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Groundwater Potential Zone Delineation through Analytical Hierarchy Process: Diyala River Basin, Iraq

Groundwater recharge zone identification is vital for managing water resources, particularly in semi-arid and dry climates. Accurate and quantifiable assessment is necessary for the sustainable management of groundwater resources, and it is possible to carry this method out using modern techniques a...

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Published in:	Water (Basel) 2024-10, Vol.16 (20), p.2891
Main Authors:	Mohammed, Ruqayah, Scholz, Miklas
Format:	Article
Language:	English
Subjects:	Aquatic resources Climate change Drainage Drought Geographic information systems Groundwater Hierarchies India Iran Iraq Land use Lithofacies Lithology Methods Natural resources Precipitation Rain Rain and rainfall Rankings Remote sensing Surface water Water resources Water shortages Water, Underground
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description	Groundwater recharge zone identification is vital for managing water resources, particularly in semi-arid and dry climates. Accurate and quantifiable assessment is necessary for the sustainable management of groundwater resources, and it is possible to carry this method out using modern techniques and technical standards. To identify likely groundwater locations in the Diyala River Catchment, Iraq, which serves as an example study basin, the current research examines a new methodology that employs a geographic information system, and an Analytical Hierarchy Process connected with remote sensing data. The technique of ArcGIS was employed to generate spatially distributed thematic layers of rainfall, lithology, slope, drainage density, land use/land cover, relief and soil. The raster data from these layers were then converted and categorized. The weights assigned to thematic strata depended on their significance relative to groundwater occurrence. A pairwise judgement matrix for the Analytical Hierarchy Process was used, with the categorized ranking, to assess the standardized weights of the layers under consideration. The layers for the formation of groundwater zones have then been placed using the overlay-weighted summation approach. Three regions, which are classed as excellent, good and moderate, have been identified on the resulting groundwater potential zones map, representing roughly 29, 69 and 2% of the basin’s total area, respectively. The study’s conclusions indicate that, in such a climate, the adopted strategy would produce favourable results to promote the organizing of opinions and the sustainable use of groundwater resources.
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subjects	Aquatic resources Climate change Drainage Drought Geographic information systems Groundwater Hierarchies India Iran Iraq Land use Lithofacies Lithology Methods Natural resources Precipitation Rain Rain and rainfall Rankings Remote sensing Surface water Water resources Water shortages Water, Underground
title	Groundwater Potential Zone Delineation through Analytical Hierarchy Process: Diyala River Basin, Iraq
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