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Tellurides from Sunrise Dam gold deposit, Yilgarn Craton, Western Australia: a new occurrence of nagyágite

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Summary

The complex Pb-Sb-Au tellurosulfide nagyágite is found together with eight tellurides (hessite, petzite, calaverite, altaite, tellurantimony (and Bi-bearing tellurantimony), melonite, tetradymite and an unnamed Au(Ag)-As-telluride) in sulfide-sulfosalt assemblages from late, high-grade veins (D4) and post-D4 veinlets in the world-class orogenic gold deposit at Sunrise Dam, Eastern Goldfields Province of the Archaean Yilgarn Craton, Western Australia. The composition of nagyágite at Sunrise Dam conforms to ideal stoichiometry, with negligible As content and Au/(Au+Te) ratio of 0.325 [i.e., (Pb4.84Sb1.10 As0.05)5.99S5.99(Au0.98 Te2.03)3.01]. The diverse mineralogy of the post-D4 veinlets, relative to the host veins, is attributed to small-scale reaction fronts established along zones of replacement at the polished section scale. The association of telluride assemblages and native gold is interpreted in terms of remobilization of ore components (including Ag, Sb, Te and Au) from the pre-existing assemblages, and their redeposition during subsequent tectonic events. The presence of nagyágite and Au-Ag tellurides in veins, in quantities that may be significant in economic terms, as well as the character of their breakdown products, have implications for ore processing and gold recovery, as well as for the genetic interpretation of the deposit. The strong structural control upon formation of the telluride-bearing assemblages at Sunrise Dam and the ability of these minerals to reflect changes in the local environment, contradicts the current view that these tellurides have a magmatic affiliation.

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References

  • AM Afifi WC Kelly EJ Essene (1988) ArticleTitlePhase relations among tellurides, sulfides, and oxides: II. Application to telluride-bearing ore deposits Econ Geol 83 395–404

    Google Scholar 

  • SM Brown DI Groves PJN Newton (2002a) ArticleTitleGeological setting and mineralization model for the Cleo gold deposit, Eastern Goldfields Province, Western Australia Mineral Deposita 37 704–721 Occurrence Handle10.1007/s00126-002-0255-x

    Article  Google Scholar 

  • SM Brown IR Fletcher HJ Stein LW Snee DI Groves (2002b) ArticleTitleGeochronological constraints on pre-, syn-, and postmineralization events at the world-class Cleo gold deposits, Eastern Goldfields Province, Western Australia Econ Geol 97 541–559 Occurrence Handle10.2113/97.3.541

    Article  Google Scholar 

  • SM Brown CA Johnson RJ Watling WR Premo (2003) ArticleTitleConstraints on the composition of ore fluids and implications for mineralising events at the Cleo gold deposit, Eastern Goldfields Province, Western Australia Austral J Earth Sci 50 19–38 Occurrence Handle10.1046/j.1440-0952.2003.00971.x

    Article  Google Scholar 

  • Cassidy KF, Champion DC, Fletcher IR, Dunphy JM, Black LP, Claoue-Long JC (2002) Geochronological constraints on the Leonora-Laverton transect area, north eastern Yilgarn Craton. In: Cassidy KF (ed) Geology, geochronology and geophysics of the North Eastern Yilgarn Craton, with an emphasis on the Leonora-Laverton transect area. Geoscience Australia Record, Vol. 18, pp 31–50

  • Cassidy KF, Champion DC, Krapež B, Barley ME, Brown SJA, Blewett RS, Groenewald PB, Tyler IM (2006) A revised geological framework for the Yilgarn Craton, Western Australia. Western Australia Geological Survey Record, Vol. 8l, Western Australia Geological Survey Record 2006/8, 8 pp

  • CL Ciobanu NJ Cook G Damian F Damian G Buia (2004) Telluride and sulphosalt associations at Săcărâmb NJ Cook CL Ciobanu (Eds) Gold-silver-telluride deposits of the Golden Quadrilateral, South Apuseni Mts. NumberInSeries12 IAGOD Guidebook Series Romania 145–186

    Google Scholar 

  • Cleverley JS, Nugus M, Young C (2006) ‘Gold in Na-assemblages: implications for deep fluid sources and pathways in the Eastern Goldfields’, paper presented at the predictive mineral discovery CRC conference, Perth, Western Australia, pp 1–6

  • NJ Cook SL Chryssoulis (1990) ArticleTitleConcentrations of “invisible gold” in the common sulphides Can Mineral 28 1–16

    Google Scholar 

  • NJ Cook CL Ciobanu G Damian (2004) Tellurides and sulphosalts from deposits in the Golden Quadrilateral NJ Cook CL Ciobanu (Eds) Gold-silver-telluride deposits of the Golden Quadrilateral, South Apuseni Mts. NumberInSeries12 IAGOD Guidebook Series Romania 111–144

    Google Scholar 

  • EB Eckel (1997) Minerals of Colorado Fulcrum Publishing Golden, Colorado 676

    Google Scholar 

  • H Effenberger WH Paar D Topa FJ Culetto G Giester (1999) ArticleTitleTowards the crystal structure of nagyágite, [Pb(Pb,Sb)S2] (Au,Te) Amer Mineral 84 669–676

    Google Scholar 

  • Erickson M, Kent M, Biggam J, Nugus MJ (2006) Sunrise Dam Gold Mine mineral reserve statement at 31 December 2006. AngloGold Ashanti Australia Limited, Report No. SDGM 13264

  • Griffin TJ (1990) Eastern Goldfields Province. In: Geology and mineral resources of Western Australia. Geological Survey of Western Australia, Perth, Memoir 3, pp 77–119

  • Groenewald PB, Boyle MG, Brown STA, Barnes SJ (2006) Stratigraphy and physical volcanology of the Archean Kurnalpi Terrane, Yilgarn Craton – a field guide. Western Australia Geological Survey, Record, Vol. 11, 31 pp

  • DI Groves RJ Goldfarb M Gebre-Mariam SG Hagemann F Robert (1998) ArticleTitleOrogenic gold deposits: a proposed classification in the context of their crustal distribution and relationship to other gold deposit types Ore Geol Rev 13 7–27 Occurrence Handle10.1016/S0169-1368(97)00012-7

    Article  Google Scholar 

  • M Grünenfelder (1956) ArticleTitleOre microscopy observations about the gold-quartz veins from Gondo (Simplon, Wallis) and Alpe Formazzolo (Val Calneggia, Tession) Schweiz Mineral Petrogr Mitt 36 1–10

    Google Scholar 

  • JA Hallberg (1985) Geology and mineral deposits of Leonora-Laverton area, northeastern Yilgarn Block, Western Australia Hesperian Press Victoria Park, Western Australia 218

    Google Scholar 

  • F Jaffé (1989) ArticleTitleGold in Switzerland Econ Geol 84 1444–1451 Occurrence Handle10.2113/gsecongeo.84.5.1444

    Article  Google Scholar 

  • VA Kovalenker YG Safonov VB Naumov VL Rusimov (1997) ArticleTitleEpithermal gold-telluride deposits of Kochbulak (Uzbekistan) Geol Ore Deposits 39 127–152

    Google Scholar 

  • M Lupulescu (1997) ArticleTitleNagyágite: new data and considerations Rev Roum Geol 41 29–36

    Google Scholar 

  • JL Mair VJ Ojala BP Salier DI Groves SM Brown (2000) ArticleTitleApplication of stress mapping in cross-section to understanding ore geometry, predicting ore zones and development of drilling strategies Austral J Earth Sci 47 895–912 Occurrence Handle10.1046/j.1440-0952.2000.00814.x

    Article  Google Scholar 

  • NL Markham (1960) ArticleTitleSynthetic and natural phases in the system Au-Ag-Te Econ Geol 55 1148–1178

    Google Scholar 

  • JS Myers (1997) ArticleTitlePreface: Archaean geology of the Eastern Goldfields of Western Australia-regional overview Precambr Res 83 1–10 Occurrence Handle10.1016/S0301-9268(97)00002-8

    Article  Google Scholar 

  • JS Myers AH Hickman (1990) Pilbara and Yilgarn cratons-regional geology and mineralizations FE Hughes (Eds) Geology of the mineral deposits of Australia and Papua New Guinea The Australasian Institute of Mining and Metallurgy Carlton, Vic. 129–133

    Google Scholar 

  • Newton PJN, Gibbs D, Grove A, Jones CM, Ryall AW (1998) Sunrise-Cleo gold deposit. In: Berkman DA, Mackenzie DH (eds) Geology of Australian and Papua New Guinean mineral deposits. The Australasian Institute of Mining and Metallurgy Monograph, Vol. 22, pp 179–186

  • Newton PGN, Tornatora PMA, Smith R, Clifford M (2002) The Cleo-Sunrise deposit, Laverton, WA: contrasting structural styles within a thrust duplex. Applied structural geology for mineral exploration and mining, International Symposium. Australian Institute of Geoscientists, Vol. 36, pp 152–155

  • Nugus M, Biggam J (2007) Geology of Sunrise Dam Gold mine. Internal technical report, AngloGold Ashanti Australia

  • Nugus M, Blenkinsop T, McLeod T, Doyle M, Kent M (2005a) Structural control of gold mineralisation by reactivation of backthrusts at Sunrise Dam Gold Mine, Yilgarn Craton, WA. In: Hancock H et al. (eds) STOMP: Structure, tectonics and ore mineralisation processes. Abstract Volume, Townsville, August 29-September 2, 2005. Economic Geology Research Unit, School of Earth Sciences, James Cook University, Publication, Vol. 64, p 99

  • Nugus M, Blenkinsop T, Biggam J, Doyle M (2005b) The role of early-formed structure in lode gold mineralisation: The Sunrise Dam gold Mine, Yilgarn Craton, WA. In: Hancock H et al. (eds) STOMP: Structure, tectonics and ore mineralisation processes. Abstract Volume, Townsville, August 29-September 2, 2005. Economic Geology Research Unit, School of Earth Sciences, James Cook University, Publication, Vol. 64, p 98

  • Nugus M, Biggam J, Blenkinsop T (2005c) Controls and distribution of gold mineralisation within Sunrise Shear Zone-implications for resource estimation and mining. Mine Geology 2005: ‘Best Practice and Innovation in Global Mine Geology’, 29th May–3rd June, pp 27–36

  • Nugus MJ, Blenkinsop TG, McLellan JG (2006) Creation of a world-class deposit Archaean lode gold deposit through multiple reactivations of geological structures. Australian Earth Sciences Convention, Melbourne, 2–6th July, GSA Conference Abstract series: 168

  • Ojala VJ (1995) Structural and depositional controls on gold mineralization at the Granny Smith Mine, Laverton, Western Australia. PhD thesis, University of Western Australia, 184 pp

  • WH Paar TT Chen (1982) ArticleTitleTellurides in ores from the Schellgaden gold deposit and from the Katschberg-north tunnel Der Karinthin 87 371–381

    Google Scholar 

  • DW Pals PG Spry (2003) ArticleTitleTelluride mineralogy of the low-sulfidation epithermal Emperor gold deposit, Vatukoula, Fiji Mineral Petrol 79 285–307 Occurrence Handle10.1007/s00710-003-0013-5

    Article  Google Scholar 

  • A Putnis (2002) ArticleTitleMineral replacement reactions: from macroscopic observations to microscopic mechanisms Mineral Mag 66 689–708 Occurrence Handle10.1180/0026461026650056

    Article  Google Scholar 

  • BP Salier DI Groves NJ McNaughton IR Fletcher (2004) ArticleTitleThe world-class Wallaby gold deposit, Laverton, Western Australia: an orogenic-style overprint on a magmatic-hydrothermal magnetite-calcite alteration pipe? Mineral Deposita 39 473–494 Occurrence Handle10.1007/s00126-004-0425-0

    Article  Google Scholar 

  • JM Shackleton PG Spry R Bateman (2003) ArticleTitleTelluride mineralogy of the Golden Mile deposit, Kalgoorlie, Western Australia Can Mineral 41 1503–1524 Occurrence Handle10.2113/gscanmin.41.6.1503

    Article  Google Scholar 

  • G Şimon DHM Alderton T Bleser (1994) ArticleTitleArsenian nagyágite from S\(\check{\rm a}\)c\(\check{\rm a}\)rîmb, Romania; a possible new mineral species Mineral Mag 58 473–478 Occurrence Handle10.1180/minmag.1994.058.392.12

    Article  Google Scholar 

  • CP Swager (1997) ArticleTitleTectono-stratigraphy of Late Archaean greenstone terranes in the southern Eastern Goldfields, Western Australia Precambr Res 83 11–42 Occurrence Handle10.1016/S0301-9268(97)00003-X

    Article  Google Scholar 

  • JP Vaughan A Kyin (2004) ArticleTitleRefractory gold ores in Archaean greenstones, Western Australia: Mineralogy, gold paragenesis, metallurgical characterization and classification Mineral Mag 68 255–277 Occurrence Handle10.1180/0026461046820186

    Article  Google Scholar 

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Authors and Affiliations

  1. Ian Wark Research Institute, University of South Australia, Mawson Lakes, Australia

    Y.-H. Sung & W. Skinner

  2. Mineralogy Group, South Australian Museum, Adelaide, Australia

    Y.-H. Sung, C. L. Ciobanu, A. Pring & J. Brügger

  3. Department of Earth and Environmental Sciences, University of Adelaide, Adelaide, Australia

    C. L. Ciobanu, A. Pring & J. Brügger

  4. Natural History Museum, University of Oslo, Oslo, Norway

    N. J. Cook

  5. Sunrise Dam Gold Mine, AngloGold Ashanti Ltd, Laverton, Australia

    M. Nugus

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  1. Y.-H. Sung
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  2. C. L. Ciobanu
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  3. A. Pring
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Sung, YH., Ciobanu, C., Pring, A. et al. Tellurides from Sunrise Dam gold deposit, Yilgarn Craton, Western Australia: a new occurrence of nagyágite. Mineralogy and Petrology 91, 249–270 (2007). https://doi.org/10.1007/s00710-007-0199-z

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