Your search keyword '"A. Fortems-Cheiney"' showing total 4 results

1. The Community Inversion Framework v1.0: a unified system for atmospheric inversion studies

Author

A. Berchet, E. Sollum, R. L. Thompson, I. Pison, J. Thanwerdas, G. Broquet, F. Chevallier, T. Aalto, P. Bergamaschi, D. Brunner, R. Engelen, A. Fortems-Cheiney, C. Gerbig, C. D. Groot Zwaaftink, J.-M. Haussaire, S. Henne, S. Houweling, U. Karstens, W. L. Kutsch, I. T. Luijkx, G. Monteil, P. I. Palmer, J. C. A. van Peet, W. Peters, P. Peylin, E. Potier, C. Rödenbeck, M. Saunois, M. Scholze, A. Tsuruta, and Y. Zhao

Subjects

Geology, QE1-996.5

Abstract

Atmospheric inversion approaches are expected to play a critical role in future observation-based monitoring systems for surface fluxes of greenhouse gases (GHGs), pollutants and other trace gases. In the past decade, the research community has developed various inversion software, mainly using variational or ensemble Bayesian optimization methods, with various assumptions on uncertainty structures and prior information and with various atmospheric chemistry–transport models. Each of them can assimilate some or all of the available observation streams for its domain area of interest: flask samples, in situ measurements or satellite observations. Although referenced in peer-reviewed publications and usually accessible across the research community, most systems are not at the level of transparency, flexibility and accessibility needed to provide the scientific community and policy makers with a comprehensive and robust view of the uncertainties associated with the inverse estimation of GHG and reactive species fluxes. Furthermore, their development, usually carried out by individual research institutes, may in the future not keep pace with the increasing scientific needs and technical possibilities. We present here the Community Inversion Framework (CIF) to help rationalize development efforts and leverage the strengths of individual inversion systems into a comprehensive framework. The CIF is primarily a programming protocol to allow various inversion bricks to be exchanged among researchers. In practice, the ensemble of bricks makes a flexible, transparent and open-source Python-based tool to estimate the fluxes of various GHGs and reactive species both at the global and regional scales. It will allow for running different atmospheric transport models, different observation streams and different data assimilation approaches. This adaptability will allow for a comprehensive assessment of uncertainty in a fully consistent framework. We present here the main structure and functionalities of the system, and we demonstrate how it operates in a simple academic case.

Published

2021

2. Variational regional inverse modeling of reactive species emissions with PYVAR-CHIMERE-v2019

Author

A. Fortems-Cheiney, I. Pison, G. Broquet, G. Dufour, A. Berchet, E. Potier, A. Coman, G. Siour, and L. Costantino

Subjects

Geology, QE1-996.5

Abstract

Up-to-date and accurate emission inventories for air pollutants are essential for understanding their role in the formation of tropospheric ozone and particulate matter at various temporal scales, for anticipating pollution peaks and for identifying the key drivers that could help mitigate their concentrations. This paper describes the Bayesian variational inverse system PYVAR-CHIMERE, which is now adapted to the inversion of reactive species. Complementarily with bottom-up inventories, this system aims at updating and improving the knowledge on the high spatiotemporal variability of emissions of air pollutants and their precursors. The system is designed to use any type of observations, such as satellite observations or surface station measurements. The potential of PYVAR-CHIMERE is illustrated with inversions of both carbon monoxide (CO) and nitrogen oxides (NOx) emissions in Europe, using the MOPITT and OMI satellite observations, respectively. In these cases, local increments on CO emissions can reach more than +50 %, with increases located mainly over central and eastern Europe, except in the south of Poland, and decreases located over Spain and Portugal. The illustrative cases for NOx emissions also lead to large local increments (> 50 %), for example over industrial areas (e.g., over the Po Valley) and over the Netherlands. The good behavior of the inversion is shown through statistics on the concentrations: the mean bias, RMSE, standard deviation, and correlation between the simulated and observed concentrations. For CO, the mean bias is reduced by about 27 % when using the posterior emissions, the RMSE and the standard deviation are reduced by about 50 %, and the correlation is strongly improved (0.74 when using the posterior emissions against 0.02); for NOx, the mean bias is reduced by about 24 % and the RMSE and the standard deviation are reduced by about 7 %, but the correlation is not improved. We reported strong non-linear relationships between NOx emissions and satellite NO2 columns, now requiring a fully comprehensive scientific study.

Published

2021

3. The Community Inversion Framework v1.0: a unified system for atmospheric inversion studies

Author

Berchet, Antoine, primary, Sollum, Espen, additional, Thompson, Rona L., additional, Pison, Isabelle, additional, Thanwerdas, Joël, additional, Broquet, Grégoire, additional, Chevallier, Frédéric, additional, Aalto, Tuula, additional, Berchet, Adrien, additional, Bergamaschi, Peter, additional, Brunner, Dominik, additional, Engelen, Richard, additional, Fortems-Cheiney, Audrey, additional, Gerbig, Christoph, additional, Groot Zwaaftink, Christine D., additional, Haussaire, Jean-Matthieu, additional, Henne, Stephan, additional, Houweling, Sander, additional, Karstens, Ute, additional, Kutsch, Werner L., additional, Luijkx, Ingrid T., additional, Monteil, Guillaume, additional, Palmer, Paul I., additional, van Peet, Jacob C. A., additional, Peters, Wouter, additional, Peylin, Philippe, additional, Potier, Elise, additional, Rödenbeck, Christian, additional, Saunois, Marielle, additional, Scholze, Marko, additional, Tsuruta, Aki, additional, and Zhao, Yuanhong, additional

Published

2021

4. Variational regional inverse modeling of reactive species emissions with PYVAR-CHIMERE-v2019

Author

Fortems-Cheiney, Audrey, primary, Pison, Isabelle, additional, Broquet, Grégoire, additional, Dufour, Gaëlle, additional, Berchet, Antoine, additional, Potier, Elise, additional, Coman, Adriana, additional, Siour, Guillaume, additional, and Costantino, Lorenzo, additional

Published

2021