Common summertime total cloud cover and aerosol optical depth weekly variabilities over Europe: Sign of the aerosol indirect effects?

In this study, the summer total cloud cover (TCC) weekly cycle over Europe is investigated using MODIS and ISCCP satellite data in conjunction with aerosol optical depth (AOD) MODIS data. Spatial weekly patterns are examined at a 1°×1° (MODIS) and 250×250km2 (ISCCP) resolution. Despite the noise in...

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Bibliographic Details
Published in:Atmospheric research 2015-02, Vol.153, p.59-73
Main Authors: Georgoulias, A.K., Kourtidis, K.A., Alexandri, G., Rapsomanikis, S., Sanchez-Lorenzo, A.
Format: Article
Language:English
Subjects:
Aerosol indirect effects
Europe
ISCCP
MODIS
Total cloud cover
Weekly variability
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Summary:In this study, the summer total cloud cover (TCC) weekly cycle over Europe is investigated using MODIS and ISCCP satellite data in conjunction with aerosol optical depth (AOD) MODIS data. Spatial weekly patterns are examined at a 1°×1° (MODIS) and 250×250km2 (ISCCP) resolution. Despite the noise in the TCC weekly cycle patterns, their large-scale features show similarities with the AOD550 patterns. Regions with a positive (higher values during midweek) weekly cycle appear over Central Europe, while a strong negative (higher values during weekend) weekly plume appears over the Iberian Peninsula and the North-Eastern Europe. The TCC weekly variability exhibits a very good agreement with the AOD550 weekly variability over Central, South-Western Europe and North-Eastern Europe and a moderate agreement for Central Mediterranean. The MODIS derived TCC weekly variability shows reasonable agreement with the independent ISCCP observations, thus supporting the credibility of the results. TCC and AOD550 correlations exhibit a strong slope for the total of the 6 regions investigated in this work with the slopes being higher for regions with common TCC–AOD550 weekly variabilities. The slope is much stronger for AOD550 values less than 0.2 for Central and South-Western Europe, in line with previous studies around the world. Possible scenarios that could explain the common weekly variability of aerosols and cloud cover through the aerosol indirect effects are discussed here also taking into account the weekly variability appearing in ECA&D E-OBS rainfall data. •Total cloud cover weekly cycle patterns over Europe from MODIS TERRA and AQUA•Common TCC and AOD550 weekly variability•MODIS weekly variabilities in reasonable agreement with ISCCP observations•Stronger TCC–AOD550 slopes for regions with common weekly cycles•Common aerosol and cloud cover weekly variability due to aerosol indirect effects?
ISSN:0169-8095
1873-2895
DOI:10.1016/j.atmosres.2014.07.031