Abstract
Lockdown restrictions were implemented in Italy from 10 March 2020 to contain the COVID-19 pandemic. Our study aims to evaluate air pollution changes, with focus on nitrogen dioxide (NO2), before and during the lockdown in Rome and in the surroundings. Significant NO2 declines were observed during the COVID-19 pandemic with reductions of − 50%, − 34%, and − 20% at urban traffic, urban background, and rural background stations, respectively. Tropospheric NO2 vertical column density (VCD) from the TROPOspheric Monitoring Instrument (TROPOMI) was used to evaluate the spatial-temporal variations of the NO2 before and during the lockdown for the entire area where the surface stations are located. The evaluation is concerned with the pixels including one or more air quality stations to explore the capability of the unprecedented high spatial resolution to monitor urban and rural sites from space with relation to the surface measurements. Good agreement between surface concentration and TROPOMI VCD was obtained in Rome (R = 0.64 in 2019, R = 0.77 in 2020) and in rural sites (R = 0.71 in 2019). Inversely, a slight correlation (R = 0.20) was observed in rural areas during the lockdown due to very low levels of NO2. Finally, the TROPOMI VCD showed a sharp decline in NO2, larger in urban (− 43%) than in rural sites (− 17%) as retrieved with the concurrent surface measurements averaging all the traffic and urban background (− 44%) and all the rural background stations (− 20%). These results suggest air pollution improvement in Rome gained from implementing lockdown restrictions.
Highlights
Nitrogen oxides (NOx = nitric oxide (NO) + nitrogen dioxide (NO2)) play a key role in the troposphere by producing ozone (O3) and secondary aerosol, and, impacting human health, ecosystems, and climate change
Atmospheric NO2 observations based on surface measurements and tropospheric TROPOspheric Monitoring Instrument (TROPOMI) vertical column density (VCD) are shown and discussed in Rome and, for the first time, in the surroundings, taking the opportunity of the unprecedented NO2 decrease as a result of lockdown restrictions to contain the COVID-19
Atmospheric NO2 observations based on surface measurements and tropospheric TROPOMI VCD are shown and discussed in Rome and, for the first time, in the surroundings taking the opportunity of the unprecedented NO2 decreases as a result of lockdown restrictions to contain the COVID-19
Summary
During the rest of the day, there is no univoque behavior, and in the case of Ada station, the 2019 data are lower than 2020 (Fig. S10) At these sites, NO values have the sharpest decrease when comparing the 2 years from 06:00 to 08:00 in the morning in coincidence with the traffic rush hour. Guido shows the highest values, which are evident outliers in the distribution obtained considering all the sites (Fig. 3). At this site, NO2 concentrations during the 2 years are rather similar in the early to the late morning (from 05:00 to 10:00–11:00), whereas for NO, the opposite happens with a more significant reduction from 05:00 to 10:00–11:00
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