Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign

Cyrille Flamant; Jean Pierre Chaboureau; Julien Delanoë; Marco Gaetani; Cédric Jamet; Christophe Lavaysse; Olivier Bock; Maurus Borne; Quitterie Cazenave; Pierre Coutris; Juan Cuesta; Laurent Menut; Clémantyne Aubry; Angela Benedetti; Pierre Bosser; Sophie Bounissou; Christophe Caudoux; Hélène Collomb; Thomas Donal; Guy Febvre; Thorsten Fehr; Andreas H. Fink; Paola Formenti; Nicolau Gomes Araujo; Peter Knippertz; Eric Lecuyer; Mateus Neves Andrade; Cédric Gacial Ngoungué Langué; Tanguy Jonville; Alfons Schwarzenboeck; Azusa Takeishi

doi:10.1175/BAMS-D-23-0230.1

Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign

Cyrille Flamant, Jean Pierre Chaboureau, Julien Delanoë, Marco Gaetani, Cédric Jamet, Christophe Lavaysse, Olivier Bock, Maurus Borne, Quitterie Cazenave, Pierre Coutris, Juan Cuesta, Laurent Menut, Clémantyne Aubry, Angela Benedetti, Pierre Bosser, Sophie Bounissou, Christophe Caudoux, Hélène Collomb, Thomas Donal, Guy FebvreThorsten Fehr, Andreas H. Fink, Paola Formenti, Nicolau Gomes Araujo, Peter Knippertz, Eric Lecuyer, Mateus Neves Andrade, Cédric Gacial Ngoungué Langué, Tanguy Jonville, Alfons Schwarzenboeck, Azusa Takeishi

Research output: Contribution to journal › Article › peer-review

Abstract

During the boreal summer, mesoscale convective systems generated over West Africa propagate westward and interact with African easterly waves, and dust plumes transported from the Sahel and Sahara by the African easterly jet. Once off West Africa, the vortices in the wake of these mesoscale convective systems evolve in a complex environment sometimes leading to the development of tropical storms and hurricanes, especially in September when sea surface temperatures are high. Numerical weather predictions of cyclogenesis downstream of West Africa remains a key challenge due to the incomplete understanding of the clouds–atmospheric dynamics–dust interactions that limit predictability. The primary objective of the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) project is to improve our understanding of the relative contributions of the direct, semidirect, and indirect radiative effects of dust on the dynamics of tropical waves as well as the intensification of vortices in the wake of offshore mesoscale convective systems and their evolution into tropical storms over the North Atlantic. Airborne observations relevant to the assessment of such interactions (active remote sensing, in situ microphysics probes, among others) were made from 8 to 21 September 2021 in the tropical environment of Sal Island, Cape Verde. The environments of several tropical cyclones, including Tropical Storm Rose, were monitored and probed. The airborne measurements also serve the purpose of regional model evaluation and the validation of spaceborne wind, aerosol and cloud products pertaining to satellite missions of the European Space Agency and EUMETSAT (including the Aeolus, EarthCARE, and IASI missions).

Original language	English
Pages (from-to)	E387-E417
Journal	Bulletin of the American Meteorological Society
Volume	105
Issue number	2
DOIs	https://doi.org/10.1175/BAMS-D-23-0230.1
Publication status	Published - 1 Feb 2024
Externally published	Yes

Keywords

Aerosol radiative effect
Aerosol-cloud interaction
Aircraft observations
Storm environments
Tropical cyclones

Access to Document

10.1175/BAMS-D-23-0230.1

Cite this

Flamant, C., Chaboureau, J. P., Delanoë, J., Gaetani, M., Jamet, C., Lavaysse, C., Bock, O., Borne, M., Cazenave, Q., Coutris, P., Cuesta, J., Menut, L., Aubry, C., Benedetti, A., Bosser, P., Bounissou, S., Caudoux, C., Collomb, H., Donal, T., ... Takeishi, A. (2024). Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign. Bulletin of the American Meteorological Society, 105(2), E387-E417. https://doi.org/10.1175/BAMS-D-23-0230.1

@article{4c5a397457464ee4b7dc230e93174e7d,

title = "Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign",

abstract = "During the boreal summer, mesoscale convective systems generated over West Africa propagate westward and interact with African easterly waves, and dust plumes transported from the Sahel and Sahara by the African easterly jet. Once off West Africa, the vortices in the wake of these mesoscale convective systems evolve in a complex environment sometimes leading to the development of tropical storms and hurricanes, especially in September when sea surface temperatures are high. Numerical weather predictions of cyclogenesis downstream of West Africa remains a key challenge due to the incomplete understanding of the clouds–atmospheric dynamics–dust interactions that limit predictability. The primary objective of the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) project is to improve our understanding of the relative contributions of the direct, semidirect, and indirect radiative effects of dust on the dynamics of tropical waves as well as the intensification of vortices in the wake of offshore mesoscale convective systems and their evolution into tropical storms over the North Atlantic. Airborne observations relevant to the assessment of such interactions (active remote sensing, in situ microphysics probes, among others) were made from 8 to 21 September 2021 in the tropical environment of Sal Island, Cape Verde. The environments of several tropical cyclones, including Tropical Storm Rose, were monitored and probed. The airborne measurements also serve the purpose of regional model evaluation and the validation of spaceborne wind, aerosol and cloud products pertaining to satellite missions of the European Space Agency and EUMETSAT (including the Aeolus, EarthCARE, and IASI missions).",

keywords = "Aerosol radiative effect, Aerosol-cloud interaction, Aircraft observations, Storm environments, Tropical cyclones",

author = "Cyrille Flamant and Chaboureau, \{Jean Pierre\} and Julien Delano{\"e} and Marco Gaetani and C{\'e}dric Jamet and Christophe Lavaysse and Olivier Bock and Maurus Borne and Quitterie Cazenave and Pierre Coutris and Juan Cuesta and Laurent Menut and Cl{\'e}mantyne Aubry and Angela Benedetti and Pierre Bosser and Sophie Bounissou and Christophe Caudoux and H{\'e}l{\`e}ne Collomb and Thomas Donal and Guy Febvre and Thorsten Fehr and Fink, \{Andreas H.\} and Paola Formenti and Araujo, \{Nicolau Gomes\} and Peter Knippertz and Eric Lecuyer and Andrade, \{Mateus Neves\} and Langu{\'e}, \{C{\'e}dric Gacial Ngoungu{\'e}\} and Tanguy Jonville and Alfons Schwarzenboeck and Azusa Takeishi",

year = "2024",

month = feb,

day = "1",

doi = "10.1175/BAMS-D-23-0230.1",

language = "English",

volume = "105",

pages = "E387--E417",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

number = "2",

}

Flamant, C, Chaboureau, JP, Delanoë, J, Gaetani, M, Jamet, C, Lavaysse, C, Bock, O, Borne, M, Cazenave, Q, Coutris, P, Cuesta, J, Menut, L, Aubry, C, Benedetti, A, Bosser, P, Bounissou, S, Caudoux, C, Collomb, H, Donal, T, Febvre, G, Fehr, T, Fink, AH, Formenti, P, Araujo, NG, Knippertz, P, Lecuyer, E, Andrade, MN, Langué, CGN, Jonville, T, Schwarzenboeck, A & Takeishi, A 2024, 'Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign', Bulletin of the American Meteorological Society, vol. 105, no. 2, pp. E387-E417. https://doi.org/10.1175/BAMS-D-23-0230.1

Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign. / Flamant, Cyrille; Chaboureau, Jean Pierre; Delanoë, Julien et al.
In: Bulletin of the American Meteorological Society, Vol. 105, No. 2, 01.02.2024, p. E387-E417.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign

AU - Flamant, Cyrille

AU - Chaboureau, Jean Pierre

AU - Delanoë, Julien

AU - Gaetani, Marco

AU - Jamet, Cédric

AU - Lavaysse, Christophe

AU - Bock, Olivier

AU - Borne, Maurus

AU - Cazenave, Quitterie

AU - Coutris, Pierre

AU - Cuesta, Juan

AU - Menut, Laurent

AU - Aubry, Clémantyne

AU - Benedetti, Angela

AU - Bosser, Pierre

AU - Bounissou, Sophie

AU - Caudoux, Christophe

AU - Collomb, Hélène

AU - Donal, Thomas

AU - Febvre, Guy

AU - Fehr, Thorsten

AU - Fink, Andreas H.

AU - Formenti, Paola

AU - Araujo, Nicolau Gomes

AU - Knippertz, Peter

AU - Lecuyer, Eric

AU - Andrade, Mateus Neves

AU - Langué, Cédric Gacial Ngoungué

AU - Jonville, Tanguy

AU - Schwarzenboeck, Alfons

AU - Takeishi, Azusa

PY - 2024/2/1

Y1 - 2024/2/1

N2 - During the boreal summer, mesoscale convective systems generated over West Africa propagate westward and interact with African easterly waves, and dust plumes transported from the Sahel and Sahara by the African easterly jet. Once off West Africa, the vortices in the wake of these mesoscale convective systems evolve in a complex environment sometimes leading to the development of tropical storms and hurricanes, especially in September when sea surface temperatures are high. Numerical weather predictions of cyclogenesis downstream of West Africa remains a key challenge due to the incomplete understanding of the clouds–atmospheric dynamics–dust interactions that limit predictability. The primary objective of the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) project is to improve our understanding of the relative contributions of the direct, semidirect, and indirect radiative effects of dust on the dynamics of tropical waves as well as the intensification of vortices in the wake of offshore mesoscale convective systems and their evolution into tropical storms over the North Atlantic. Airborne observations relevant to the assessment of such interactions (active remote sensing, in situ microphysics probes, among others) were made from 8 to 21 September 2021 in the tropical environment of Sal Island, Cape Verde. The environments of several tropical cyclones, including Tropical Storm Rose, were monitored and probed. The airborne measurements also serve the purpose of regional model evaluation and the validation of spaceborne wind, aerosol and cloud products pertaining to satellite missions of the European Space Agency and EUMETSAT (including the Aeolus, EarthCARE, and IASI missions).

AB - During the boreal summer, mesoscale convective systems generated over West Africa propagate westward and interact with African easterly waves, and dust plumes transported from the Sahel and Sahara by the African easterly jet. Once off West Africa, the vortices in the wake of these mesoscale convective systems evolve in a complex environment sometimes leading to the development of tropical storms and hurricanes, especially in September when sea surface temperatures are high. Numerical weather predictions of cyclogenesis downstream of West Africa remains a key challenge due to the incomplete understanding of the clouds–atmospheric dynamics–dust interactions that limit predictability. The primary objective of the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) project is to improve our understanding of the relative contributions of the direct, semidirect, and indirect radiative effects of dust on the dynamics of tropical waves as well as the intensification of vortices in the wake of offshore mesoscale convective systems and their evolution into tropical storms over the North Atlantic. Airborne observations relevant to the assessment of such interactions (active remote sensing, in situ microphysics probes, among others) were made from 8 to 21 September 2021 in the tropical environment of Sal Island, Cape Verde. The environments of several tropical cyclones, including Tropical Storm Rose, were monitored and probed. The airborne measurements also serve the purpose of regional model evaluation and the validation of spaceborne wind, aerosol and cloud products pertaining to satellite missions of the European Space Agency and EUMETSAT (including the Aeolus, EarthCARE, and IASI missions).

KW - Aerosol radiative effect

KW - Aerosol-cloud interaction

KW - Aircraft observations

KW - Storm environments

KW - Tropical cyclones

U2 - 10.1175/BAMS-D-23-0230.1

DO - 10.1175/BAMS-D-23-0230.1

M3 - Article

AN - SCOPUS:85186127910

SN - 0003-0007

VL - 105

SP - E387-E417

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 2

ER -

Cyclogenesis in the Tropical Atlantic First Scientific Highlights from the Clouds–Atmospheric Dynamics–Dust Interactions in West Africa (CADDIWA) Field Campaign

Abstract

Keywords

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