由于未来的污染，全球面临水资源短缺的河流流域数量将增加两倍。

A triple increase in global river basins with water scarcity due to future pollution.

作者信息

Wang Mengru, Bodirsky Benjamin Leon, Rijneveld Rhodé, Beier Felicitas, Bak Mirjam P, Batool Masooma, Droppers Bram, Popp Alexander, van Vliet Michelle T H, Strokal Maryna

机构信息

Earth Systems and Global Change Group, Wageningen University & Research, Droevendaalsesteeg 3, 6708, PB, Wageningen, The Netherlands.

Potsdam Institute for Climate Impact Research (PIK), Leibniz Association, Telegrafenberg A56, 14412, Potsdam, Germany.

出版信息

Nat Commun. 2024 Feb 6;15(1):880. doi: 10.1038/s41467-024-44947-3.

DOI:10.1038/s41467-024-44947-3

PMID:38321008

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10847517/

Abstract

Water security is at stake today. While climate changes influence water availability, urbanization and agricultural activities have led to increasing water demand as well as pollution, limiting safe water use. We conducted a global assessment of future clean-water scarcity for 2050s by adding the water pollution aspect to the classical water quantity-induced scarcity assessments. This was done for >10,000 sub-basins focusing on nitrogen pollution in rivers by integrating land-system, hydrological and water quality models. We found that water pollution aggravates water scarcity in >2000 sub-basins worldwide. The number of sub-basins with water scarcity triples due to future nitrogen pollution worldwide. In 2010, 984 sub-basins are classified as water scarce when considering only quantity-induced scarcity, while 2517 sub-basins are affected by quantity & quality-induced scarcity. This number even increases to 3061 sub-basins in the worst case scenario in 2050. This aggravation means an extra 40 million km of basin area and 3 billion more people that may potentially face water scarcity in 2050. Our results stress the urgent need to address water quality in future water management policies for the Sustainable Development Goals.

摘要

如今，水安全面临威胁。气候变化影响着水资源的可利用性，而城市化和农业活动导致用水需求增加以及水污染加剧，限制了安全用水。我们通过在传统的因水量导致的缺水评估中加入水污染因素，对21世纪50年代未来清洁水短缺情况进行了全球评估。这是通过整合土地系统、水文和水质模型，针对一万多个子流域，重点研究河流中的氮污染来完成的。我们发现，水污染使全球2000多个子流域的缺水情况恶化。由于未来全球的氮污染，缺水子流域的数量增加了两倍。2010年，仅考虑因水量导致的缺水时，984个子流域被归类为缺水，而2517个子流域受到因水量和水质导致的缺水影响。在2050年的最坏情况下，这个数字甚至增加到3061个子流域。这种恶化意味着到2050年可能会有额外4000万平方公里的流域面积以及30亿更多人口面临缺水问题。我们的研究结果强调，在为实现可持续发展目标而制定的未来水资源管理政策中，迫切需要解决水质问题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f3f0/10847517/77334414606a/41467_2024_44947_Fig1_HTML.jpg

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由于未来的污染，全球面临水资源短缺的河流流域数量将增加两倍。

A triple increase in global river basins with water scarcity due to future pollution.

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