Published: January 10, 2025; Aithor: Julia Sonrisa
Address: 2276, 12th Avenue, New York, NY 10027, United States
Format: Hybrid
Virtual: Zoom link provided upon registration
The NextGen forecasting system helps forecasters evaluate the performance of different global climate models, which helps determine how best to correct and combine them. AGRHYMET Regional Climate Centre has been capacitating National Meteorological and Hydrological Services (NMHSs) in West Africa and the Sahel on NextGen seasonal forecasting systems. The capacity development efforts focus mainly on the Python interface to the Climate Predictability Tool (CPT) or PyCPT, a tool developed by the International Research Institute for Climate and Society (IRI) to implement the NextGen approach to climate forecasting. While hydrological forecasts of water availability from watersheds in major river basins are essential to support operational planning and management, the latest PyCPT developed by IRI does not consider the seasonal forecast of hydrological variables. To address this challenge and respond to the needs of NMHSs in the region in charge of hydrological monitoring, AGRHYMET has adapted and improved the PyCPT tool for seasonal hydrological forecasts. The primary hydrological data used to produce seasonal forecasts are the daily flows recorded at the main river stations in the region. These data are distributed across the main river basins. Forecasts are based on correlations between ocean surface temperature, precipitation, wind speed, and hydrological variables such as river flows for the high-water period. Principal component regression (PCR) is the most widely considered method. A variety of forecast performance scores consist of scores based on continuous measurements, those on observed measurements, and, in some cases, forecasts are used as well. The work carried out by the AGRHYMET Regional Center, in response to the needs expressed by players in the sub-region, has resulted in the enhancement of PyCPT for hydrological applications. The current development has been tested through case studies in West Africa, and the results obtained are promising.
Bio: Bernard Minoungou is a hydrologist with expertise in hydrological modeling at the AGRHYMET Regional Center. His activities include the development of decision-support approaches, tools, and products on water resources, climate, and food security. It also conducts capacity-building activities for national meteorological and hydrological services in 17 CILSS-ECOWAS (Comité inter-État de lutte contre la sécheresse au Sahel- Communauté économique des États de l’Afrique de l’Ouest) countries. It contributes to the adaptation of the Enhancing National Climate Services Initiative tools (ENACTS) initiative and their appropriation by national staff to improve climate services.
Time: 12:00 pm EST
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