Subsurface Cavity Detection Using Electrical Resistivity Tomography (Ert); A Case Study from Southern Quetta, Pakistan
References
- [1] Z. Kakar, S.M. Shah, and M.A. Khan, “Scarcity of water resources in rural area of Quetta District; challenges and preparedness”, In: IOP Conference Series: Materials Science and Engineering, Vol 1. IOP Publishing, Pp. 12-13, 2018.
- [2] K. Murray, Z. Sagintayev, M. Sultan, S. Khan, D.B. Becker, and R. Becker, “An integrated approach for the assessment and development of renewable groundwater resources in the Quetta valley, Pakistan”, In: Geological Society of America Abstracts with Programs, Vol 6., Pp. 154, 2007.
- [3] B. Muhammad, S. Khan, M. Mohibullah, A.K. Kasi, and M. Ghani, “Planktonic foraminiferal biostratigraphy and depositional setting of the Cretaceous Parh Limestone, Quetta, western Sulaiman Fold-Thrust Belt, Balochistan, Pakistan”, Journal of Himalayan Earth Sciences, 51, Pp. 8-23, 2019.
- [4] I.H. Durrani, S. Adnan, M. Ahmad, S. Khair, and E. Kakar, “Observed long-term climatic variability and its impacts on the ground water level of Quetta alluvial”, Iranian Journal of Science and Technology, Transactions A: Science, Vol. 42, Pp. 589-600, 2018.
- [5] A.S. Khan, S.D. Khan, and D.M. Kakar, “Land subsidence and declining water resources in Quetta Valley, Pakistan”, Environmental Earth Sciences, Vol. 70, Pp. 2719-2727, 2013.
- [6] J. Huang, K. Shuhab, A. Wulamu, W. Crupa, A. Khan, D. Kakar, Kasi, “A Surface Deformation in Quetta Valley, Balochistan, Pakistan”, In: AGU Fall Meeting Abstracts, 2015.
- [7] T. Günther, and C. Rücker, “Electrical Resistivity Tomography (ERT) in geophysical applications-state of the art and future challenges”, In: Schlumberger Symposium--100 years of electrical imaging, Paris, (January), 2012.
- [8] N. Greggio, B. Giambastiani, E. Balugani, C. Amaini, and M. Antonellini, “High-resolution electrical resistivity tomography (ERT) to characterize the spatial extension of freshwater lenses in a salinized coastal aquifer”, Water, Vol. 10, Pp. 1067, 2018.
- [9] J.E. Chambers, O. Kuras, P.I. Meldrum, R.D. Ogilvy, and J. Hollands, “Electrical resistivity tomography applied to geologic, hydrogeologic, and engineering investigations at a former waste-disposal site, Geophysics, Vol. 71, Pp. B231-B239, 2006.
- [10] B. Zhou, “Electrical Resistivity Tomography: A Subsurface-Imaging Technique. In: Applied Geophysics with Case Studies on Environmental, Exploration and Engineering Geophysics. Intech Open, 2018.
- [11] W. Lowrie, “Fundamental of Geophysics”, Cambridge University Press, Pp. 354, 1997.
- [12] A.S. Ogungbe, J.A. Olowofela, O.J., Da-Silva, A.A. Alabi, and E.O. Onori, “Subsurface characterization using electrical resistivity (Dipole-Dipole) method at Lagos State University (LASU) Foundation School, Badagry”, Advances in Applied Science Research, Vol. 1, Pp. 174-181, 2010.
- [13] A.A. Zohdy, “A new method for differential resistivity sounding”, Geophysics, Vol. 34, Pp. 924-943, 1969.
- [14] M. Blome, H. Maurer, and K. Schmidt, “Advances in three-dimensional geoelectric forward solver techniques”, Geophysical Journal International, Vol. 176, Pp. 740-752, 2009.
DOI: https://doi.org/10.2478/pjg-2020-0012 | Journal eISSN: 2521-2923
Language: English
Page range: 101 - 105
Published on: Jan 5, 2021
Published by: Sciendo
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
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© 2021 Syed Ali Abbas, Muhammad Saeed, Mukhtiar Ghani, Taseer Ahmad, published by Sciendo
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