Abstract
The syn-tectonic breccia-hosted Mount Isa Cu deposit in northwest Queensland is the largest sediment-hosted Cu deposit in Australia. Whole-rock samples of chalcopyrite-rich Cu ore form an isochron with a Re–Os age of 1,372 ± 41 Ma. This age is more than 100 Ma younger than the previously accepted age of Cu ore formation, an Ar–Ar mineral age for biotite separated from the host rocks within the alteration envelope to the Cu orebody. This discrepancy cannot be unequivocally resolved due to a lack of other absolute geochronological constraints for Cu mineralisation or the deformation event associated with Cu emplacement. The 1,372 ± 41 Ma date may reflect (a) the time of Cu deposition, (b) the time of a hydrothermal event that reset the Re–Os signature of the Cu ore or (c) mixing of the Re–Os isotope systematics between the host rocks and Cu-bearing fluids. However, a range of published Ar–Ar and Rb–Sr dates for potassic alteration associated with Cu mineralisation also records an event between 1,350 and 1,400 Ma and these are consistent with the 1,372 Ma Re–Os age. The 1.8 Ga Eastern Creek Volcanics are a series of tholeiitic basalts with a primary magmatic Cu enrichment which occur adjacent to the Mount Isa Cu deposit. The whole-rock Os isotopic signature of the Eastern Creek Volcanics ranges from mantle-like values for the upper Pickwick Member, to more radiogenic/crustal values for the lower Cromwell Member. The Re–Os isotope signature of the Cu ores overlaps with those calculated for the two volcanic members at 1,372 Ma; hence, the Os isotope data are supportive of the concept that the Os in the Cu ores was sourced from the Eastern Creek Volcanics. By inference, it is therefore postulated that the Eastern Creek Volcanics are the source of Cu in the Mount Isa deposit, as both Os and Cu are readily transported by oxidised hydrothermal fluids, such as those that are thought to have formed the Cu orebody. The Pickwick Member yields a Re–Os isochron age of 1,833 ± 51 Ma, which is within error of previously reported age constraints. The initial 187Os/188Os isotopic ratio of 0.114 ± 0.067 (γOs = −0.7) is slightly subchondritic, and together with other trace element geochemical constraints, is consistent with a subcontinental lithospheric mantle source. The Pickwick Member records a minimum age of ca. 1.95 Ga for melt depletion in the subcontinental lithospheric mantle beneath the Mount Isa Inlier prior to the extraction of the magmas which formed the Eastern Creek Volcanics. This corresponds with the end of subduction-related magmatism along the eastern margin of the Northern Australian Craton, which included the Mount Isa Inlier.
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References
Arne DC, Bierlein F, Morgan JW, Stein HJ (2001) Re–Os dating of sulphides associated with gold mineralisation in central Victoria, Australia. Econ Geol 96:1455–1459
Bain JHC, Heinrich CA, Henderson GAM (1992) Stratigraphy, structure, and metasomatism of the Haslingden Group, east Moondarra area, Mount Isa: a deformed and mineralised Proterozoic multistage rift-sag sequence. In: Stewart AJ, Blake DH (eds) Detailed Studies of the Mount Isa Inlier; Australian Geological Survey Organisation Bulletin 243. Australian Government Publishing Service, Canberra, pp 125–136
Bell TH, Hickey KA (1998) Multiple deformations with successive subvertical and subhorizontal axial planes in the Mount Isa region; their impact on geometric development and significance for mineralization and exploration. Econ Geol 93:1369–1389
Bierlein F, Betts PG (2004) The Proterozoic Mount Isa Fault Zone, northeastern Australia: is it really a ca. 1.9 Ga terrane-bounding suture? Earth planet Sci Lett 225:279–294
Blake DH, Stewart AJ (1992) Stratigraphic and tectonic framework, Mount Isa Inlier. In: Stewart AJ, Blake DH (eds) Detailed Studies of the Mount Isa Inlier; Australian Geological Survey Organisation Bulletin 243. Australian Government Publishing Service, Canberra, pp 1–11
Brandon AD, Creaser RA, Shirey SB, Carlson RW (1996) Osmium recycling in subduction zones. Science 272:861–864
Brenan JM, Cherniak DJ, Rose AR (2000) Diffusion of osmium in pyrrhotite and pyrite: implications for closure of the Re–Os isotopic system. Earth planet Sci Lett 180:399–413
Carr GR, Denton GJ, Parr J, Sun SS, Korsch RJ, Bodon SB (2004) Lightning does strike twice: multiple ore events in major mineralised systems in northern Australia. In: Muhling J, Goldfarb R, Vielreicher N, Bierlein F, Stumpfl E, Groves DI, Kenworthy S (eds) SEG 2004 Predictive Mineral Discovery Under Cover. Centre for Global Metallogeny, University of Western Australia, Perth, W.A., pp 332–335
Chapman LH (1999) Geology and genesis of the George–Fisher Zn–Pb–Ag deposit, Mount Isa, Australia. PhD, James Cook University
Cohen AS, Waters FG (1996) Separation of osmium from geological materials by solvent extraction for analysis by thermal ionisation mass spectrometry. Anal Chim Acta 332:269–275
Cohen AS, Coe AL, Barlett JM, Hawkesworth CJ (1999) Precise Re–Os ages of organic-rich mudrocks and the Os isotope composition of Jurassic seawater. Earth planet Sci Lett 167:159–173
Connors KA, Lister GS (1995) Polyphase deformation in the western Mount Isa Inlier, Australia; episodic or continuous deformation? J Struct Geol 17:305–328
Connors KA, Page RW (1995) Relationships between magmatism, metamorphism and deformation in the western Mount Isa Inlier, Australia. Precambrian Res 71:131–153
Connors KA, Proffett JM, Lister G, Scott RJ, Oliver NHS, Young D (1992) Geology of the Mount Novit Ranges, southwest of Mount Isa mine. In: Stewart AJ, Blake DH (eds) Detailed Studies of the Mount Isa Inlier; Australian Geological Survey Organisation Bulletin 243. Australian Government Publishing Service, Canberra, pp 137–160
Creaser RA, Papanastassiou DA, Wasserburg GJ (1991) Negative thermal ion mass spectrometry of osmium, rhenium, and iridium. Geochim Cosmochim Acta 55:397–401
Davis TP (2004) Mine-scale structural controls on the Mount Isa Zn-Pb-Ag and Cu orebodies. Econ Geol 99:543–559
Derrick GM (1976) Mary Kathleen, Queensland 1:100,000 geological map. Geoscience Australia, Canberra
Dobson MH (1973) Closure temperature in cooling geochronological and petrological systems. Contrib Mineral Petrol 40:259–274
Duncan RJ, Wilde AR, Bassano K, Maas R (2006) Geochronological constraints on tourmaline formation in the Western Fold Belt of the Mount Isa Inlier, Australia: evidence for large-scale metamorphism at 1.57 Ga? Precambrian Res 146:120–137
Eisele J, Sharma M, Galer SJG, Blichert-Toft J, Devey CW, Hofmann AW (2002) The role of sediment recycling in EM1 inferred from Os, Pb, Hf, Nd, Sr isotope and trace element systematics of the Pitcairn hotspot. Earth planet Sci Lett 196:197–212
Esser BK, Turekian KK (1993) The osmium isotopic composition of the continental crust. Geochim Cosmochim Acta 57:3093–3104
Evins PM, Baker T, Blake KL, Giles B, Williams PJ, Lees T, Gregory PW, Pearson NJ, Selby D (2007) New Geochronological Constraints on the Einasleigh Cu Deposit, Georgetown Inlier, Queensland, Australia. In: Andrew CJ (ed) Digging Deeper, Proceedings of the ninth biennial meeting of the Society for Geology Applied to Mineral Deposits, Dublin, Ireland, pp 389–392
Farquharson RB, Richards JR (1974) U-Th-Pb isotope systematics related to igneous rocks and ore Pb, Mount Isa, Queensland. Miner Depos 9:339–356
Farquharson RB, Richards JR (1975) Isotopic remobilization in the Mount Isa tuff beds. Chem Geol 16:73–88
Foster DA, Rubenach MJ (2006) Isograd pattern and regional low-pressure, high-temperature metamorphism of pelitic, mafic and calc-silicate rocks along an east-west section through the Mt Isa Inlier. Aust J Earth Sci 53:167–186
Giletti BJ (1991) Rb and Sr diffusion in alkali feldspars, with implications for cooling histories of rocks. Geochim Cosmochim Acta 55:1331–1343
Gregory MJ (2006) Copper mobility in the Eastern Creek Volcanics, Mount Isa, Australia: evidence from laser ablation ICP-MS of iron-titanium oxides. Miner Depos 41:691–711
Gregory MJ, Wilde AR, Keays RR, Schaefer BF (2004) Preliminary Re–Os dating of the Mount Isa copper ores, Northwest Queensland. In: Barnicoat AC, Korsch RJ (eds) Predictive Mineral Discovery Cooperative Research Centre - Extended Abstracts from the June 2004 Conference, Barossa, S.A. Geoscience Australia Record 2004/09, p. 79
Gregory MJ, Keays RR, Wilde AR (2008) The magmatic history of the Eastern Creek Volcanics, Mount Isa, Australia; insights from trace element and platinum-group element geochemistry. Aust J Earth Sci 55
Griffin WL, Belousova EA, Walters SG, O’Reilly SY (2006) Archaean and Proterozoic crustal evolution in the Eastern Succession of the Mount Isa distict, Australia: U-Pb and Hf-isotope studies of detrital zircons. Aust J Earth Sci 53:125–149
Gulson BL, Perkins WG, Mizon KJ (1983) Lead isotope studies bearing on the genesis of copper orebodies at Mount Isa, Queensland. Econ Geol 78:1466–1504
Gunter J (1996) The May Downs Gneiss: A Palaeoproterozoic arc terrain in the basement of the Mount Isa Block, Northwest Queensland. BSc (Hons), University of Queensland
Hand M, Rubatto D (2002) The scale of the thermal problem in the Mt Isa Inlier. In: Preiss VP (ed) Geoscience 2002: Expanding Horizons, 16th Australian Geological Convention, Adelaide, South Australia, pp 173
Handler MR, Bennett VC, Esat TM (1997) The persistence of off-cratonic lithospheric mantle: Os isotopic systematics of variably metasomatised southeast Australian xenoliths. Earth Planet Sci Lett 151:61–75
Hannan KW, Golding SD, Herbert HK, Krouse HR (1993) Contrasting alteration assemblages in metabasites from Mount Isa, Queensland; implications for copper ore genesis. Econ Geol 88:1135–1175
Harrison TM, McDougall I (1980) Investigations of an intrusvie contact, northwest Nelson, New Zealand-I. Thermal, chronological and isotopic constraints. Geochim Cosmochim Acta 44:1985–2003
Haynes DW, Bloom MS (1987) Stratiform copper deposits hosted by low-energy sediments: III. Aspects of metal transport. Econ Geol 82:635–648
Heinrich CA, Andrew AS, Wilkins RWT, Patterson DJ (1989) A fluid inclusion and stable isotope study of synmetamorphic copper ore formation at Mount Isa, Australia. Econ Geol 84:529–550
Heinrich CA, Bain JHC, Mernagh TP, Wyborn LAI, Andrew AS, Waring CL (1995) Fluid and mass transfer during metabasalt alteration and copper mineralization at Mount Isa, Australia. Econ Geol 90:705–730
Hill RM (1978) Mount Isa Queensland 1:100,000 geological map. Geoscience Australia, Canberra
Jackson MJ, Southgate PN, Black LP, Blake PR, Domagala J (2005) Overcoming Proterozoic quartzite sand-body miscorrelations: intergrated sequence stratigraphy and SHRIMP U-Pb dating of the Surprise Creek Formation, Torpedo Creek and Warrina Park Quartzites, Mt Isa Inlier. Aust J Earth Sci 52:1–25
Keays RR (1995) The role of komatiitic and picritic magmatism and S-saturation in the formation of ore deposits. Lithos 34:1–18
Lambert DD, Foster JG, Frick LR, Hoatson DM, Purvis AC (1998) Application of the Re–Os isotopic system to the study of Precambrian magmatic sulfide deposits of Western Australia. Aust J Earth Sci 45:265–284
Lambert DD, Foster JG, Frick LR, Ripley EM (1999) Re–Os isotope geochemistry of magmatic sulphide ore systems. Rev Econ Geol 12:29–57
Lambert DD, Frick LR, Foster JG, Li C, Naldrett AJ (2000) Re–Os isotope systematics of the Voisey’s Bay Ni-Cu-Co magmatic sulphide system, Labrador, Canada: II. Implications for parental magma chemistry, ore genesis, and metal redistribution. Econ Geol 95:867–888
Lister GS, O’Dea MG, Somaia I (1999) A tale of two synclines; rifting, inversion and transpressional popouts at Lake Julius, northwestern Mt. Isa Terrane, Queensland. Aust J Earth Sci 46:233–250
Ludwig KR (2003) User’s Manual for Isoplot 3.0: A geochronological toolkit for Microsoft Excel. Berkeley Geochronology Center Special Publication 4, 70 p
Mathias BV, Clark GJ (1975) Mount Isa copper and silver-lead-zinc orebodies; Isa and Hilton mines. In: Knight CL (ed) Econ Geol of Australia and Papua New Guinea. Monograph 5—Australasian Institute of Mining and Metallurgy, pp 351–371
McBride JS, Lambert IB, Greig A, Nicholls IA (1996) Multistage evolution of Australian subcontinental mantle: Re–Os isotopic constraints from Victorian mantle xenoliths. Geology 24:631–634
McDonald GD, Collerson KD, Kinny PD (1997) Late Archean and early Proterozoic crustal evolution of the Mount Isa Block, Northwest Queensland, Australia. Geology 25:1095–1098
McGoldrick PJ, Keays RR (1990) Mount Isa copper and lead-zinc-silver ores; coincidence or cogenesis? Econ Geol 85:641–650
McInnes BIA, Keays RR, Lambert DD (2003) Metallogenic fertility and Re–Os geochronology of ore systems. AMIRA P563 Final Report, pp 110
Morgan JW, Stein HJ, Hannah JL, Markey RJ, Wiszniewska J (2000) Re–Os study of Fe–Ti–V oxide and Fe–Cu–Ni sulphide deposits, Suwalki Anorthosite Massif, northeast Poland. Miner Depos 35:391–401
Morrelli RM, Creaser RA, Selby D, Kelley KD, Leach DL, King AR (2004) Re–Os sulphide geochronology of the Red Dog sediment-hosted Zn-Pb-Ag deposit, Brooks Range, Alaska. Econ Geol 99:1569–1576
Muir MD (1981) The microfossils from the Proterozoic Urquhart Shale, Mount Isa, Queensland, and their significance in relation to the depositional environment, diagenesis, and mineralisation. Miner Depos 16:51–58
Neudert M (1983) A depositional model for the upper Mount Isa Group and implications for ore formation. Ph.D, Australian National University, Canberra
Neudert MK, Russell RE (1981) Shallow water and hypersaline features from the middle Proterozoic Mt Isa Sequence. Nature 293:284–286
Neumann N, Southgate PN, McIntyre A, Gibson G (2005) New data on rock ages from Mt Isa Inlier. AUSGEO News 78
O’Dea MG, Lister G, MacCready T, Betts PG, Oliver NHS, Pound KS, Huang W, Valenta RK (1997) Geodynamic evolution of the Proterozoic Mount Isa terrain. In: Burg J-P, Ford M (eds) Orogeny through time: Geological Society of London Special Publication. Vol 121, pp 99–122
Oliver NHS (1995) Hydrothermal history of the Mary Kathleen fold belt, Mt Isa Block, Queensland. Aust J Earth Sci 42:267–279
Page RW (1981) Depositional ages of the stratiform base metal deposits at Mount Isa and McArthur River, Australia, based on U-Pb zircon dating of concordant tuff horizons. Econ Geol 76:648–658
Page RW (1983) Timing of superposed volcanism in the Proterozoic Mount Isa Inlier, Australia. Precambrian Res 21:223–245
Page RW, Bell TH (1986) Isotopic and structural responses of granite to successive deformation and metamorphism. J Geol 94:365–379
Page RW, Sweet IP (1998) Geochronology of basin phases in the western Mt Isa Inlier, and correlation with the McArthur Basin—Application of radiogenic isotopes to the study of Australian ore deposits. Aust J Earth Sci 45:219–232
Page RW, Williams IS (1988) Age of the Barramundi orogeny in northern Australia by means of ion microprobe and conventional U–Pb zircon studies. Precambrian Res 40/41:21–36
Page RW, Jackson MJ, Krassay AA (2000) Constraining sequence stratigraphy in North Australian basins; SHRIMP U–Pb zircon geochronology between Mt Isa and McArthur River. Aust J Earth Sci 47:431–459
Painter MGM (2001) The Geochemical and Mineralogical Haloes around the Mount Isa Base Metal Orebodies. PhD, Monash University, Melbourne
Painter MGM, Golding SD, Hannan KW, Neudert MK (1999) Sedimentologic, petrographic, and sulfur isotope constraints on fine-grained pyrite formation at Mount Isa Mine and environs, Northwest Queensland, Australia. Econ Geol 94:883–912
Perkins WG (1984) Mount Isa silica dolomite and copper orebodies; the result of a syntectonic hydrothermal alteration system. Econ Geol 79:601–637
Perkins WG (1990) Mount Isa copper orebodies. In: Hughes FE (ed) Geology of the mineral deposits of Australia and Papua New Guinea. Australasian Institute of Mining and Metallurgy, pp 935–941
Perkins WG (1997) Mount Isa lead-zinc orebodies; replacement lodes in a zoned syndeformational copper–lead–zinc system? Ore Geol Rev 12:61–111
Perkins WG (1998) Timing of formation of Proterozoic stratiform fine-grained pyrite; post-diagenetic cleavage replacement at Mount Isa? Econ Geol 93:1153–1164
Perkins C, Heinrich CA, Wyborn LAI (1999) 40Ar/39Ar geochronology of copper mineralization and regional alteration, Mount Isa, Australia. Econ Geol 94:23–36
Righter K, Chesley JT, Geist D, Ruiz J (1998) Behaviour of Re during Magma Fractionation: an example from Volcan Alcedo, Galapagos. J Petrol 39:785–795
Rubenach MJ (1992) Proterozoic low-pressure/high-temperature metamorphism and an anticlockwise P-T-t path for the Hazeldene area, Mount Isa Inlier, Queensland, Australia. J Metamorph Geol 10:333–346
Rubenach MJ, Foster DA (2002) Definitive heat source remains elusive for Mount Isa Inlier metamorphism. Econ Geol Res 2002:4–6
Schaefer BF, Burgess JM (2003) Re–Os isotopic constraints on deposition in the Neoproterozoic Amadeus Basin: implications for the ‘Snowball Earth’. J Geol Soc 160:825–828
Schaefer BF, Parkinson I, Hawkesworth CJ (2000) Deep mantle plume osmium isotope signature from West Greenland Tertiary picrites. Earth Planet Sci Lett 175:105–118
Scott DL, Rawling TJ, Page RW, Tarlowski C, Idnurm M, Jackson MJ, Southgate PN (2000) Basement framework and geodynamic evolution of the Palaeoproerozoic superbasins of north-central Australia: an intergrated review of geochemical, geochronological and geophysical data. Aust J Earth Sci 47:341–380
Selby D, Creaser RA (2001) Re–Os geochronology and systematics in molybdenite from the Endako Porphyry Molybdenum Deposit, British Columbia, Canada. Econ Geol 96:197–204
Selby D, Creaser RA (2005) Direct radiometric dating of the Devonian-Mississippian time-scale boundary using the Re–Os black shale geochonometer. Geology 33:545–548
Shirey SB, Walker RJ (1995) Carius tube digestion for low-blank rhenium–osmium analyses. Anal Chem 67:2136–2141
Shirey SB, Walker RJ (1998) The Re–Os isotope system in cosmochemistry and high-temperature geochemistry. Annu Rev Earth Planet Sci 26:423–500
Smoliar MI, Walker RJ, Morgan JW (1996) Re–Os ages of group IIA, IIIA, IVA, and IVB iron meteorites. Science 271:1099–1102
Spikings RA, Foster DA, Kohn BP, Lister G (2002) Post-orogenic (<1500 Ma) thermal history of the Palaeo-Mesoproterozoic, Mt. Isa province, NE Australia. Tectonophysics 349:327–365
Stein HJ, Markey RJ, Morgan JW, Du A, Sun Y (1997) Highly precise and accurate Re–Os ages for molybdenite from the East Qinling molybdenum belt, Shaanxi province, China. Econ Geol 92:827–835
Stein HJ, Sundblad K, Markey RJ, Morgan JW, Motuza G (1998) Re–Os ages for Archean molybdenite and pyrite, Kuittila–Kivisuo, Finland and Proterozoic molybdenite, Kabeliai, Lithuania: testing the chronometer in a metamorphic and metasomatic setting. Miner Depos 33:329–345
Stein HJ, Morgan JW, Schersten A (2000) Re–Os dating of low-level highly radioactive (LLHR) sulfides: The Harnas gold deposit, southwest Sweden, records continental-scale tectonic events. Econ Geol 95:1657–1671
Sun SS, Page RW, Carr GR (1994) Lead-isotope-based stratigraphic correlations and ages of Proterozoic sediment-hosted Pb–Zn deposits in the Mount Isa Inlier. AGSO Res Newsl 20:1–2
Suzuki K, Shimizu H, Masuda A (1996) Re–Os dating of molybdenites from ore deposits in Japan: implications for the closure temperature of the Re–Os system for molybdenite and the cooling history of molybdenum ore deposits. Geochim Cosmochim Acta 60:3151–3159
Swager CP (1985) Syndeformational carbonate-replacement model for the copper mineralization at Mount Isa, Northwest Queensland; a microstructural study. Econ Geol 80:107–125
Swager CP, Perkins WG, Knights JG (1987) Stratabound phyllosilicate zones associated with syntectonic copper orebodies at Mt. Isa, Queensland. Aust J Earth Sci 34:463–476
Valenta R (1994a) Deformation of host rocks and stratiform mineralization in the Hilton Mine area, Mt Isa. Aust J Earth Sci 41:429–443
Valenta R (1994b) Syntectonic discordant copper mineralization in the Hilton Mine, Mount Isa. Econ Geol 89:1031–1052
Volkening J, Walczyk T, Heumann K (1991) Osmium isotope ratio determinations by negative thermal ionization mass spectrometry. Int J Mass Spectrom Ion Process 105:147–159
Walker KR, Carlson RW, Shirey SB, Boyd FR (1989) Os, Sr, Nd and Pb isotope systematics of southern African peridotite xenoliths: implications for the chemical evolution of subcontinental mantle. Geochim Cosmochim Acta 53:1583–1595
Waring CL (1990) The Genesis of the Mount Isa Copper Orebodies. PhD, Monash University
Widom E, Shirey SB (1996) Os isotope systematics in the Azores: implications for mantle plume sources. Earth Planet Sci Lett 142:451–465
Wilde AR, Jones PA, Gessner K, Aillieres L, Gregory MJ, Duncan RJ (2006) A geochemical process model for the Mount Isa copper orebodies. Econ Geol 101:1547–1567
Wilson IH, Derrick GM, Perkin DJ (1985) Eastern Creek Volcanics; their geochemistry and possible role in copper mineralisation at Mount Isa, Queensland. BMR J Aust Geol Geophys 9:317–328
Wyborn LAI (1987) The petrology and geochemistry of alteration assemblages in the Eastern Creek Volcanics, as a guide to copper and uranium mobility associated with regional metamorphism and deformation, Mount Isa, Queensland. In:Pharaoh TC, Beckinsale RD, Rickard DT (eds) Geochemistry and Mineralization of Proterozoic Volcanic Suites Keyworth UK pp 425–434
Wyborn LAI, Page RW, McCulloch MT (1988) Petrology, geochronology and isotope geochemistry of the post-1,820 Ma granites of the Mount Isa Inlier: mechanisms for the generation of Proterozoic anorogenic granites. Precambrian Res 40/41:509–541
Xiong Y, Wood SA (2000) Experimental quantification of hydrothermal solubility of platinum-group elements with special reference to porphyry copper environments. Mineral Petrol 68:1–28
Zhao G, Cawood PA, Wilde SA, Sun M (2002) Review of global 2.1–1.8 Ga orogens: implications for a pre-Rodinia supercontinent. Earth-Sci Rev 59:125–162
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Work reported here was conducted as part of the Predictive Mineral Discovery Cooperative Research Centre, with support from Xstrata Copper, and this paper is published with permission. Comments on this manuscript from David Cooke, Mike Rubenach, Roland Maas, Oliver Kreuzer, Andreas Schmidt Mumm, David Selby and Robert Duncan were greatly appreciated.
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Gregory, M.J., Schaefer, B.F., Keays, R.R. et al. Rhenium–osmium systematics of the Mount Isa copper orebody and the Eastern Creek Volcanics, Queensland, Australia: implications for ore genesis. Miner Deposita 43, 553–573 (2008). https://doi.org/10.1007/s00126-008-0182-6
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DOI: https://doi.org/10.1007/s00126-008-0182-6