Validation of tropospheric NO2 column measurements of GOME-2A and OMI using MAX-DOAS and direct sun network observations
2020
Pinardi, Gaia | van Roozendael, Michel | Hendrick, François | Theys, Nicolas | Abuhassan, Nader | Bais, Alkiviadis | Boersma, Folkert | Cede, Alexander | Chong, Jihyo | Donner, Sebastian | Drosoglou, Theano | Dzhola, Anatoly | Eskes, Henk | Frieß, Udo | Granville, José | Herman, Jay R. | Holla, Robert | Hovila, Jari | Irie, Hitoshi | Kanaya, Yugo | Karagkiozidis, Dimitris | Kouremeti, Natalia | Lambert, Jean Christopher | Ma, Jianzhong | Peters, Enno | Piters, Ankie | Postylyakov, Oleg | Richter, Andreas | Remmers, Julia | Takashima, Hisahiro | Tiefengraber, Martin | Valks, Pieter | Vlemmix, Tim | Wagner, Thomas | Wittrock, Folkard
Multi-axis differential optical absorption spectroscopy (MAX-DOAS) and direct sun NO2 vertical column network data are used to investigate the accuracy of tropospheric NO2 column measurements of the GOME-2 instrument on the MetOp-A satellite platform and the OMI instrument on Aura. The study is based on 23 MAX-DOAS and 16 direct sun instruments at stations distributed worldwide. A method to quantify and correct for horizontal dilution effects in heterogeneous NO2 field conditions is proposed. After systematic application of this correction to urban sites, satellite measurements are found to present smaller biases compared to ground-based reference data in almost all cases. We investigate the seasonal dependence of the validation results as well as the impact of using different approaches to
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