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An optimized crop-livestock system can achieve a safe and just planetary boundary for phosphorus at the sub-basin level in China.

Ling LiuZhaohai BaiJing YangZengwei YuanFei LunMengru WangMaryna StrokalCarolien KroezeZhenling CuiXinping ChenLin Ma
Published in: Nature food (2024)
The contribution of crop and livestock production to the exceedance of the planetary boundary for phosphorus (P) in China is still unclear, despite the country's well-known issues with P fertilizer overuse and P-related water pollution. Using coupled models at sub-basin scales we estimate that livestock production increased the consumption of P fertilizer fivefold and exacerbated P losses twofold from 1980 to 2017. At present, China's crop-livestock system is responsible for exceeding what is considered a 'just' threshold for fertilizer P use by 30% (ranging from 17% to 68%) and a 'safe' water quality threshold by 45% (ranging from 31% to 74%) in 25 sub-basins in China. Improving the crop-livestock system will keep all sub-basins within safe water quality and just multigenerational limits for P in 2050.
Keyphrases
  • water quality
  • climate change
  • sewage sludge
  • heavy metals
  • human health
  • drug induced