Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature

More than a decade ago it was suggested that a cooling of stratospheric temperatures by 1 K or an increase of 1 ppmv of stratospheric water vapour could promote denitrification, the permanent removal of nitrogen species from the stratosphere by solid polar stratospheric cloud (PSC) particles. In fac...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Khosrawi, F., Urban, J., Lossow, S., Stiller, G., Weigel, K., Braesicke, P., Pitts, M. C., Rozanov, A., Burrows, J. P., Murtagh, D.
Format: Text
Language:English
Published: 2018
Subjects:
Arctic
Online Access:https://doi.org/10.5194/acp-16-101-2016
https://www.atmos-chem-phys.net/16/101/2016/
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spelling ftcopernicus:oai:publications.copernicus.org:acp29427 2023-05-15T14:59:06+02:00 Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature Khosrawi, F. Urban, J. Lossow, S. Stiller, G. Weigel, K. Braesicke, P. Pitts, M. C. Rozanov, A. Burrows, J. P. Murtagh, D. 2018-09-09 application/pdf https://doi.org/10.5194/acp-16-101-2016 https://www.atmos-chem-phys.net/16/101/2016/ eng eng doi:10.5194/acp-16-101-2016 https://www.atmos-chem-phys.net/16/101/2016/ eISSN: 1680-7324 Text 2018 ftcopernicus https://doi.org/10.5194/acp-16-101-2016 2019-12-24T09:52:51Z More than a decade ago it was suggested that a cooling of stratospheric temperatures by 1 K or an increase of 1 ppmv of stratospheric water vapour could promote denitrification, the permanent removal of nitrogen species from the stratosphere by solid polar stratospheric cloud (PSC) particles. In fact, during the two Arctic winters 2009/10 and 2010/11 the strongest denitrification in the recent decade was observed. Sensitivity studies along air parcel trajectories are performed to test how a future stratospheric water vapour (H 2 O) increase of 1 ppmv or a temperature decrease of 1 K would affect PSC formation. We perform our study based on measurements made during the Arctic winter 2010/11. Air parcel trajectories were calculated 6 days backward in time based on PSCs detected by CALIPSO (Cloud Aerosol Lidar and Infrared Pathfinder satellite observations). The sensitivity study was performed on single trajectories as well as on a trajectory ensemble. The sensitivity study shows a clear prolongation of the potential for PSC formation and PSC existence when the temperature in the stratosphere is decreased by 1 K and water vapour is increased by 1 ppmv. Based on 15 years of satellite measurements (2000–2014) from UARS/HALOE, Envisat/MIPAS, Odin/SMR, Aura/MLS, Envisat/SCIAMACHY and SCISAT/ACE-FTS it is further investigated if there is a decrease in temperature and/or increase of water vapour (H 2 O) observed in the polar regions similar to that observed at midlatitudes and in the tropics. Performing linear regression analyses we derive from the Envisat/MIPAS (2002–2012) and Aura/MLS (2004–2014) observations predominantly positive changes in the potential temperature range 350 to 1000 K. The linear changes in water vapour derived from Envisat/MIPAS observations are largely insignificant, while those from Aura/MLS are mostly significant. For the temperature neither of the two instruments indicate any significant changes. Given the strong inter-annual variation observed in water vapour and particular temperature the severe denitrification observed in 2010/11 cannot be directly related to any changes in water vapour and temperature since the millennium. However, the observations indicate a clear correlation between cold winters and enhanced water vapour mixing ratios. This indicates a connection between dynamical and radiative processes that govern water vapour and temperature in the Arctic lower stratosphere. Text Arctic Copernicus Publications: E-Journals Arctic Atmospheric Chemistry and Physics 16 1 101 121
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description More than a decade ago it was suggested that a cooling of stratospheric temperatures by 1 K or an increase of 1 ppmv of stratospheric water vapour could promote denitrification, the permanent removal of nitrogen species from the stratosphere by solid polar stratospheric cloud (PSC) particles. In fact, during the two Arctic winters 2009/10 and 2010/11 the strongest denitrification in the recent decade was observed. Sensitivity studies along air parcel trajectories are performed to test how a future stratospheric water vapour (H 2 O) increase of 1 ppmv or a temperature decrease of 1 K would affect PSC formation. We perform our study based on measurements made during the Arctic winter 2010/11. Air parcel trajectories were calculated 6 days backward in time based on PSCs detected by CALIPSO (Cloud Aerosol Lidar and Infrared Pathfinder satellite observations). The sensitivity study was performed on single trajectories as well as on a trajectory ensemble. The sensitivity study shows a clear prolongation of the potential for PSC formation and PSC existence when the temperature in the stratosphere is decreased by 1 K and water vapour is increased by 1 ppmv. Based on 15 years of satellite measurements (2000–2014) from UARS/HALOE, Envisat/MIPAS, Odin/SMR, Aura/MLS, Envisat/SCIAMACHY and SCISAT/ACE-FTS it is further investigated if there is a decrease in temperature and/or increase of water vapour (H 2 O) observed in the polar regions similar to that observed at midlatitudes and in the tropics. Performing linear regression analyses we derive from the Envisat/MIPAS (2002–2012) and Aura/MLS (2004–2014) observations predominantly positive changes in the potential temperature range 350 to 1000 K. The linear changes in water vapour derived from Envisat/MIPAS observations are largely insignificant, while those from Aura/MLS are mostly significant. For the temperature neither of the two instruments indicate any significant changes. Given the strong inter-annual variation observed in water vapour and particular temperature the severe denitrification observed in 2010/11 cannot be directly related to any changes in water vapour and temperature since the millennium. However, the observations indicate a clear correlation between cold winters and enhanced water vapour mixing ratios. This indicates a connection between dynamical and radiative processes that govern water vapour and temperature in the Arctic lower stratosphere.
format Text
author Khosrawi, F.
Urban, J.
Lossow, S.
Stiller, G.
Weigel, K.
Braesicke, P.
Pitts, M. C.
Rozanov, A.
Burrows, J. P.
Murtagh, D.
spellingShingle Khosrawi, F.
Urban, J.
Lossow, S.
Stiller, G.
Weigel, K.
Braesicke, P.
Pitts, M. C.
Rozanov, A.
Burrows, J. P.
Murtagh, D.
Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
author_facet Khosrawi, F.
Urban, J.
Lossow, S.
Stiller, G.
Weigel, K.
Braesicke, P.
Pitts, M. C.
Rozanov, A.
Burrows, J. P.
Murtagh, D.
author_sort Khosrawi, F.
title Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
title_short Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
title_full Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
title_fullStr Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
title_full_unstemmed Sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
title_sort sensitivity of polar stratospheric cloud formation to changes in water vapour and temperature
publishDate 2018
url https://doi.org/10.5194/acp-16-101-2016
https://www.atmos-chem-phys.net/16/101/2016/
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source eISSN: 1680-7324
op_relation doi:10.5194/acp-16-101-2016
https://www.atmos-chem-phys.net/16/101/2016/
op_doi https://doi.org/10.5194/acp-16-101-2016
container_title Atmospheric Chemistry and Physics
container_volume 16
container_issue 1
container_start_page 101
op_container_end_page 121
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