Changes of ammonia concentrations in wintertime on the North China Plain from 2018 to 2020
2021
He, Yuexin | Pan, Yuepeng | Gu, Mengna | Sun, Qian | Zhang, Qianqian | Zhang, Renjian | Wang, Yuesi
The reduced economic and social activities during the Chinese Spring Festival provide a unique experiment to evaluate reductions in anthropogenic NH₃ emissions in China. However, quantifying this unique scenario is challenging as meteorology may mask the real changes in observed NH₃ concentrations. Here, we applied a machine learning technique to decouple the effects of meteorology and confirmed that the real (deweathered) NH₃ concentration dropped to a minimum during the Spring Festival in 2019 and 2020 at both urban (Beijing) and rural (Xianghe) sites on the North China Plain. Compared with the scenario without the Spring Festival effect, we predicted that NH₃ concentrations in 2020 were 39.8% and 24.6% higher than the observed values at the urban and rural sites, respectively. The significant difference between the two sites indicates a larger reduction in anthropogenic NH₃ emissions in urban areas than in rural areas due to the Spring Festival and lockdown measures of COVID-19. Future control strategies should consider the emissions of NH₃ from the transportation, industrial and residential sectors, considering that agricultural emissions are minor in cold seasons.
显示更多 [+] 显示较少 [-]