Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems

Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) and CloudSat satellite measurements are used to investigate the impact of tropospheric high and deep clouds on the microphysical properties of polar stratospheric clouds (PSCs) over Antarctica during the 2006 and 2007 winter...

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Bibliographic Details
Published in:Journal of Geophysical Research
Main Authors: Loknath Adhikari, Zhien Wang, Dong Liu
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2010
Subjects:
Atmospheric Sciences
Antarctic ozone hole
Antarctica
Backscattering coefficients
CALIPSO
Cloud-aerosol lidar and infrared pathfinder satellite observations
CloudSat
Color ratios
Depolarization ratio
Interannual variation
Microphysical property
Polar stratospheric clouds
Satellite measurements
Scattering ratio
Supercooled ternary solutions
Tropospheric clouds
Weather systems
Backscattering
Clouds
Ice
Optical radar
Ozone
Troposphere
aerosol
annual variation
cloud
cloud microphysics
lidar
meteorology
ozone depletion
polar stratospheric cloud
satellite imagery
stratosphere
Engineering
Antarctic
The Antarctic
Antarc*
Online Access:https://doi.org/10.1029/2009jd012125
https://figshare.com/articles/journal_contribution/Microphysical_Properties_of_Antarctic_Polar_Stratospheric_Clouds_and_their_Dependence_on_Tropospheric_Cloud_Systems/13681477
id ftunivwyomingfig:oai:figshare.com:article/13681477
record_format openpolar
spelling ftunivwyomingfig:oai:figshare.com:article/13681477 2023-05-15T13:49:42+02:00 Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems Loknath Adhikari Zhien Wang Dong Liu 2010-04-08T00:00:00Z https://doi.org/10.1029/2009jd012125 https://figshare.com/articles/journal_contribution/Microphysical_Properties_of_Antarctic_Polar_Stratospheric_Clouds_and_their_Dependence_on_Tropospheric_Cloud_Systems/13681477 unknown doi:10.1029/2009jd012125 https://figshare.com/articles/journal_contribution/Microphysical_Properties_of_Antarctic_Polar_Stratospheric_Clouds_and_their_Dependence_on_Tropospheric_Cloud_Systems/13681477 CC BY 4.0 CC-BY Atmospheric Sciences Antarctic ozone hole Antarctica Backscattering coefficients CALIPSO Cloud-aerosol lidar and infrared pathfinder satellite observations CloudSat Color ratios Depolarization ratio Interannual variation Microphysical property Polar stratospheric clouds Satellite measurements Scattering ratio Supercooled ternary solutions Tropospheric clouds Weather systems Backscattering Clouds Ice Optical radar Ozone Troposphere aerosol annual variation cloud cloud microphysics lidar meteorology ozone depletion polar stratospheric cloud satellite imagery stratosphere Engineering Text Journal contribution 2010 ftunivwyomingfig https://doi.org/10.1029/2009jd012125 2023-02-04T11:07:57Z Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) and CloudSat satellite measurements are used to investigate the impact of tropospheric high and deep clouds on the microphysical properties of polar stratospheric clouds (PSCs) over Antarctica during the 2006 and 2007 winters. Based on the attenuated lidar scattering ratio and PSC depolarization ratio (δ'), PSCs are classified into supercooled ternary solution (STS), Mix 1, Mix 2, and ice classes with significantly different microphysical properties in terms of the PSC backscattering coefficient (β532) for 532 nm, the color ratio (β1064/β532), and δ'. In the early stages of the PSC season, STS accounts for more than 50% of the total PSCs, but the Mix 1, Mix 2, and ice classes become more common in the late season. During the late PSC season, close to 70% of PSCs are formed in association with high and deep tropospheric cloud systems, indicating the important role of tropospheric weather systems in Antarctic PSC formation. Tropospheric cloud systems also affect the microphysical properties of PSCs by affecting the relative occurrence of different PSC classes, especially during September and October. Our results also show that there are noticeable differences in color ratio and β532 (at the 0.05 significance level) for the ice class and Mix 2 (late season only) for PSCs associated and not associated with high and deep tropospheric cloud systems. These results indicate that the impact of tropospheric meteorology on PSC formation should be fully considered to better understand interannual variations and recovery of the Antarctic ozone hole. Other Non-Article Part of Journal/Newspaper Antarc* Antarctic Antarctica WyoScholar - University of Wyoming research repository Antarctic The Antarctic Journal of Geophysical Research 115
institution Open Polar
collection WyoScholar - University of Wyoming research repository
op_collection_id ftunivwyomingfig
language unknown
topic Atmospheric Sciences
Antarctic ozone hole
Antarctica
Backscattering coefficients
CALIPSO
Cloud-aerosol lidar and infrared pathfinder satellite observations
CloudSat
Color ratios
Depolarization ratio
Interannual variation
Microphysical property
Polar stratospheric clouds
Satellite measurements
Scattering ratio
Supercooled ternary solutions
Tropospheric clouds
Weather systems
Backscattering
Clouds
Ice
Optical radar
Ozone
Troposphere
aerosol
annual variation
cloud
cloud microphysics
lidar
meteorology
ozone depletion
polar stratospheric cloud
satellite imagery
stratosphere
Engineering
spellingShingle Atmospheric Sciences
Antarctic ozone hole
Antarctica
Backscattering coefficients
CALIPSO
Cloud-aerosol lidar and infrared pathfinder satellite observations
CloudSat
Color ratios
Depolarization ratio
Interannual variation
Microphysical property
Polar stratospheric clouds
Satellite measurements
Scattering ratio
Supercooled ternary solutions
Tropospheric clouds
Weather systems
Backscattering
Clouds
Ice
Optical radar
Ozone
Troposphere
aerosol
annual variation
cloud
cloud microphysics
lidar
meteorology
ozone depletion
polar stratospheric cloud
satellite imagery
stratosphere
Engineering
Loknath Adhikari
Zhien Wang
Dong Liu
Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
topic_facet Atmospheric Sciences
Antarctic ozone hole
Antarctica
Backscattering coefficients
CALIPSO
Cloud-aerosol lidar and infrared pathfinder satellite observations
CloudSat
Color ratios
Depolarization ratio
Interannual variation
Microphysical property
Polar stratospheric clouds
Satellite measurements
Scattering ratio
Supercooled ternary solutions
Tropospheric clouds
Weather systems
Backscattering
Clouds
Ice
Optical radar
Ozone
Troposphere
aerosol
annual variation
cloud
cloud microphysics
lidar
meteorology
ozone depletion
polar stratospheric cloud
satellite imagery
stratosphere
Engineering
description Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) and CloudSat satellite measurements are used to investigate the impact of tropospheric high and deep clouds on the microphysical properties of polar stratospheric clouds (PSCs) over Antarctica during the 2006 and 2007 winters. Based on the attenuated lidar scattering ratio and PSC depolarization ratio (δ'), PSCs are classified into supercooled ternary solution (STS), Mix 1, Mix 2, and ice classes with significantly different microphysical properties in terms of the PSC backscattering coefficient (β532) for 532 nm, the color ratio (β1064/β532), and δ'. In the early stages of the PSC season, STS accounts for more than 50% of the total PSCs, but the Mix 1, Mix 2, and ice classes become more common in the late season. During the late PSC season, close to 70% of PSCs are formed in association with high and deep tropospheric cloud systems, indicating the important role of tropospheric weather systems in Antarctic PSC formation. Tropospheric cloud systems also affect the microphysical properties of PSCs by affecting the relative occurrence of different PSC classes, especially during September and October. Our results also show that there are noticeable differences in color ratio and β532 (at the 0.05 significance level) for the ice class and Mix 2 (late season only) for PSCs associated and not associated with high and deep tropospheric cloud systems. These results indicate that the impact of tropospheric meteorology on PSC formation should be fully considered to better understand interannual variations and recovery of the Antarctic ozone hole.
format Other Non-Article Part of Journal/Newspaper
author Loknath Adhikari
Zhien Wang
Dong Liu
author_facet Loknath Adhikari
Zhien Wang
Dong Liu
author_sort Loknath Adhikari
title Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
title_short Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
title_full Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
title_fullStr Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
title_full_unstemmed Microphysical Properties of Antarctic Polar Stratospheric Clouds and their Dependence on Tropospheric Cloud Systems
title_sort microphysical properties of antarctic polar stratospheric clouds and their dependence on tropospheric cloud systems
publishDate 2010
url https://doi.org/10.1029/2009jd012125
https://figshare.com/articles/journal_contribution/Microphysical_Properties_of_Antarctic_Polar_Stratospheric_Clouds_and_their_Dependence_on_Tropospheric_Cloud_Systems/13681477
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_relation doi:10.1029/2009jd012125
https://figshare.com/articles/journal_contribution/Microphysical_Properties_of_Antarctic_Polar_Stratospheric_Clouds_and_their_Dependence_on_Tropospheric_Cloud_Systems/13681477
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.1029/2009jd012125
container_title Journal of Geophysical Research
container_volume 115
_version_ 1766252003380428800

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