Air mass modification over the Europe : EARLINET aerosol observations from Wales to Belarus

For the first time, the vertically resolved aerosol optical properties of western and central/eastern European haze are investigated as a function of air mass transport. Special emphasis is put on clean maritime air masses that cross the European continent from the west and become increasingly pollu...

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Bibliographic Details
Published in:Journal of Geophysical Research
Main Authors: Wandinger, Ulla, Mattis, Ina, Tesche, Matthias, Ansmann, Albert, Bösenberg, Jens, Chaikovski, Anatoly, Freudenthaler, Volker, Komguem, Leonce, Linné, Hoger, Matthias, Volker, Pelon, Jacques, Sauvage, Laurent, Sobolewski, Piotr, Vaughan, Geraint, Wiegner, Matthias
Other Authors: School of Physics, Astronomy and Mathematics
Language:English
Published: 2004
Subjects:
Aerosol transport
Lidar network
Tropospheric aerosols
Oceanography
Astronomy and Astrophysics
Atmospheric Science
Space and Planetary Science
Earth and Planetary Sciences (miscellaneous)
Geophysics
Geochemistry and Petrology
North Atlantic
Online Access:http://hdl.handle.net/2299/16209
Description
Summary:For the first time, the vertically resolved aerosol optical properties of western and central/eastern European haze are investigated as a function of air mass transport. Special emphasis is put on clean maritime air masses that cross the European continent from the west and become increasingly polluted on their way into the continent. The study is based on observations at seven lidar stations (Aberystwyth, Paris, Hamburg, Munich, Leipzig, Belsk, and Minsk) of the European Aerosol Research Lidar Network (EARLINET) and on backward trajectory analysis. For the first time, a lidar network monitored continent-scale haze air masses for several years (since 2000). Height profiles of the particle backscatter coefficient and the particle optical depth of the planetary boundary layer (PBL) at 355-nm wavelength are analyzed for the period from May 2000 to November 2002. From the observations at Aberystwyth, Wales, the aerosol reference profile for air entering Europe from pristine environments was determined. A mean 355-nm optical depth of 0.05 and a mean PBL height at 1.5 km was found for clean maritime summer conditions. The particle optical depth and PBL height increased with increasing distance from the North Atlantic. Mean summer PBL heights were 1.9-2.8 km at the continental sites of Leipzig, Belsk, and Minsk. Winter mean PBL heights were mostly between 0.7 and 1.3 km over the seven EARLINET site. Summer mean 355-nm optical depths increased from 0.17 (Hamburg, northwesterly airflow from the North Sea) and 0.21 (Paris, westerly flow from the Atlantic) over 0.33 (Hamburg, westerly flow) and 0.35 (Leipzig, westerly flow) to 0.59 (Belsk, westerly flow), and decreased again to 0.37 (westerly, flow) at Minsk. Winter mean optical depths were, on average, 10-30% lower than the respective summer values. PBL-mean extinction coefficients were of the order of 200 Mm-1 at 355 nm at Hamburg and Leipzig Germany, and close to 600 Mm-1 at Belsk, Poland, in winter for westerly flows. Whereas the optical depth for westerly flows was ...

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