贝类和海藻养殖导致的全球沿海氮磷负荷的预测和未来预测

A. Bouwman, M. Pawłowski, C. Liu, A. Beusen, S. Shumway, P. Glibert, C. Overbeek
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引用次数: 71

摘要

利用联合国粮农组织1970-2006年期间的国家生产数据和基于2006-2050年千年评估的情景,开发了一个模型来估计甲壳类、双壳类、腹足类和海藻水产养殖生产的氮和磷预算。在1970-2006年期间,全球甲壳类动物(18% - 1年)、软体动物(7.4%)和海藻(8%)的产量迅速增加。各种情景表明,2006年至2050年间,所有贝类(甲壳类、双壳类和腹足类)水产养殖的年养分释放量将从0.4万吨迅速增长到170万吨氮,从0.01万吨迅速增长到30万吨磷。全球淡水贝类养殖业释放的氮和磷将从2006年占河流出口的1%增加到2050年的6%。海洋贝类生产是沿海海洋营养负荷的重要贡献者,特别是在东亚。中国海产贝类养殖业释放的氮(2006年占海洋养殖+河流出口的7%,到2050年将达到19%)和磷(2006年12%,到2050年将达到30%)是沿海海域总养分投入的重要和日益增长的贡献者。甲壳类动物和双壳类动物的生产引起了营养化学计量学的变化,并增加了还原氮和有机氮的形态,这是一些有害藻类优先利用的问题。预计在未来几十年,海藻对营养物质的吸收将迅速增加。为了克服贝类生产中养分释放增加的影响,包括海藻在内的综合系统可能在减少这种养分负荷方面发挥重要作用。这篇文章有补充材料。请参阅出版商的《渔业科学评论》网络版,获取以下免费补充资源:粮农组织关于贝类和海藻产量的数据,以及为四个千年生态系统评估情景计算的1970-2006年和2006-2050年不同氮和磷预算项的模型结果]
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global Hindcasts and Future Projections of Coastal Nitrogen and Phosphorus Loads Due to Shellfish and Seaweed Aquaculture
A model was developed to estimate nitrogen and phosphorus budgets for aquaculture production of crustaceans, bivalves, gastropods, and seaweed, using country production data for the 1970–2006 period from the Food and Agriculture Organi- zation and scenarios based on the Millenium Assessment for 2006–2050. Global production of crustaceans (18% yr−1), molluscs (7.4%), and seaweed (8%) increased rapidly during the 1970–2006 period. Scenarios indicate that annual nutrient release from all shellfish (crustaceans, bivalves, and gastropods) aquaculture will rapidly grow from 0.4 to up to 1.7 million tonnes of nitrogen and from 0.01 to 0.3 million tonnes of phosphorus between 2006 and 2050. The nitrogen and phosphorus releases from global freshwater shellfish aquaculture will increase from 1% of river export in 2006 to up to 6% in 2050. Marine shellfish production is an important contributor to nutrient loading of coastal seas, particularly in Eastern Asia. Nitrogen (7% of marine aquaculture + river export in 2006 and up to 19% in 2050) and phosphorus (12% in 2006 and up to 30% in 2050) releases from Chinese marine shellfish aquaculture are important and growing contributors to total nutrient inputs to coastal seas. Production of crustaceans and bivalves causes changes in nutrient stoichiometry and increasing reduced and organic nitrogen forms, which are of concern because of their preferential use by some harmful algae. Nutrient withdrawal by seaweed is projected to increase rapidly over the coming decades. To overcome effects of increasing nutrient release from shellfish production, integrated systems that include seaweed may play an important role in reducing this nutrient load. [Supplementary materials are available for this article. Go to the publisher's online edition of Reviews in Fisheries Science for the following free supplemental resources: FAO data on shellfish and seaweed production, and model results for the different nitrogen and phosphorus budget terms calculated for 1970–2006 and for 2006–2050 for the four Millennium Ecosystem Assessment scenarios]
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Reviews in Fisheries Science
Reviews in Fisheries Science 农林科学-渔业
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