群岛
环境科学
南半球
生态系统
磷
焊剂(冶金)
气候变化
全球变暖
海洋学
全球气候
北半球
生态学
气候学
卫星
全球变化
持续性
人类健康
生物地球化学
地表径流
自然地理学
作者
Guowangchen Liu,Dongfeng Li,Ting Zhang,Jim Best,James J. Elser,Gabriel Filippelli,Hanqin Tian,Yi Zhao,尚能 岩田,Anmeng Sha,Shouliang Huo,Hanxiao Zhang,Wei Zhi,Lei Chen,Zhenyao Shen,Feng Zhou,Qiuwen Chen,Yong Liu,Jinren Ni
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-12-12
卷期号:11 (50): eady5884-eady5884
被引量:1
标识
DOI:10.1126/sciadv.ady5884
摘要
Rivers regulate land-ocean total phosphorus (TP) fluxes critical to ecosystem health and food security, yet global dynamics remain poorly understood due to limited observations. Here, we develop a machine learning framework integrating multimodal data and 280,000 TP measurements to reconstruct TP flux patterns over 1980-2019 across 420 major rivers. Results reveal a deceptive global equilibrium. While TP flux declines in the Northern Hemisphere, driven by dam trapping, particularly in Western Europe (-16.2%) and Eastern Asia (-8.7%), it rises in the Southern Hemisphere due to increased fertilizer use and deforestation, especially in Southern Africa (+15%) and the Malay Archipelago (+20.3%). Notably, the number of small rivers with rising TP flux is nearly double that of large rivers. This growing TP export from small rivers and Southern Hemisphere basins may intensify eutrophication, expand hypoxic zones, and threaten fishery yields. Our findings highlight a shifting global phosphorus landscape and underscore the need for more targeted, sustainable phosphorus management strategies.
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