Müller, Daniel, Groves, David I. (2019) Direct Associations Between Potassic Igneous Rocks and Copper–Gold Deposits on Craton Margins. In Potassic Igneous Rocks and Associated Gold-Copper Mineralization. Springer International Publishing. p.255-277. doi:10.1007/978-3-319-92979-8_7
Reference Type | Book (chapter) | ||
---|---|---|---|
Title | Direct Associations Between Potassic Igneous Rocks and Copper–Gold Deposits on Craton Margins | ||
Book Title | Potassic Igneous Rocks and Associated Gold-Copper Mineralization | ISBN | 9783319929798 |
Authors | Müller, Daniel | Author | |
Groves, David I. | Author | ||
Year | 2019 | ||
Page(s) | 255-277 | Book Series | Mineral Resource Reviews |
Publisher | Springer International Publishing | ||
DOI | doi:10.1007/978-3-319-92979-8_7Search in ResearchGate | ||
Mindat Ref. ID | 14266457 | Long-form Identifier | mindat:1:5:14266457:7 |
GUID | f3f30b2e-7831-43c3-ad7a-661a625cbe85 | ||
Full Reference | Müller, Daniel, Groves, David I. (2019) Direct Associations Between Potassic Igneous Rocks and Copper–Gold Deposits on Craton Margins. In Potassic Igneous Rocks and Associated Gold-Copper Mineralization. Springer International Publishing. p.255-277. doi:10.1007/978-3-319-92979-8_7 | ||
Plain Text | Müller, Daniel, Groves, David I. (2019) Direct Associations Between Potassic Igneous Rocks and Copper–Gold Deposits on Craton Margins. In Potassic Igneous Rocks and Associated Gold-Copper Mineralization. Springer International Publishing. p.255-277. doi:10.1007/978-3-319-92979-8_7 | ||
In | Müller, Daniel, Groves, David I. (2019) Potassic Igneous Rocks and Associated Gold-Copper Mineralization (5th ed.) Springer International Publishing. doi:10.1007/978-3-319-92979-8 |
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.
Aliyari F, Afzal P, Sharif JA (2017) Determination of geochemical anomalies and gold mineralized stages based on litho-geochemical data for Zarshuran Carlin-like gold deposit (NW Iran) utilizing multi-fractal modeling and stepwise factor analysis. J Min Environ 8:593–610 | |
Apukhtina OB, Kamenetsky VS, Ehrig K, Kamenetsky MB, McPhie J, Maas R, Meffre S, Goemann K, Rodemann T, Cook NJ, Ciobanu CL (2018) Postmagmatic magnetite–apatite assemblage in mafic intrusions: a case study of dolerite at Olympic Dam, South Australia. Contrib Miner Petrol (in press) | |
Bakke A, Morrell B, Odden J, Bergstrom T, Woodman J (2000) Kinross Gold USA’s activities in the Fairbanks mining district. Br Columbia Yukon Chamber Min Spec 2:89–98 | |
Bryan SE, Riley TR, Jerram DA, Stephens CJ, Leat PT (2002) Silicic volcanism: an undervalued component of large igneous provinces and volcanic rifted margins. Spec Pap Geol Soc America 362:97–118 | |
Campbell, I. H., Compston, D. M., Richards, J. P., Johnson, J. P., Kent, A. J. R. (1998) Review of the application of isotopic studies to the genesis of Cu‐Au mineralisation at Olympic Dam and Au mineralisation at Porgera, the Tennant Creek district and Yilgarn Craton. Australian Journal of Earth Sciences, 45 (2) 201-218 doi:10.1080/08120099808728382 | |
Castor SB, Boden DR, Henry CD, Cline JS, Hofstra AH, McIntosh WC, Tosdal RM, Wooden JP (2003) Geology of the Eocene Tuscarora volcanic-hosted, epithermal precious-metal district, Elko County, Nevada. Econ Geol 98:339–366 | |
Christensen OD (1996) Carlin trend geologic overview. In: Green SM, Struhsacker E (eds) Geology and ore deposits of the American Cordillera. Geological Society of Nevada, Reno, pp 147–156 | |
Cline JS, Hofstra AH, Muntean JL, Tosdal RM, Hickey K (2005) Carlin-type deposits in Nevada: critical geological characteristics and viable models. Econ Geol 100:371–405 | |
Cline JS, Muntean JL, Gu XX, Xia Y (2013) A comparison of Carlin-type deposits: Guizhou Province, Golden triangle, southwest China, and northern Nevada, USA. Earth Sci Front 20:1–18 | |
Creaser RA (1989) The geology and petrology of Middle Proterozoic felsic magmatism of the Stuart Shelf. Unpublished Ph.D. Thesis, La Trobe University, Melbourne, South Australia | |
Cunningham, C. G., Austin, G. W., Naeser, C. W., Rye, R. O., Ballantyne, G. H., Stamm, R. G., Barker, C. E. (2004) Formation of a Paleothermal Anomaly and Disseminated Gold Deposits Associated with the Bingham Canyon Porphyry Cu-Au-Mo System, Utah. Economic Geology, 99 (4) 789-806 doi:10.2113/gsecongeo.99.4.789 | |
Ehrig K, Kamenetsky VS, McPhie J, Apukhtina O, Ciobanu CL, Cook N, Kontonikas-Charos A, Krneta S (2017) The IOCG-IOA Olympic Dam Cu–U–Au–Ag deposit and nearby prospects, South Australia. In: Proceedings of the 14th SGA Biennial Meeting, Québec City, Canada, pp 823–826, 20–23 Aug 2017 | |
Goldfarb RJ, Baker T, Dubè B, Groves DI, Hart CJR, Gosselin P (2005) Distribution, character, and genesis of gold deposits in metamorphic terranes. Econ Geol 100:407–450 | |
Grainger, Christian J., Groves, David I., Tallarico, Fernando H.B., Fletcher, Ian R. (2008) Metallogenesis of the Carajás Mineral Province, Southern Amazon Craton, Brazil: Varying styles of Archean through Paleoproterozoic to Neoproterozoic base- and precious-metal mineralisation. Ore Geology Reviews, 33 (3) 451-489 doi:10.1016/j.oregeorev.2006.10.010 | |
Groves, D. I., Condie, K. C., Goldfarb, R. J., Hronsky, J. M. A., Vielreicher, R. M. (2005) 100th Anniversary Special Paper: Secular Changes in Global Tectonic Processes and Their Influence on the Temporal Distribution of Gold-Bearing Mineral Deposits. Economic Geology, 100 (2) 203-224 doi:10.2113/gsecongeo.100.2.203 | |
Groves, D. I., Bierlein, F. P., Meinert, L. D., Hitzman, M. W. (2010) Iron Oxide Copper-Gold (IOCG) Deposits through Earth History: Implications for Origin, Lithospheric Setting, and Distinction from Other Epigenetic Iron Oxide Deposits. Economic Geology, 105 (3) 641-654 doi:10.2113/gsecongeo.105.3.641 | |
Hart CJR, McCoy D, Goldfarb RJ, Smith M, Roberts P, Hulstein R, Bakke AA, Bundtzen TK (2002) Geology, exploration and discovery in the Tintina gold province, Alaska and Yukon. Economic Geol Spec Publ 9:241–274 | |
Hart, Craig J. R., Mair, John L., Goldfarb, Richard J., Groves, David I. (2004) Source and redox controls on metallogenic variations in intrusion-related ore systems, Tombstone-Tungsten Belt, Yukon Territory, Canada. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 95 (1). 339-356 doi:10.1017/s0263593300001115 | |
Hart CJR (2007) Reduced intrusion-related gold systems. In: Goodfellow WD (ed) Mineral deposits of Canada: a synthesis of major deposit types, district metallogeny, the evolution of geological provinces, and exploration methods, vol 5. Geological Association of Canada, Mineral Deposits Division, Special Publication, pp 95–112 | |
Haynes EA, Coleman DS, Goldfarb RJ, Jensen P (2005) Geochemical and isotopic compositions of the mid-cretaceous fort knox and associated plutons, Fairbanks, Alaska: implications for intrusion-related gold systems. Geol Soc Am Abs Programs 37:517 pp | |
Haywood N (2008) The geodynamic setting and magmatic controls on genesis of world-class IOCG ore deposits. Geol Soc Aust Abstr 89:130 | |
Haywood N (2013) Genesis and location of world-class iron oxide copper–-gold deposits. In: Chang Z, Goldfarb RJ, Blenkinsop T, Placzek C, Cooke D, Carranza J (eds) FUTORES Conference Abstracts, vol 68. EGRU Contribution, p 20 | |
Not Yet Imported: GSA Field Guide 2: Great Basin and Sierra Nevada - book-chapter : 10.1130/0-8137-0002-7.165 If you would like this item imported into the Digital Library, please contact us quoting Journal ID | |
Hitzman MW (2000) Iron oxide-Cu–Au deposits: what, where, when, and why? In: Porter TM (ed) Hydrothermal iron oxide copper–gold and related deposits. A global perspective, vol 2. Australian Mineral Foundation, Adelaide, pp 9–26 | |
Huang, Qiuyue, Kamenetsky, Vadim S., Ehrig, Kathy, McPhie, Jocelyn, Kamenetsky, Maya, Cross, Ken, Meffre, Sebastien, Agangi, Andrea, Chambefort, Isabelle, Direen, Nicholas G., Maas, Roland, Apukhtina, Olga (2016) Olivine-phyric basalt in the Mesoproterozoic Gawler silicic large igneous province, South Australia: Examples at the Olympic Dam Iron Oxide Cu–U–Au–Ag deposit and other localities. Precambrian Research, 281. 185-199 doi:10.1016/j.precamres.2016.05.019 | |
Johnson JP (1993) The geochronology and radiogenic isotope systematics of the Olympic Dam Cu–U–Au–Ag deposit, South Australia. Unpupl PhD Thesis, Australian National University, Canberra, 251 pp | |
Johnson CL (2015) Petrology and geochemistry of the Emigrant Pass Volcanics, Nevada: implications for a magmatic-hydrothermal origin of the Carlin gold deposits. Unpublished M.Sc. Thesis, Oregon State University, Corvallis, 124 pp | |
Johnson CL, Dilles JH, Kent AJR, Farmer LP (2015) Petrology and geochemistry of the Emigrant Pass volcanics, Nevada: implications for a magmatic-hydrothermal origin of the Carlin gold deposits. In: Pennell WM, Garside LJ (eds) New concepts and discoveries, vol 1. Geol Soc Nevada 2015 Symposium. DEStech Publications Inc., Lancaster, pp 391–408 | |
Kirwin D, Becker A, Bandurak I, Luek B (2017) The Carlin-type Hg, Sb, As, Au, F, Tl deposits of the southwest Kyrgyz Republic. SEG Newsl 110(1):14–17 | |
Kontonikas-Charos, Alkis, Ciobanu, Cristiana L., Cook, Nigel J., Ehrig, Kathy, Krneta, Sasha, Kamenetsky, Vadim S. (2017) Feldspar evolution in the Roxby Downs Granite, host to Fe-oxide Cu-Au-(U) mineralisation at Olympic Dam, South Australia. Ore Geology Reviews, 80. 838-859 doi:10.1016/j.oregeorev.2016.08.019 | |
Lang JR, Baker T, Hart CJR, Mortensen JK (2000) An exploration model for intrusion-related gold systems. Econ Geol Newsl 40(1):6–15 | |
Mair, J. L., Farmer, G. L., Groves, D. I., Hart, C. J. R., Goldfarb, R. J. (2011) Petrogenesis of Postcollisional Magmatism at Scheelite Dome, Yukon, Canada: Evidence for a Lithospheric Mantle Source for Magmas Associated with Intrusion-Related Gold Systems. Economic Geology, 106 (3) 451-480 doi:10.2113/econgeo.106.3.451 | |
Muntean JL, Bonner W, Hill T (2017) Carlin-style gold-silver mineralization at the cove deposit in Nevada, USA: possible missing link between carlin-type gold deposits and magmatic-hydrothermal systems. Proceedings of the 14th SGA Biennial Meeting, 20-23 August, Québec city, Canada, 71–74 | |
Ootes, Luke, Snyder, David, Davis, William J., Acosta-Góngora, Pedro, Corriveau, Louise, Mumin, A.Hamid, Gleeson, Sarah A., Samson, Iain M., Montreuil, Jean-François, Potter, Eric, Jackson, Valerie A. (2017) A Paleoproterozoic Andean-type iron oxide copper-gold environment, the Great Bear magmatic zone, Northwest Canada. Ore Geology Reviews, 81. 123-139 doi:10.1016/j.oregeorev.2016.09.024 | |
Peng X, Hai Y, Zhang J (2018) Geology, geochemistry, and genesis of the Dashui Carlin-type gold deposit in the west Qinling orogenic belt, Gansu Province. Geol J 53:835–856 | |
Potter EG, Corriveau L, Kjarsgaard BA (2017) East Arm Basin—Great Bear magmatic zone linkages and iron oxide-copper-gold (IOCG) mineral potential. In: Proceedings of the 14th SGA Biennial Meeting, Québec City, Canada, pp 879–882, 20–23 August 2017 | |
Quandt D, Ekstrom C, Triebel K, Henderson RD (2008) Technical report for the Fort Knox mine prepared for Kinross Gold Corporation and Fairbanks Gold Mining Incorporated, Fairbanks North Star Borough, Alaska, USA. Unpublished Report, March 2008, 79 p | |
Reeve JS, Cross KC, Smith RN, Oreskes N (1990) Olympic Dam copper-uranium-gold-silver deposit. In: Hughes FE (ed) Geology of the mineral deposits of Australia and Papua New Guinea. AusIMM, Melbourne, pp 1009–1035 | |
Ressel MW, Noble DC, Henry CD, Trudel WS (1999) Eocene magmatism and coeval gold mineralization in the northern part of the Carlin trend, Nevada. Geol Soc Am Abs Programs 31:A88 | |
Ressel MW, Noble DC, Henry CD, Trudel WS (2000) Dike-hosted ores of the Beast deposit and the importance of Eocene magmatism in gold mineralization of the Carlin trend, Nevada. Econ Geol 95:1417–1444 | |
Rhys D (2017) Advances in the understanding of the structural controls on carlin deposits in Nevada: Implications for Chinese Carlin-Like Systems. In: Deng J, Goldfarb RJ (eds) Ore deposits of Asia: China and beyond. SEG Annual Meeting September 2017, Beijing | |
Rhys D, Valli F, Burgess R, Heitt D, Griesel G, Hart K (2015) Controls of fault and fold geometry on the distribution of gold mineralization on the carlin trend. In: Pennell WM, Garside LJ (eds) New concepts and discoveries: Geological Society of Nevada 2015 Symposium. DEStech Publications Inc., vol 1, pp 333–389 | |
Richards, Jeremy P., López, Gloria P., Zhu, Jing-Jing, Creaser, Robert A., Locock, Andrew J., Mumin, A. Hamid (2017) Contrasting Tectonic Settings and Sulfur Contents of Magmas Associated with Cretaceous Porphyry Cu ± Mo ± Au and Intrusion-Related Iron Oxide Cu-Au Deposits in Northern Chile. Economic Geology, 112 (2) 295-318 doi:10.2113/econgeo.112.2.295 | |
Robert F, Brommecker R, Bourne BT, Dobak PJ, McEwan CJ, Rowe RR, Zhou X (2007) Models and exploration methods for major gold deposit types. In: Milkereit B (ed) Proceedings of Exploration 07: fifth decennial international conference on mineral exploration, abstracts volume, 691–711 pp | |
Rowins, Stephen M., Groves, David I., McNaughton, Neal J., Palmer, Martin R., Eldridge, C. Stewart (1997) A reinterpretation of the role of granitoids in the genesis of Neoproterozoic gold mineralization in the Telfer Dome, Western Australia. Economic Geology, 92 (2) 133-160 doi:10.2113/gsecongeo.92.2.133 | |
Selby, David, Creaser, Robert A., Hart, Craig J.R., Rombach, Cameron S., Thompson, John F.H., Smith, Moira T., Bakke, Arne A., Goldfarb, Richard J. (2002) Absolute timing of sulfide and gold mineralization: A comparison of Re-Os molybdenite and Ar-Ar mica methods from the Tintina Gold Belt, Alaska. Geology, 30 (9) 791 doi:10.1130/0091-7613(2002)030<0791:atosag>2.0.co;2 | |
Skirrow RG, Raymond OL, Bastrakov E, Davidson G, Heithersay P (2002) The geological framework, distribution, and controls of Fe oxide Cu–Au mineralization in the Gawler Craton, South Australia. Part II: alteration and mineralization. In: Porter TM (ed) Hydrothermal iron oxide copper–gold and related deposits: a global perspective, vol 2. Australian Mineral Foundation, Adelaide, pp 33–47 | |
Soloviev SG (2010a) Iron oxide (± copper, gold) and associated deposits of the Altai-Sayan orogenic system, southwestern Siberia, Russia. In: Porter TM (ed) Super porphyry copper & gold deposits: a global perspective, vol 2. PGC Publishing, Adelaide, pp 475–494 | |
Soloviev SG (2010b) Iron oxide copper-gold and related mineralization of the Siberian Craton, Russia. 1—iron oxide deposits in the Angara and Ilim River basins, south-central Siberia. In: Porter TM (ed) Super porphyry copper and gold deposits: a global perspective, vol 2. PGC Publishing, Adelaide, pp 495–514 | |
Teal L, Jackson M (1997) Geologic overview of the Carlin trend gold deposits and descriptions of recent deep discoveries. Econ Geol Guidebook Ser 28:3–38 | |
Wang, Xueqiu, Xie, Xuejing, Cheng, Zhizhong, Liu, Dawen (1999) Delineation of regional geochemical anomalies penetrating through thick cover in concealed terrains — a case history from the Olympic Dam deposit, Australia. Journal of Geochemical Exploration, 66 (1) 85-97 doi:10.1016/s0375-6742(99)00036-9 | |
Williams PJ, Barton MD, Johnson DA, Fontbote L, de Haller A, Mark G, Oliver NHS, Marschik R (2005) Iron oxide copper–gold deposits: geology, space–time distribution, and possible modes of origin. Econ Geol 100:371–405 |
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