Strateole-2: High-resolution observations of the tropical tropopause layer with long-duration balloons
- 1CNRS, Laboratoire de météorologie dynamique, Palaiseau, France (albert.hertzog@lmd.polytechnique.fr)
- *A full list of authors appears at the end of the abstract
Strateole-2 is a project aimed at studying the coupling between the troposphere and the stratosphere in the deep tropics. The project originality pertains to the use of long-duration ballons, which can fly for several months at 18 or 20 km altitude. The first Strateole-2 campaign took place from November 2019 to February 2020: 8 balloons with various instrumental configurations were released in the lower stratosphere from Seychelles Islands, in the Indian Ocean.
This first campaign was primarily devoted to testing all systems (balloons, gondolas, and instruments) developed for the project, and was very successful: the balloons flew for 85 days onaverage over the whole tropical band, and most instruments performed nominally. In-situ meteorological measurements performed every 30-s on each flight provide a unique description of gravity-wave activity in the tropics and its relation to deep convection. The first observations of aerosols and water vapor onboard long-duration balloons were also achieved, which e.g. highlighted the tape recorder signal in the tropical lower stratosphere. Very innovative instruments also premiered during the campaign: RACHuTS, a light reeled payload, for instance performed 50 high-resolution vertical profiles of temperature, aerosols and water vapor down to 2km below the balloon, crossing several times the cold-point tropopause. ROC collected hundreds of temperature profiles down to the middle troposphere through GPS radio-occultations. Last, one balloon also carried a nadir-pointing backscatter lidar, which has described the underlying convection at unprecedented temporal resolution. An overview of the flights and first results will be presented.
Two forthcoming balloon campaigns are planned within Strateole-2, in 2021-22 and 2024-25. Each will release 20 balloons.
A. Hertzog (1), R. Plougonven (1), Ph. Cocquerez (2), S. Venel (2), J. Alexander (3), N. Amarouche (4), G. Berthet (5), M. Bramberger (3), B. Cao (6), M. Corcos (1), S. Davis (7), T. Deshler (8), A. Doerenbecher (9), G. Durry (10), M. Ghysels (10), D. Goetz (8), J. Haase (6), A. Hauchecorne (11), F. Jégou (5), L. Kalnajs (8), S. Khaykin (11), V. Mariage (11), A. Podglajen (1), V. Pourret (9), F. Ravetta (11), J.-B. Renard (5), E. Rivière (10), R. Wilson (11)
How to cite: Hertzog, A. and Plougonven, R. and the Stratéole-2: Strateole-2: High-resolution observations of the tropical tropopause layer with long-duration balloons, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-7109, https://doi.org/10.5194/egusphere-egu21-7109, 2021.