Your search keyword '"Godin-Beekmann, S."' showing total 5 results

1. Toward a Better Quantitative Understanding of Polar Stratospheric Ozone Loss

Author

Frieler, K, Rex, M, Salawitch, R. J, Canty, T, Streibel, M, Stimpfle, R. M, Pfeilsticker, K, Dorf, M, Weisenstein, D. K, and Godin-Beekmann, S

Subjects

Geophysics

Abstract

Previous studies have shown that observed large O3 loss rates in cold Arctic Januaries cannot be explained with current understanding of the loss processes, recommended reaction kinetics, and standard assumptions about total stratospheric chlorine and bromine. Studies based on data collected during recent field campaigns suggest faster rates of photolysis and thermal decomposition of ClOOCl and higher stratospheric bromine concentrations than previously assumed. We show that a model accounting for these kinetic changes and higher levels of BrO can largely resolve the January Arctic O3 loss problem and closely reproduces observed Arctic O3 loss while being consistent with observed levels of ClO and ClOOCl. The model also suggests that bromine catalyzed O3 loss is more important relative to chlorine catalyzed loss than previously thought.

Published

2006

2. Stratospheric Smoke With Unprecedentedly High Backscatter Observed by Lidars Above Southern France

Author

Khaykin, S. M., primary, Godin‐Beekmann, S., additional, Hauchecorne, A., additional, Pelon, J., additional, Ravetta, F., additional, and Keckhut, P., additional

Published

2018

3. Postmillennium changes in stratospheric temperature consistently resolved by GPS radio occultation and AMSU observations

Author

Khaykin, S. M., primary, Funatsu, B. M., additional, Hauchecorne, A., additional, Godin-Beekmann, S., additional, Claud, C., additional, Keckhut, P., additional, Pazmino, A., additional, Gleisner, H., additional, Nielsen, J. K., additional, Syndergaard, S., additional, and Lauritsen, K. B., additional

Published

2017

4. Arctic winter 2005: Implications for stratospheric ozone loss and climate change

Author

Rex, M., primary, Salawitch, R. J., additional, Deckelmann, H., additional, von der Gathen, P., additional, Harris, N. R. P., additional, Chipperfield, M. P., additional, Naujokat, B., additional, Reimer, E., additional, Allaart, M., additional, Andersen, S. B., additional, Bevilacqua, R., additional, Braathen, G. O., additional, Claude, H., additional, Davies, J., additional, De Backer, H., additional, Dier, H., additional, Dorokhov, V., additional, Fast, H., additional, Gerding, M., additional, Godin-Beekmann, S., additional, Hoppel, K., additional, Johnson, B., additional, Kyrö, E., additional, Litynska, Z., additional, Moore, D., additional, Nakane, H., additional, Parrondo, M. C., additional, Risley, A. D., additional, Skrivankova, P., additional, Stübi, R., additional, Viatte, P., additional, Yushkov, V., additional, and Zerefos, C., additional

Published

2006

5. COVID-19 Crisis Reduces Free Tropospheric Ozone Across the Northern Hemisphere.

Author

Steinbrecht W, Kubistin D, Plass-Dülmer C, Davies J, Tarasick DW, von der Gathen P, Deckelmann H, Jepsen N, Kivi R, Lyall N, Palm M, Notholt J, Kois B, Oelsner P, Allaart M, Piters A, Gill M, Van Malderen R, Delcloo AW, Sussmann R, Mahieu E, Servais C, Romanens G, Stübi R, Ancellet G, Godin-Beekmann S, Yamanouchi S, Strong K, Johnson B, Cullis P, Petropavlovskikh I, Hannigan JW, Hernandez JL, Diaz Rodriguez A, Nakano T, Chouza F, Leblanc T, Torres C, Garcia O, Röhling AN, Schneider M, Blumenstock T, Tully M, Paton-Walsh C, Jones N, Querel R, Strahan S, Stauffer RM, Thompson AM, Inness A, Engelen R, Chang KL, and Cooper OR

Abstract

Throughout spring and summer 2020, ozone stations in the northern extratropics recorded unusually low ozone in the free troposphere. From April to August, and from 1 to 8 kilometers altitude, ozone was on average 7% (≈4 nmol/mol) below the 2000-2020 climatological mean. Such low ozone, over several months, and at so many stations, has not been observed in any previous year since at least 2000. Atmospheric composition analyses from the Copernicus Atmosphere Monitoring Service and simulations from the NASA GMI model indicate that the large 2020 springtime ozone depletion in the Arctic stratosphere contributed less than one-quarter of the observed tropospheric anomaly. The observed anomaly is consistent with recent chemistry-climate model simulations, which assume emissions reductions similar to those caused by the COVID-19 crisis. COVID-19 related emissions reductions appear to be the major cause for the observed reduced free tropospheric ozone in 2020., (© 2021. The Authors.)

Published

2021