Rapid groundwater potential mapping in humanitarian contexts: improving borehole implementation in basement environments

Emergency responses in humanitarian contexts require rapid set-up of water supply. Boreholes are often drilled where the needs are highest and not where hydrogeological conditions are most favourable. The Rapid Groundwater Potential Mapping (RGWPM) methodology was therefore developed as a practical...

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Bibliographic Details
Published in:Hydrogeology journal 2021-09, Vol.29 (6), p.2033-2051
Main Authors: Scherrer, Cyrille, Schweitzer, Ryan, Bünzli, Marc-André, Milnes, Ellen
Format: Article
Language:English
Subjects:
Aquatic Pollution
Boreholes
Correlation
Digital Elevation Models
Digital imaging
Drilling
Earth and Environmental Science
Earth Sciences
Emergency preparedness
Emergency response
Geological mapping
Geological maps
Geology
Geophysics/Geodesy
Groundwater
Groundwater availability
Groundwater potential
Hand pumps
Humanitarianism
Hydraulic conductivity
Hydrogeology
Hydrogeomorphology
Hydrology/Water Resources
Mapping
Reservoir capacity
Satellite imagery
Spaceborne remote sensing
Waste Water Technology
Water availability
Water Management
Water Pollution Control
Water Quality/Water Pollution
Water supply
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Summary:Emergency responses in humanitarian contexts require rapid set-up of water supply. Boreholes are often drilled where the needs are highest and not where hydrogeological conditions are most favourable. The Rapid Groundwater Potential Mapping (RGWPM) methodology was therefore developed as a practical tool to support borehole siting when time is critical, allowing strategic planning of geophysical campaigns. RGWPM is based on the combined analysis of satellite images, digital elevation models and geological maps, obtained through spatial overlay of the two main hydrogeological variables controlling groundwater potential: water availability (WA) and reservoir capacity (RC). The WA associates hydrogeomorphological features to groundwater dynamic processes, while the RC reflects estimates of the hydraulic conductivity. RGWPM maps are produced through an overlay of WA and RC with the overall groundwater potential (GWP) characterized as ‘very low’, ‘low’, ‘medium’, and ‘high’, with each zone associated to a specific water supply option. The first RGWPM map was elaborated during a drilling campaign in Northern Uganda. The average yield for the eight boreholes sited ‘with’ RGWPM was 35 m 3 /h versus 3 m 3 /h for the 92 preexisting boreholes that were sited ‘without’ RGWPM. Statistical comparison of the classified yields of all hundred boreholes with the RGWPM predicted-yield ranges revealed a good correlation for the ‘low’ GWP unit, highlighting areas where well siting for motorised systems should be avoided. A rather poor correlation of 33% was found for the ‘medium’ GWP unit, believed to be artificially induced by the numerous hand pumps (low yields) located in potentially higher yielding areas.
ISSN:1431-2174
1435-0157
DOI:10.1007/s10040-021-02352-w