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• W4321201292 abstract "Groundwater recharge is the process that allows water to percolate through permeable/or fractured rocks, and to enter an aquifer. Due to the large permeability of fractures at various scales, aquifers can store large quantities of water; therefore, such aquifers could be good candidates for water exploitation. In following this research, we propose the fractal dimension (FD) as an efficient tool to analyse and quantify the density and complexity of fractures as an index to assess the potentiality of groundwater recharge. The work was carried out in the region of Smaâla, Central Morocco, characterised by semi-arid Mediterranean climate with a mean annual temperature above 26 °C, and an average annual precipitation of 302 mm. In this area, the fracture networks associated with the Hercynian orogeny, were mapped and then quantified by the FD calculated using the box-counting method. The obtained results indicated that the Smaâla area can be divided according to the fracture density into three zones: zones of low FD (≈1.3–1.4) identified as poor groundwater recharge sites, spread in the southeast part of the study area; zones of medium FD (≈1.4–1.5) identified as good to moderate groundwater recharge sites, scattered across the western and southern part of the study area; and zones of high FD (≈1.5–1.61) identified as good to excellent groundwater recharge sites, scattered to the northeast and central part of the study area. Through this study, it seems that the fractal approach can be used as a representative parameter to assess the potentiality and availability of groundwater." @default.
• W4321201292 created "2023-02-18" @default.
• W4321201292 creator A5019539786 @default.
• W4321201292 date "2023-04-01" @default.
• W4321201292 modified "2023-09-29" @default.
• W4321201292 title "Mapping of potential groundwater recharge sites in the Smaâla area (Central Morocco)" @default.
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• W4321201292 doi "https://doi.org/10.1016/j.jafrearsci.2023.104888" @default.
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