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JOURNAL OF GEOPHYSICAL RESEARCH,
VOL. 105, NO. D20,
PAGES 24,799–24,807,
2000
Wavebreaking and mixing in the Northern Hemisphere summer stratosphere
Richard E. Wagner
Department of Atmospheric Sciences, Texas A&M University, College Station
Kenneth P. Bowman
Department of Atmospheric Sciences, Texas A&M University, College Station
Abstract
The cause of zonal ozone variations observed by the Polar Ozone and Aerosol Measurement II (POAM II) instrument in the Northern
Hemisphere summer stratosphere from ∼55° to 65°N and ∼20 to 30 km is investigated using United Kingdom Meteorological Office
(UKMO) stratospheric data. Eliassen-Palm (E-P) flux vectors calculated from the UKMO data show that wave activity propagates
vertically from the troposphere into the stratospheric easterlies during the Northern Hemisphere summer. In the layer between
20 and 30 km the E-P flux divergence is small but nonzero. Space-time power spectra show that wave power shifts from eastward
propagating waves in the upper troposphere to predominantly westward propagating waves in the middle stratosphere, consistent
with phase speed filtering following the Charney-Drazin theorem. Air parcel trajectories and effective diffusivity calculations
show substantial mixing due to breaking of westward propagating waves in the summer easterly wind regime. Changes in mixing
properties during the summer season are consistent with changes in the mean state and the wave forcing. We conclude that breaking
of large-scale westward propagating waves in the summer easterlies causes meridional transport and the observed local maximum
in ozone variability.
Received 11
August
1999;
accepted 10
May
2000.
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Citation: Wagner, R. E., and K. P. Bowman
(2000),
Wavebreaking and mixing in the Northern Hemisphere summer stratosphere,
J. Geophys. Res.,
105(D20),
24,799–24,807.
Copyright 2000 by the American Geophysical Union.
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