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Translating seasonal climate forecasts into decision-relevant water security forecasts

MacLeod, David ORCID: https://orcid.org/0000-0001-5504-6450, Asfaw, Dagmawi, Michaelides, Katerina, Otenyo, Erick, Tadege, Abebe, Segele, Zewdu, Otieno, George, Hassaballah, Khalid, Quichimbo, Andrés, Cuthbert, Mark ORCID: https://orcid.org/0000-0001-6721-022X and Singer, Michael 2022. Translating seasonal climate forecasts into decision-relevant water security forecasts. Presented at: EGU General Assembly 2022, 23–27 May 2022. 10.5194/egusphere-egu22-2804

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Abstract

Early warning of drought conditions can help protect lives and livelihoods, especially in dry regions of subsistence agriculture and pastoralism. Regions such as the Horn of Africa Drylands (HAD) may benefit from advance warning of changes to available water supplies, as rural communities make critical decisions about planting and moving livestock at particular points in time. However whilst the regionally-mandated seasonal forecast for HAD provides information on rainfall totals, it does not quantify expected impacts on water balance components such as soil moisture and groundwater storage. This latter information may be more useful to rural communities who rely on groundwater for water resources for humans and livestock, and soil moisture for crop growth. These hydrological quantities can typically be estimated with hydrological models, but in drylands the processes governing water partitioning are complex and largely unrepresented in most existing regional and global hydrological models. Here we leverage the capability of a dryland-specific hydrological model (DRYP) to produce rainfall-driven water security forecasts for HAD. DRYP incorporates spatially varying rainfall and evaporative demand, dynamic surface-groundwater interactions, ephemeral flow through channels and focused groundwater recharge. We employ DRYP in a pilot application to produce seasonal forecasts of soil moisture and groundwater recharge for a large catchment within the HAD. We use the objective seasonal forecasts provided by the IGAD Climate Prediction and Application Centre (ICPAC) and disseminated within the Greater Horn of Africa Climate Outlook Forum (GHACOF). Methodological approaches to integrate DRYP with the regional climate outlook disseminated by ICPAC are described, along with evaluation of potential skill of these new water security forecasts for the regional pilot catchment. Finally, we describe and update on an active forecast pilot activity, where water security forecasts for the current rainfall season (March-May 2022) have been co-produced with ICPAC and disseminated to stakeholders in February 2022 as part of the GHACOF event, now publicly available via the ICPAC East Africa Hazards Watch platform, under the EU H2020-funded DOWN2EARTH project. Co-design activity arising from recent stakeholder workshops will be described.

Item Type: Conference or Workshop Item (Paper)
Status: Published
Schools: Earth and Environmental Sciences
Last Modified: 10 Jun 2024 10:15
URI: https://orca.cardiff.ac.uk/id/eprint/168324

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