Streaming SA – The Story - (Past, Present & Future)

Gary Reed; Stephen Petrie; Tania Dhu

doi:10.1081/22020586.2010.12041859

ISSN: 2202-0586
E-ISSN:

oa Streaming SA – The Story - (Past, Present & Future)
Authors Gary Reed^a, Stephen Petrie^b and Tania Dhu^c
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^a Minerals & Energy Resources, , PIRSA GPO Box 1671, Adelaide, SA, 5001, [email protected] ^b Minerals & Energy Resources, , PIRSA GPO Box 1671, Adelaide, SA, 5001, [email protected] ^c Minerals & Energy Resources, , PIRSA GPO Box 1671, Adelaide, SA, 5001, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2010, Issue ASEG2010 - 21st Geophysical Conference, Dec 2010, p. 1 - 5
DOI: https://doi.org/10.1081/22020586.2010.12041859
- Published online: 01 Dec 2010

Abstract

Summary

Compilation of the first South Australian state radiometric image was commenced almost a decade ago. Vastly differing vintage and quality of data between surveys provided a significant problem with the levelling of surveys to one datum. A back calibration method was adopted to derive the true ground concentrations of the three radio-elements, U, TH and K.

The significant time required to back-calibrate one survey via ground-based points was a major obstacle, therefore, a vehicular mounted system has been developed that incorporates a constant streaming back calibration method. Airborne datasets that have been levelled using this method have been subsequently merged to create a suite of much improved State radiometric images.

The Australia Wide Airborne Geophysical Survey (AWAGS2), recently completed by Geoscience Australia (GA) consisted of a number of magnetic and radiometric tie-lines flown over the Australian continent, and around the coast. Constant streaming has been used to collect ground data coincident with the AWAGS2 lines. A comparison between the ground data and the AWAGS2 data back calibrated to ground level, exhibits good consistency, thereby validating the use of constant streaming for back calibration. Numerous other acquisition tests aimed at assessing quality and consistency have been completed, including a direct comparison with airborne data, a ground based grid, dose rate monitoring at Radium Hill, and several dirt versus bitumen and acquisition speed tests.

Future applications will tend towards regional and detailed surveys as an aid to mapping of project areas.

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References

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., and Minty, B.R.S., 1995. A guide to the technical specifications for airborne gamma-ray surveys. AGSO Record 1995/60.
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, 1991. Airborne gamma-ray spectrometer surveying. Technical Report Series, No. 323. International Atomic Energy Agency, Vienna.
IAEA, 2003a. Guidelines for radioelement mapping using gamma-ray spectrometry data. IAEA-TECDOC-1363, International Atomic Energy Agency, Vienna.
Matolin, M., Minty, B., Barritt, S., and Reford, S. 2005. A global radioelement baseline for gamma-ray spectrometric data. Proceedings Series, Uranium production and raw materials for the nuclear fuel cycle - Supply and demand, economics, the environment and energy security (Proceedings of an international symposium, Vienna, 20-24 June 2005), IAEA, Vienna, 2006, 195-201.
Minty, B.R.S., 2000. Automatic merging of gridded airborne gamma-ray spectrometric surveys. Exploration Geophysics, v. 31, 47-51.
Minty, B.R.S., Luyendyk, A.P.J., and Brodie, R.C., 1997. Calibration and data processing for airborne gammaray spectrometry. AGSO Journal of Australian Geology and Geophysics, 17(2), 51-62.
Minty, B.R.S., 2006. Towards and Australian radioelement baseline database. Paper presented at the 18th International Geophysical Conference and Exhibition, Australian Society of Exploration Geophysicists, Melbourne, 2-6 July 2006.

/content/journals/10.1081/22020586.2010.12041859

Article Type: Research Article

Keyword(s): airborne survey levelling; back calibration; Portable Spectrometer; radiometric mapping; Vehicle-borne acquisition

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