Ultra-low-frequency variability in a simple atmospheric circulation model

Atmospheric low-frequency variability and circulation regime behavior are investigated in the context of a quasi-geostrophic (QG) three-level T63 model of the wintertime atmospheric circulation over the Northern Hemisphere (NH). The model generates strong interannual and decadal variability, with the domination of the annular mode of variability. It successfully reproduces a satisfactory model climatology and the most important atmospheric circulation regimes. The positive phase of the Arctic Oscillation is a robust feature of the quasi-geostrophic T63 model. The model results based on QG dynamics underlie atmospheric regime behavior in the extratropical NH and suggest that nonlinear internal processes deliver significant contribution to the atmospheric climate variability on interannual and decadal timescales.

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Low-frequency variability in a simplified atmospheric global circulation model: Storm-track induced 'spatial resonance'

Quarterly Journal of the Royal Meteorological Society ◽

10.1256/smsqj.56904 ◽

2000 ◽

Vol 126 (569) ◽

pp. 2691-2708 ◽

Cited By ~ 2

Author(s):

CHRISTIAN FRANZKE ◽

KLAUS FRAEDRICH ◽

FRANK LUNKEIT

Keyword(s):

Storm Track ◽

Low Frequency ◽

Circulation Model ◽

Global Circulation Model ◽

Global Circulation ◽

Low Frequency Variability ◽

Spatial Resonance

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Tropospheric Double Jets, Meridional Cells, and Eddies: A Case Study and Idealized Simulations

Monthly Weather Review ◽

10.1175/mwr3464.1 ◽

2007 ◽

Vol 135 (9) ◽

pp. 3118-3133 ◽

Cited By ~ 13

Author(s):

Isabella Bordi ◽

Klaus Fraedrich ◽

Frank Lunkeit ◽

Alfonso Sutera

Keyword(s):

Radiative Forcing ◽

General Circulation ◽

Baroclinic Instability ◽

Low Frequency ◽

Circulation Model ◽

Hadley Cell ◽

Zonal Wind Anomaly ◽

Subtropical Jet ◽

Low Frequency Variability ◽

Summer Hemisphere

Abstract The observed low-frequency variability of the zonally averaged atmospheric circulation in the winter hemisphere is found to be amenable to an interpretation where the subtropical jet is flanked by a secondary midlatitude one. Observations also suggest that the link between the stratosphere and the troposphere modulates the variability of the tropospheric double-jet structure. Moreover, the summer hemisphere is characterized by a strong midlatitude jet sided by an intermittent subtropical one and easterly winds in the stratosphere. This work addresses the question about the role of eddies in generating and maintaining these key features of the general circulation by means of a simplified general circulation model. Model solutions for different parameter settings and external radiative forcings in the stratosphere are studied with and without eddies active on the system. The following main findings are noted. 1) Eddy dynamics alone, through the baroclinic instability processes in an atmosphere subjected to radiative forcing and dissipation, may account for the observed meridional variance of the tropospheric jets. 2) The Hadley cell can extend to the pole overlying the Ferrel cell, a feature supported by observations in the summer hemisphere. 3) The meridional temperature gradient reversal in the summer stratosphere contributes to the observed low-frequency variability introducing an intermittent formation of a subtropical jet and the occurrence of easterlies in the tropical stratosphere. 4) Poleward propagation of the zonal wind anomaly is, when it occurs, related to the activity of synoptic eddies.

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