIC programming; MARGINAL utility
- Publication
Canadian Journal of Fisheries & Aquatic Sciences, 2015, Vol 72, Issue 5, p759
- ISSN
0706-652X
- Publication type
Article
- DOI
10.1139/cjfas-2014-0212