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Dalstra, Hilke, Black, Adam, Mudrovska, Inna (2023) Geology of Winu-Ngapakarra, Great Sandy Desert of Western Australia, a Recently Discovered Intrusion-Related Cu-Au Deposit. Economic Geology, 118 (5) 967-998 doi:10.5382/econgeo.5005

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Reference TypeJournal (article/letter/editorial)
TitleGeology of Winu-Ngapakarra, Great Sandy Desert of Western Australia, a Recently Discovered Intrusion-Related Cu-Au Deposit
JournalEconomic Geology
AuthorsDalstra, HilkeAuthor
Black, AdamAuthor
Mudrovska, InnaAuthor
Year2023 (August 1)Volume118
Issue5
PublisherSociety of Economic Geologists, Inc.
DOIdoi:10.5382/econgeo.5005Search in ResearchGate
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Mindat Ref. ID15923769Long-form Identifiermindat:1:5:15923769:6
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Full ReferenceDalstra, Hilke, Black, Adam, Mudrovska, Inna (2023) Geology of Winu-Ngapakarra, Great Sandy Desert of Western Australia, a Recently Discovered Intrusion-Related Cu-Au Deposit. Economic Geology, 118 (5) 967-998 doi:10.5382/econgeo.5005
Plain TextDalstra, Hilke, Black, Adam, Mudrovska, Inna (2023) Geology of Winu-Ngapakarra, Great Sandy Desert of Western Australia, a Recently Discovered Intrusion-Related Cu-Au Deposit. Economic Geology, 118 (5) 967-998 doi:10.5382/econgeo.5005
In(2023, August) Economic Geology Vol. 118 (5) Society of Economic Geologists
Abstract/NotesThe Winu-Ngapakarra Cu-Au deposit (Winu) was discovered in late 2017. Winu is hosted in metamorphosed massive sandstones, siltstones, and lesser mafic rocks that are possible distal and deep-water correlatives of the Malu Formation of the Yeneena basin, also host to the large Telfer Au-Cu deposit. Structure at Winu is dominated by an inclined dome formed through interference between NNW- and WNW-trending folds. Copper-gold mineralization occurs in en echelon left-stepping lodes with strike lengths between 350 and 750 m and vertical depths exceeding 750 m, northerly trends, and moderate easterly dips. These higher-grade lodes are surrounded by an extensive halo of low-grade mineralization. Two gold-rich lodes in the southeast part of the Winu deposit strike roughly easterly, toward a gold-rich satellite deposit (Ngapakarra) approximately 2 km east of Winu.Mineralization at Winu is hosted by numerous thin, brittle veins and breccias. At least four distinct vein sets associated with Cu-Au mineralization are recognized: V1—early, weakly mineralized K-feldspar-white mica stockworks; V2—transitional magmatic-hydrothermal K-feldspar–rich veins; V3—quartz-sulfide–rich veins, breccias, and fractures and quartz-bismuth-gold veins with similar timing; and V4—poorly mineralized quartz veins. Barren carbonate-, chlorite-, white mica-, and pyrite-rich fractures (V5), breccias, and faults as well as thin dolerite dikes cut mineralization at Winu. Re-Os dating of molybdenite intergrown with chalcopyrite yielded ages of 658 to 655 Ma for the mineralized veins at Winu, and Ar-Ar dating of biotite yielded 619 Ma for an unmineralized post-ore quartz-biotite vein. A well-developed supergene chalcocite blanket overlies the primary mineralization.Element associations and vein and alteration textures and mineralogy classify Winu as an intrusion-related Cu-Au deposit of Neoproterozoic age. Although it shares features with the reduced porphyry copper-gold group, other features, such as the dominance of pyrite over pyrrhotite and the presence of trace amounts of sulfate minerals in the mineralization, are more in accordance with oxidized, intrusion-related systems. Mineralization at Winu was most likely triggered by rapidly changing stress fields during the Paterson orogeny and cooling of multiple fluid pulses above an intruding granite pluton that progressively decreased in temperature over time.Winu is unique in this region in that it preserves evidence for an early, reduced intrusion-related gold system overprinted by a more oxidized intrusion-related copper system.

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Locality Pages

LocalityCitation Details
Ngapakarra prospect, Paterson Orogen, East Pilbara Shire, Western Australia, Australia
Winu deposit, Paterson Orogen, East Pilbara Shire, Western Australia, Australia
Winu deposit, Paterson Orogen, Western Australia, Australia

Mineral Occurrences

LocalityMineral(s)
Ngapakarra prospect, Paterson Orogen, East Pilbara Shire, Western Australia, Australia Breccia, Chalcopyrite, Chlorite Group, K Feldspar, Native Gold, Pyrite, Quartz, White mica
Winu deposit, Paterson Orogen, Western Australia, Australia Actinolite, Albite, Andalusite, Anhydrite, Ankerite, Anorthite, Baryte, Biotite, Bismuthinite, Bornite, Breccia, Chalcocite, Chalcopyrite, Chlorite Group, Chrysocolla, Clinopyroxene Subgroup, Clinozoisite, Cordierite, Dolerite, Epidote, Galena, Garnet Group, Granite, Hedleyite, Joséite-A, Joséite-B, K Feldspar, Mafic rock, Malachite, Maldonite, Marcasite, Molybdenite, Muscovite, Native Bismuth, Native Copper, Native Gold, Pilsenite, Porphyry, Prehnite, Pyrite, Pyrrhotite, Quartz, Rhombohedral Carbonate, Sandstone, Scheelite, Siltstone, Sphalerite, Titanite, Wolframite Group

See Also

These are possibly similar items as determined by title/reference text matching only.

Choquette, Brandon, Kontak, Daniel J. (2023) Geologic and Geochemical Features of the World-Class Archean Windfall Intrusion-Related Au Deposit, Abitibi Subprovince, Canada. Economic Geology, 118 (5) 999-1029 doi:10.5382/econgeo.5007
Drejing-Carroll, David, Hitzman, Murray W., Coller, David (2023) Geology of the Nautanen North Cu-Au-Ag-(Mo) Deposit, Norrbotten, Sweden. Economic Geology, 118 (8) 1765-1794 doi:10.5382/econgeo.5019
Choquette, Brandon, Kontak, Daniel J., Côté-Lavoie, Édouard, Fayek, Mostafa (2023) A Fluid Chemical Study of the World-Class, Intrusion-Related Archean Windfall Gold Deposit, Quebec, Canada. Economic Geology, 118 (6) 1397-1429 doi:10.5382/econgeo.5033
Witt, Walter K., Hagemann, Steffen G., Roberts, Malcolm P., Olin, Paul, Martin, Laure, Aleshan, Matvai (2024) High-Temperature Hydrothermal Fluid Evolution, Archean Alkalic Intrusion-Related Mineralization, Karari-Whirling Dervish Gold Deposit, Western Australia. Economic Geology, 119 (7). doi:10.5382/econgeo.5105
(2023) Erratum. Economic Geology, 118 (6) 1535 doi:10.5382/econgeo.118.6.er01
Piquer, José, Hermosilla, Juan, Oyarzún, Nicolás, Cuadra, Patricio, Floody, Ricardo, Troncoso, Loreto, Pardo, Rubén (2023) Geology and Structural Evolution of the La Huifa Ore Deposit, Central Chile: A Newly Discovered Porphyry Cu-Mo System in the El Teniente District. Economic Geology, 118 (2) 371-390 doi:10.5382/econgeo.4980
Cave, Bradley; Lilly, Richard; Rea, Peter (2023) In situ U-Pb monazite geochronology records multiple events at the Mount Isa Cu (± Zn-Pb-Ag) deposit, Northern Australia. Economic Geology, 118 (1). 225-236 doi:10.5382/econgeo.4964
(2023) Interesting Papers in Other Journals. Economic Geology, 118 (5) 1231-1234 doi:10.5382/econgeo.118.5.ip01
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
McClenaghan, M. B., Beckett-Brown, C. E., McCurdy, M. W., Casselman, S. (2023) Stream Sediment Indicator Mineral Signatures of the Casino Porphyry Cu-Au-Mo Deposit, Yukon, Canada. Economic Geology, 118 (2) Society of Economic Geologists, Inc. 411-431 doi:10.5382/econgeo.4970
(2023) REVIEWERS OF BOOKS. Economic Geology, 118 (1) 269 doi:10.5382/econgeo.2022.rev-bk
 
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