The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction

Douglas J. Parker; Alan M. Blyth; Steven J. Woolnough; Andrew J. Dougill; Caroline L. Bain; Estelle de Coning; Mariane Diop-Kane; Andre Kamga Foamouhoue; Benjamin Lamptey; Ousmane Ndiaye; Paolo Ruti; Elijah A. Adefisan; Leonard K. Amekudzi; Philip Antwi-Agyei; Cathryn E. Birch; Carlo Cafaro; Hamish Carr; Benard Chanzu; Samantha J. Clarke; Helen Coskeran; Sylvester K. Danuor; Felipe M. de Andrade; Kone Diakaria; Cheikh Dione; Cheikh Abdoulahat Diop; Jennifer K. Fletcher; Amadou T. Gaye; James L. Groves; Masilin Gudoshava; Andrew J. Hartley; Linda C. Hirons; Ishiyaku Ibrahim; Tamora D. James; Kamoru A. Lawal; John H. Marsham; J. N. Mutemi; Emmanuel Chilekwu Okogbue; Eniola Olaniyan; J. B. Omotosho; Joseph Portuphy; Alexander J. Roberts; Juliane Schwendike; Zewdu T. Segele; Thorwald H.M. Stein; Andrea L. Taylor; Christopher M. Taylor; Tanya A. Warnaars; Stuart Webster; Beth J. Woodhams; Lorraine Youds

doi:10.1175/BAMS-D-20-0047.1

The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction

Douglas J. Parker, Alan M. Blyth, Steven J. Woolnough, Andrew J. Dougill, Caroline L. Bain, Estelle de Coning, Mariane Diop-Kane, Andre Kamga Foamouhoue, Benjamin Lamptey, Ousmane Ndiaye, Paolo Ruti, Elijah A. Adefisan, Leonard K. Amekudzi, Philip Antwi-Agyei, Cathryn E. Birch, Carlo Cafaro, Hamish Carr, Benard Chanzu, Samantha J. Clarke, Helen CoskeranSylvester K. Danuor, Felipe M. de Andrade, Kone Diakaria, Cheikh Dione, Cheikh Abdoulahat Diop, Jennifer K. Fletcher, Amadou T. Gaye, James L. Groves, Masilin Gudoshava, Andrew J. Hartley, Linda C. Hirons, Ishiyaku Ibrahim, Tamora D. James, Kamoru A. Lawal, John H. Marsham, J. N. Mutemi, Emmanuel Chilekwu Okogbue, Eniola Olaniyan, J. B. Omotosho, Joseph Portuphy, Alexander J. Roberts, Juliane Schwendike, Zewdu T. Segele, Thorwald H.M. Stein, Andrea L. Taylor, Christopher M. Taylor, Tanya A. Warnaars, Stuart Webster, Beth J. Woodhams, Lorraine Youds

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Abstract

Africa is poised for a revolution in the quality and relevance of weather predictions, with potential for great benefits in terms of human and economic security.This revolution will be driven by recent international progress in nowcasting, numerical weather prediction, theoretical tropical dynamics, and forecast communication, but will depend on suitable scientific investment being made. The commercial sector has recognized this opportunity and new forecast products are being made available to African stakeholders. At this time, it is vital that robust scientific methods are used to develop and evaluate the new generation of forecasts. The Global Challenges Research Fund (GCRF) African Science for Weather Information and Forecasting Techniques (SWIFT) project represents an international effort to advance scientific solutions across the fields of nowcasting, synoptic and short-range severe weather prediction, subseasonal-to-seasonal (S2S) prediction, user engagement, and forecast evaluation. This paper describes the opportunities facing African meteorology and the ways in which SWIFT is meeting those opportunities and identifying priority next steps. Delivery and maintenance of weather forecasting systems exploiting these new solutions requires a trained body of scientists with skills in research and training, modeling and operational prediction, and communications and leadership. By supporting partnerships between academia and operational agencies in four African partner countries, the SWIFT project is helping to build capacity and capability in African forecasting science. A highlight of SWIFT is the coordination of three weather forecasting “Testbeds”-the first of their kind in Africa-which have been used to bring new evaluation tools, research insights, user perspectives, and communications pathways into a semioperational forecasting environment.

Original language	English
Pages (from-to)	E349-E369
Journal	Bulletin of the American Meteorological Society
Volume	103
Issue number	2
DOIs	https://doi.org/10.1175/BAMS-D-20-0047.1
State	Published - Feb 2022

Keywords

Africa
Forecast verification/skill
Nowcasting
Numerical weather prediction/forecasting
Operational forecasting
Short-range prediction

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10.1175/BAMS-D-20-0047.1

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Parker, D. J., Blyth, A. M., Woolnough, S. J., Dougill, A. J., Bain, C. L., de Coning, E., Diop-Kane, M., Foamouhoue, A. K., Lamptey, B., Ndiaye, O., Ruti, P., Adefisan, E. A., Amekudzi, L. K., Antwi-Agyei, P., Birch, C. E., Cafaro, C., Carr, H., Chanzu, B., Clarke, S. J., ... Youds, L. (2022). The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction. Bulletin of the American Meteorological Society, 103(2), E349-E369. https://doi.org/10.1175/BAMS-D-20-0047.1

@article{045b1e654f274b81adec3a33a095679a,

title = "The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction",

abstract = "Africa is poised for a revolution in the quality and relevance of weather predictions, with potential for great benefits in terms of human and economic security.This revolution will be driven by recent international progress in nowcasting, numerical weather prediction, theoretical tropical dynamics, and forecast communication, but will depend on suitable scientific investment being made. The commercial sector has recognized this opportunity and new forecast products are being made available to African stakeholders. At this time, it is vital that robust scientific methods are used to develop and evaluate the new generation of forecasts. The Global Challenges Research Fund (GCRF) African Science for Weather Information and Forecasting Techniques (SWIFT) project represents an international effort to advance scientific solutions across the fields of nowcasting, synoptic and short-range severe weather prediction, subseasonal-to-seasonal (S2S) prediction, user engagement, and forecast evaluation. This paper describes the opportunities facing African meteorology and the ways in which SWIFT is meeting those opportunities and identifying priority next steps. Delivery and maintenance of weather forecasting systems exploiting these new solutions requires a trained body of scientists with skills in research and training, modeling and operational prediction, and communications and leadership. By supporting partnerships between academia and operational agencies in four African partner countries, the SWIFT project is helping to build capacity and capability in African forecasting science. A highlight of SWIFT is the coordination of three weather forecasting “Testbeds”-the first of their kind in Africa-which have been used to bring new evaluation tools, research insights, user perspectives, and communications pathways into a semioperational forecasting environment.",

keywords = "Africa, Forecast verification/skill, Nowcasting, Numerical weather prediction/forecasting, Operational forecasting, Short-range prediction",

author = "Parker, \{Douglas J.\} and Blyth, \{Alan M.\} and Woolnough, \{Steven J.\} and Dougill, \{Andrew J.\} and Bain, \{Caroline L.\} and \{de Coning\}, Estelle and Mariane Diop-Kane and Foamouhoue, \{Andre Kamga\} and Benjamin Lamptey and Ousmane Ndiaye and Paolo Ruti and Adefisan, \{Elijah A.\} and Amekudzi, \{Leonard K.\} and Philip Antwi-Agyei and Birch, \{Cathryn E.\} and Carlo Cafaro and Hamish Carr and Benard Chanzu and Clarke, \{Samantha J.\} and Helen Coskeran and Danuor, \{Sylvester K.\} and \{de Andrade\}, \{Felipe M.\} and Kone Diakaria and Cheikh Dione and Diop, \{Cheikh Abdoulahat\} and Fletcher, \{Jennifer K.\} and Gaye, \{Amadou T.\} and Groves, \{James L.\} and Masilin Gudoshava and Hartley, \{Andrew J.\} and Hirons, \{Linda C.\} and Ishiyaku Ibrahim and James, \{Tamora D.\} and Lawal, \{Kamoru A.\} and Marsham, \{John H.\} and Mutemi, \{J. N.\} and Okogbue, \{Emmanuel Chilekwu\} and Eniola Olaniyan and Omotosho, \{J. B.\} and Joseph Portuphy and Roberts, \{Alexander J.\} and Juliane Schwendike and Segele, \{Zewdu T.\} and Stein, \{Thorwald H.M.\} and Taylor, \{Andrea L.\} and Taylor, \{Christopher M.\} and Warnaars, \{Tanya A.\} and Stuart Webster and Woodhams, \{Beth J.\} and Lorraine Youds",

note = "Publisher Copyright: {\textcopyright} 2022 American Meteorological Society",

year = "2022",

month = feb,

doi = "10.1175/BAMS-D-20-0047.1",

language = "English",

volume = "103",

pages = "E349--E369",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "2",

}

Parker, DJ, Blyth, AM, Woolnough, SJ, Dougill, AJ, Bain, CL, de Coning, E, Diop-Kane, M, Foamouhoue, AK, Lamptey, B, Ndiaye, O, Ruti, P, Adefisan, EA, Amekudzi, LK, Antwi-Agyei, P, Birch, CE, Cafaro, C, Carr, H, Chanzu, B, Clarke, SJ, Coskeran, H, Danuor, SK, de Andrade, FM, Diakaria, K, Dione, C, Diop, CA, Fletcher, JK, Gaye, AT, Groves, JL, Gudoshava, M, Hartley, AJ, Hirons, LC, Ibrahim, I, James, TD, Lawal, KA, Marsham, JH, Mutemi, JN, Okogbue, EC, Olaniyan, E, Omotosho, JB, Portuphy, J, Roberts, AJ, Schwendike, J, Segele, ZT, Stein, THM, Taylor, AL, Taylor, CM, Warnaars, TA, Webster, S, Woodhams, BJ & Youds, L 2022, 'The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction', Bulletin of the American Meteorological Society, vol. 103, no. 2, pp. E349-E369. https://doi.org/10.1175/BAMS-D-20-0047.1

TY - JOUR

T1 - The African SWIFT

T2 - Project Growing Science Capability to Bring about a Revolution in Weather Prediction

AU - Parker, Douglas J.

AU - Blyth, Alan M.

AU - Woolnough, Steven J.

AU - Dougill, Andrew J.

AU - Bain, Caroline L.

AU - de Coning, Estelle

AU - Diop-Kane, Mariane

AU - Foamouhoue, Andre Kamga

AU - Lamptey, Benjamin

AU - Ndiaye, Ousmane

AU - Ruti, Paolo

AU - Adefisan, Elijah A.

AU - Amekudzi, Leonard K.

AU - Antwi-Agyei, Philip

AU - Birch, Cathryn E.

AU - Cafaro, Carlo

AU - Carr, Hamish

AU - Chanzu, Benard

AU - Clarke, Samantha J.

AU - Coskeran, Helen

AU - Danuor, Sylvester K.

AU - de Andrade, Felipe M.

AU - Diakaria, Kone

AU - Dione, Cheikh

AU - Diop, Cheikh Abdoulahat

AU - Fletcher, Jennifer K.

AU - Gaye, Amadou T.

AU - Groves, James L.

AU - Gudoshava, Masilin

AU - Hartley, Andrew J.

AU - Hirons, Linda C.

AU - Ibrahim, Ishiyaku

AU - James, Tamora D.

AU - Lawal, Kamoru A.

AU - Marsham, John H.

AU - Mutemi, J. N.

AU - Okogbue, Emmanuel Chilekwu

AU - Olaniyan, Eniola

AU - Omotosho, J. B.

AU - Portuphy, Joseph

AU - Roberts, Alexander J.

AU - Schwendike, Juliane

AU - Segele, Zewdu T.

AU - Stein, Thorwald H.M.

AU - Taylor, Andrea L.

AU - Taylor, Christopher M.

AU - Warnaars, Tanya A.

AU - Webster, Stuart

AU - Woodhams, Beth J.

AU - Youds, Lorraine

PY - 2022/2

Y1 - 2022/2

N2 - Africa is poised for a revolution in the quality and relevance of weather predictions, with potential for great benefits in terms of human and economic security.This revolution will be driven by recent international progress in nowcasting, numerical weather prediction, theoretical tropical dynamics, and forecast communication, but will depend on suitable scientific investment being made. The commercial sector has recognized this opportunity and new forecast products are being made available to African stakeholders. At this time, it is vital that robust scientific methods are used to develop and evaluate the new generation of forecasts. The Global Challenges Research Fund (GCRF) African Science for Weather Information and Forecasting Techniques (SWIFT) project represents an international effort to advance scientific solutions across the fields of nowcasting, synoptic and short-range severe weather prediction, subseasonal-to-seasonal (S2S) prediction, user engagement, and forecast evaluation. This paper describes the opportunities facing African meteorology and the ways in which SWIFT is meeting those opportunities and identifying priority next steps. Delivery and maintenance of weather forecasting systems exploiting these new solutions requires a trained body of scientists with skills in research and training, modeling and operational prediction, and communications and leadership. By supporting partnerships between academia and operational agencies in four African partner countries, the SWIFT project is helping to build capacity and capability in African forecasting science. A highlight of SWIFT is the coordination of three weather forecasting “Testbeds”-the first of their kind in Africa-which have been used to bring new evaluation tools, research insights, user perspectives, and communications pathways into a semioperational forecasting environment.

AB - Africa is poised for a revolution in the quality and relevance of weather predictions, with potential for great benefits in terms of human and economic security.This revolution will be driven by recent international progress in nowcasting, numerical weather prediction, theoretical tropical dynamics, and forecast communication, but will depend on suitable scientific investment being made. The commercial sector has recognized this opportunity and new forecast products are being made available to African stakeholders. At this time, it is vital that robust scientific methods are used to develop and evaluate the new generation of forecasts. The Global Challenges Research Fund (GCRF) African Science for Weather Information and Forecasting Techniques (SWIFT) project represents an international effort to advance scientific solutions across the fields of nowcasting, synoptic and short-range severe weather prediction, subseasonal-to-seasonal (S2S) prediction, user engagement, and forecast evaluation. This paper describes the opportunities facing African meteorology and the ways in which SWIFT is meeting those opportunities and identifying priority next steps. Delivery and maintenance of weather forecasting systems exploiting these new solutions requires a trained body of scientists with skills in research and training, modeling and operational prediction, and communications and leadership. By supporting partnerships between academia and operational agencies in four African partner countries, the SWIFT project is helping to build capacity and capability in African forecasting science. A highlight of SWIFT is the coordination of three weather forecasting “Testbeds”-the first of their kind in Africa-which have been used to bring new evaluation tools, research insights, user perspectives, and communications pathways into a semioperational forecasting environment.

KW - Africa

KW - Forecast verification/skill

KW - Nowcasting

KW - Numerical weather prediction/forecasting

KW - Operational forecasting

KW - Short-range prediction

UR - https://www.scopus.com/pages/publications/85125373323

U2 - 10.1175/BAMS-D-20-0047.1

DO - 10.1175/BAMS-D-20-0047.1

M3 - Article

AN - SCOPUS:85125373323

SN - 0003-0007

VL - 103

SP - E349-E369

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 2

ER -

The African SWIFT: Project Growing Science Capability to Bring about a Revolution in Weather Prediction

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Keywords

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