Mueller, Andreas G., Hagemann, Steffen G., Brugger, Joël, Xing, Yanlu, Roberts, Malcolm P. (2020) Early Fimiston and late Oroya Au–Te ore, Paringa South mine, Golden Mile, Kalgoorlie: 4. Mineralogical and thermodynamic constraints on gold deposition by magmatic fluids at 420–300 °C and 300 MPa. Mineralium Deposita, 55 (4) 767-796 doi:10.1007/s00126-019-00939-8
Reference Type | Journal (article/letter/editorial) | ||
---|---|---|---|
Title | Early Fimiston and late Oroya Au–Te ore, Paringa South mine, Golden Mile, Kalgoorlie: 4. Mineralogical and thermodynamic constraints on gold deposition by magmatic fluids at 420–300 °C and 300 MPa | ||
Journal | Mineralium Deposita | ||
Authors | Mueller, Andreas G. | Author | |
Hagemann, Steffen G. | Author | ||
Brugger, Joël | Author | ||
Xing, Yanlu | Author | ||
Roberts, Malcolm P. | Author | ||
Year | 2020 (April) | Volume | 55 |
Page(s) | 767-796 | Issue | 4 |
Publisher | Springer Science and Business Media LLC | ||
DOI | doi:10.1007/s00126-019-00939-8Search in ResearchGate | ||
Mindat Ref. ID | 157828 | Long-form Identifier | mindat:1:5:157828:1 |
GUID | 4440a2db-4f7b-4f49-b6e6-4308cf6e23e3 | ||
Full Reference | Mueller, Andreas G., Hagemann, Steffen G., Brugger, Joël, Xing, Yanlu, Roberts, Malcolm P. (2020) Early Fimiston and late Oroya Au–Te ore, Paringa South mine, Golden Mile, Kalgoorlie: 4. Mineralogical and thermodynamic constraints on gold deposition by magmatic fluids at 420–300 °C and 300 MPa. Mineralium Deposita, 55 (4) 767-796 doi:10.1007/s00126-019-00939-8 | ||
Plain Text | Mueller, Andreas G., Hagemann, Steffen G., Brugger, Joël, Xing, Yanlu, Roberts, Malcolm P. (2020) Early Fimiston and late Oroya Au–Te ore, Paringa South mine, Golden Mile, Kalgoorlie: 4. Mineralogical and thermodynamic constraints on gold deposition by magmatic fluids at 420–300 °C and 300 MPa. Mineralium Deposita, 55 (4) 767-796 doi:10.1007/s00126-019-00939-8 | ||
In | (2020, April) Mineralium Deposita Vol. 55 (4) Springer Science and Business Media LLC |
References Listed
These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.
Akinfiev NN, Zotov AV (2001) Thermodynamic description of chloride, hydrosulfide and hydroxo complexes of Ag (I), Cu (I) and Au (I) at temperatures of 25-500°C and pressures of 1-2000 bar. Geochem Int 39:990–1006 | |
Baker G (1958) Tellurides and selenides in the Phantom Lodes, Great Boulder mine, Kalgoorlie. Australasian Inst Min Metall, Melbourne, Stillwell Anniversary Volume, pp 15-40 | |
Barton PB, Skinner BJ (1979) Sulfide mineral stabilities. In: Barnes HL (ed) Geochemistry of hydrothermal ore deposits, 2nd edn. Wiley, New York, pp 278–403 | |
Barton MD, Seedorff E, Ilchik RP, Ghidotti G (1997) Contrasting siliceous replacement mineralization, east-central Nevada. In: Vikre P, Thompson TB, Bettles K, Christensen O, Parratt R (eds) Carlin-type gold deposits field conference. SEG guidebook series, vol. 28, pp. 131–134 | |
Bartram GD, McCall GJH (1971) Wall-rock alteration associated with auriferous lodes in the Golden Mile, Kalgoorlie. In: Glover JE (ed) Symposium on Archaean rocks. Geol Soc Australia, Publ 3, pp 191–199 | |
Bath, A. B., Walshe, J. L., Cloutier, J., Verrall, M., Cleverley, J. S., Pownceby, M. I., Macrae, C. M., Wilson, N. C., Tunjic, J., Nortje, G. S., Robinson, P. (2013) Biotite and Apatite as Tools for Tracking Pathways of Oxidized Fluids in the Archean East Repulse Gold Deposit, Australia. Economic Geology, 108 (4) 667-690 doi:10.2113/econgeo.108.4.667 | |
Bowles JFW, Howie RA, Vaughan DJ, Zussman J (2011) Rock-forming minerals, non-silicates: oxides, hydroxides and sulphides, 2nd edn, vol 5A. The Geological Society, London | |
Chang LLY, Howie RA, Zussman J (1998) Non-silicates: sulphates, carbonates, phosphates, halides. In: Rock-forming minerals, 5B, 2nd edn. The Geological Society, London | |
Clout JMF (1989) Structural and isotopic studies of the Golden Mile gold-telluride deposit, Kalgoorlie, Western Australia. Dissertation, Monash University, Clayton, 352 pp | |
Clout JMF, Cleghorn JH, Eaton PC (1990) Geology of the Kalgoorlie goldfield. In: Hughes FE (ed) Geology of the mineral deposits of Australia and Papua New Guinea. Melbourne, Australasian Inst Min Metall, Monograph 14, pp 411–431 | |
Deer WA, Howie RA, Zussman J (1992) An introduction to the rock-forming minerals, 2nd edn. Longman House, Burnt Mill | |
Einaudi MT, Hedenquist JW, Inan EE (2003) Sulfidation state of fluids in active and extinct hydrothermal systems: transitions from porphyry to epithermal environments. SEG Special Publ 10:285–313 | |
Fleet ME (2003) Sheet silicates: micas, rock-forming minerals, 3A. 2nd edn. The Geological Society, London | |
Fournier RO (1985) The behaviour of silica in hydrothermal solutions. Rev Econ Geol 2:45–61 | |
Gauthier L, Hagemann S, Robert F (2007) The geological setting of the Golden Mile gold deposit, Kalgoorlie, W.A. In: Bierlein FP, Knox-Robinson CM (eds) Kalgoorlie 2007, old ground, new knowledge, abstracts. Geoscience Australia, Record 2007/14, pp 181–185 | |
Goldfarb RJ, Baker T, Dubé B, Groves DI, Hart CJR, Gosselin P (2005) Distribution, character and genesis of gold deposits in metamorphic terranes. Econ Geol 100th Anniversary Volume, pp 407–450 | |
Golding LY (1978) Mineralogy, geochemistry and origin of the Kalgoorlie gold deposits, Western Australia. Dissertation, The University of Melbourne, 402 pp | |
Golding SD, Groves DI, McNaughton NJ, Mikucki EJ, Sang JH (1990) Sulphur isotope studies. In: Ho SE, Groves DI, Bennett JM (eds) Gold deposits of the Archaean Yilgarn block, Western Australia: nature, genesis, and exploration guides. University of Western Australia, Publ 20, pp 259–262 | |
Grundler, Pascal V., Brugger, Joël, Etschmann, Barbara E., Helm, Lothar, Liu, Weihua, Spry, Paul G., Tian, Yuan, Testemale, Denis, Pring, Allan (2013) Speciation of aqueous tellurium(IV) in hydrothermal solutions and vapors, and the role of oxidized tellurium species in Te transport and gold deposition. Geochimica et Cosmochimica Acta, 120. 298-325 doi:10.1016/j.gca.2013.06.009 | |
Gustafson JK, Miller FS (1937) Kalgoorlie geology re-interpreted. Proc Aust Inst Min Metall 106:93–125 | |
Ho SE, Bennett JM, Cassidy KF, Hronsky JMA, Mikucki EJ, Sang JH (1990) Fluid inclusion studies. In: Ho SE, Groves DI, Bennett JM (eds) Gold deposits of the Archaean Yilgarn block, Western Australia: nature, genesis, and exploration guides. University of Western Australia, Publ 20, pp. 198–211 | |
Holland TJB, Powell R (2000) AX—a program to calculate activities of mineral end members from chemical analyses (usually determined by electron microprobe): http://www.esc.cam.ac.uk/astaff/holland/ax.html | |
Rieder, M., Cavazzini, G., D’yakonov, Yu. S., Frank-Kamenetskii, V. A., Gottardi, G., Guggenheim, S., Koval’, P. V., Müller, G., Neiva, A. M. R., Radoslovich, E. W., Robert, J.-L., Sassi, F. P., Takeda, H., Weiss, Z., Wones, D. R. (1999) Nomenclature of the micas. Mineralogical Magazine, 63 (2) 267-279 doi:10.1180/minmag.1999.063.2.13 | |
Kretschmar U, Scott SD (1976) Phase relations involving arsenopyrite in the system Fe-As-S and their application. Can Mineral 14:364–386 | |
Laird J (1988) Chlorites: metamorphic petrology. In: Bailey SW (ed) Hydrous phyllosilicates (exclusive micas). Rev Mineralogy 19:405–453 | |
Lanari, Pierre, Wagner, Thomas, Vidal, Olivier (2014) A thermodynamic model for di-trioctahedral chlorite from experimental and natural data in the system MgO–FeO–Al2O3–SiO2–H2O: applications to P–T sections and geothermometry. Contributions to Mineralogy and Petrology, 167 (2) doi:10.1007/s00410-014-0968-8 | |
Manalo, Pearlyn C., Imai, Akira, Subang, Leo L., de los Santos, Mervin C., Yanagi, Kyoka, Takahashi, Ryohei, Blamey, Nigel J.F. (2018) Mineralization of the Northwest Quartz-Pyrite-Gold Veins: Implications for Multiple Mineralization Events at Lepanto, Mankayan Mineral District, Northern Luzon, Philippines. Economic Geology, 113 (7) 1609-1626 doi:10.5382/econgeo.2018.4606 | |
McPhail DC (1995) Thermodynamic properties of aqueous tellurium species between 25 and 350°C. Geochim Cosmochim Acta 59:851–866 | |
Mei, Yuan, Liu, Weihua, Sherman, David M., Brugger, Joël (2014) Metal complexation and ion hydration in low density hydrothermal fluids: Ab initio molecular dynamics simulation of Cu(I) and Au(I) in chloride solutions (25–1000°C, 1–5000bar) Geochimica et Cosmochimica Acta, 131. 196-212 doi:10.1016/j.gca.2014.01.033 | |
Mikucki EJ, Groves DI (1990) Mineralogical constraints. In: Ho SE, Groves DI, Bennett JM (eds) Gold deposits of the Archaean Yilgarn block, Western Australia: nature, genesis, and exploration guides. University of Western Australia, Publ 20, pp. 212–220 | |
Mueller AG (1990) The nature and genesis of high- and medium-temperature Archaean gold deposits in the Yilgarn block, Western Australia, including a specific study of scheelite-bearing gold skarn deposits. Dissertation, the University of Western Australia, Perth | |
Mueller, Andreas G. (2020) Paragonite-chloritoid alteration in the Trafalgar Fault and Fimiston- and Oroya-style gold lodes in the Paringa South mine, Golden Mile, Kalgoorlie: 2. Muscovite-pyrite and silica-chlorite-telluride ore deposited by two superimposed hydrothermal systems. Mineralium Deposita, 55 (4) 697-730 doi:10.1007/s00126-018-0813-5 | |
Mueller, Andreas G., Muhling, Janet R. (2020) Early pyrite and late telluride mineralization in vanadium-rich gold ore from the Oroya Shoot, Paringa South mine, Golden Mile, Kalgoorlie: 3. Ore mineralogy, Pb-Te (Au-Ag) melt inclusions, and stable isotope constraints on fluid sources. Mineralium Deposita, 55 (4) 733-766 doi:10.1007/s00126-019-00876-6 | |
Mueller, A. G., Lawrance, L. M., Muhling, J., Pooley, G. D. (2012) Mineralogy and PTX Relationships of the Archean Hannan South Au-Cu (Co-Bi) Deposit, Kalgoorlie, Western Australia: Thermodynamic Constraints on the Formation of a Zoned Intrusion-Related Skarn. Economic Geology, 107 (1) 1-24 doi:10.2113/econgeo.107.1.1 | |
Mueller, Andreas G., Hagemann, Steffen G., McNaughton, Neal J. (2020) Neoarchean orogenic, magmatic and hydrothermal events in the Kalgoorlie-Kambalda area, Western Australia: constraints on gold mineralization in the Boulder Lefroy-Golden Mile fault system. Mineralium Deposita, 55 (4) 633-663 doi:10.1007/s00126-016-0665-9 | |
Muntean JL (2018) The Carlin gold system: applications to exploration in Nevada and beyond. Rev Econ Geol 20:39–88 | |
Ohmoto H (1986) Stable isotope geochemistry of ore deposits. Rev Mineral 16:491–559 | |
Pokrovski, Gleb S., Roux, Jacques, Ferlat, Guillaume, Jonchiere, Romain, Seitsonen, Ari P., Vuilleumier, Rodolphe, Hazemann, Jean-Louis (2013) Silver in geological fluids from in situ X-ray absorption spectroscopy and first-principles molecular dynamics. Geochimica et Cosmochimica Acta, 106. 501-523 doi:10.1016/j.gca.2012.12.012 | |
Qian, G., Xia, F., Brugger, J., Skinner, W. M., Bei, J., Chen, G., Pring, A. (2011) Replacement of pyrrhotite by pyrite and marcasite under hydrothermal conditions up to 220 C: An experimental study of reaction textures and mechanisms. American Mineralogist, 96 (11) 1878-1893 doi:10.2138/am.2011.3691 | |
Ronacher, Elisabeth, Richards, Jeremy, Villeneuve, Michael, Johnston, Michael (2002) Short life-span of the ore-forming system at the Porgera gold deposit, Papua New Guinea: laser 40 Ar/ 39 Ar dates for roscoelite, biotite, and hornblende. Mineralium Deposita, 37 (1) 75-86 doi:10.1007/s00126-001-0231-x | |
Scantlebury GM (1983) The characterization and origin of the gold lodes in and around the Brownhill Syncline, Golden Mile, Kalgoorlie, Western Australia. B.Sc. (Honours) thesis, the University of Western Australia, Perth | |
Sharp ZD, Essene EJ, Kelly WC (1985) A re-examination of the arsenopyrite geothermometer: pressure considerations and applications to natural assemblages. Can Mineral 23:517–534 | |
Simpson ES (1912) Detailed mineralogy of Kalgoorlie and Boulder with special reference to the ore deposits. In: Simpson ES, Gibson CG (eds) The geology and ore deposits of Kalgoorlie, East Coolgardie Goldfield, Part 1. Geol Surv Western Australia, Bulletin 42, pp 77–160 | |
Tomich SA (1952) Some structural aspects of Kalgoorlie geology. Proc Aust Inst Min Metall 164(165):45–76 | |
Travis GA, Woodall R, Bartram GD (1971) The geology of the Kalgoorlie Goldfield. In: Glover JE (ed) Symposium on Archaean rocks. Geol Soc Australia, Publ 3, pp 175–190 | |
Tripp G I (2013) Stratigraphy and structure in the Neoarchaean of the Kalgoorlie district, Australia: critical controls on greenstone-hosted gold deposits. Dissertation, James Cook University, Townsville | |
Vaughn ES, Ridley JR (2014) Evidence for exsolution of Au-ore fluids from granites crystallized in the mid-crust, Archaean Louis Lake batholith, Wyoming. In: Garofalo PS, Ridley JR (eds) Gold-transporting hydrothermal fluids in the Earth’s crust. Geological Society, London, Special Publ 402 | |
Wimmenauer W (1985) Petrografie der magmatischen und metamorphen Gesteine. Enke, Stuttgart | |
Xing, Yanlu, Etschmann, Barbara, Liu, Weihua, Mei, Yuan, Shvarov, Yuri, Testemale, Denis, Tomkins, Andrew, Brugger, Joël (2019) The role of fluorine in hydrothermal mobilization and transportation of Fe, U and REE and the formation of IOCG deposits. Chemical Geology, 504. 158-176 doi:10.1016/j.chemgeo.2018.11.008 | |
See Also
These are possibly similar items as determined by title/reference text matching only.