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The Groundwater Flow Behavior and the Recharge in the Nubian Sandstone Aquifer System during theWet and Arid Periods

Research Authors
Ahmed Mohamed , Ezzat Ahmed, Fahad Alshehri, and Ahmed Abdelrady
Research Abstract

The Nubian Sandstone Aquifer System (NSAS) is made up of three major sub-basins:
Kufra, Dakhla, and the N. Sudan Platform. It is one of the world’s largest groundwater systems.
The aquifer’s hydrologic setting, connectivity of its sub-basins, and groundwater flow across these
sub-basins are currently unclear. To address these issues, we used a combined approach that included:
(1) a regionally calibrated groundwater flow model that mimics early (>10,000 years) steady-state conditions
under wet climatic periods and later (<10,000 years BP–1960; 1960–2010) transient conditions
under arid climatic periods; and (2) groundwater ages (36Cl, 81Kr) and isotopic (18O, 2H) data. The
NSAS was recharged on a regional scale in previous wet climatic periods; however, in dry periods,
its outcrops are still receiving local modest recharge. A progressive increase in 36Cl groundwater
ages was found along groundwater flow directions and along structures that are sub-parallel to the
flow direction. The NE–SW Pelusium mega shear zone is a preferential groundwater flow conduit
from the Kufra to the Dakhla sub-basin. The south-to-north groundwater flow is hampered by the
Uweinat–Aswan basement uplift. The findings provide useful information about the best ways to
use the NSAS.

Research Date
Research Department
Research Journal
Sustainability
Research Vol
14
Research Website
https://www.mdpi.com/2071-1050/14/11/6823
Research Year
2022
Research Pages
6823