Rising importance of agricultural nitrogen oxide emissions in China’s future PM2.5 pollution mitigation
Yuanhong Zhao, Zhanpeng Su, Youfan Chen, S. Hou, Xiao Lu, Bo Zheng, Lei Liu, Yuepeng Pan, Wen Xu, Xuejun Liu, Lin Zhang
Abstract
Controlling ammonia (NH 3 ) emissions through agricultural management has been recognized as effectively mitigating fine particulate matter (PM 2.5 ) pollution in eastern China. However, agricultural nitrogen oxide (NO x ) emissions are often overlooked. Here we estimate agricultural NO x emissions and design a set of atmospheric chemistry model experiments to assess their role in present and future PM 2.5 pollution mitigation in eastern China. The results show that when fossil fuel emissions decrease to 2060 levels, the contribution of agricultural NO x emissions to secondary inorganic aerosol (SIA) concentrations during the crop-growing season will reach 40% over intensive agricultural areas such as North China Plain, and the efficiency of reducing agricultural NO x emissions in mitigating SIAs will become comparable to reducing NH 3 emissions. By estimating the optimal reactive nitrogen (Nr) emission control pathway, we find that when including agricultural NO x emissions, the strategies will shift in favor of controlling agricultural Nr emissions to achieve more efficient PM 2.5 mitigation. Such additional benefits of agricultural nitrogen management should be considered when designing future air quality strategies for agricultural-intensive regions.