Integrating geological and geophysical data through advanced constrained inversions*

Peter G. Lelièvre; Douglas W. Oldenburg; Nicholas C. Williams

doi:10.1071/EG09012

RESEARCH ARTICLE

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Integrating geological and geophysical data through advanced constrained inversions^*

Peter G. Lelièvre ¹ ³ Douglas W. Oldenburg ¹ Nicholas C. Williams ²

+ Author Affiliations

- Author Affiliations

¹ The University of British Columbia – Geophysical Inversion Facility, Department of Earth & Ocean Sciences, 6339 Stores Road, Vancouver, BC V6T 1Z4, Canada.

² Geoscience Australia, GPO Box 378, Canberra, ACT 2601, Australia.

³ Corresponding author. Email: plelievre@emun.ca

Exploration Geophysics 40(4) 334-341 https://doi.org/10.1071/EG09012
Submitted: 18 February 2009 Accepted: 13 September 2009 Published: 7 December 2009

Abstract

To be reliable, Earth models used for mineral exploration should be consistent with all available geological and geophysical information. During the past several years an important focus of inversion research has been towards advancing the integration of geological data (such as lithology and structure), physical property data (measurements taken on rock samples) and geophysical survey data through appropriate inversion methodologies. We expand the types of geological information that can be incorporated into ‘minimum structure’ type deterministic inversions involving minimisation of an objective function. These include orientation information and physical property trends. We also present an iterative cooperative inversion strategy for combining multiple types of geophysical data and recovering geologically realistic models involving sharp interfaces between rock units. We provide a synthetic example to illustrate our methods.

Key words: cooperative inversion, geological constraints, geophysical inversion, mineral exploration.

Acknowledgements

We thank Richard Lane (Geoscience Australia) and Nigel Phillips (Mira Geoscience, previously UBC-GIF) for their contributions to this research. This manuscript was improved by reviews from Asbjorn Christensen and one anonymous reviewer.

References

Bosch, M., Guillen, A., and Ledru, P., 2001, Lithologic tomography – an application to geophysical data from the Cadomian belt of northern Brittany, France: Tectonophysics 331, 197–227.
| Crossref | GoogleScholarGoogle Scholar | Phillips N. D. , 2001, Geophysical inversion in an integrated exploration program – examples from the San Nicolás deposit: Master’s Thesis, University of British Columbia, Vancouver, Canada.

Portniaguine, O., and Zhdanov, M. S., 1999, Focusing geophysical inversion images: Geophysics 64, 874–887.
| Crossref | GoogleScholarGoogle Scholar | Vogel C. R. , 2002, Computational methods for inverse problems: SIAM.

Williams N. C. , 2006, Applying UBC-GIF potential field inversions in greenfields or brownfields exploration: Australian Earth Sciences Convention, ASEG/GSA, Abstracts.

^* ^*Presented at the 20th ASEG Geophysical Conference and Exhibition, February 2009.