由于降水变化，富营养化在 21 世纪将会增加。

Eutrophication will increase during the 21st century as a result of precipitation changes.

机构信息

Department of Global Ecology, Carnegie Institution for Science, Stanford, CA, USA.

Department of Earth System Science, Stanford University, Stanford, CA, USA.

出版信息

Science. 2017 Jul 28;357(6349):405-408. doi: 10.1126/science.aan2409.

DOI:10.1126/science.aan2409

PMID:28751610

Abstract

Eutrophication, or excessive nutrient enrichment, threatens water resources across the globe. We show that climate change-induced precipitation changes alone will substantially increase (19 ± 14%) riverine total nitrogen loading within the continental United States by the end of the century for the "business-as-usual" scenario. The impacts, driven by projected increases in both total and extreme precipitation, will be especially strong for the Northeast and the corn belt of the United States. Offsetting this increase would require a 33 ± 24% reduction in nitrogen inputs, representing a massive management challenge. Globally, changes in precipitation are especially likely to also exacerbate eutrophication in India, China, and Southeast Asia. It is therefore imperative that water quality management strategies account for the impact of projected future changes in precipitation on nitrogen loading.

摘要

富营养化，或过度营养富集，威胁着全球的水资源。我们表明，仅气候变化引起的降水变化就将使本世纪末美国大陆的河流总氮负荷显著增加（19±14%），在“照常营业”的情景下。这些影响是由总降水量和极端降水量预计增加驱动的，对美国东北部和玉米带的影响尤为强烈。要抵消这种增加，就需要减少 33±24%的氮输入，这代表着一个巨大的管理挑战。在全球范围内，降水变化尤其可能加剧印度、中国和东南亚的富营养化。因此，水质管理策略必须考虑到未来降水变化对氮负荷的影响。

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由于降水变化，富营养化在 21 世纪将会增加。

Eutrophication will increase during the 21st century as a result of precipitation changes.

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