Decoupling between ammonia emission and crop production in China due to policy interventions

Cropland ammonia (NH3) emission is a critical driver triggering haze pollution. Many agricultural policies were enforced in past four decades to improve nitrogen (N) use efficiency while maintaining crop yield. Inadvertent reductions of NH3 emissions, which may be induced by such policies, are not w...

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Bibliographic Details
Published in:Global change biology 2021-11, Vol.27 (22), p.5877-5888
Main Authors: Adalibieke, Wulahati, Zhan, Xiaoying, Cui, Xiaoqing, Reis, Stefan, Winiwarter, Wilfried, Zhou, Feng
Format: Article
Language:English
Subjects:
Agricultural land
agricultural management
Agricultural policy
Ammonia
Biological fertilization
Crop production
Crop yield
Crops
Decoupling
Emission analysis
emission inventory
Emissions
Fertilization
Fertilizers
flux upscaling
Food consumption
Haze
Mitigation
Nitrogen
Optimization
Policies
policy intervention
Pollution
Surveying
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Summary:Cropland ammonia (NH3) emission is a critical driver triggering haze pollution. Many agricultural policies were enforced in past four decades to improve nitrogen (N) use efficiency while maintaining crop yield. Inadvertent reductions of NH3 emissions, which may be induced by such policies, are not well evaluated. Here, we quantify the China's cropland‐NH3 emission change from 1980 to 2050 and its response to policy interventions, using a data‐driven model and a survey‐based dataset of the fertilization scheme. Cropland‐NH3 emission in China doubled from 1.93 to 4.02 Tg NH3‐N in period 1980–1996, and then decreased to 3.50 Tg NH3‐N in 2017. The prevalence of four agricultural policies may avoid ~3.0 Tg NH3‐N in 2017, mainly located in highly fertilized areas. Optimization of fertilizer management and food consumption could mitigate three‐quarters of NH3 emission in 2050 and lower NH3 emission intensity (emission divided by crop production) close to the European Union and the United States. Our findings provide an evidence on the decoupling of cropland‐NH3 from crop production in China and suggest the need to achieve cropland‐NH3 mitigation while sustaining crop yields in other developing economies. Cropland‐NH3 emission in China doubled from 1.93 to 4.02 Tg NH3‐N in period 1980–1996, and then decreased to 3.50 Tg NH3‐N in 2017. The prevalence of four agricultural policies may avoid ~3.0 Tg NH3‐N in 2017. Optimization of fertilizer management and food consumption could mitigate three‐quarters of NH3 emission in 2050 and lower NH3 emission intensity close to the European Union and the United States.
ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.15847