1887
1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration
  • ISSN: 2202-0586
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Abstract

Exploring inversion solution space is the process of mapping out the domain of inversion models which have a predicted response in satisfactory agreement with the observed data. This is particularly important in mineral exploration geophysics because the associated inverse problems are highly ill-posed. An inversion case study over a Cu-Ag deposit in the Kalahari copper belt provides a good demonstration of the process: in the case study 3D IP field data show a clear indication of chargeability so it is no surprise that a chargeability anomaly is recovered from a standard 3D IP inversion. Extensive drilling delineated a disseminated sulphide zone however the drilling delineates a shallow target while the inversion indicates an interesting deeper target. The immediate exploration question is whether to invest in a deep drillhole to test the deeper target? Or is the deeper target merely an artefact of non-uniqueness associated with the IP method?

Exploring the inversion solution space produces a suite of models all of which fit the data satisfactorily. In particular, exploring the solution depth produces a suite of models with a variety of depths, including some models with a shallow chargeability anomaly. This significantly weakens expectations associated with the initial deep inversion model but improves exploration decision making.

Exploring inversion solution space is achieved computationally by systematically modifying the regularization term in the traditional Tikhonov formulation. With an inversion workbench the process is easy, the results are remarkably helpful, and the outcomes surprisingly quickly become a natural part of the exploration team’s interpretation process.

© 2018 ASEG
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2018-12-01
2026-01-18

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References

  1. Backus, G.E., and Gilbert, F. 1970, Uniqueness in the Inversion of inaccurate Gross Earth Data, Philosophical Transactions of the Royal Society of London A, vol. 266, pp. 123-192.
  2. Catterall D., Grant J., Meister S.N., Obiri-Yeboa T., Cresswell M. and Channon W., 2012, Ghanzi Copper-Silver Project, Ghanzi District, Botswana: in NI 43-101 Technical Report, Prepared for Hana Mining Ltd, www.sedar.com, pp. 1-4, 2032.
  3. Ellis, R. G., Lotter, C., Pithawala, T., 2017, Sparse 3D IP Electrode Array Data and Inversion over a Cu Ag Deposit in the Kalahari Copper Belt: Extended Abstracts SAGA, 15th Biennial Conference.
  4. Ellis, R. G., 2018, Validating the VOXI-DCIP algorithm, Geosoft Inc. www. geosoft. com\technicalreports
  5. Hanna, J., 2016, Exciting new developments in the Kalahari copper belt: Mod Resources and Metal Tiger, Botswana Resource Sector Conference, Gaborone.
  6. Keller, G.V.; Frischknecht, F.C., 1966, Electrical methods in geophysical prospecting: Pergamon.
  7. Menke, W., 1984, Geophysical data analysis: discrete inverse theory: Academic Press Inc.
  8. Oh. S., Kwon, B., 2001, Geostatical approaches to Bayesian inversion of geophysical data: Markov chain Monte Carlo method, Earth Planets Space 53 (8), pp 777-791
  9. Porter Geoconsultancy Database, http: //www. portergeo .com.au/database/mineinfo. asp?mineid= mn1481
  10. Remote Exploration Services, 2012, Presentation and interpretation of magnetic data and soil sampling results -Kalahari Copper Belt, Botswana, Private and Confidential report compiled for Discovery Metals Limited.
  11. Seigel, H. O., 1959, Mathematical formulation and type curves for induced polarization: Geophysics, 24, pp. 547-565.
  12. Tarantola A. and Valette B., 1982, Inverse Problems = Quest for Information: Journal of Geophysics, 50, pp. 159-170.
  13. Tarantola, A., 1987, Inverse problem theory: Methods for data fitting and model parameter estimation: Elsevier.
  14. Zhdanov, M.S., 2002, Geophysical Inverse Theory and Regularization Problems: Methods in Geochemistry and Geophysics, 36, Elsevier.
  15. Remote Exploration Services, 2012, Presentation and interpretation of magnetic data and soil sampling results -Kalahari Copper Belt, Botswana, Private and Confidential report compiled for Dicovery Metals Limited.
  16. VOXI Earth Modelling, Geosoft Inc., www.geosoft.com/products/voxi-earth-modelling/overview
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  • Article Type: Research Article
Keyword(s): 3D; DC; exploring inversion solution space; inversion; IP; Kalahari; non-uniqueness

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