Abstract
Abstract. Climate and weather conditions in the mid-latitudes are strongly driven by
the large-scale atmosphere circulation. Observational data indicate that
important components of the large-scale circulation have changed in recent
decades, including the strength and the width of the Hadley cell, jets, storm
tracks and planetary waves. Here, we use a new statistical–dynamical atmosphere model (SDAM) to test the
individual sensitivities of the large-scale atmospheric circulation to
changes in the zonal temperature gradient, meridional temperature gradient
and global-mean temperature. We analyze the Northern Hemisphere Hadley
circulation, jet streams, storm tracks and planetary waves by systematically
altering the zonal temperature asymmetry, the meridional temperature
gradient and the global-mean temperature. Our results show that the
strength of the Hadley cell, storm tracks and jet streams depend, in terms of
relative changes, almost linearly on both the global-mean temperature and the
meridional temperature gradient, whereas the zonal temperature asymmetry has
little or no influence. The magnitude of planetary waves is affected by all
three temperature components, as expected from theoretical dynamical
considerations. The width of the Hadley cell behaves nonlinearly with
respect to all three temperature components in the SDAM. Moreover, some of
these observed large-scale atmospheric changes are expected from dynamical
equations and are therefore an important part of model validation.
Cited by
2 articles.
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