Atmospheric Chemistry and Physics Discussions
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2005
10.5194/acpd-5-7497-2005
http://www.atmos-chem-phys-discuss.net/5/7497/2005/
http://www.atmos-chem-phys-discuss.net/5/7497/2005/acpd-5-7497-2005.html
http://www.atmos-chem-phys-discuss.net/5/7497/2005/acpd-5-7497-2005.pdf
7497
7545
2005-08-26
The transport history of two Saharan dust events archived in an Alpine ice core
H. Sodemann
A. S. Palmer
C. Schwierz
M. Schwikowski
H. Wernli
Institute for Atmospheric and Climate Science, ETH Zurich, Switzerland
Paul Scherrer Institute, Villigen, Switzerland
Institute for Atmospheric Physics, University of Mainz, Germany
now at: University of Tasmania, Tasmania, Australia
Mineral dust from the Saharan desert can be transported across the Mediterranean
towards the Alpine region several times a year. Occasionally, the dust is
deposited with snowfall on Alpine glaciers and appears then as yellow or red
layers in ice cores. Two such significant dust events were identified in an ice
core drilled at the high-accumulation site Piz Zupó in the Swiss Alps (46°22' N, 9°55' E, 3850 m a.s.l.). From stable oxygen isotopes
and major ion concentrations, the events were approximately dated as October and
March 2000. In order to link the dust record in the ice core to the meteorological
situation that led to the dust events, a novel methodology based on
back-trajectory analysis was developed. It allowed for the identification of
source regions, the atmospheric transport pathways, and wet deposition periods
for both dust events. Furthermore, differences in the chemical signature of the
two dust events could be interpreted with respect to contributions from the dust
sources and aerosol scavenging during the transport.
<br><br>
The dust deposition during the October event took place during 13–16 October
2000. Mobilisation areas of dust were mainly identified in the Algerian and
Libyan deserts. A combination of an upper-level potential vorticity streamer and
a midlevel jet across Algeria first brought moist Atlantic air and later mixed
air from the tropics and Saharan desert across the Mediterranean towards the
Alps. The March event consisted of two different deposition phases which took
place during 18–20 and 23–26 March 2000. The first phase was associated with
an exceptional transport pattern past Iceland and towards the Alps from
northerly directions. The second phase was similar to the October event. A
significant peak of methanesulphonic acid associated with the March dust event
was most likely caused by incorporation of biogenic aerosol while passing
through the marine boundary layer of the western Mediterranean during a local
phytoplankton bloom. From this study, we conclude that the whole sequence of
mobilisation, transport, and deposition of mineral aerosol should be considered
for a detailed understanding of the chemical signal recorded in the ice core at
Piz Zupó.