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- Title
The Response of the Polar Vortex to Tropospheric Temperature Eddies in an Idealized General Circulation Model.
- Authors
Ehrmann, Thomas S.; Colucci, Stephen J.
- Abstract
A dry-core idealized general circulation model with a stratospheric polar vortex in the Northern Hemisphere is run with a combination of simplified topography and imposed tropospheric temperature perturbations, each located in the Northern Hemisphere with a zonal wavenumber of 1. The phase difference between the imposed temperature wave and the topography is varied to understand what effect this has on the occurrence of polar vortex displacements. Geometric moments are used to identify the centroid of the polar vortex for the purposes of classifying whether or not the polar vortex is displaced. Displacements of the polar vortex are a response to increased tropospheric wave activity. Compared to a model run with only topography, the likelihood of the polar vortex being displaced increases when the warm region is located west of the topography peak, and decreases when the cold region is west of the topography peak. This response from the polar vortex is due to the modulation of vertically propagating wave activity by the temperature forcing. When the southerly winds on the western side of the topographically forced anticyclone are collocated with warm- or cold-temperature forcing, the vertical wave activity flux in the troposphere becomes more positive or negative, respectively. This is in line with recent reanalysis studies that showed that anomalous warming west of the surface pressure high, in the climatological standing wave, precedes polar vortex disturbances.
- Subjects
POLAR vortex; GENERAL circulation model; EDDIES; STRATOSPHERIC circulation; STANDING waves; SURFACE pressure
- Publication
Journal of the Atmospheric Sciences, 2022, Vol 79, Issue 4, p989
- ISSN
0022-4928
- Publication type
Article
- DOI
10.1175/JAS-D-21-0133.1