Untangling the contributions of meteorological conditions and human mobility to tropospheric NO(2) in Chinese mainland during the COVID-19 pandemic in early 2020.

In early 2020, unprecedented lockdowns and travel bans were implemented in Chinese mainland to fight COVID-19, which led to a large reduction in anthropogenic emissions. This provided a unique opportunity to isolate the effects from emission and meteorology on tropospheric nitrogen dioxide (NO(2)). Comparing the atmospheric NO(2) in 2020 with that in 2017, we found the changes of emission have led to a 49.3 ± 23.5% reduction, which was ∼12% more than satellite-observed reduction of 37.8 ± 16.3%. The discrepancy was mainly a result of changes of meteorology, which have contributed to an 8.1 ± 14.2% increase of NO(2). We also revealed that the emission-induced reduction of NO(2) has significantly negative correlations to human mobility, particularly that inside the city. The intra-city migration index derived from Baidu Location-Based-Service can explain 40.4% ± 17.7% variance of the emission-induced reduction of NO(2) in 29 megacities, each of which has a population of over 8 million in Chinese mainland.