A Study of the Zonally
Asymmetric Tropospheric Forcing of the Austral
Vortex Splitting During September 2002.
Dieter Peters*, Pawel Vargin** and Heiner
Kornich***
*
Leibniz-Institut fur Atmospharenphysik an der
Universitat Rostock, Kuhlungsborn, Germany
** Central Aerological Observatory, Dolgoprudny,
***
Department of Meteorology,
Tellus (Journal of Geophysical Society of Sweden), 59A, p.384–394, 2007;
Abstract.
In September 2002, the first observed austral major
warming was mainly characterized by a
polar vortex splitting in the middle and upper stratosphere
together with an ozone hole
splitting. From our synoptic investigation based on ECMWF
analyses, we establish the
hypothesis that lower tropospheric
processes at polar latitudes are primary responsible for the
vortex splitting. Over the coastline of
the other over the Weddell shelf ice, where an enlarged tropospheric wave-activity generation in
connection with an anticyclonic
anomaly took place. The wave-activity flux was eastward and
upward into the stratosphere, and was linked with an
increasing ultra-long wave 2, which
could be the primary reason for the vortex splitting in the
stratosphere. In the troposphere, two
Rossby wave trains have been identified which contribute
mainly to the maintenance of the
anticyclonic anomalies over both wave-activity generation regions.