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Mining, Environmental, Petroleum, and Engineering Industry Applications of Electromagnetic Techniques in Geophysics

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Abstract

Electromagnetic (EM) techniques are extremely important as a direct detection geophysical tool utilized in the base metal industry. They were developed in countries such as Canada, whose thin conductive weathering overburden did not hamper the penetration of EM signals and enabled exploration to depths on the order of 300 m. As a result, EM techniques were used widely in North America and Scandinavia for many years before they became common in countries with a thick conductive overburden, such as Australia. The 1980s and 1990s have seen the use of EM methods move from anomaly finding to mapping, as well as the development of better, faster and more accurate computer modelling algorithms. A review of EM papers, for the years 1998 to 2002, showed that most dealt with EM techniques as mapping tools. Airborne, ground and marine EM techniques are still being developed, as are data processing and interpretation software. The advent of robust 2-D and 3-D computer modelling and inversion algorithms has led to the acceptance of EM methods as a mapping tool for many environmental and petroleum industry applications, a trend which is expected to increase.

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Authors and Affiliations

  1. Inco Ltd, 145 King St West, Suite 1500, Toronto, Ontario, M5H 4B7, Canada

    S. N. Sheard

  2. Geophysical Resources and Services Pty Ltd, 1/17 Duncan St, West End, Queensland, 4101, Australia

    T. J. Ritchie

  3. Chinook Geoconsulting, Inc., 26961 Hilltop Road, Evergreen, CO, 80439, USA

    Karen R. Christopherson

  4. The G-tek Group, Unit 3, 10 Hudson Road, Albion, Queensland, 4010, Australia

    E. Brand

Authors
  1. S. N. Sheard
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  2. T. J. Ritchie
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  3. Karen R. Christopherson
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  4. E. Brand
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Correspondence to S. N. Sheard.

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Sheard, S.N., Ritchie, T.J., Christopherson, K.R. et al. Mining, Environmental, Petroleum, and Engineering Industry Applications of Electromagnetic Techniques in Geophysics. Surv Geophys 26, 653–669 (2005). https://doi.org/10.1007/s10712-005-1760-0

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  • DOI: https://doi.org/10.1007/s10712-005-1760-0

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