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From planetary to regional boundaries for agricultural nitrogen pollution

Author

Listed:
  • L. F. Schulte-Uebbing

    (Wageningen University and Research
    PBL Netherlands Environmental Assessment Agency)

  • A. H. W. Beusen

    (PBL Netherlands Environmental Assessment Agency
    Utrecht University)

  • A. F. Bouwman

    (PBL Netherlands Environmental Assessment Agency
    Utrecht University)

  • W. de Vries

    (Wageningen University and Research
    Wageningen University and Research)

Abstract

Excessive agricultural nitrogen use causes environmental problems globally1, to an extent that it has been suggested that a safe planetary boundary has been exceeded2. Earlier estimates for the planetary nitrogen boundary3,4, however, did not account for the spatial variability in both ecosystems’ sensitivity to nitrogen pollution and agricultural nitrogen losses. Here we use a spatially explicit model to establish regional boundaries for agricultural nitrogen surplus from thresholds for eutrophication of terrestrial and aquatic ecosystems and nitrate in groundwater. We estimate regional boundaries for agricultural nitrogen pollution and find both overuse and room for intensification of agricultural nitrogen. The aggregated global surplus boundary with respect to all thresholds is 43 megatonnes of nitrogen per year, which is 64 per cent lower than the current (2010) nitrogen surplus (119 megatonnes of nitrogen per year). Allowing the nitrogen surplus to increase to close yield gaps in regions where environmental thresholds are not exceeded lifts the planetary nitrogen boundary to 57 megatonnes of nitrogen per year. Feeding the world without trespassing regional and planetary nitrogen boundaries requires large increases in nitrogen use efficiencies accompanied by mitigation of non-agricultural nitrogen sources such as sewage water. This asks for coordinated action that recognizes the heterogeneity of agricultural systems, non-agricultural nitrogen losses and environmental vulnerabilities.

Suggested Citation

  • L. F. Schulte-Uebbing & A. H. W. Beusen & A. F. Bouwman & W. de Vries, 2022. "From planetary to regional boundaries for agricultural nitrogen pollution," Nature, Nature, vol. 610(7932), pages 507-512, October.
    • Handle: RePEc:nat:nature:v:610:y:2022:i:7932:d:10.1038_s41586-022-05158-2
    DOI: 10.1038/s41586-022-05158-2
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    Cited by:

    1. Mingxing Wang & An-Hui Ge & Xingzhu Ma & Xiaolin Wang & Qiujin Xie & Like Wang & Xianwei Song & Mengchen Jiang & Weibing Yang & Jeremy D. Murray & Yayu Wang & Huan Liu & Xiaofeng Cao & Ertao Wang, 2024. "Dynamic root microbiome sustains soybean productivity under unbalanced fertilization," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    2. Wang, Hongzhang & Ren, Hao & Han, Kun & Li, Geng & Zhang, Lihua & Zhao, Yali & Liu, Yuee & He, Qijin & Zhang, Jiwang & Zhao, Bin & Ren, Baizhao & Liu, Peng, 2023. "Improving the net energy and energy utilization efficiency of maize production systems in the North China Plain," Energy, Elsevier, vol. 274(C).
    3. Zhao, Danyue & Liu, Wenxin & Gao, Rong & Zhang, Ping & Li, Meng & Wu, Pute & Zhuo, La, 2023. "Spatiotemporal evolution of crop grey water footprint and associated water pollution levels in arid regions of western China," Agricultural Water Management, Elsevier, vol. 280(C).
    4. Löw, Philipp & Osterburg, Bernhard, 2024. "Evaluation of nitrogen balances and nitrogen use efficiencies on farm level of the German agricultural sector," Agricultural Systems, Elsevier, vol. 213(C).
    5. Fangkai Zhao & Lei Yang & Haw Yen & Qingyu Feng & Min Li & Liding Chen, 2023. "Reducing risks of antibiotics to crop production requires land system intensification within thresholds," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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