Informations et ressources scientifiques
sur le développement des zones arides et semi-arides

Accueil du site → Projets de développement → Projets de recherche pour le Développement → 2010 → Groundwater resilience to climate change in Africa

UKAID Department for International Development (R4D) 2010

Groundwater resilience to climate change in Africa

Groundwater Climate Change

UKAID Department for International Development (R4D)

Titre : Groundwater resilience to climate change in Africa

Région : Afrique

Projet de recherche pour le Développement :

DFID Programme : Miscellaneous (Environment)

Organismes de mise en œuvre British Geological Survey (BGS)

Durée : 01-01-2010 / 31-03-2011

Objectifs
The aim of the project is to improve understanding of the impacts of climate change on groundwater resources and local demand. The project will develop policy recommendations for sustainable groundwater development and management that will support adaptation and build resilience. There are three key objectives : 1. To strengthen the evidence base linking climate change, climate variability, aquifer resilience and livelihood vulnerability. 2. To support local and international research agendas and programmes, including the ability to collect and interpret data, and transform data into policy-relevant information and knowledge. 3. To develop evidence-based guidance on assessing how groundwater can support adaptation and build resilience to climate change.

Project Conclusions
This research project has examined the resilience of groundwater to climate change in Africa ; an area of science that has been under-researched, but has much relevance for the formulation of climate adaptation policies. There are several outcomes from the research :
A series of quantitative groundwater maps for Africa- the first of their kind. These indicate the wide variation in groundwater resources across the continent. For much of Africa, carefully sited and constructed boreholes will be able to sustain rural handpumps.The potential for shallow boreholes yielding greater than 5 l/s is not widespread across Africa, although smaller yields of 0.5 to 5 l/s will be easier to find. Large groundwater stores in the major sedimentary basins, which can accommodate high yielding boreholes, are often far from population centres and associated with deep water-levels. New data from focused groundwater case studies. Three case studies were undertaken to gather new data on groundwater and climate change in Africa :
Detailed sampling in West Africa from hand-pumped boreholes abstracting shallow (less than 50 m deep) groundwater indicates significant resilience to climate variability across the range of climate zones sampled (mean annual rainfall 400–2000 mm). The mean residence of groundwater in shallow aquifers was approximately 20–70 years and therefore well buffered against short term variations in climate. The residence time of shallow groundwater in weathered basement rocks was found to be similar to the residence time in sandstones, indicating that weathered basement can contain considerable volumes of groundwater which moves slowly because of the low permeability.
A study of higher yielding supplies from crystalline basement rocks in Uganda and Tanzania indicates that sustainable larger supplies are often associated with a thick regolith (often including alluvium) over weathered basement rocks, and that yields of more than 1 l/s maybe available in approximately 35% of effectively sited boreholes in these areas. Enhanced groundwater storage in this aquifer environment is of particular importance in semi-arid regions (e.g. Dodoma, Tanzania) where significant recharge occurs episodically in association with extreme climate events a few times or less per decade. Detailed analysis of data on water use in Ethiopia found that both wealth and the seasonality of water access are important drivers of domestic and productive water use, probably due to higher collection times in the dry season and the labour shortages faced by poor households. Policy responses in the water sector need to centre on : extending reliable services to reduce collection times, even where coverage statistics may look positive ; safeguarding health and livelihood needs, especially at critical times of year ; and enhancing the storage and transport facilities of poorer households.
It is clear from this research that groundwater possesses a high resilience to climate change in Africa and should be central to adaptation strategies. Increasing access to improved groundwater sources based on handpumps is likely to be highly successful. However, building strategies that depend on the availability of widespread higher reliable yields from groundwater is likely to be problematic.

Total Cost to DFID : £275,000

Présentation : UKAID

Page publiée le 29 septembre 2016, mise à jour le 8 novembre 2017