Keeping Nitrogen Use in China within the Planetary Boundary Using a Spatially Explicit Approach

Xi Chen*, Maryna Strokal, Michelle T.H. van Vliet, Ling Liu, Zhaohai Bai, Lin Ma*, Carolien Kroeze

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Nitrogen (N) supports food production, but its excess causes water pollution. We lack an understanding of the boundary of N for water quality while considering complex relationships between N inputs and in-stream N concentrations. Our knowledge is limited to regional reduction targets to secure food production. Here, we aim to derive a spatially explicit boundary of N inputs to rivers for surface water quality using a bottom-up approach and to explore ways to meet the derived N boundary while considering the associated impacts on both surface water quality and food production in China. We modified a multiscale nutrient modeling system simulating around 6.5 Tg of N inputs to rivers that are allowed for whole of China in 2012. Maximum allowed N inputs to rivers are higher for intensive food production regions and lower for highly urbanized regions. When fertilizer and manure use is reduced, 45-76% of the streams could meet the N water quality threshold under different scenarios. A comparison of “water quality first” and “food production first” scenarios indicates that trade-offs between water quality and food production exist in 2-8% of the streams, which may put 7-28% of crop production at stake. Our insights could support region-specific policies for improving water quality.

Original languageEnglish
Pages (from-to)9689-9700
Number of pages12
JournalEnvironmental Science and Technology
Volume58
Issue number22
Early online date2024
DOIs
Publication statusPublished - 23 May 2024

Keywords

  • food production
  • nitrogen
  • planetary boundary
  • spatially explicit boundary
  • water quality

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