配额管制多物种渔业的合理均衡模型

IF 1.8 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Natural Resource Modeling Pub Date : 2022-11-17 DOI:10.1111/nrm.12361

Rajesh K. Singh, Quinn Weninger

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引用次数: 1

摘要

本文推导了合理的生态-经济平衡结果——资本和可变投入分配、收获、丢弃物、收入、成本和种群丰度——在由个体捕捞配额（IFQ）监管的空间异质性多物种渔业中。生产环境是分散的；管理者选择特定物种、季节性和空间上不受限制的配额。工业控制着收割作业的各个方面。我们提出了一个解决方案概念和计算算法，以解决跨物种、空间和时间（在监管周期内）的均衡收获、丢弃和利润。我们推导的、递归使用的合理均衡映射可以用于实现管理层偏好的生物经济结果。该模型提供了一个重要的IFQ监管到结果映射，能够在多物种和异质渔业环境中更准确地实施管理目标。

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A model of rational equilibrium in quota‐regulated multiple‐species fisheries

This paper derives rational ecological–economic equilibrium outcomes—capital and variable input allocations, harvests, discards, revenue, costs, and stock abundances—in a spatially heterogeneous, multispecies fishery that is regulated with individual fishing quotas (IFQs). The production setting is decentralized; a manager chooses species‐specific, seasonal, and spatially nondelineated quotas. Industry controls all aspects of harvesting operations. We present a solution concept and computational algorithm to solve for equilibrium harvests, discards, and profits across species, space, and time (within the regulatory cycle). The rational equilibrium mapping that we derive, used recursively, can be used to implement management‐preferred bioeconomic outcomes. The model offers an essential IFQ regulation‐to‐outcome mapping that enables more precise implementation of management goals in multiple‐species and heterogeneous fishery settings.

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来源期刊

Natural Resource Modeling 环境科学-环境科学

CiteScore

3.50

自引率

6.20%

发文量

审稿时长

>36 weeks

期刊介绍： Natural Resource Modeling is an international journal devoted to mathematical modeling of natural resource systems. It reflects the conceptual and methodological core that is common to model building throughout disciplines including such fields as forestry, fisheries, economics and ecology. This core draws upon the analytical and methodological apparatus of mathematics, statistics, and scientific computing.