Impacts of COVID-19 control measures on tropospheric NO2 over China, South Korea and Italy

Abstract

Tropospheric nitrogen dioxide (NO2) concentrations are strongly affected by anthropogenic activities. Using space-based measurements of tropospheric NO2, here we investigate the responses of tropospheric NO2 to the 2019 novel coronavirus (COVID-19) over China, South Korea, and Italy. We find noticeable reductions of tropospheric NO2 columns due to the COVID-19 controls by more than 40% over E. China, South Korea, and N. Italy. The 40% reductions of tropospheric NO2 are coincident with intensive lockdown events as well as up to 20% reductions in anthropogenic nitrogen oxides (NOx) emissions. The perturbations in tropospheric NO2 diminished accompanied with the mitigation of COVID-19 pandemic, and finally disappeared within around 50-70 days after the starts of control measures over all three nations, providing indications for the start, maximum, and mitigation of intensive controls. This work exhibits significant influences of lockdown measures on atmospheric environment, highlighting the importance of satellite observations to monitor anthropogenic activity changes.