Benefit of ozone observations from Sentinel-5P and future Sentinel-4 missions on tropospheric composition

Benefit of ozone observations from Sentinel-5P and future Sentinel-4 missions on tropospheric composition

We present an observing simulated system experiment (OSSE) dedicated to evaluate the potential added value from the Sentinel-4 and the Sentinel-5P observations on tropospheric ozone composition. For this purpose, the ozone data of Sentinel-4 (Ultraviolet Visible Near-infrared) and Sentinel-5P (TROPO...

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Bibliographic Details
Published in:Atmospheric measurement techniques Vol. 13; no. 1; pp. 131 - 152
Main Authors: Quesada-Ruiz, Samuel, Attié, Jean-Luc, Lahoz, William A, Abida, Rachid, Ricaud, Philippe, El Amraoui, Laaziz, Zbinden, Régina, Piacentini, Andrea, Joly, Mathieu, Eskes, Henk, Segers, Arjo, Curier, Lyana, de Haan, Johan, Kujanpää, Jukka, Oude Nijhuis, Albert Christiaan Plechelmus, Tamminen, Johanna, Timmermans, Renske, Veefkind, Pepijn
Format: Journal Article
Language:English
Published: Katlenburg-Lindau Copernicus GmbH 14-01-2020
European Geosciences Union
Copernicus Publications
Subjects:
Air pollution
Aircraft
Analysis
Assimilation
Atmospheric chemistry
Carbon monoxide
Composition
Computer simulation
Covariance matrix
Data assimilation
Domains
Earth
Eigenvectors
Environmental Sciences
Heat
Low earth orbits
Monitoring instruments
Organic chemistry
Ozone
Ozone data
Satellite data
Satellites
Smog
Stratosphere
Studies
Transport
Troposphere
Tropospheric composition
Tropospheric ozone
Europe
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Summary:We present an observing simulated system experiment (OSSE) dedicated to evaluate the potential added value from the Sentinel-4 and the Sentinel-5P observations on tropospheric ozone composition. For this purpose, the ozone data of Sentinel-4 (Ultraviolet Visible Near-infrared) and Sentinel-5P (TROPOspheric Monitoring Instrument) on board a geostationary (GEO) and a low-Earth-orbit (LEO) platform, respectively, have been simulated using the DISAMAR inversion package for the summer 2003. To ensure the robustness of the results, the OSSE has been configured with conservative assumptions. We simulate the reality by combining two chemistry transport models (CTMs): the LOng Term Ozone Simulation – EURopean Operational Smog (LOTOS-EUROS) and the Transport Model version 5 (TM5). The assimilation system is based on a different CTM, the MOdèle de Chimie Atmosphérique à Grande Echelle (MOCAGE), combined with the 3-D variational technique. The background error covariance matrix does not evolve in time and its variance is proportional to the field values. The simulated data are formed of six eigenvectors to minimize the size of the dataset by removing the noise-dominated part of the observations. The results show that the satellite data clearly bring direct added value around 200 hPa for the whole assimilation period and for the whole European domain, while a likely indirect added value is identified but not for the whole period and domain at 500 hPa, and to a lower extent at 700 hPa. In addition, the ozone added value from Sentinel-5P (LEO) appears close to that from Sentinel-4 (GEO) in the free troposphere (200–500 hPa) in our OSSE. The outcome of our study is a result of the OSSE design and the choice within each of the components of the system.
ISSN:1867-8548
1867-1381
1867-8548
DOI:10.5194/amt-13-131-2020