Advancing weather forecasts in West Africa and the Sahel
AGRHYMET operates a regional Numerical Weather Prediction (NWP) system using the Weather Research and Forecasting (WRF) model on in-house High-Performance Computing (HPC) system. It downscales the Global Forecast System (GFS) outputs: from 0.25° resolution to 0.12° over West Africa and the Sahel. In...
| Main Authors: | , , , , , , |
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| Format: | Informe técnico |
| Language: | Inglés |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/179619 |
| _version_ | 1855535584009781248 |
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| author | Nimon, Pouwereou Tanimoune, Laouali I Kiema, Arsene Seidou Sanda, Ibrah Ali, Abdou Segnon, Alcade Christel Zougmore, Robert Bellarmin |
| author_browse | Ali, Abdou Kiema, Arsene Nimon, Pouwereou Segnon, Alcade Christel Seidou Sanda, Ibrah Tanimoune, Laouali I Zougmore, Robert Bellarmin |
| author_facet | Nimon, Pouwereou Tanimoune, Laouali I Kiema, Arsene Seidou Sanda, Ibrah Ali, Abdou Segnon, Alcade Christel Zougmore, Robert Bellarmin |
| author_sort | Nimon, Pouwereou |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | AGRHYMET operates a regional Numerical Weather Prediction (NWP) system using the Weather Research and Forecasting (WRF) model on in-house High-Performance Computing (HPC) system. It downscales the Global Forecast System (GFS) outputs: from 0.25° resolution to 0.12° over West Africa and the Sahel. In this Info Note, the forecast quality of both the WRF and GFS models is evaluated and compared. Results show complementary strengths between the AGRYMET implemented-WRF and GFS models. The frequency bias in the forecast of heavy daily rainfall frequency from WRF is lower (26.17%) compared to the bias from GFS (73.83%), implying that underestimation or overestimation of heavy daily rainfall
occurrence of WRF is lower than GFS. For light to moderate daily rainfall (1 – 10 mm), GFS performs slightly better than WRF. Overall, GFS overestimates the frequency of daily rainfall events more than WRF. According to the performance in forecasting heavy rainfall (>25 mm), WRF is more suitable in developing flood forecasting services for West Africa and Sahel. Both WRF and GFS forecasts generally capture the main rainfall patterns. In particular, the WRF model performs well along the Guinean coast. Beyond forecast performance and accuracy, regional modelling initiated by AGRHYMET RCC-WAS contributed to strengthen the West Africa and Sahel capacity and strategic autonomy with inhouse and tailored NWP forecast products. |
| format | Informe técnico |
| id | CGSpace179619 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| record_format | dspace |
| spelling | CGSpace1796192026-01-10T02:12:53Z Advancing weather forecasts in West Africa and the Sahel Nimon, Pouwereou Tanimoune, Laouali I Kiema, Arsene Seidou Sanda, Ibrah Ali, Abdou Segnon, Alcade Christel Zougmore, Robert Bellarmin climate change adaptation resilience climate services-climate information services AGRHYMET operates a regional Numerical Weather Prediction (NWP) system using the Weather Research and Forecasting (WRF) model on in-house High-Performance Computing (HPC) system. It downscales the Global Forecast System (GFS) outputs: from 0.25° resolution to 0.12° over West Africa and the Sahel. In this Info Note, the forecast quality of both the WRF and GFS models is evaluated and compared. Results show complementary strengths between the AGRYMET implemented-WRF and GFS models. The frequency bias in the forecast of heavy daily rainfall frequency from WRF is lower (26.17%) compared to the bias from GFS (73.83%), implying that underestimation or overestimation of heavy daily rainfall occurrence of WRF is lower than GFS. For light to moderate daily rainfall (1 – 10 mm), GFS performs slightly better than WRF. Overall, GFS overestimates the frequency of daily rainfall events more than WRF. According to the performance in forecasting heavy rainfall (>25 mm), WRF is more suitable in developing flood forecasting services for West Africa and Sahel. Both WRF and GFS forecasts generally capture the main rainfall patterns. In particular, the WRF model performs well along the Guinean coast. Beyond forecast performance and accuracy, regional modelling initiated by AGRHYMET RCC-WAS contributed to strengthen the West Africa and Sahel capacity and strategic autonomy with inhouse and tailored NWP forecast products. 2025-11 2026-01-09T21:07:31Z 2026-01-09T21:07:31Z Report https://hdl.handle.net/10568/179619 en Open Access application/pdf Nimon, P., Tanimoune, L.I., Kiema, K., Seidou Sanda, I., Ali, A., Segnon, A.C., & Zougmoré, R.B. 2025. Advancing weather forecasts in West Africa and the Sahel. AICCRA Report. Centro Internacional de Agricultura Tropical (CIAT). Accelerating Impacts of CGIAR Climate Research for Africa (AICCRA). |
| spellingShingle | climate change adaptation resilience climate services-climate information services Nimon, Pouwereou Tanimoune, Laouali I Kiema, Arsene Seidou Sanda, Ibrah Ali, Abdou Segnon, Alcade Christel Zougmore, Robert Bellarmin Advancing weather forecasts in West Africa and the Sahel |
| title | Advancing weather forecasts in West Africa and the Sahel |
| title_full | Advancing weather forecasts in West Africa and the Sahel |
| title_fullStr | Advancing weather forecasts in West Africa and the Sahel |
| title_full_unstemmed | Advancing weather forecasts in West Africa and the Sahel |
| title_short | Advancing weather forecasts in West Africa and the Sahel |
| title_sort | advancing weather forecasts in west africa and the sahel |
| topic | climate change adaptation resilience climate services-climate information services |
| url | https://hdl.handle.net/10568/179619 |
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