Geophysical Characteristics of Salinisation at Cape Portland, NE Tasmania

A. Howlett; M. J. Roach; J. E. Reid

doi:10.1071/EG01214

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

Geophysical Characteristics of Salinisation at Cape Portland, NE Tasmania
Authors A. Howlett^a, M. J. Roach^b and J. E. Reid^c
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^a Schlumberger - GeoQuest, , Brisbane, Australia, [email protected] ^b School of Earth Sciences, University of Tasmania, , Australia, [email protected] ^c School of Earth Sciences, University of Tasmania, , Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 32, Issue 3-4, Sep 2001, p. 214 - 218
DOI: https://doi.org/10.1071/EG01214
- Published online: 01 Sep 2001

Abstract

An integrated geophysical study of salinisation at Cape Portland, NE Tasmania, has mapped the distribution of saline areas, identified constrictions in the hydrogeologic basement and a possible source, store and transport mechanism for the salt.

EM-31 data not only clearly delineates the extent of salt scalds, but also highlight areas of elevated conductivity not visibly affected by salt. EM-31 data maps the distribution of the salt at a much higher resolution than was previously possible using shallow drilling.

Results from time-domain electromagnetic surveys confirm the responses seen in the EM-31 data and provide additional information about the subsurface distribution of conductive material. Conductivity depth pseudosections and layered earth inversions indicate depressions of up to 100 m in the resistive basement that are infilled with more conductive material.

Ground magnetic data show the distribution of shallow Jurassic dolerite basement features and define a major negative anomaly that transects the study area. This feature is coincident with depressions identified from the time-domain electromagnetics and with a negative Bouguer gravity anomaly.

The electromagnetic and potential field interpretations are consistent and indicate the presence of a major palaeochannel infilled with conductive material that cross-cuts the study area. Seismic refraction surveys and shallow auger holes in this zone provide additional support for the presence of a palaeochannel. This feature is inferred to be a major control on salinisation at Cape Portland.

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References

Dell, M., 2000, The hydrogeological setting of areas subject to soil salinity in Tasmania, unpublished report, Mineral Resources Tasmania.
Leaman, D.E., 1997, Magnetic rocks - their effect on compass use and navigation in Tasmania, Papers and Proceedings of the Royal Society of Tasmania. 131, 73-75.
Reid, J. E., and Fullagar, P. K., 1998, Conductivity-depth transformation of slingram transient electromagnetic data: Exploration Geophysics, 29, 570 - 576.
Reid, J. E., and HowlettA., 2001. Application ofthe EM-31 terrain conductivity meter in highly conductive regimes: Exploration Geophysics (this volume).
Richardson, R. G., 1994, Specification Summaries - Aeromagnetic Surveys, Northeast Tasmania, Mineral Resources Tasmania Report 1994/09.
McNeill, J. D., 1980, Electrical terrain conductivity measurement at low induction numbers: Technical note TN-6, Geonics Pty. Ltd., Ontario, Canada.
Ward, S. H., ed. 1990, Geotechnical and Exploration Geophysics, 2, Society of Exploration Geophyscicists, Tulsa, USA.

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Article Type: Research Article

Keyword(s): dryland salinity; EM-31; gravity; magnetics; palaeochannel; TEM

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Geophysical Characteristics of Salinisation at Cape Portland, NE Tasmania

Abstract

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