Developing a flood monitoring system by utilizing real-time satellite rainfall estimates and water energy budget-based rainfall-runoff inundation model in West Africa
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Published:2024-05-07
Issue:
Volume:386
Page:265-270
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ISSN:2199-899X
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Container-title:Proceedings of IAHS
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language:en
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Short-container-title:Proc. IAHS
Author:
Mohamed Rasmy Abdul Wahid, Gusyev MaksymORCID, Tamakawa Katsunori, Ohara Miho, Koike Toshio
Abstract
Abstract. The African regions have been affected by frequent flood-related disasters. To support decision-makers in flood disaster management, a real-time flood monitoring system was established in the Niger and Volta basins under the Water disaster platform to enhance climate resilience in Africa (WADiRE-Africa). To bridge a gap between data unavailability and inaccessibility, the near-real-time satellite rainfall data (GSMaP-NRT) was evaluated and found to have a very low correlation (<0.4) with gauge data at daily scales and a higher correlation (>0.7) at monthly scales. The statistically bias-corrected GSMaP-NRT data was used in the Water and Energy Budget-based Rainfall-Runoff-Inundation (WEB-RRI) model to generate hydrological responses of the basins. As the simulated river discharges were overestimated, an additional correction method was employed for the GSMaP-NRT data to match well with observed discharges. The prototype system provides real-time flood information in both basins.
Publisher
Copernicus GmbH
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