Minerals exploration methods modified for environmental targets

Norman R. Carlson; Kenneth L. Zonge

doi:10.1071/EG03114

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

Minerals exploration methods modified for environmental targets
Authors Norman R. Carlson and Kenneth L. Zonge
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 34, Issue 1-2, Mar 2003, p. 114 - 119
DOI: https://doi.org/10.1071/EG03114
- Published online: 01 Mar 2003

Abstract

In recent years, several traditional mining exploration methods have been successfully modified for use in the environmental geophysics field. In these cases, "successfully modified" refers primarily to acquiring data fast enough, and therefore economically efficiently enough, to accommodate the relatively small budgets that are available in most environmental studies. Modifications also include adjustments for the smaller scales of environmental surveys, often in the size of the project area, size of targets themselves, and required resolution.

For example, transient electromagnetics (TEM) methods have been increasingly applied to environmental problems, particularly in unexploded ordnance (UXO), underground storage tank (UST), and utilities detection. A major research effort is now underway to use, among other methods, multi-component, multi-time-gate mobile TEM systems (measuring Hx and Hy, as well as the standard Hz) in order to discriminate targets of interest (UXO, for example) from other anomalies (such as metallic debris).

A second good example is the induced polarization (IP) method. Although resistivity has been used extensively in shallow environmental applications, IP data acquisition has always been too slow, and therefore too expensive, for most environmental targets. Multi-channel receivers, multiplexers, and laptop computers now allow us to acquire IP data at rates of 2500 to 3000 data points per day (in the dipole-dipole configuration, for example), providing low-cost, high-density data. IP data have been shown to be particularly useful in delineating buried waste, such as at old landfills.

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References

Angoran, Y. E., Fitterman, D. V., and Marshall, D. J., 1974, Induced polarization: a geophysical method for locating cultural metallic refuse: Science, 184, 1287-1288.
Carlson, N. R., Hare, J. A., and Zonge, K. L., 2001, Buried landfill delineation with induced polarization: progress and problems: in 14th Symposium on the Application of Geophysics to Environmental and Engineering Problems, Expanded Abstracts: Environmental and Engineering Geophysical Society.
Carlson, N. R., and Zonge, K. L., 2002, Early-time, multi-component mobile TEM for deep metal detection: in 15th Symposium on the Application of Geophysics to Environmental and Engineering Problems, Expanded Abstracts: Environmental and Engineering Geophysical Society.
Klein, J., and Lajoie, J., 1992, Electromagnetic prospecting for minerals: in Van Blaricom, R., (ed.), Practical geophysics II for the exploration geologist: Northwest Mining Association, 383-432.
McDonald, J. R., Nelson, H. H., Bell, T. H., and Puc, B., 2001, Man-portable adjuncts for the MTADS: Report NRUPU/6110-01-434: Naval Research Laboratory, Department of the Navy, USA.
Mayerle, C. M., Carlson, N. R., and Zonge, K. L., 1998, Environmental Applications of High Resolution TEM Methods: in 4th Annual Meeting of the Environmental and Engineering Society–European Section, Expanded Abstracts, 829-832.
Thierry, B., Weller, A., Schleifer, N., and Westphal, T., 2001, Polarisation effects of wood: in 7th Annual Meeting, Environmental and Engineering Geophysics— European Section, Proceedings.
Zonge, K., 1992, Broadband electromagnetic systems: in Van Blaricom, R., (ed.), Practical geophysics II for the exploration geologist: Northwest Mining Association, 439-536.

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Article Type: Research Article

Keyword(s): environmental; induced polarization; IP; landfill; TEM; transient electromagnetics; unexploded ordnance; UXO

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Minerals exploration methods modified for environmental targets

Abstract

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