Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign

Edward P. Nowottnick; Angela K. Rowe; Amin R. Nehrir; Jonathan A. Zawislak; Aaron J. Piña; Will McCarty; Rory A. Barton-Grimley; Kristopher M. Bedka; J. Ryan Bennett; Alan Brammer; Megan E. Buzanowicz; Gao Chen; Shu Hua Chen; Shuyi S. Chen; Peter R. Colarco; John W. Cooney; Ewan Crosbie; James Doyle; Thorsten Fehr; Richard A. Ferrare; Steven D. Harrah; Svetla M. Hristova-Veleva; Bjorn H. Lambrigtsen; Quinton A. Lawton; Allan Lee; Eleni Marinou; Elinor R. Martin; Griša Močnik; Edoardo Mazza; Raquel Rodriguez Monje; Kelly M. Núñez Ocasio; Zhaoxia Pu; Manikandan Rajagopal; Jeffrey S. Reid; Claire E. Robinson; Rosimar Rios-Berrios; Benjamin D. Rodenkirch; Naoko Sakaeda; Vidal Salazar; Michael A. Shook; Leigh Sinclair; Gail M. Skofronick-Jackson; K. Lee Thornhill; Ryan D. Torn; David P. Van Gilst; Peter G. Veals; Holger Vömel; Sun Wong; Shun Nan Wu; Luke D. Ziemba; Edward J. Zipser

doi:10.1175/BAMS-D-23-0201.1

Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign

Edward P. Nowottnick
, Angela K. Rowe
, Amin R. Nehrir
, Jonathan A. Zawislak
, Aaron J. Piña
, Will McCarty
, Rory A. Barton-Grimley
, Kristopher M. Bedka
, J. Ryan Bennett
, Alan Brammer
, Megan E. Buzanowicz
, Gao Chen
, Shu Hua Chen
, Shuyi S. Chen
, Peter R. Colarco
, John W. Cooney
, Ewan Crosbie
, James Doyle
, Thorsten Fehr
, Richard A. Ferrare

Steven D. Harrah, Svetla M. Hristova-Veleva, Bjorn H. Lambrigtsen, Quinton A. Lawton, Allan Lee, Eleni Marinou, Elinor R. Martin, Griša Močnik, Edoardo Mazza, Raquel Rodriguez Monje, Kelly M. Núñez Ocasio, Zhaoxia Pu, Manikandan Rajagopal, Jeffrey S. Reid, Claire E. Robinson, Rosimar Rios-Berrios, Benjamin D. Rodenkirch, Naoko Sakaeda, Vidal Salazar, Michael A. Shook, Leigh Sinclair, Gail M. Skofronick-Jackson, K. Lee Thornhill, Ryan D. Torn, David P. Van Gilst, Peter G. Veals, Holger Vömel, Sun Wong, Shun Nan Wu, Luke D. Ziemba, Edward J. Zipser

Education, Engagement & Early Career Development

NASA Goddard Space Flight Center
University of Wisconsin-Madison
NASA Langley Research Center
National Oceanic and Atmospheric Administration
National Aeronautics and Space Administration
United States Department of Agriculture
NASA Ames Research Center
Colorado State University
Adnet Systems
University of California at Davis
University of Washington
Analytical Mechanics Associates, Inc.
Naval Research Laboratory
ESTEC
California Institute of Technology
University of Miami
National Observatory of Athens
University of Oklahoma
University of Nova Gorica
Haze Instruments d.o.o.
National Center for Atmospheric Research
Texas A&M University
University of Utah
University of Alabama in Huntsville
SUNY Albany

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

9 Scopus citations

Abstract

The NASA Convective Processes Experiment-Cabo Verde (CPEX-CV) field campaign took place in September 2022 out of Sal Island, Cabo Verde. A unique payload aboard the NASA DC-8 aircraft equipped with advanced remote sensing and in situ instrumentation, in conjunction with radiosonde launches and satellite observations, allowed CPEX-CV to target the coupling between atmospheric dynamics, marine boundary layer properties, convection, and the dust-laden Saharan air layer in the data-sparse tropical East Atlantic region. CPEX-CV provided measurements of African easterly wave environments, diurnal cycle impacts on convective life cycle, and several Saharan dust outbreaks, including the highest dust optical depth observed by the DC-8 interacting with what would become Tropical Storm Hermine. Preliminary results from CPEX-CV underscore the positive impact of dedicated tropical East Atlantic observations on downstream forecast skill, including sampling environmental forcings impacting the development of several nondeveloping and developing convective systems such as Hurricanes Fiona and Ian. Combined airborne radar, lidar, and radiometer measurements uniquely provide near-storm environments associated with convection on various spatiotemporal scales and, with in situ observations, insights into controls on Saharan dust properties with transport. The DC-8 also collaborated with the European Space Agency to perform coordinated validation flights under the Aeolus spaceborne wind lidar and over the Mindelo ground site, highlighting the enhanced sampling potential through partnership opportunities. CPEX-CV engaged in professional development through dedicated team-building exercises that equipped the team with a cohesive approach for targeting CPEX-CV science objectives and promoted active participation of scientists across all career stages.

Original language	English
Pages (from-to)	E2097-E2125
Journal	Bulletin of the American Meteorological Society
Volume	105
Issue number	11
DOIs	https://doi.org/10.1175/BAMS-D-23-0201.1
State	Published - Nov 2024

Keywords

Aerosols/ particulates
Convective-scale processes
Data assimilation

Access to Document

10.1175/BAMS-D-23-0201.1

Cite this

Nowottnick, E. P., Rowe, A. K., Nehrir, A. R., Zawislak, J. A., Piña, A. J., McCarty, W., Barton-Grimley, R. A., Bedka, K. M., Bennett, J. R., Brammer, A., Buzanowicz, M. E., Chen, G., Chen, S. H., Chen, S. S., Colarco, P. R., Cooney, J. W., Crosbie, E., Doyle, J., Fehr, T., ... Zipser, E. J. (2024). Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign. Bulletin of the American Meteorological Society, 105(11), E2097-E2125. https://doi.org/10.1175/BAMS-D-23-0201.1

@article{1ab6c4a2833e48baab4448eb86a85e07,

title = "Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign",

abstract = "The NASA Convective Processes Experiment-Cabo Verde (CPEX-CV) field campaign took place in September 2022 out of Sal Island, Cabo Verde. A unique payload aboard the NASA DC-8 aircraft equipped with advanced remote sensing and in situ instrumentation, in conjunction with radiosonde launches and satellite observations, allowed CPEX-CV to target the coupling between atmospheric dynamics, marine boundary layer properties, convection, and the dust-laden Saharan air layer in the data-sparse tropical East Atlantic region. CPEX-CV provided measurements of African easterly wave environments, diurnal cycle impacts on convective life cycle, and several Saharan dust outbreaks, including the highest dust optical depth observed by the DC-8 interacting with what would become Tropical Storm Hermine. Preliminary results from CPEX-CV underscore the positive impact of dedicated tropical East Atlantic observations on downstream forecast skill, including sampling environmental forcings impacting the development of several nondeveloping and developing convective systems such as Hurricanes Fiona and Ian. Combined airborne radar, lidar, and radiometer measurements uniquely provide near-storm environments associated with convection on various spatiotemporal scales and, with in situ observations, insights into controls on Saharan dust properties with transport. The DC-8 also collaborated with the European Space Agency to perform coordinated validation flights under the Aeolus spaceborne wind lidar and over the Mindelo ground site, highlighting the enhanced sampling potential through partnership opportunities. CPEX-CV engaged in professional development through dedicated team-building exercises that equipped the team with a cohesive approach for targeting CPEX-CV science objectives and promoted active participation of scientists across all career stages.",

keywords = "Aerosols/ particulates, Convective-scale processes, Data assimilation",

author = "Nowottnick, \{Edward P.\} and Rowe, \{Angela K.\} and Nehrir, \{Amin R.\} and Zawislak, \{Jonathan A.\} and Pi{\~n}a, \{Aaron J.\} and Will McCarty and Barton-Grimley, \{Rory A.\} and Bedka, \{Kristopher M.\} and Bennett, \{J. Ryan\} and Alan Brammer and Buzanowicz, \{Megan E.\} and Gao Chen and Chen, \{Shu Hua\} and Chen, \{Shuyi S.\} and Colarco, \{Peter R.\} and Cooney, \{John W.\} and Ewan Crosbie and James Doyle and Thorsten Fehr and Ferrare, \{Richard A.\} and Harrah, \{Steven D.\} and Hristova-Veleva, \{Svetla M.\} and Lambrigtsen, \{Bjorn H.\} and Lawton, \{Quinton A.\} and Allan Lee and Eleni Marinou and Martin, \{Elinor R.\} and Gri{\v s}a Mo{\v c}nik and Edoardo Mazza and Monje, \{Raquel Rodriguez\} and \{N{\'u}{\~n}ez Ocasio\}, \{Kelly M.\} and Zhaoxia Pu and Manikandan Rajagopal and Reid, \{Jeffrey S.\} and Robinson, \{Claire E.\} and Rosimar Rios-Berrios and Rodenkirch, \{Benjamin D.\} and Naoko Sakaeda and Vidal Salazar and Shook, \{Michael A.\} and Leigh Sinclair and Skofronick-Jackson, \{Gail M.\} and Thornhill, \{K. Lee\} and Torn, \{Ryan D.\} and \{Van Gilst\}, \{David P.\} and Veals, \{Peter G.\} and Holger V{\"o}mel and Sun Wong and Wu, \{Shun Nan\} and Ziemba, \{Luke D.\} and Zipser, \{Edward J.\}",

note = "Publisher Copyright: {\textcopyright} 2024 American Meteorological Society.",

year = "2024",

month = nov,

doi = "10.1175/BAMS-D-23-0201.1",

language = "English",

volume = "105",

pages = "E2097--E2125",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "11",

}

Nowottnick, EP, Rowe, AK, Nehrir, AR, Zawislak, JA, Piña, AJ, McCarty, W, Barton-Grimley, RA, Bedka, KM, Bennett, JR, Brammer, A, Buzanowicz, ME, Chen, G, Chen, SH, Chen, SS, Colarco, PR, Cooney, JW, Crosbie, E, Doyle, J, Fehr, T, Ferrare, RA, Harrah, SD, Hristova-Veleva, SM, Lambrigtsen, BH, Lawton, QA, Lee, A, Marinou, E, Martin, ER, Močnik, G, Mazza, E, Monje, RR, Núñez Ocasio, KM, Pu, Z, Rajagopal, M, Reid, JS, Robinson, CE, Rios-Berrios, R, Rodenkirch, BD, Sakaeda, N, Salazar, V, Shook, MA, Sinclair, L, Skofronick-Jackson, GM, Thornhill, KL, Torn, RD, Van Gilst, DP, Veals, PG, Vömel, H, Wong, S, Wu, SN, Ziemba, LD & Zipser, EJ 2024, 'Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign', Bulletin of the American Meteorological Society, vol. 105, no. 11, pp. E2097-E2125. https://doi.org/10.1175/BAMS-D-23-0201.1

TY - JOUR

T1 - Dust, Convection, Winds, and Waves

T2 - The 2022 NASA CPEX-CV Campaign

AU - Nowottnick, Edward P.

AU - Rowe, Angela K.

AU - Nehrir, Amin R.

AU - Zawislak, Jonathan A.

AU - Piña, Aaron J.

AU - McCarty, Will

AU - Barton-Grimley, Rory A.

AU - Bedka, Kristopher M.

AU - Bennett, J. Ryan

AU - Brammer, Alan

AU - Buzanowicz, Megan E.

AU - Chen, Gao

AU - Chen, Shu Hua

AU - Chen, Shuyi S.

AU - Colarco, Peter R.

AU - Cooney, John W.

AU - Crosbie, Ewan

AU - Doyle, James

AU - Fehr, Thorsten

AU - Ferrare, Richard A.

AU - Harrah, Steven D.

AU - Hristova-Veleva, Svetla M.

AU - Lambrigtsen, Bjorn H.

AU - Lawton, Quinton A.

AU - Lee, Allan

AU - Marinou, Eleni

AU - Martin, Elinor R.

AU - Močnik, Griša

AU - Mazza, Edoardo

AU - Monje, Raquel Rodriguez

AU - Núñez Ocasio, Kelly M.

AU - Pu, Zhaoxia

AU - Rajagopal, Manikandan

AU - Reid, Jeffrey S.

AU - Robinson, Claire E.

AU - Rios-Berrios, Rosimar

AU - Rodenkirch, Benjamin D.

AU - Sakaeda, Naoko

AU - Salazar, Vidal

AU - Shook, Michael A.

AU - Sinclair, Leigh

AU - Skofronick-Jackson, Gail M.

AU - Thornhill, K. Lee

AU - Torn, Ryan D.

AU - Van Gilst, David P.

AU - Veals, Peter G.

AU - Vömel, Holger

AU - Wong, Sun

AU - Wu, Shun Nan

AU - Ziemba, Luke D.

AU - Zipser, Edward J.

PY - 2024/11

Y1 - 2024/11

N2 - The NASA Convective Processes Experiment-Cabo Verde (CPEX-CV) field campaign took place in September 2022 out of Sal Island, Cabo Verde. A unique payload aboard the NASA DC-8 aircraft equipped with advanced remote sensing and in situ instrumentation, in conjunction with radiosonde launches and satellite observations, allowed CPEX-CV to target the coupling between atmospheric dynamics, marine boundary layer properties, convection, and the dust-laden Saharan air layer in the data-sparse tropical East Atlantic region. CPEX-CV provided measurements of African easterly wave environments, diurnal cycle impacts on convective life cycle, and several Saharan dust outbreaks, including the highest dust optical depth observed by the DC-8 interacting with what would become Tropical Storm Hermine. Preliminary results from CPEX-CV underscore the positive impact of dedicated tropical East Atlantic observations on downstream forecast skill, including sampling environmental forcings impacting the development of several nondeveloping and developing convective systems such as Hurricanes Fiona and Ian. Combined airborne radar, lidar, and radiometer measurements uniquely provide near-storm environments associated with convection on various spatiotemporal scales and, with in situ observations, insights into controls on Saharan dust properties with transport. The DC-8 also collaborated with the European Space Agency to perform coordinated validation flights under the Aeolus spaceborne wind lidar and over the Mindelo ground site, highlighting the enhanced sampling potential through partnership opportunities. CPEX-CV engaged in professional development through dedicated team-building exercises that equipped the team with a cohesive approach for targeting CPEX-CV science objectives and promoted active participation of scientists across all career stages.

AB - The NASA Convective Processes Experiment-Cabo Verde (CPEX-CV) field campaign took place in September 2022 out of Sal Island, Cabo Verde. A unique payload aboard the NASA DC-8 aircraft equipped with advanced remote sensing and in situ instrumentation, in conjunction with radiosonde launches and satellite observations, allowed CPEX-CV to target the coupling between atmospheric dynamics, marine boundary layer properties, convection, and the dust-laden Saharan air layer in the data-sparse tropical East Atlantic region. CPEX-CV provided measurements of African easterly wave environments, diurnal cycle impacts on convective life cycle, and several Saharan dust outbreaks, including the highest dust optical depth observed by the DC-8 interacting with what would become Tropical Storm Hermine. Preliminary results from CPEX-CV underscore the positive impact of dedicated tropical East Atlantic observations on downstream forecast skill, including sampling environmental forcings impacting the development of several nondeveloping and developing convective systems such as Hurricanes Fiona and Ian. Combined airborne radar, lidar, and radiometer measurements uniquely provide near-storm environments associated with convection on various spatiotemporal scales and, with in situ observations, insights into controls on Saharan dust properties with transport. The DC-8 also collaborated with the European Space Agency to perform coordinated validation flights under the Aeolus spaceborne wind lidar and over the Mindelo ground site, highlighting the enhanced sampling potential through partnership opportunities. CPEX-CV engaged in professional development through dedicated team-building exercises that equipped the team with a cohesive approach for targeting CPEX-CV science objectives and promoted active participation of scientists across all career stages.

KW - Aerosols/ particulates

KW - Convective-scale processes

KW - Data assimilation

UR - https://www.scopus.com/pages/publications/85203172994

U2 - 10.1175/BAMS-D-23-0201.1

DO - 10.1175/BAMS-D-23-0201.1

M3 - Article

AN - SCOPUS:85203172994

SN - 0003-0007

VL - 105

SP - E2097-E2125

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 11

ER -

Dust, Convection, Winds, and Waves: The 2022 NASA CPEX-CV Campaign

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Keywords

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