Falcon airborne gravity gradiometer survey results over the Cannington Ag-Pb-Zn deposit

Asbjorn N. Christensen; Mark H. Dransfiled; Asmita M. Mahanta; David B. Boggs

doi:10.1071/ASEG2001ab019

ISSN: 2202-0586
E-ISSN:

oa Falcon airborne gravity gradiometer survey results over the Cannington Ag-Pb-Zn deposit
Authors Asbjorn N. Christensen^a, Mark H. Dransfiled^b, Asmita M. Mahanta^c and David B. Boggs^d
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^a BHP Minerals Technology, , Australia, [email protected] ^b BHP Minerals Technology, , Australia, BHP Minerals Technology, Australia [email protected] ^c BHP Minerals Technology, , Australia, [email protected] ^d BHP Minerals Technology, , Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2001, Issue ASEG2001 - 15th Geophysical Conference, Dec 2001, p. 1 - 4
DOI: https://doi.org/10.1071/ASEG2001ab019
- Published online: 01 Dec 2001

Abstract

In April 2000 BHP conducted six FALCON airborne gravity gradiometer (AGG) test surveys over the Cannington Ag-Pb-Zn ore body in NW Queensland, Australia

The purpose of the test surveys was to demonstrate the capabilities of the AGG instrument by comparison with known detailed ground gravity data, to investigate the effects of source distance on signal strength by flying surveys at various altitudes, and to estimate AGG instrument noise levels in survey conditions. The processed FALCON gD data compare very favorably with the upward-continued residual ground gravity data, capturing most geological features and clearly delineating the Cannington ore body

Analysis of the effects of source distance on signal strength indicates that with a nominal flying height of 120m, the FALCON AGG instrument can detect the gravity anomaly from a deposit with the size and geometry of Cannington through 130m overburden. By repeating a survey using the same acquisition parameters we can make an estimate of the RMS noise of the instrument under survey conditions. Analysis of repeat survey readings show that the FALCON AGG instrument attained a noise level of 10 Eotvos RMS in the bandwidth from 0.0 Hz to 0.125 Hz during the Cannington test flights

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References

Bailey, A., 1998, Cannington silver-lead-zinc deposit: inBerkman, D. A. and Mackenzie, D. H., eds., Geology of Australian and Papua New Guinean mineral deposits: Melbourne, Australasian institute of mining and metallurgy, 783-792.
Bailey, A. and Thomas, M., 1993, The Cannington deposit its discovery, geology and evaluation: inProceedings Carpenteria and Mount Isa regional development forum: Melbourne, Australasian institute of mining and metallurgy, 59-67.
Jekeli, C, 1988, The Gravity Gradiometer Survey System (GGSS): Eos Transactions, 69, 105 and 116-117.
Talwani, M., DiFrancesco, D., Feldman, W., Konig, W. and Schweitzer, M., 1999, Time lapse gravity gradiometry: 69l Meeting, SEG, New Orleans, Expanded Abstracts, 397-397.
Van Leeuwen, E.H., 2000, BHP develops world's first airborne gravity gradiometer for mineral exploration: Preview, 86, 28-30.
Walters, S. and Bailey, A., 1998, Geology and mineralization of the Cannington Ag-Pb-Zn deposit: An example of Broken Hill-type minerallisation in the Eastern Succession, Mount Isa inlier, Australia: Economic Geology, 93, 1307-1329.

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Article Type: Research Article

Keyword(s): airborne gravity gradiometry; Cannington; FALCON

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oa Falcon airborne gravity gradiometer survey results over the Cannington Ag-Pb-Zn deposit

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