Integrated approach to investigation of occurrence and quality of groundwater in Ogbomoso North, Southwestern Nigeria

An integrated approach involving electrical resistivity, hydrogeologic, hydrogeochemical and remote sensing has been employed to investigate the occurrence, facies, quality and hydrogeologic systems of the aquifer units of groundwater in the low latitude crystalline basement complex terrain of Ogbom...

Full description

Saved in:
Bibliographic Details
Published in:Environmental earth sciences 2015-01, Vol.73 (1), p.139-162
Main Authors: Adabanija, M. A, Afolabi, A. O, Olatunbosun, A. T, Kolawole, L. L
Format: Article
Language:English
Subjects:
Acidity
Aquifers
Atolls
Basements
Biogeosciences
calcium
Cations
chlorides
Clay
Clay (material)
Dissolved solids
Drinking water
Dug wells
Earth and Environmental Science
Earth Sciences
Electric resistance
electrical conductivity
electrical resistance
Electrical resistivity
Electrodes
Environmental Science and Engineering
Geochemistry
Geoelectricity
Geographical coordinates
Geology
Ground-water flow
Groundwater
Groundwater flow
Groundwater pollution
Hydrology/Water Resources
In situ measurement
Industrial development
industrialization
latitude
nitrates
Original Article
Overburden
phosphates
potassium
radar
Remote sensing
Sand
sodium
sulfates
Terrestrial Pollution
Urbanization
Water analysis
Water depth
Water levels
water quality
Water sampling
Weathering
wells
World Health Organization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:An integrated approach involving electrical resistivity, hydrogeologic, hydrogeochemical and remote sensing has been employed to investigate the occurrence, facies, quality and hydrogeologic systems of the aquifer units of groundwater in the low latitude crystalline basement complex terrain of Ogbomoso North, Southwestern Nigeria. Vertical electrical soundings (VES) were conducted at 56 locations across the study area using Schlumberger electrode configuration with a maximum current electrode separation of 240 m along northeast–southwest azimuth. The layering models obtained from the interpretation of VES data were used to construct the 2-D geoelectric section for the study area. The static water level, depth, geographic coordinates and elevations of 130 hand-dug wells within the study area were also measured to construct the groundwater flow map. Hydrogeochemical studies involved in situ measurements of such parameters as electrical conductivity (EC), acidity (pH) and total dissolved solid (TDS) using calibrated WTW Conductivity/TDS meter (LF 90) sand HACH pH Sension meter, respectively, and laboratory analysis of 25 representative water samples for anion and cation concentration. Prominent lineaments were also mapped from side-looking airborne radar imagery of the area and used to obtain the lineaments orientations and joints systems vide Rose diagram. Interpretation of the VES data revealed a three- to four-layer earth model with the three-layer resistive–conductive–resistive geoelectrical signature as the most dominant constituting 62 % of the entire apparent resistivity curves. The fractured/weathered basement constitutes the aquifer units (confined/unconfined) while the conductive zones comprise clay/sandy clay/clayey sand. The 2-D geoelectric section revealed lenses of sand and clay, sand atoll and fresh/fracture basement at different depths. The lineament length varied from 0.72 to 1.39 km and 0.11 to 0.56 km for long and short lineaments, respectively. The long lineaments trend in the east–west direction and indicated shallow weathering while the short lineaments trend NW–SE and NE–SW directions indicating deep weathering in such directions. Two joint systems trending NW–SE and NE–SW as well as joints in the E–W direction were also revealed. The direction of groundwater flow was southward and westward with the recharge areas along topographic high trending NE–SW. The EC, pH and TDS ranged between 0.10 and 1.58 mS/cm, 5.0 and 7.3 and 60 and 920 mg/
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-014-3401-8