Decoupling between ammonia emission and crop production in China due to policy interventions
Wulahati Adalibieke, Xiaoying Zhan, Xiaoqing Cui, Stefan Reis, Wilfried Winiwarter, Feng Zhou
Abstract
Abstract Cropland ammonia (NH 3 ) 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 NH 3 emissions, which may be induced by such policies, are not well evaluated. Here, we quantify the China's cropland‐NH 3 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‐NH 3 emission in China doubled from 1.93 to 4.02 Tg NH 3 ‐N in period 1980–1996, and then decreased to 3.50 Tg NH 3 ‐N in 2017. The prevalence of four agricultural policies may avoid ~3.0 Tg NH 3 ‐N in 2017, mainly located in highly fertilized areas. Optimization of fertilizer management and food consumption could mitigate three‐quarters of NH 3 emission in 2050 and lower NH 3 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‐NH 3 from crop production in China and suggest the need to achieve cropland‐NH 3 mitigation while sustaining crop yields in other developing economies.