Observations of convective and dynamical instabilities in tropopause folds and their contribution to stratosphere-troposphere exchange

With aircraft‐mounted in situ and remote sensing instruments for dynamical, thermal, and chemical measurements we studied two cases of tropopause folding. In both folds we found Kelvin‐Helmholtz billows with horizontal wavelength of ∼900 m and thickness of ∼120 m. In one case the instability was eff...

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Bibliographic Details
Published in:Journal of Geophysical Research, Washington, DC Washington, DC, 1999-09, Vol.104 (D17), p.21549-21568
Main Authors: Cho, John Y. N., Newell, Reginald E., Bui, T. Paul, Browell, Edward V., Fenn, Marta A., Mahoney, Michael J., Gregory, Gerald L., Sachse, Glen W., Vay, Stephanie A., Kucsera, Tom L., Thompson, Anne M.
Format: Article
Language:English
Subjects:
Earth, ocean, space
Exact sciences and technology
External geophysics
Meteorology
Other topics in atmospheric geophysics
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Summary:With aircraft‐mounted in situ and remote sensing instruments for dynamical, thermal, and chemical measurements we studied two cases of tropopause folding. In both folds we found Kelvin‐Helmholtz billows with horizontal wavelength of ∼900 m and thickness of ∼120 m. In one case the instability was effectively mixing the bottomside of the fold, leading to the transfer of stratospheric air into the troposphere. Also, we discovered in both cases small‐scale secondary ozone maxima shortly after the aircraft ascended past the topside of the fold that corresponded to regions of convective instability. We interpreted this phenomenon as convectively breaking gravity waves. Therefore we posit that convectively breaking gravity waves acting on tropopause folds must be added to the list of important irreversible mixing mechanisms leading to stratosphere‐troposphere exchange.
ISSN:0148-0227
2156-2202
DOI:10.1029/1999JD900430