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Clouds at the tropical tropopause: a case study during the APE-THESEO campaign over the western Indian Ocean.

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  • Vincenzo Santacesaria
  • Roberto Carla
  • A. Robert MacKenzie
  • Alberto Adriani
  • Francesco Cairo
  • Guido Didonfrancesco
  • Christoph Kiemle
  • Gianluca Redaelli
  • Jürgen Beuermann
  • Cornelius Schiller
  • Thomas Peter
  • Beiping Luo
  • Heini Wernli
  • Fabrizio Ravegnani
  • Alexey Ulanovsky
  • Vladimir Yushkov
  • Nikolay Sitnikov
  • Stefano Balestri
  • Leopoldo Stefanutti
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<mark>Journal publication date</mark>1/01/2003
<mark>Journal</mark>Journal of Geophysical Research: Atmospheres
Issue numberD2
Volume108
Pages (from-to)4044
Publication StatusPublished
<mark>Original language</mark>English

Abstract

In this paper, we report a detailed description of a thin cirrus at the tropopause above a cumulonimbus (Cb) convective cluster observed during the Airborne Platform for Earth Observation–Third European Stratospheric Experiment for Ozone (APE-THESEO) campaign in February–March 1999 in the western Indian Ocean. The thin cirrus (Ci) has an optical depth at 532 nm below 0.1, with extended subvisible stretches, and is located directly below the tropopause, which was supersaturated with respect to ice. A direct comparison between the optical depth retrieved by Meteosat and that obtained by means of the hygrometers installed on the M55-Geophysica aircraft is discussed showing discrepancies ranging from 10 to 20%. Combining satellite and aircraft data, we show that the observed Ci is not due to cirrus outflow from Cb anvils. In the absence of any deeply convective clouds reaching altitudes above 15 km, we propose a possible mechanism of Ci formation based on a net mesoscale transport of water vapor from altitudes above 16 km to the tropopause region around 18 km. This transport could be driven by the critical layer and turbulence induced by gravity waves that could have been generated by lower level Cb cluster activity. The proposed mechanism for high-altitude Ci formation corroborates the new paradigm of a tropical tropopause layer (TTL) or “substratosphere,” several kilometers thick, which is decoupled from the convection-dominated lower troposphere.

Bibliographic note

It describes research carried out using the Geophysica research aircraft. MacKenzie was Scientific Coordinator for this campaign, and closely collaborated on the analysis and final manuscript. This paper records much of the work that led to MacKenzie, Peter, and Stefanutti being short-listed for the 2001 Italgas Prize. RAE_import_type : Journal article RAE_uoa_type : Earth Systems and Environmental Sciences