Evaluation and Evolution of MAX-DOAS-observed Vertical NO2 Profiles in Urban Beijing

Multiaxis differential absorption spectroscopy (MAX-DOAS) is a newly developed advanced vertical profile detection method, but the vertical nitrogen dioxide (NO2) profiles measured by MAX-DOAS have not yet been fully verified. In this study, we perform MAX-DOAS and tower gradient observations to simultaneously acquire tropospheric NO2 observations in the Beijing urban area from 1 April to 31 May 2019. The average values of the tropospheric NO2 vertical column densities measured by MAX-DOAS and the tropospheric monitoring instrument are 15.8 x 10(15) and 12.4 x 10(15) molecules cm(-2), respectively, and the correlation coefficient R reaches 0.87. The MAX-DOAS measurements are highly consistent with the tower-based in situ measurements, and the correlation coefficients R from the ground to the upper air are 0.89 (60 m), 0.87 (160 m), and 0.76 (280 m). MAX-DOAS accurately measures the trend of NO2 vertical profile changes, although a large underestimation occurs by a factor of two. By analyzing the NO2 vertical profile, the NO2 concentration reveals an exponential decrease with height. The NO2 vertical profile also coincides with the evolution of the boundary layer height. The study shows that the NO2 over Beijing mainly originates from local sources and occurs in the boundary layer, and its vertical evolution pattern has an important guiding significance to better understand nitrate production and ozone pollution.

Automated summary

This study used MAX-DOAS and tower gradient observations to simultaneously acquire tropospheric NO2 observations in Beijing, showing that MAX-DOAS measurements are highly consistent with in situ measurements, although there is some underestimation. The NO2 concentration decreases exponentially with height, and is related to the evolution of the boundary layer height.