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Impact of mineral dust on cloud formation in a Saharan outflow region (2012)

Smoydzin, L. ; Teller, A. ; Tost, H. ; [et al.]

Copernicus

In: Atmospheric Chemistry and Physics. 2012; 12(23): 11383-11393. Published 2012 Dec 03. doi: 10.5194/acp-12-11383-2012.

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Publication Date: 2012-12-03

Description: We present a numerical modelling study investigating the impact of mineral dust on cloud formation over the Eastern Mediterranean for two case studies: (i) 25 September 2008 and (ii) 28/29 January 2003. In both cases dust plumes crossed the Mediterranean and interacted with clouds forming along frontal systems. For our investigation we used the fully online coupled model WRF-chem. The results show that increased aerosol concentrations due to the presence of mineral dust can enhance the formation of ice crystals. This leads to slight shifts of the spatial and temporal precipitation patterns compared to scenarios where dust was not considered to act as ice nuclei. However, the total amount of precipitation did not change significantly. The only exception occurred when dust entered into an area of orographic ascent, causing glaciation of the clouds, leading to a local enhancement of rainfall. The impact of dust particles acting as giant cloud condensation nuclei on precipitation formation was found to be small. Based on our simulations the contribution of dust to the CCN population is potentially significant only for warm phase clouds. Nevertheless, the dust-induced differences in the microphysical structure of the clouds can contribute to a significant radiative forcing, which is important from a climate perspective.

Print ISSN: 1680-7316

Electronic ISSN: 1680-7324

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Impact of mineral dust on cloud formation in a Saharan outflow region (2011)

Smoydzin, L. ; Teller, A. ; Tost, H. ; [et al.]

Copernicus

In: Atmospheric Chemistry and Physics Discussions. 2011; 11(12): 32363-32390. Published 2011 Dec 08. doi: 10.5194/acpd-11-32363-2011.

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Publication Date: 2011-12-08

Description: We present a numerical modelling study investigating the impact of mineral dust on cloud formation over the Eastern Mediterranean for two case studies: (i) 25 September 2008 and (ii) 28/29 January 2003. On both days dust plumes crossed the Mediterranean and interacted with clouds forming along frontal systems. For our investigation we used the fully online coupled model WRF-chem. The results show that increased aerosol concentrations due to the presence of mineral dust can enhance the formation of ice crystals. This leads to slight shifts of the spatial and temporal precipitation patterns compared to scenarios where dust was not considered to act as ice nuclei. However, the total amount of precipitation did not change significantly. The only exception occurred when dust entered into an area of orographic ascent, causing glaciation of the clouds, leading to a local enhancement of rainfall. The impact of dust particles acting as giant cloud condensation nuclei on precipitation formation was found to be small. Based on our simulations the contribution of dust to the CCN population is potentially significant only for warm phase clouds. Nevertheless, the dust-induced differences in the microphysical structure of the clouds can contribute to a significant radiative forcing.

Electronic ISSN: 1680-7375

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Ozone pollution over the Arabian Gulf – role of meteorological conditions (2012)

Smoydzin, L. ; Fnais, M. ; Lelieveld, J.

Copernicus

In: Atmospheric Chemistry and Physics Discussions. 2012; 12(2): 6331-6361. Published 2012 Feb 29. doi: 10.5194/acpd-12-6331-2012.

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Publication Date: 2012-02-29

Description: The Middle East and particularly the Arabian Gulf region are characterised by highly favourable conditions for O3 formation in summer. We investigated the role of meteorological conditions in O3 formation using the WRF-chem model. The dispersion of air pollutants strongly depends on local wind patterns, in particular the persistent low-level north-westerly flow known as the summer Shamal, and recurrent land-sea breeze circulation systems. A general finding from our simulations is that extreme pollution events, with O3 mixing ratios exceeding 150 nmol mol−1, can occur regularly over the Arabian Gulf, however, their location and magnitude can vary widely. O3 mixing ratios are highest when the outflow of the regions with major anthropogenic emissions along the coast is advected over the Gulf, where pollution plumes are captured in the shallow and stable marine boundary layer allowing little ventilation. The sea-breeze circulation often causes onshore advection of the pollution in the afternoon, affecting the densely populated coastal regions along the western shoreline of the Gulf. When the pollution is transported deeper over land, O3 mixing ratios are generally lower due to rapid dilution of precursor gases in the very deep convective boundary layer over the desert.

Electronic ISSN: 1680-7375

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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