Only for zonal circulation does the variability

Only for zonal circulation does the variability Trametinib in vitro in ND and JF jointly decrease: for meridional circulation the variability of cloud reflectance decreases from JF8589 to JF9699 but increases from ND8589 to ND9699. This could be due, for example, to two processes: an increase in BC emissions within the study area, and the advection of pollution from southern or eastern Europe outside the study area under consideration. The major

tendencies described above for three four-year episodes for the zonal and meridional circulation classes are well reproduced even if we analyse only two-year episodes. The result points to the dominant influence of pollution and not to changes

in circulation. In winter the most pronounced radius effect occurred during JF for both the zonal and meridional circulations. This can be explained by the influence of sulphate layers in the more frequently stable atmospheres. The maximum albedo decrease of 7.8% is due to the meridional circulation type in highly polluted regions, which show a comparably low JFND8589 reflectance. A more detailed analysis PCI-32765 research buy for the area around Leipzig reveals that the cloud albedo effect is stronger for stratus clouds than for cumulus clouds (Krüger et al. 2004). The results for summer also support the conclusion of an anthropogenic influence over the most polluted part of central Europe including Germany, Poland and the Czech Republic. The highest decrease in reflectance, by more than 4%, occurred in areas with the highest SO2 concentrations during the late 1980s. Remote regions RAS p21 protein activator 1 show, as for winter, a much weaker decrease in reflectance of only 1%. The stronger changes for the meridional circulation could be due to a lesser air mass exchange and a subsequent accumulation of pollutants in the atmospheric boundary

layer. A very interesting result emerges for coastal areas: the cloud albedo is increasing towards the 1990s but decreasing in areas of maximum sulphate concentration during the 1980s. This phenomenon is seen in the more frequent unstable weather situations during MJ, when advection of aerosol particles from source regions to the coastal areas is enabled by meridional circulation. The result may suggest that the number concentration of fine particles in parts of central Europe may have increased from the late 1980s to the late 1990s. The identification of cloud albedo changes as a consequence of pollution changes over Europe provided the motivation for investigating whether anthropogenic aerosol particles could even change cloud dynamics. The general hypothesis was that if anthropogenic aerosols do exert an influence on cloud dynamics, this should be detectable in the areas of strongest cloud albedo changes.

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