?:abstract
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In order to fight against the spread of COVID-19, the most hard-hit countries in the spring of 2020 implemented different lockdown strategies To assess the impact of the COVID-19 pandemic lockdown on air quality worldwide, Air Quality Index (AQI) data was used to estimate the change in air quality in 20 major cities on six continents Our results show significant declines of AQI in NO2, SO2, CO, PM2 5 and PM10 in most cities, mainly due to the reduction of transportation, industry and commercial activities during lockdown This work shows the reduction of primary pollutants, especially NO2, is mainly due to lockdown policies However, preexisting local environmental policy regulations also contributed to declining NO2, SO2 and PM2 5 emissions, especially in Asian countries In addition, higher rainfall during the lockdown period could cause decline of PM2 5, especially in Johannesburg By contrast, the changes of AQI in ground-level O-3 were not significant in most of cities, as meteorological variability and ratio of VOC/NOx are key factors in ground-level O-3 formation
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In order to fight against the spread of COVID-19, the most hard-hit countries in the spring of 2020 implemented different lockdown strategies To assess the impact of the COVID-19 pandemic lockdown on air quality worldwide, Air Quality Index (AQI) data was used to estimate the change in air quality in 20 major cities on six continents Our results show significant declines of AQI in NO2, SO2, CO, PM2 5 and PM10 in most cities, mainly due to the reduction of transportation, industry and commercial activities during lockdown This work shows the reduction of primary pollutants, especially NO2, is mainly due to lockdown policies However, preexisting local environmental policy regulations also contributed to declining NO2, SO2 and PM2 5 emissions, especially in Asian countries In addition, higher rainfall during the lockdown period could cause decline of PM2 5, especially in Johannesburg By contrast, the changes of AQI in ground-level O3 were not significant in most of cities, as meteorological variability and ratio of VOC/NOx are key factors in ground-level O3 formation
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