A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China

A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China

The relationships between aerosol optical depth (AOD), cloud cover (CC), and cloud top pressure (CTP) over three major urban clusters in China are studied under different sea level pressure (SLP) and water vapor (WV) regimes using a decade (2003–2013) of MODIS satellite-retrieved data. Over all urba...

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Main Authors: K. Kourtidis, S. Stathopoulos, A. K. Georgoulias, G. Alexandri, S. Rapsomanikis
Format: Article
Language:English
Published: Copernicus Publications 2015-10-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/15/10955/2015/acp-15-10955-2015.pdf
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spelling doaj-c062b6b22fbe4a9eb741c3ee846845562020-11-24T22:23:53ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242015-10-011519109551096410.5194/acp-15-10955-2015A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of ChinaK. Kourtidis0S. Stathopoulos1A. K. Georgoulias2G. Alexandri3S. Rapsomanikis4Laboratory of Atmospheric Pollution and Pollution Control Engineering of Atmospheric Pollutants, School of Engineering, Democritus University of Thrace, 67100 Xanthi, GreeceLaboratory of Atmospheric Pollution and Pollution Control Engineering of Atmospheric Pollutants, School of Engineering, Democritus University of Thrace, 67100 Xanthi, GreeceLaboratory of Atmospheric Pollution and Pollution Control Engineering of Atmospheric Pollutants, School of Engineering, Democritus University of Thrace, 67100 Xanthi, GreeceLaboratory of Atmospheric Pollution and Pollution Control Engineering of Atmospheric Pollutants, School of Engineering, Democritus University of Thrace, 67100 Xanthi, GreeceLaboratory of Atmospheric Pollution and Pollution Control Engineering of Atmospheric Pollutants, School of Engineering, Democritus University of Thrace, 67100 Xanthi, GreeceThe relationships between aerosol optical depth (AOD), cloud cover (CC), and cloud top pressure (CTP) over three major urban clusters in China are studied under different sea level pressure (SLP) and water vapor (WV) regimes using a decade (2003–2013) of MODIS satellite-retrieved data. Over all urban clusters, for all SLP regimes, CC is found to increase with AOD, thus pointing out that the CC dependence on AOD cannot be explained by synoptic covariation, as approximated by SLP, alone. WV is found to have a stronger impact on CC than AOD. This impact is more pronounced at high aerosol load than at low aerosol load. Hence, studies of AOD–CC relationships, based on satellite data, will greatly overestimate the AOD impact on CC in regions where AOD and WV have similar seasonal variations, while they will probably underestimate the AOD impact in regions where AOD and WV have opposite seasonal variations. Further, this impact shows that the hydrological cycle interferes with the aerosol climatic impact and we need to improve our understanding of this interference. Our results also suggest that studies attributing CTP long-term changes to changes in aerosol load might have a WV bias.http://www.atmos-chem-phys.net/15/10955/2015/acp-15-10955-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. Kourtidis
S. Stathopoulos
A. K. Georgoulias
G. Alexandri
S. Rapsomanikis
spellingShingle K. Kourtidis
S. Stathopoulos
A. K. Georgoulias
G. Alexandri
S. Rapsomanikis
A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
Atmospheric Chemistry and Physics
author_facet K. Kourtidis
S. Stathopoulos
A. K. Georgoulias
G. Alexandri
S. Rapsomanikis
author_sort K. Kourtidis
title A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
title_short A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
title_full A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
title_fullStr A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
title_full_unstemmed A study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of China
title_sort study of the impact of synoptic weather conditions and water vapor on aerosol–cloud relationships over major urban clusters of china
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2015-10-01
description The relationships between aerosol optical depth (AOD), cloud cover (CC), and cloud top pressure (CTP) over three major urban clusters in China are studied under different sea level pressure (SLP) and water vapor (WV) regimes using a decade (2003–2013) of MODIS satellite-retrieved data. Over all urban clusters, for all SLP regimes, CC is found to increase with AOD, thus pointing out that the CC dependence on AOD cannot be explained by synoptic covariation, as approximated by SLP, alone. WV is found to have a stronger impact on CC than AOD. This impact is more pronounced at high aerosol load than at low aerosol load. Hence, studies of AOD–CC relationships, based on satellite data, will greatly overestimate the AOD impact on CC in regions where AOD and WV have similar seasonal variations, while they will probably underestimate the AOD impact in regions where AOD and WV have opposite seasonal variations. Further, this impact shows that the hydrological cycle interferes with the aerosol climatic impact and we need to improve our understanding of this interference. Our results also suggest that studies attributing CTP long-term changes to changes in aerosol load might have a WV bias.
url http://www.atmos-chem-phys.net/15/10955/2015/acp-15-10955-2015.pdf
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