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Ground-based Assessment of the First Year of Sentinel-5p Tropospheric Ozone Data

Daan Hubert 1 Arno Keppen 1 Tijl Verhoelst 1 José Granville 1 Jean-Christopher Lambert 1 Klaus-Peter Heue 2 Mattia Pedergnana 2 Diego Loyola 2 Kai-Uwe Eichmann 3 Mark Weber 3 Arnoud Apituley 4 Maarten Sneep 4 Olaf Tuinder 4 Pepijn Veefkind 4 Anne Thompson 5 Jacquelyn Witte 6, 5 Bryan Johnson 7 Holger Vömel 8 Henry Selkirk 5, 9 Ankie Piters 4 Francisco da Silva 10 Maznorizan Mohamad 11 Christian Félix 12 Gérard Ancellet 13 Andy Delcloo 14 Valentin Duflot 15 Sophie Godin-Beekmann 16 Thierry Leblanc 17 Wolfgang Steinbrecht 18 René Stübi 12
Abstract : Tropospheric ozone is a pollutant that damages ecosystems and triggers human health problems. Ozone concentrations are highly variable over time and across the troposphere, which poses clear challenges to deepen our understanding of the processes involved in the production and transport of ozone. Further progress depends on the availability of instruments capable of measuring tropospheric ozone and its distribution at finer spatio-temporal scales. The TROPOMI instrument on the Sentinel-5p platform, launched into an early afternoon polar orbit in October 2017, combines a high spatial resolution, a large swath width and the spectral measurement characteristics required to deliver tropospheric ozone data records at unprecedented detail. The first of these products was released during Fall 2018. It consists in 0.5° (latitude) by 1° (longitude) resolved daily maps of 3-day moving mean values of the tropospheric ozone column between 20°S and 20°N, and it is computed using the convective-cloud method (CCD). A second data product consists in maps of tropical upper tropospheric ozone mixing ratio at a coarser spatial and temporal resolution. It is based on a cloud slicing algorithm (CSA), which is currently being fine-tuned for release in the very near future. A third data product, also under development at the time of this abstract, consists of the vertical profile of ozone concentration in the global troposphere and stratosphere, retrieved with the classical Optimal Estimation (OE) technique. We present here an assessment of the quality of the first year of the different tropospheric ozone column data sets retrieved from Sentinel-5p TROPOMI measurements, carried out within the context of ESA’s Sentinel-5p Mission Performance Center (MPC) and the S5PVT AO project CHEOPS-5p (Validation of Copernicus Height-resolved Ozone data Products from Sentinel-5p TROPOMI using global sonde and lidar networks, #28587). The first stage of this analysis consists of an inspection of the tropospheric ozone fields for structures which are potentially introduced in the measurement process. Sampling effects, in particular, are a possible source of uncertainty as the CCD product is derived from binned TROPOMI total ozone column data. Another structure introduced by retrieval assumptions would be the dependence of the quality of Sentinel-5p retrieved total column data to cloud parameters. In a second stage the satellite data are confronted to quality-assured ozonesonde and –tentatively– ground-based lidar measurements from the NDACC, SHADOZ and TOLNET networks. These well-characterized observational data records serve as a reference to evaluate the bias and uncertainty of the Sentinel-5p data, and their dependence on influence quantities. The study concludes with an assessment of the compliance of Sentinel-5p tropospheric ozone data with respect to mission and user requirements for key data applications.
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Submitted on : Friday, August 9, 2019 - 2:54:13 PM
Last modification on : Friday, January 10, 2020 - 3:42:36 PM


  • HAL Id : insu-02265369, version 1


Daan Hubert, Arno Keppen, Tijl Verhoelst, José Granville, Jean-Christopher Lambert, et al.. Ground-based Assessment of the First Year of Sentinel-5p Tropospheric Ozone Data. Living Planet Symposium 2019, May 2019, Milan, Italy. ⟨insu-02265369⟩



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