References
- Snyder, N.P., Rubin D.M., Alpers C.N., Childs J.R., Curtis J.A., Flint L.E., Wright S.A. (2004): Estimating accumulation rates and physical properties of sediment behind a dam: Englebright Lake, Yuba River, northern California. Water Resources Research, 40(11), W11301, doi:10.1029/2004WR003279.
- Aina, A., Olorunfemi, M.O., Ojo, J.S. (1996): An Interpretation of Aeromagnetic and Electrical Resistivity Methods in Dam Site Investigation. Geophysics, 61(2), pp. 349–356.
- Eluwole, A.B., Olorunfemi, M.O. (2012): Time-Lapsed Geophysical Investigation of the Mokuro Earth Dam Embankment, Southwestern Nigeria, for Anomalous Seepages. Pacific Journal of Science and Technology, 13(1), pp. 604–614.
- Olorunfemi, M.O., Idornigie, A.I., Fagunloye, H.O., Ogun, O.A. (2004): Assessment of Anomalous Seepage Conditions in the Ope Dam Embankment, Ile-Ife, Southwestrn Nigeria. Global Journal of Geological Sciences, 2(2), pp. 191–198.
- Johri M., Zoback M.D., Hennings P. (2014): A scaling law to characterize fault-damage zones at reservoir depths. AAPG Bulletin, 98(10), pp. 2057–2079.
- Mansour K., Omar K., Ali K., Zaher M.A. (2018): Geophysical characterization of the role of fault and fracture systems for recharging groundwater aquifers from surface water of Lake Nasser. NRIAG Journal of Astronomy and Geophysics, 7(1), pp. 99–106.
- Song S., Feng X., Rao H., Zheng H. (2013): Treatment design of geological defects in dam foundation of Jinping I hydropower station. Journal of Rock Mechanics and Geotechnical Engineering, 5, pp. 342–349.
- Wieland M., Brenner R.P., Bozovic A. (2008): Potentially active faults in the foundations of large dams part i: vulnerability of dams to seismic movements in dam foundation. In: The 14th World Conference on Earthquake Engineering, Beijing, China.
- Ajayi, O., Olorunfemi, M.O., Ojo, J.S., Adegoke-Anthony, C.W. (2006): Integrated geophysical and geotechnical investigation of a damsite on River Mayo Ini, Adamawa State, Northern Nigeria. Africa Geoscience Review, 12 (3), pp. 179–188.
- Olorunfemi, M.O., Ojo, J S., Sonuga, F.A., Ajayi, O., Oladapo, M.I. (2000): Geoelectric and Electromagnetic Investigation of the Failed Koza and Nassarawa Dams Around Katsina, Northern Nigeria. Journal of Mining and Geology, 36 (1), pp. 51–56.
- Sjodahl, P., Dahlin, T., Johansson, S. (2003): Resistivity Monitoring for Leakage Detection at Hallby Embankment Dam. In: 9th Meeting of Environmental and Engineering Geophysics, Prague, Czech Republic.
- Cho I.K., Yeom J.Y. (2007): Cross line resistivity tomography for the delineation of anomalous seepage pathways in an embankment dam. Geophysics, 72(2), pp. G31–G38, doi: 10.1190/1.2435200.
- Lin C.P., Hung Y.C., Wu P.L., Yu Z.H. (2014): Performance of 2-D ERT in investigation of abnormal seepage: a case study at the Hsin-Shan earth dam in Taiwan. Journal of Environmental and Engineering Geophysics, 19(2), pp. 101–112.
- Sjödahl P., Dahlin T., Johansson S. (2010): Using the resistivity method for leakage detection in a blind test at the Røssvatn embankment dam test facility in Norway. Bulletin of Engineering Geology and Environment, 69(4), pp. 643–658.
- Karastathis V.K., Karmis P.N., Drakatos G., Stavrakakis G. (2002): Geophysical methods contributing to the testing of concrete dams. Application at the Marathon Dam. Journal of Applied Geophysics, 50, pp. 247–260.
- Benes, V., Tesar M., Boukalova, Z. (2011). Repeated geophysical measurement—The basic principle of the GMS methodology used to inspect the condition of flood control dikes. Trans. Ecol. Environ.,146, pp. 105–115.
- Al-Fares W. (2014). Application of Electrical Resistivity Tomography Technique for Characterizing Leakage Problem in Abu Baara Earth Dam, Syria. International Journal of Geophysics, 2014, 9 pages, doi:10.1155/2014/368128.
- Camarero P.L., Moreira C.A. (2017): Geophysical investigation of earth dam using the electrical tomography resistivity technique. REM: Int. Eng. J., Ouro Preto, 70(1), pp. 47–52.
- Rahaman, M. (1988): Recent Advances in the Study of the Basement Complex of Nigeria. Precambrian Geology of Nigeria, pp. 11–41.
- Talabi, A., Tijani, M. (2013): Hydrochemical and Stable Isotropic Characterization of Shallow Grounwater System in the Crystalline Basement Complex Terrain of Ekiti Area, Southwestern Nigeria. Applied Water Science, 3(1), pp. 229–245.