2018
DOI: 10.1175/jas-d-17-0370.1
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On the Coupling between Barotropic and Baroclinic Modes of Extratropical Atmospheric Variability

Abstract: The baroclinic and barotropic components of atmospheric dynamics are usually viewed as interlinked through the baroclinic life cycle, with baroclinic growth of eddies connected to heat fluxes, barotropic decay connected to momentum fluxes, and the two eddy fluxes connected through the Eliassen–Palm wave activity. However, recent observational studies have suggested that these two components of the dynamics are largely decoupled in their variability, with variations in the zonal mean flow associated mainly with… Show more

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Cited by 26 publications
(40 citation statements)
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“…This is consistent with the idealized modeling results of Sparrow et al (), who found that the horizontal and vertical eddy terms of EP flux reach a quasi‐equilibrium at low frequencies, dominated by positive eddy feedback. The overall picture of the eddy signal associated with EOF1 at low frequency, therefore, is like that described by Robinson () and Robinson (), and found by Boljka et al () in model and reanalysis data: a quasi‐steady response of increased baroclinic wave generation, and locally increased EKE, in association with a poleward shift of the jet. In other words, baroclinic fluxes act to support the barotropic structure of the SAM at low frequencies.…”
Section: Wave‐activity Budgetsupporting
confidence: 79%
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“…This is consistent with the idealized modeling results of Sparrow et al (), who found that the horizontal and vertical eddy terms of EP flux reach a quasi‐equilibrium at low frequencies, dominated by positive eddy feedback. The overall picture of the eddy signal associated with EOF1 at low frequency, therefore, is like that described by Robinson () and Robinson (), and found by Boljka et al () in model and reanalysis data: a quasi‐steady response of increased baroclinic wave generation, and locally increased EKE, in association with a poleward shift of the jet. In other words, baroclinic fluxes act to support the barotropic structure of the SAM at low frequencies.…”
Section: Wave‐activity Budgetsupporting
confidence: 79%
“…All of the above shows (1) that the first zonal wind mode describes latitudinal shifts of both the midlatitude jet and its associated storm tracks at long timescales; (2) that EKE decreases in the direction of the jet shift and increases in the opposite direction at short timescales; and (3) that these two behaviors add up to the correlation seen in the unfiltered data, indicating that cancellation between low-and high-frequency processes produces the weak structural correspondence seen in Figure 3e. The first 10.1029/2019GL086585 two of these points are consistent with the strong correlation (anticorrelation) between the SAM and EOF2 of EKE under low-pass (high-pass) filtering shown by Boljka et al (2018).…”
Section: Regressions On the Annular Modessupporting
confidence: 74%
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“…In the case of small‐amplitude eddies, Boljka and Shepherd () and Boljka et al . () provide a framework for studying interactions of the mean flow with planetary and synoptic scales. In the case of large‐amplitude eddies, the two‐scale model of Dolaptchiev and Klein () would be the asymptotic consistent extension of the present planetary scale model to the synoptic scale.…”
Section: Discussionmentioning
confidence: 99%