Enhanced sulfur in the UTLS in spring 2020

Sulfur compounds in the upper troposphere and lower stratosphere (UTLS) impact the atmosphere radiation budget, either directly as particles or indirectly as precursor gas for new particle formation. In situ measurements in the UTLS are rare, but are important to better understand the impact of the...

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Main Authors: Tomsche , L., Marsing, A., Jurkat-Witschas, T., Lucke, J., Kaufmann, S., Kaiser, K., Schneider, J., Scheibe, M., Schlager, H., Röder, L., Fischer, H., Obersteiner, F., Zahn, A., Lelieveld, J., Voigt, C.
Format: Report
Language:English
Published: 2022
Subjects:
Bluesky
North Atlantic
Online Access:http://hdl.handle.net/21.11116/0000-000A-6332-E
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record_format openpolar
spelling ftpubman:oai:pure.mpg.de:item_3379654 2023-08-27T04:11:02+02:00 Enhanced sulfur in the UTLS in spring 2020 Tomsche , L. Marsing, A. Jurkat-Witschas, T. Lucke, J. Kaufmann, S. Kaiser, K. Schneider, J. Scheibe, M. Schlager, H. Röder, L. Fischer, H. Obersteiner, F. Zahn, A. Lelieveld, J. Voigt, C. 2022-04-25 http://hdl.handle.net/21.11116/0000-000A-6332-E eng eng info:eu-repo/semantics/altIdentifier/doi/10.5194/acp-2022-274 http://hdl.handle.net/21.11116/0000-000A-6332-E Atmospheric Chemistry and Physics Discussions info:eu-repo/semantics/preprint 2022 ftpubman https://doi.org/10.5194/acp-2022-274 2023-08-02T01:13:39Z Sulfur compounds in the upper troposphere and lower stratosphere (UTLS) impact the atmosphere radiation budget, either directly as particles or indirectly as precursor gas for new particle formation. In situ measurements in the UTLS are rare, but are important to better understand the impact of the sulfur budget on climate. The BLUESKY mission in May/June 2020 explored an unprecedented situation. 1) The UTLS experienced extraordinary dry conditions in spring 2020 over Europe, in comparison to previous years and 2) the first lockdown of the COVID-19 pandemic caused major emission reductions from industry, ground, and airborne transportation. With the two research aircraft HALO and Falcon, 20 flights were conducted over Central Europe and the North Atlantic to investigate the atmospheric composition with respect to trace gases, aerosol, and clouds. Here, we focus on measurements of sulfur dioxide (SO2) and particulate sulfate (SO42-) in the altitude range of 8 to 14.5 km which show unexpectedly enhanced mixing ratios of SO2 in the upper troposphere and of SO42- in the lowermost stratosphere. In the UT, we find SO2 mixing ratios of (0.07 ± 0.01) ppb, caused by the remaining air traffic, reduced SO2 sinks due to low OH and low cloud fractions, and to a minor extend by uplift from boundary layer sources. Particulate sulfate showed elevated mixing ratios of up to 0.33 ppb in the LS. We suggest that the eruption of the volcano Raikoke in June 2019, which emitted about 1 Tg SO2 into the stratosphere in northern midlatitudes caused these enhancements, in addition to Siberian and Canadian wildfires and other minor volcanic eruptions. Our measurements can help to test models and lead to new insights in the distribution of sulfur compounds in the UTLS, their sources and sinks. Moreover, these results can contribute to improve simulations of the radiation budget in the UTLS with respect to sulfur effects. Report North Atlantic Max Planck Society: MPG.PuRe Bluesky ENVELOPE(-118.236,-118.236,56.067,56.067)
institution Open Polar
collection Max Planck Society: MPG.PuRe
op_collection_id ftpubman
language English
description Sulfur compounds in the upper troposphere and lower stratosphere (UTLS) impact the atmosphere radiation budget, either directly as particles or indirectly as precursor gas for new particle formation. In situ measurements in the UTLS are rare, but are important to better understand the impact of the sulfur budget on climate. The BLUESKY mission in May/June 2020 explored an unprecedented situation. 1) The UTLS experienced extraordinary dry conditions in spring 2020 over Europe, in comparison to previous years and 2) the first lockdown of the COVID-19 pandemic caused major emission reductions from industry, ground, and airborne transportation. With the two research aircraft HALO and Falcon, 20 flights were conducted over Central Europe and the North Atlantic to investigate the atmospheric composition with respect to trace gases, aerosol, and clouds. Here, we focus on measurements of sulfur dioxide (SO2) and particulate sulfate (SO42-) in the altitude range of 8 to 14.5 km which show unexpectedly enhanced mixing ratios of SO2 in the upper troposphere and of SO42- in the lowermost stratosphere. In the UT, we find SO2 mixing ratios of (0.07 ± 0.01) ppb, caused by the remaining air traffic, reduced SO2 sinks due to low OH and low cloud fractions, and to a minor extend by uplift from boundary layer sources. Particulate sulfate showed elevated mixing ratios of up to 0.33 ppb in the LS. We suggest that the eruption of the volcano Raikoke in June 2019, which emitted about 1 Tg SO2 into the stratosphere in northern midlatitudes caused these enhancements, in addition to Siberian and Canadian wildfires and other minor volcanic eruptions. Our measurements can help to test models and lead to new insights in the distribution of sulfur compounds in the UTLS, their sources and sinks. Moreover, these results can contribute to improve simulations of the radiation budget in the UTLS with respect to sulfur effects.
format Report
author Tomsche , L.
Marsing, A.
Jurkat-Witschas, T.
Lucke, J.
Kaufmann, S.
Kaiser, K.
Schneider, J.
Scheibe, M.
Schlager, H.
Röder, L.
Fischer, H.
Obersteiner, F.
Zahn, A.
Lelieveld, J.
Voigt, C.
spellingShingle Tomsche , L.
Marsing, A.
Jurkat-Witschas, T.
Lucke, J.
Kaufmann, S.
Kaiser, K.
Schneider, J.
Scheibe, M.
Schlager, H.
Röder, L.
Fischer, H.
Obersteiner, F.
Zahn, A.
Lelieveld, J.
Voigt, C.
Enhanced sulfur in the UTLS in spring 2020
author_facet Tomsche , L.
Marsing, A.
Jurkat-Witschas, T.
Lucke, J.
Kaufmann, S.
Kaiser, K.
Schneider, J.
Scheibe, M.
Schlager, H.
Röder, L.
Fischer, H.
Obersteiner, F.
Zahn, A.
Lelieveld, J.
Voigt, C.
author_sort Tomsche , L.
title Enhanced sulfur in the UTLS in spring 2020
title_short Enhanced sulfur in the UTLS in spring 2020
title_full Enhanced sulfur in the UTLS in spring 2020
title_fullStr Enhanced sulfur in the UTLS in spring 2020
title_full_unstemmed Enhanced sulfur in the UTLS in spring 2020
title_sort enhanced sulfur in the utls in spring 2020
publishDate 2022
url http://hdl.handle.net/21.11116/0000-000A-6332-E
long_lat ENVELOPE(-118.236,-118.236,56.067,56.067)
geographic Bluesky
geographic_facet Bluesky
genre North Atlantic
genre_facet North Atlantic
op_source Atmospheric Chemistry and Physics Discussions
op_relation info:eu-repo/semantics/altIdentifier/doi/10.5194/acp-2022-274
http://hdl.handle.net/21.11116/0000-000A-6332-E
op_doi https://doi.org/10.5194/acp-2022-274
_version_ 1775353475698262016

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