Towards an Australian radioelement baseline database

Brian Minty

doi:10.1071/ASEG2006ab115

ISSN: 2202-0586
E-ISSN:

oa Towards an Australian radioelement baseline database
Authors Brian Minty^a
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^a Geoscience Australia, GPO Box 378 Canberra, , ACT, 2601, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2006, Issue ASEG2006 - 18th Geophysical Conference, Dec 2006, p. 1 - 6
DOI: https://doi.org/10.1071/ASEG2006ab115
- Published online: 01 Dec 2006

Abstract

Approximately 75% of Australia is covered by public-domain, airborne gamma-ray spectrometric surveys. However, all the older surveys are in units of c/s and their data values depend on the survey instrumentation and acquisition parameters. Also, many of the newer surveys were inadequately calibrated with the result that data values on adjacent surveys are not necessarily comparable. This limits the usefulness of these data.

Geoscience Australia and State Geological Surveys are working towards establishing a national baseline database of Australian gamma-ray spectrometric data that is consistent with the global radioelement baseline established by the International Atomic Energy Agency. This will be achieved by: (a) ensuring consistency in the calibration and processing of new gamma-ray spectrometric data through the use of standard processing procedures and calibration facilities that are tied to the global datum, and; (b) adjusting older surveys to the global datum through back-calibration and automatic grid merging.

Surveys that are registered to the same datum are easily merged into regional compilations which facilitate the recognition and interpretation of broad-scale regional features, and allow lessons learnt in one area to be more easily applied to other areas.

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2026-01-23

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References

Dickson, B.L. and Lovborg, L., 1984. An Australian facility for the calibration of portable gamma-ray spectrometers. Exploration Geophysics, 15, 260-262.
Grasty, R.L., Holman, P.B., and Blanchard, Y.B., 1991. Transportable calibration pads for ground and airborne gamma-ray spectrometers. GSC Paper 90-23, Geological Survey of Canada, Ottawa.
Grasty, R.L., Whitton, R.M., and Duffy, A., 1992. Back calibration and reprocessing of an airborne gamma-ray survey, Malaysia. Expanded Abstracts, 62nd Annual Meeting, Society of Exploration Geophysicists, 550-551.
IAEA, 1987. Preparation and Certification of IAEA Gamma-ray Spectrometry Reference Materials RGU-1, RGTh-1 and RGK-1. Techn. Report-IAEA/RL/148, International Atomic Energy Agency, Vienna.
IAEA, 1991. Airborne gamma-ray spectrometer surveying. Technical Report Series, No. 323. International Atomic Energy Agency, Vienna.
IAEA, 2003. Guidelines for radioelement mapping using gamma-ray spectrometry data. IAEA-TECDOC-1363, International Atomic Energy Agency, Vienna.
IAEA, 2006. Status of radioelement mapping – towards a global radioelement baseline. IAEA-TECDOC-(in prep), International Atomic Energy Agency, Vienna.
Lørvborg, L., 1984. The calibration of portable and airborne gamma-ray spectrometers – theory, problems and facilities. Report Risø-M-2456, Roskilde.
Minty, B.R.S., 2000. Automatic merging of gridded airborne gamma-ray spectrometric surveys. Exploration Geophysics, v. 31, 47-51.

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Article Type: Research Article

Keyword(s): airborne gamma-ray spectrometry; back-calibration; gamma-ray spectrometery; grid merging; radioelement baseline

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