This study was undertaken to determine the hydrologic properties of the aquifer materials at Ogbozara-Opi/Ekwegbe-Agu and environs by the estimation of the aquifer transmissivity using Dar Zarrouk parameters. The study area lies in the Anambra basin and is underlain, from bottom to top, by 3 prominent geologic formations; Enugu Formation, Mamu Formation and Ajali Formation respectively. A total of 19 sounding stations were occupied within the study area using the Ohmega resistivity meter. The VES data were interpreted using the conventional partial curve matching technique to obtain initial model parameters which were later used as input data for computer iterative modelling using the Interpex software. These analyses were further combined with information from two existing boreholes in the study area to estimate aquifer hydraulic parameters using Dar-Zarrouk parameters. The layer parameters thus obtained revealed that the dominant curve type obtained from the different formations is the AK curve type followed by the HK curve type. An average of 6 geo-electric layers were delineated across all transect taken with resistivity values ranging from 25.42 - 105.85 Ωm, 186.38 - 3383.3 Ωm and 2992.3 - 6286.4 Ωm in the Enugu, Mamu and Ajali Formations respectively. Results of the study revealed the aquifer resistivity in the study area ranges from 1 - 500 Ωm. The depth to the water table range from 13 - 208 m with a mean value of 76.05, while aquifer thickness varies between 95 and 140 m with a mean value of 102.89 m. The values of the Dar-Zarrouk parameters revealed that the transverse resistance varies between −10,000 - 170,000 Ωm2, while the longitudinal conductance varies from 0.1 - 1 to 1.9
References
[1]
Ekwe, A.C., Onu, N.N. and Onuoha, K.M. (2006) Estimation of Aquifer Hydraulic Characteristics of Aquifer Hydraulic Characteristics from Electrical Sounding Data: A Case of Middle Imo River Basin Aquifers, South Eastern Nigeria. Journal of Spatial Hydrology, 6, 121-132.
[2]
Ezeh, C.C. (2011) Geoelectrical Studies for Estimating Aquifer Hydraulic Properties in Enugu State, Nigeria. International Journal of Physical Sciences, 6, 3319-3329.
[3]
Maillet, R. (1947) The Fundamental Equations of Electrical Prospecting. Geophysics, 12, 529-556. https://doi.org/10.1190/1.1437342
[4]
Onuoha, K.M. and Mbazi, F.C.C. (1988) Aquifer Transmissvity from Electrical Sounding Data: The Case of the Ajali Sandstone Aquifers South-West Enugu, Nigeria. In: Ofoegbu, C.O., Ed., Groundwater and Mineral Resources of Nigeria, Friedrich Vieweg & Sohn, Braunchweig/Wiesbaden, 17-30.
[5]
Ezeh, C.C. (2012) Hydrogeophysical Studies for the Delineation of Potential Groundwater Zones in Enugu State, Nigeria. International Research Journal of Geology and Mining, 2, 103-112.
[6]
Okonkwo, A.C. and Ezeh, C.C. (2013) Aquifer Hydraulics and Delineation of Groundwater Quality Zones Using Electrical Resistivity Method at Oduma and Environs in Enugu State, Southeastern Nigeria. Journal of Geology and Mining, 3, 31-39.
[7]
Ekwe, A.C., Nnodu, I.N., Ugwumbah, K.I. and Onwuka, O.S. (2010) Estimation of Aquifer Hydraulic Characteristics of Low Permeability Formation from Geosounding Data: A Case Study of Oduma Town, Enugu State. Journal of Earth Sciences, 4, 19-26. https://doi.org/10.3923/ojesci.2010.19.26
[8]
Udoinyang, I.E. and Igboekwe, M.U. (2012) Aquifer Transmissivity, Dar Zarrouk Parameters and the Direction of Flow of Suspended Particulate Mattee in Boreholes in MOUAU and the Kwa Ibo River Umudike-Nigeria. Greener Journal of Physical Sciences, 2, 70-84.
[9]
Chandra, S., Ahmed, S., Ram, A. and Dewandel, B. (2008) Estimation of Hard Rock Aquifers Hydraulic Conductivity from the Geoelectrical Measurements: A Theoretical Development with Field Application. Journal of Hydrology, 357, 218-227. https://doi.org/10.1016/j.jhydrol.2008.05.023
[10]
Laouini, G., Etuk, S.E. and Agbasi, O.E. (2017) Delineation of Aquifers Using Dar Zarrouk Parameters in Parts of Akwa Ibom, Niger Delta, Nigeria. Journal of Hydrogeology and Hydrologic Engineering, 6, Article No. 18.
[11]
Kelly, W.E. and Frohlich, R.K. (1985) Relations between Aquifer Electrical and Hydraulic Properties. Groundwater, 23, 182-189. https://doi.org/10.1111/j.1745-6584.1985.tb02791.x
[12]
Okiongbo, K.S. and Oborie, E. (2015) Investigation of Relationships between Geoelectric and Hydraulic Parameters in a Quaternary Alluvial Aquifer in Yenagoa, Southern Nigeria. Ife Journal of Science, 17, 163-172.
[13]
Ladipo, K.O., Nwajide, C.S. and Akande, S.O. (1992) Cretaceous and Paleogene Sequences in the Abakaliki and Anambra Basins, Southeastern Nigeria, A Field Guide. International Symposium on the Geology of Deltas, Porthacourt, 39.
[14]
Reyment, R.A. (1964) Review of Nigerian Cretaceous—Cenozoic Stratigraphy. Journal of Nigerian Mining, Geology and Metallurgical Society, 1, 61-80.
[15]
Reyment, R.A. and Morner, N.A. (1977) Cretaceous Transgressions and Regressions Exemplified by the South Atlantic. Paleontological Society of Japan, 21, 247-260.
[16]
Reyment, R.A. (1965) Aspect of the Geology of Nigeria. University of Ibadan Press, Ibadan, 145.
[17]
Obi, G.C. (2000) Depositional Model for the Campanian-Maastrichtian Anambra Basin, Southern Nigeria. Ph.D. Thesis, University of Nigeria Nsukka, Enugu, 291.
[18]
Kogbe, C.A. (1989) The Cretaceous and Paleogene Sediments of Southern Nigeria. In: Kogbe, C.A., Ed., Geology of Nigeria, 2nd Edition, Rockview Nigeria Limited, Lagos, 273-286.
[19]
Nwajide, C.S. (1990) Cretaceous Sedimentation and Paleogeography of the Central Benue Trough. In: Ofoegbu C.O. (Ed.), The Benue Trough, Structure and Evolution, Friedrich Vieweg & Sohn, Braunchweig/Wiesbaden, 19-38.
[20]
Lowrie, W. (2007) Fundamentals of Geophysics. Cambridge University Press, Cambridge, 392. https://doi.org/10.1017/CBO9780511807107
[21]
Zohdy, A.A.R., Eaton, G.P. and Mabey, D.R. (1974) Application of Surface Geophysics to Groundwater Investigations. In: Keller, G.V. and Frischnechk, F.C., Eds., Techniques of Water Resources Investigations of the United States Geological Survey, United States Government Printing Office, Washington DC, 12-26.
[22]
Kearey, P., Brooks, M. and Hill, I. (2002) An Introduction to Geophysical Exploration. 3rd Edition, Blackwell Science, Oxford, 262 p.
