Hydrogeological Mapping using the Seismoelectric Method

Mohammad S. Rosid; Anton W. Kepic

doi:10.1071/EG05245

ISSN: 0812-3985
E-ISSN: 1834-7533

Hydrogeological Mapping using the Seismoelectric Method
Authors Mohammad S. Rosid^a and Anton W. Kepic^a
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^a Dept. of Exploration Geophysics, Curtin University, , GPO Box U1987 Perth, , Western Australia, , Australia, 6845, Phone: 61-08-9266-7503, Facsimile: 61-08-9266-3407, Email: [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 36, Issue 2, Jun 2005, p. 245 - 249
DOI: https://doi.org/10.1071/EG05245
- Received: 17 Aug 2004
- Accepted: 10 Dec 2004
- Published online: 01 Jun 2005

Abstract

Seismoelectric methods are based upon physical properties of the earth that produce electrical signals from seismic waves. Electrokinetic sounding (EKS) is one such method that has great potential for hydrogeological studies as the signal arises from the movement of pore fluids under seismic excitation. In principle, the method should be able to directly map changes in hydraulic permeability, rock porosity and fluid-chemistry. A number of researchers have recently tried to exploit the phenomenon in groundwater problems where conventional methods worked poorly. However, publications of successful case histories to support the theory are rare. This may be due to the very weak amplitudes of the electrical signals generated from the seismic wave, which are millivolts to nanovolts in magnitude, and the presence of cultural noise, which is usually much greater in magnitude.

We demonstrate electrokinetic responses from formations more than 50 metres deep in two test areas in Western Australia. One is over a saline palaeochannel and the other is over a freshwater aquifer. The seismic waves were generated from a sledgehammer source and acoustic and electrical data were recorded by a seismic acquisition system. Seismic refraction and reflection data provide seismic velocity information for depth conversion and support the seismoelectric data. The data were then compared to borehole logs to find what physical contrasts were detected. Significant hydrogeological boundaries were detected up to 50 m deep in saline groundwater conditions, and to at least 100 m deep in freshwater aquifers.

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References

Boulytchov, A., 2002, Seismic-electric benchmarking of caves and underground water horizons: 72nd Annual International Meeting of the Society of Exploration Geophysicists, Proceedings, 1594–1597.
Butler, K.E., Kepic, A.W., and Rosid, M.S., 2002, An experimental seismoelectric survey for groundwater exploration in the Australian Outback: 72nd Annual International Meeting of the Society of Exploration Geophysicists, Proceedings, 1484–1487.
Butler, K.E., Russell, R.D., Kepic, A.W., and Maxwell, M., 1996, Measurement of the seismoelectric response from a shallow boundary: Geophysics, 61, 1769–1778.
Garambois, S., and Dietrich, M., 2001, Seismoelectric wave conversions in porous media: Field measurements and transfer function analysis: Geophysics, 66, 1417–1430.
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Jouniaux, J., and Pozzi, J., 1995, Streaming potential and permeability of saturated and stones under triaxial stress: Consequences for electrotelluric anomalies prior to earthquakes: Journal of Geophysical Research, 100, 10197–10209.
Pride, S.R., and Haartsen, M.W., 1996, Electroseismic wave properties: Journal of the Acoustical Society of America, 100, 1301–1315.
Revil, A., Darot, M., and Pezard, P.A., 1996, From surface electrical properties to spontaneous potentials in porous media: Survey Geophysics, 17, 331–346.
Rosid, M.S., and Kepic, A.W., 2003, Electrokinetic sounding method to map hydrogeological boundaries: Proceedings of Regional Regolith Symposia, CRC LEME, 364–368.
Strachan, E., and Wolfe, P.J., 2001, Seismoelectric investigation at clean and contaminated sites: 14th Annual Symposium of the Engineering and Environmental Geophysical Society, Expanded Abstracts.

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Article Type: Research Article

Keyword(s): electrokinetic; groundwater; hydrogeological; seismoelectric; Western Australia

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Hydrogeological Mapping using the Seismoelectric Method

Abstract

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