Integrated carbon and nitrogen management for cost-effective environmental policies in China

Xin Xu; Xiuming Zhang; Yiyang Zou; Tianrun Chen; Jingfang Zhan; Luxi Cheng; Wilfried Winiwarter; Shaohui Zhang; Peter M. Vitousek; Wim de Vries; Baojing Gu

doi:10.1126/science.ads4105

Integrated carbon and nitrogen management for cost-effective environmental policies in China

Xin Xu, Xiuming Zhang, Yiyang Zou, Tianrun Chen, Jingfang Zhan, Luxi Cheng, Wilfried Winiwarter, Shaohui Zhang, Peter M. Vitousek, Wim de Vries, Baojing Gu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

3 Citations (Scopus)

Abstract

Carbon and nitrogen are central elements in global biogeochemical cycles. To effectively manage carbon and nitrogen in China, we developed a comprehensive model for quantifying their fluxes, investigating their interplay across 16 human and natural subsystems. Between 1980 and 2020, nitrogen losses in China increased 2.3-fold and carbon emissions surged 6.5-fold. Integrated carbon and nitrogen management holds the potential for a 74% reduction in nitrogen losses to air and water and a 91% decrease in carbon emissions to the atmosphere by 2060. Compared with separate control of carbon or nitrogen, integrated management delivers an additional reduction of 1.8 million tons of nitrogen and 26.5 million tons of carbon by 2060, bringing out a 37% decrease in unit abatement cost and a net societal benefit of 1384 billion uSD.

Original language	English
Pages (from-to)	1098-1103
Number of pages	6
Journal	Science
Volume	388
Issue number	6751
DOIs	https://doi.org/10.1126/science.ads4105
Publication status	Published - 5 Jun 2025

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title = "Integrated carbon and nitrogen management for cost-effective environmental policies in China",

abstract = "Carbon and nitrogen are central elements in global biogeochemical cycles. To effectively manage carbon and nitrogen in China, we developed a comprehensive model for quantifying their fluxes, investigating their interplay across 16 human and natural subsystems. Between 1980 and 2020, nitrogen losses in China increased 2.3-fold and carbon emissions surged 6.5-fold. Integrated carbon and nitrogen management holds the potential for a 74\% reduction in nitrogen losses to air and water and a 91\% decrease in carbon emissions to the atmosphere by 2060. Compared with separate control of carbon or nitrogen, integrated management delivers an additional reduction of 1.8 million tons of nitrogen and 26.5 million tons of carbon by 2060, bringing out a 37\% decrease in unit abatement cost and a net societal benefit of 1384 billion uSD.",

author = "Xin Xu and Xiuming Zhang and Yiyang Zou and Tianrun Chen and Jingfang Zhan and Luxi Cheng and Wilfried Winiwarter and Shaohui Zhang and Vitousek, \{Peter M.\} and \{de Vries\}, Wim and Baojing Gu",

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T1 - Integrated carbon and nitrogen management for cost-effective environmental policies in China

AU - Xu, Xin

AU - Zhang, Xiuming

AU - Zou, Yiyang

AU - Chen, Tianrun

AU - Zhan, Jingfang

AU - Cheng, Luxi

AU - Winiwarter, Wilfried

AU - Zhang, Shaohui

AU - Vitousek, Peter M.

AU - de Vries, Wim

AU - Gu, Baojing

PY - 2025/6/5

Y1 - 2025/6/5

N2 - Carbon and nitrogen are central elements in global biogeochemical cycles. To effectively manage carbon and nitrogen in China, we developed a comprehensive model for quantifying their fluxes, investigating their interplay across 16 human and natural subsystems. Between 1980 and 2020, nitrogen losses in China increased 2.3-fold and carbon emissions surged 6.5-fold. Integrated carbon and nitrogen management holds the potential for a 74% reduction in nitrogen losses to air and water and a 91% decrease in carbon emissions to the atmosphere by 2060. Compared with separate control of carbon or nitrogen, integrated management delivers an additional reduction of 1.8 million tons of nitrogen and 26.5 million tons of carbon by 2060, bringing out a 37% decrease in unit abatement cost and a net societal benefit of 1384 billion uSD.

AB - Carbon and nitrogen are central elements in global biogeochemical cycles. To effectively manage carbon and nitrogen in China, we developed a comprehensive model for quantifying their fluxes, investigating their interplay across 16 human and natural subsystems. Between 1980 and 2020, nitrogen losses in China increased 2.3-fold and carbon emissions surged 6.5-fold. Integrated carbon and nitrogen management holds the potential for a 74% reduction in nitrogen losses to air and water and a 91% decrease in carbon emissions to the atmosphere by 2060. Compared with separate control of carbon or nitrogen, integrated management delivers an additional reduction of 1.8 million tons of nitrogen and 26.5 million tons of carbon by 2060, bringing out a 37% decrease in unit abatement cost and a net societal benefit of 1384 billion uSD.

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DO - 10.1126/science.ads4105

M3 - Article

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Integrated carbon and nitrogen management for cost-effective environmental policies in China

Abstract

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