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Human Influence on Marine Low-Level Clouds / Mänsklig inverkan på låga marina moln

<p>A study of air mass origin’s effect on marine stratus and stratocumulus clouds has been performed on clouds north of Scandinavia between 2000 and 2004. The aerosol number size distribution of the air masses has been obtained from measurements in northern Finland. A trajectory model has been used to calculate trajectories to and from the measurement stations. The back trajectories were calculated using the measurement site as receptor to make sure the air masses had the right origin, and forward trajectories were calculated from receptor stations to assure adequate flow conditions. Satellite data of microphysical parameters of clouds from the Moderate Resolution Imaging Spectrometer (MODIS) has been downloaded where the trajectories indicated that clouds could be studied, and where the satellite images displayed low-level clouds. The 25 % days with the highest number of aerosol with a diameter over 80 nm (N<sub>80</sub>) and the 35% with the lowest N<sub>80</sub> have been used to represent polluted and clean conditions respectively. After screening trajectories and satellite imagery, 22 cases of clouds with northerly trajectories that had low N<sub>80</sub> values (i.e. clean) and 25 southerly cases with high N<sub>80</sub> values (i.e. polluted) where identified for further analysis.</p><p>   The average cloud optical thickness (τ) for all polluted pixels was more than twice that of the clean pixels. This can most likely be related to the differences in aerosol concentrations in accordance with the indirect effect, yet some difference in τ caused by different meteorological situations cannot be ruled out. The mean cloud droplet effective radius (a<sub>ef</sub>) was for the polluted pixels 11.2 µm and for the clean pixels 15.5 µm, which results in a difference of 4.3 µm and clearly demonstrates the effect that increased aerosol numbers has on clouds. A non-linear relationship between a<sub>ef</sub> and N<sub>80</sub> has been obtained which indicates that changes in lower values of aerosol numbers affect a<sub>ef</sub> more than changes in larger aerosol loads. The results from this study also indicate that there is a larger difference in the microphysical cloud parameters between the polluted and clean cases in spring and autumn than in summer.</p>

Identiferoai:union.ndltd.org:UPSALLA/oai:DiVA.org:uu-105458
Date January 2009
CreatorsSporre, Moa
PublisherUppsala University, Uppsala University, Department of Earth Sciences
Source SetsDiVA Archive at Upsalla University
LanguageEnglish
Detected LanguageEnglish
TypeStudent thesis, text
RelationExamensarbete vid Institutionen för geovetenskaper, 1650-6553 ; 171

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