Abstract
Abstract. This study attempted to model the groundwater flow system of a drainage basin within the Basement Complex environment of Southwestern Nigeria. Four groundwater models were derived from Vertical Electrical Sounding (VES) Data, remotely sensed data, geological information (hydrolineaments and lithology) and borehole data. Subsequently, two sub-surface (local and regional) flow systems were delineated in the study area. While the local flow system is controlled by surface topography, the regional flow system is controlled by the networks of intermediate and deep seated faults/fractures. The local flow system is characterized by convergence, divergence, inflow and outflow in places, while the regional flow system is dominated by NNE-SSW and W-E flow directions. Minor flow directions include NNW-SSE and E-W with possible linkages to the main flow-paths. The NNE-SSW regional flow system is a double open ended flow system with possible linkage to the Niger Trough. The W-E regional flow system is a single open ended system that originates within the study area (with possible linkage to the NNE-SSW regional flow system) and extends to Ikogosi in the adjoining drainage basin. Thus, the groundwater drainage basin of the study area is much larger and extensive than its surface drainage basin. The all year round flowing (perennial) rivers are linked to groundwater outcrops from faults/fractures and contact zones. Consequently, larger percentage of annual rainwater usually leaves the basin in form of runoff and base flow. Therefore, the basin is categorized as a donor basin but with suspected subsurface water input at its northeastern axis.
Highlights
Sustainable water resource management requires detailed and comprehensive basin-scale hydrological studies
As the bedrock topography exerts its influence on the regional groundwater flow system, it constitutes the gateway through which percolating water seep into the underlying fractures and faults in places within the basin
Multi-sourced geospatial data were subjected to four procedures of GIS-based modeling with a view to illustrating, evaluating and analyzing the groundwater flow system of Osun Drainage Basin in the basement environment of Southwestern Nigeria
Summary
Sustainable water resource management requires detailed and comprehensive basin-scale hydrological studies. Much emphasis has been laid on drainage basin as an integrated system where interactions among surface water, groundwater, water resource exploitation and the consequent impact on the ecosystems take place (Zhou and Li, 2011). Groundwater modeling has been playing significant role in sustainable water resource management. Groundwater flow modeling has been effective in diverse ways (Zhou and Li, 2011). Groundwater flow model can serve as supporting planning tools for field investigations (Sun and Johnson, 1994) and as visualization tool for disseminating crucial research findings to the public and decision-makers (Sudicky et al, 1985; Sudicky, 1986)
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