The potential contribution of oyster management to water quality goals in the Chesapeake Bay

IF 2.3 3区经济学 Q2 ECONOMICS

Water Resources and Economics Pub Date : 2020-10-01 DOI:10.1016/j.wre.2020.100167

Nikolaos Mykoniatis , Richard Ready

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引用次数: 2

Abstract

Excess nutrients have led to eutrophication of the Chesapeake Bay, USA. It has been suggested that oyster restoration can play an important role in achieving water quality goals in the Bay. An optimal control bioeconomic model is applied to the management of oysters in the Chesapeake Bay, taking into account nutrient removal by the oysters. Optimal management of oyster harvests in the Bay reduces the cost of attaining water quality goals by 4–6% relative to an open access fishery. A “naïve” management optimization that maximizes discounted net revenues from oyster harvests but that does not take into account their nitrogen impacts performs almost as well as the fully optimal solution. Sensitivity analyses show that the optimal oyster harvest depends on the cost of reducing nitrogen loadings from point and nonpoint sources through best management practices. Further, denitrification by living oysters is a much more important process than nutrient removal through harvest.

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牡蛎管理对切萨皮克湾水质目标的潜在贡献

营养过剩导致美国切萨皮克湾富营养化。研究表明，牡蛎的恢复对实现海湾水质目标具有重要作用。考虑牡蛎对营养物质的去除，将最优控制生物经济模型应用于切萨皮克湾牡蛎的管理。与开放渔业相比，湾内牡蛎收获的最佳管理使实现水质目标的成本降低了4-6%。一个“naïve”管理优化，最大限度地提高牡蛎收获的折现净收入，但不考虑它们对氮的影响，其效果几乎与完全优化的解决方案一样好。敏感性分析表明，牡蛎的最佳收获取决于通过最佳管理实践减少点源和非点源氮负荷的成本。此外，活牡蛎的反硝化作用比通过收获去除营养物质重要得多。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Water Resources and Economics Environmental Science-Water Science and Technology

CiteScore

5.00

自引率

0.00%

发文量

审稿时长

51 days

期刊介绍： Water Resources and Economics is one of a series of specialist titles launched by the highly-regarded Water Research. For the purpose of sustainable water resources management, understanding the multiple connections and feedback mechanisms between water resources and the economy is crucial. Water Resources and Economics addresses the financial and economic dimensions associated with water resources use and governance, across different economic sectors like agriculture, energy, industry, shipping, recreation and urban and rural water supply, at local, regional and transboundary scale. Topics of interest include (but are not restricted to) the economics of: Aquatic ecosystem services- Blue economy- Climate change and flood risk management- Climate smart agriculture- Coastal management- Droughts and water scarcity- Environmental flows- Eutrophication- Food, water, energy nexus- Groundwater management- Hydropower generation- Hydrological risks and uncertainties- Marine resources- Nature-based solutions- Resource recovery- River restoration- Storm water harvesting- Transboundary water allocation- Urban water management- Wastewater treatment- Watershed management- Water health risks- Water pollution- Water quality management- Water security- Water stress- Water technology innovation.