Abstract
In this paper, we present the estimation of surface NO2 concentrations over Germany using a machine learning approach. TROPOMI satellite observations of tropospheric NO2 vertical column densities (VCDs) and several meteorological parameters are used to train the neural network model for the prediction of surface NO2 concentrations. The neural network model is validated against ground-based in situ air quality monitoring network measurements and regional chemical transport model (CTM) simulations. Neural network estimation of surface NO2 concentrations show good agreement with in situ monitor data with Pearson correlation coefficient (R) of 0.80. The results also show that the machine learning approach is performing better than regional CTM simulations in predicting surface NO2 concentrations. We also performed a sensitivity analysis for each input parameter of the neural network model. The validated neural network model is then used to estimate surface NO2 concentrations over Germany from 2018 to 2020. Estimated surface NO2 concentrations are used to investigate the spatio-temporal characteristics, such as seasonal and weekly variations of NO2 in Germany. The estimated surface NO2 concentrations provide comprehensive information of NO2 spatial distribution which is very useful for exposure estimation. We estimated the annual average NO2 exposure for 2018, 2019 and 2020 is 15.53, 15.24 and 13.27 µµg/m3, respectively. While the annual average NO2 concentration of 2018, 2019 and 2020 is only 12.79, 12.60 and 11.15 µµg/m3. In addition, we used the surface NO2 data set to investigate the impacts of the coronavirus disease 2019 (COVID-19) pandemic on ambient NO2 levels in Germany. In general, 10–30% lower surface NO2 concentrations are observed in 2020 compared to 2018 and 2019, indicating the significant impacts of a series of restriction measures to reduce the spread of the virus.
Highlights
Nitrogen dioxide (NO2 ) is an important atmospheric constituent that can have a strong influence on air quality and climate
A scatter plot of neural network model predicted surface NO2 concentrations against in situ measurements is shown in Figure 4a, while Figure 4b shows the scatter plot of POLYPHEMUS forecast against in situ measurements
We successfully demonstrated the detection of anthropogenic impacts on air quality by combining satellite observations, machine learning and chemical transport model (CTM)
Summary
Nitrogen dioxide (NO2 ) is an important atmospheric constituent that can have a strong influence on air quality and climate. It plays a crucial role in the formation of tropospheric ozone (O3 ) [1] and aerosols [2], having a strong impact on the. High NO2 levels may be toxic to humans. Nitrogen oxides (NOx ), defined as the sum of nitric oxide (NO) and NO2 , is released into the atmosphere from both natural and anthropogenic sources. Major sources of NO2 are fossil fuel combustion, biomass burning, lightning and oxidation of ammonia [3,4].
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