TROPOMI NO2 retrieval: December 2020 (v1.4) and April 2021 (v2.2) upgrades, and comparisons with OMI and ground-based remote sensing

Jos van Geffen; Henk Eskes; Maarten Sneep; Gaia Pinardi; Tijl Verhoelst; Steven Compernolle; Mark ter Linden; Folkert Boersma; Pepijn Veefkind

doi:https://doi.org/10.5194/egusphere-egu21-9668

[Back] [Session AS3.16]

EGU21-9668, updated on 25 Apr 2023

https://doi.org/10.5194/egusphere-egu21-9668

EGU General Assembly 2021

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

TROPOMI NO2 retrieval: December 2020 (v1.4) and April 2021 (v2.2) upgrades, and comparisons with OMI and ground-based remote sensing

Jos van Geffen¹, Henk Eskes¹, Maarten Sneep¹, Gaia Pinardi², Tijl Verhoelst², Steven Compernolle², Mark ter Linden^1,3, Folkert Boersma^1,4, and Pepijn Veefkind^1,5

Jos van Geffen et al.

¹Royal Netherlands Meteorological Institute (KNMI), De Bilt, Netherlands
²Belgian Institute for Space Aeronomy (BIRA-IASB), Brussels, Belgium
³Science and Technology Corporation (S[&]T), Delft, The Netherlands
⁴Wageningen University (WUR), Wageningen, The Netherlands
⁵Delft University of Technology (TUDelft), Delft, The Netherlands

The Tropospheric Monitoring Instrument (TROPOMI) on the Sentinel-5 Precursor (S5P) satellite is a unique instrument, combining daily global coverage, very high signal-to-noise, a broad spectral range and very small pixels up to 3.5 x 5.5 km². Retrievals are available for a large number of species, including NO₂. Due to the very small pixels and daily revisit, TROPOMI provides detailed information on individual sources and source sectors like individual power plants, industrial complexes, cities and suburbs, highways, and even individual ships. The TROPOMI Level-2 NO₂ product is available from 30 April 2018 onwards.

Validation exercises of TROPOMI v1.2 & v1.3 data (2018-2020) with OMI and ground-based remote sensing observations have shown that TROPOMI's tropospheric NO₂ column are low by up to 50% over highly polluted areas compared to independent data. In contrast, the underlying slant columns of TROPOMI agree well with OMI and independent SAOZ observations. Differences between OMI and TROPOMI have been mainly attributed to the different cloud height retrieval, using the O₂-O₂ versus O₂-A bands respectively.

In our presentation we discuss recent improvements in the TROPOMI NO₂ retrieval and the impact these have on the tropospheric columns and on the comparisons with OMI and ground-based remote-sensing data.

Version v1.4, which became operational on 2 December 2020, entails a major improvement in the cloud height retrieval, based on a modification of the FRESCO-S cloud retrieval using the O₂-A band observations. In particular the cloud height over scenes with a small cloud coverage have increased, resulting in larger tropospheric columns in the retrievals over polluted areas.

Version v2.2, to become operational in April/May 2021, includes similar cloud retrieval modifications. Furthermore, it provides a better treatment of saturation issues and transients, is using improved (ir)radiance measurements (level-1b v2 spectra) including degradation corrections, and includes a new albedo treatment.

The TROPOMI NO₂ retrievals are compared with OMI retrievals (from the QA4ECV product) and to ground-based observations with MAXDOAS and PANDORA instruments.

How to cite: van Geffen, J., Eskes, H., Sneep, M., Pinardi, G., Verhoelst, T., Compernolle, S., ter Linden, M., Boersma, F., and Veefkind, P.: TROPOMI NO2 retrieval: December 2020 (v1.4) and April 2021 (v2.2) upgrades, and comparisons with OMI and ground-based remote sensing, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-9668, https://doi.org/10.5194/egusphere-egu21-9668, 2021.

Corresponding displays formerly uploaded have been withdrawn.