Cost-effectiveness of mussel farming as a water quality improvement measure: Agricultural, environmental and market drivers

IF 2.3 3区 经济学 Q2 ECONOMICS Water Resources and Economics Pub Date : 2020-10-01 DOI:10.1016/j.wre.2020.100168
Raphael Filippelli , Mette Termansen , Berit Hasler , Karen Timmermann , Jens Kjerulf Petersen
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引用次数: 8

Abstract

This study aims to understand the economic and bio-physical conditions under which mussel farming is a cost-effective mitigation measure to improve water quality related to excess nitrogen in fjords and coastal areas. We set-up a mixed-integer optimization model including every farm in three agricultural catchments surrounding Limfjorden, the largest fjord in Denmark. We include a number of relevant nitrogen abatement measures, including agricultural land-use measures and mussel farming in the sea. The aim is to model the least costly combination of mitigation measures to improve water quality when agricultural, environmental and market conditions vary. We run three scenarios varying environmental conditions for mussel productivity and market opportunities for mussel-based products as organic animal feed. We analyze the resulting marginal abatement costs and draw insights about the potential scale of mussel farming for the different catchments. We show that mussel farming is a cost-effective option for 2 of the 3 catchments, but that decreasing mussel productivity over time may make the measure ineffective for one of the catchments, if a market for feed is not available. The possibility of a market for mussel-based organic feed significantly increases the share of nitrogen reduction done by mussels and decreases overall costs by up to 65%. Ultimately, the results indicate that, for catchments where environmental conditions are adequate, mussel farming can be a cost-effective nutrient reduction measure. Therefore, mussel farming can potentially increase the cost-effectiveness of incentive schemes aimed at reducing eutrophication in fjords and coastal waters.

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贻贝养殖作为水质改善措施的成本效益:农业、环境和市场驱动因素
本研究旨在了解在经济和生物物理条件下,贻贝养殖是一种具有成本效益的缓解措施,以改善峡湾和沿海地区与过量氮有关的水质。我们建立了一个混合整数优化模型,包括丹麦最大的峡湾Limfjorden周围三个农业集水区的每个农场。我们纳入了一些相关的氮减排措施,包括农业土地利用措施和海洋贻贝养殖。其目的是在农业、环境和市场条件变化的情况下,建立成本最低的缓解措施组合模型,以改善水质。我们运行了三种不同环境条件的贻贝生产力和贻贝产品作为有机动物饲料的市场机会。我们分析了由此产生的边际减排成本,并对不同流域贻贝养殖的潜在规模提出了见解。我们表明,贻贝养殖对3个集水区中的2个来说是一个具有成本效益的选择,但如果没有饲料市场,随着时间的推移,贻贝生产力的下降可能会使该措施对其中一个集水区无效。以贻贝为基础的有机饲料市场的可能性大大增加了贻贝减少氮的份额,并将总成本降低了65%。最终,结果表明,对于环境条件充足的集水区,贻贝养殖可以是一种具有成本效益的减少营养的措施。因此,贻贝养殖可以潜在地提高旨在减少峡湾和沿海水域富营养化的奖励计划的成本效益。
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来源期刊
Water Resources and Economics
Water Resources and Economics Environmental Science-Water Science and Technology
CiteScore
5.00
自引率
0.00%
发文量
17
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.
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