EUREC<sup>4</sup>A observations from the SAFIRE ATR42 aircraft

Author:

Bony SandrineORCID,Lothon Marie,Delanoë Julien,Coutris Pierre,Etienne Jean-Claude,Aemisegger FranziskaORCID,Albright Anna LeaORCID,André Thierry,Bellec Hubert,Baron AlexandreORCID,Bourdinot Jean-François,Brilouet Pierre-Etienne,Bourdon Aurélien,Canonici Jean-Christophe,Caudoux Christophe,Chazette PatrickORCID,Cluzeau Michel,Cornet Céline,Desbios Jean-Philippe,Duchanoy Dominique,Flamant CyrilleORCID,Fildier Benjamin,Gourbeyre Christophe,Guiraud Laurent,Jiang Tetyana,Lainard Claude,Le Gac Christophe,Lendroit Christian,Lernould Julien,Perrin Thierry,Pouvesle Frédéric,Richard Pascal,Rochetin Nicolas,Salaün Kevin,Schwarzenboeck Alfons,Seurat Guillaume,Stevens BjornORCID,Totems JulienORCID,Touzé-Peiffer Ludovic,Vergez Gilles,Vial Jessica,Villiger LeonieORCID,Vogel Raphaela

Abstract

Abstract. As part of the EUREC4A (Elucidating the role of cloud-circulation coupling in climate) field campaign, which took place in January and February 2020 over the western tropical Atlantic near Barbados, the French SAFIRE ATR42 research aircraft conducted 19 flights in the lower troposphere. Each flight followed a common flight pattern that sampled the atmosphere around the cloud-base level, at different heights of the subcloud layer, near the sea surface and in the lower free troposphere. The aircraft's payload included a backscatter lidar and a Doppler cloud radar that were both horizontally oriented, a Doppler cloud radar looking upward, microphysical probes, a cavity ring-down spectrometer for water isotopes, a multiwavelength radiometer, a visible camera and multiple meteorological sensors, including fast rate sensors for turbulence measurements. With this instrumentation, the ATR characterized the macrophysical and microphysical properties of trade-wind clouds together with their thermodynamical, turbulent and radiative environment. This paper presents the airborne operations, the flight segmentation, the instrumentation, the data processing and the EUREC4A datasets produced from the ATR measurements. It shows that the ATR measurements of humidity, wind and cloud-base cloud fraction measured with different techniques and samplings are internally consistent, that meteorological measurements are consistent with estimates from dropsondes launched from an overflying aircraft (HALO), and that water isotopic measurements are well correlated with data from the Barbados Cloud Observatory. This consistency demonstrates the robustness of the ATR measurements of humidity, wind, cloud-base cloud fraction and water isotopic composition during EUREC4A. It also confirms that through their repeated flight patterns, the ATR and HALO measurements provided a statistically consistent sampling of trade-wind clouds and of their environment. The ATR datasets are freely available at the locations specified in Table 11.

Funder

H2020 European Research Council

Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung

Publisher

Copernicus GmbH

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