Arctic smoke ? aerosol characteristics during a record air pollution event in the European Arctic and its radiative impact

International audience In early May 2006 a record high air pollution event was observed at Ny-Ålesund, Spitsbergen. An atypical weather pattern established a pathway for the rapid transport of biomass burning aerosols from agricultural fires in Eastern Europe to the Arctic. Atmospheric stability was...

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Bibliographic Details
Main Authors: Treffeisen, R., Turnved, P., Ström, J., Herber, A., Bareiss, J., Helbig, A., Stone, R. S., Hoyningen-Huene, W., Krejci, R., Stohl, A., Neuber, R.
Other Authors: Alfred Wegner Institute for Polar and Marine Research, Department of Applied Environmental Science Stockholm (ITM), Stockholm University, Trier University, Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado Boulder -National Oceanic and Atmospheric Administration (NOAA), Institut für Umweltphysik Bremen (IUP), Universität Bremen, Department of Meteorology Stockholm (MISU), Norwegian Institute for Air Research (NILU)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2007
Subjects:
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean
Atmosphere
Aitken
Arctic
Ny-Ålesund
Ny Ålesund
Spitsbergen
Online Access:https://hal.science/hal-00302588
https://hal.science/hal-00302588/document
https://hal.science/hal-00302588/file/acpd-7-2275-2007.pdf
Description
Summary:International audience In early May 2006 a record high air pollution event was observed at Ny-Ålesund, Spitsbergen. An atypical weather pattern established a pathway for the rapid transport of biomass burning aerosols from agricultural fires in Eastern Europe to the Arctic. Atmospheric stability was such that the smoke was constrained to low levels, within 2 km of the surface during the transport. A description of this smoke event in terms of transport and main aerosol characteristics can be found in Stohl et al. (2007). This study puts emphasis on the radiative effect of the smoke. The aerosol size distribution was characterized as having an accumulation mode centered at 165?185 nm and almost 1.6 for geometric standard deviation of the mode. Nucleation and small Aitken mode particles were almost completely suppressed within the smoke plume measured at Ny-Ålesund. Chemical and microphysical aerosol information obtained at Mt. Zeppelin (474 m.a.s.l) was used to derive input parameters for a one-dimensional radiation transfer model to explore the radiative effects of the smoke. The daily mean heating rate calculated on 2 May 2006 for the average size distribution and measured chemical composition reached 0.55 K day ?1 at 0.5 km altitude for the assumed external mixture of the aerosols but showing much higher heating rates for an internal mixture (1.7 K day ?1 ). In comparison a case study for March 2000 showed that the local climatic effects due to Arctic haze, using a regional climate model, HIRHAM, amounts to a maximum of 0.3 K day ?1 of heating at 2 km altitude (Treffeisen et al., 2005).

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