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JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 99, NO. D10, PAGES 20,585–20,599, 1994

Climatology of large-scale isentropic mixing in the Arctic winter stratosphere from analyzed winds

Steven P. Dahlberg

Climate System Research Program, Department of Meteorology, Texas A&M University, College Station


Kenneth P. Bowman

Climate System Research Program, Department of Meteorology, Texas A&M University, College Station


Abstract

Dynamic isolation of the winter Arctic circumpolar vortex is studied using analyzed winds derived from geopotential height fields. Isentropic trajectories are calculated for assemblages of particles initialized on uniform latitude-longitude grids. Transport across isolines of Ertel potential vorticity (PV) is used to characterize the mixing processes of ejection of vortex air and entrainment of midlatitude air into the vortex. During January and February a barrier to mixing, where exchange of air is inhibited, typically forms near the vortex boundary. At 450 K, transport across the barrier is predominantly in the form of thin filaments of particles ejected from the vortex. These filaments tend to wrap around the vortex, creating a layered structure of vortex and midlatitude air at the vortex edge. Near or total splits of the vortex into two or more distinct vortex fragments are quite common based on these trajectory calculations. Significant entrainment deep into the vortex is rare and results from only a limited number of the splitting events. During December and March the mixing barrier is less evident due to nonconservative factors during the spin-up and breakdown of the vortex, respectively. In December both ejection and entrainment are only weakly inhibited by the mixing barrier. Exchange in March is dominated by ejection of air from the vortex.

Received 28 December 1993; accepted 25 July 1994.

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Citation: Dahlberg, S. P., and K. P. Bowman (1994), Climatology of large-scale isentropic mixing in the Arctic winter stratosphere from analyzed winds, J. Geophys. Res., 99(D10), 20,585–20,599.