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Papua New Guinea | |
- PACMANUS hydrothermal field
| Fallon, Emily K., Matthias Frische, Sven Petersen, Richard A. Brooker, and Thomas B. Scott. (2019) "Geological, Mineralogical and Textural Impacts on the Distribution of Environmentally Toxic Trace Elements in Seafloor Massive Sulfide Occurrences" Minerals 9, no. 3: 162. https://doi.org/10.3390/min9030162 |
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| Fallon, Emily K., Matthias Frische, Sven Petersen, Richard A. Brooker, and Thomas B. Scott. (2019) "Geological, Mineralogical and Textural Impacts on the Distribution of Environmentally Toxic Trace Elements in Seafloor Massive Sulfide Occurrences" Minerals 9, no. 3: 162. https://doi.org/10.3390/min9030162 |
- SuSu Knolls hydrothermal field
| Yeats, C. J., Parr, J. M., Binns, R. A., Gemmell, J. B., & Scott, S. D. (2014). The SuSu Knolls hydrothermal field, eastern Manus Basin, Papua New Guinea: an active submarine high-sulfidation copper-gold system. Economic Geology, 109(8), 2207-2226. |
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| Noku, S.K., Espi, J.O., Matsueda, H. (2012) Magmatic contributions to the mineralization of the Laloki and Federal Flag strata-bound massive sulfide deposits, Papua New Guinea: Sulfur isotope evidence. Paper presented at PNG Research, Science and Technology Conference, Pacific Adventist University, Port Moresby, Papua New Guinea. |
- East New Britain Province
| Lindley, I. D. (1998). Mount Sinivit gold deposits. Geology of Australian and Papua New Guinean Mineral Deposits, 821-826. |
- Eastern Highlands Province
| Noku, S.K., Akasaka, M. & Matsueda, H. (2011): The Crater Mountain Deposit, Papua New Guinea: Porphyry-related Au-Te System. Resource Geology, 61, 63-75.
Noku, S., & Akasaka, M. (2002). Geology and Mineralogy of Crater Mountain deposit, Papua New Guinea. In Abstracts for Annual Meeting of the Mineralogical Society of Japan Abstracts for the 50th Anniversary Meeting (2002) of the Mineralogical Society of Japan (pp. 40-40). Japan Association of Mineralogical Sciences. |
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| Econ Geol (1993) 88:755-781 |
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| Barrick Gold Corporation |
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| Denwer, K. P. (1993). Geology and Mineralisation of the Kerimenge-Lemenge Prospect, Wau District, Papua New Guinea (Masters dissertation, University of Tasmania). |
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| Carswell, J.T. (1990) Wau gold deposits. In Geology of the Mineral Deposits of Australia and Papua New Guinea. AusIMM Melbourne. pg. 1763-1767. |
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| Siedner, G. (1959) Geological report on Upper Ridges Mine, Wau, Territory of New Guinea. Records 1959/5 Bureau of Mineral Resources, Geology and Geophysics, Department of National Development, Commonwealth of Australia. |
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| Singer, D.A., Berger, V.I., Moring, B.C. (2008) Porphyry copper deposits of the world: Database and grade and tonnage models, 2008. Open-File Report 2008-1155 |
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| Econ Geol (1984) 79:638-655 |
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| Petersen, S., Herzig, P. M., Hannington, M. D., Jonasson, I. R., & Arribas, A. (2002). Submarine gold mineralization near Lihir Island, New Ireland fore-arc, Papua New Guinea. Economic Geology, 97(8), 1795-1813. |
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| Blackwell, J. L., Cooke, D. R., McPhie, J., Simpson, K. A. (2014) Lithofacies Associations and Evolution of the Volcanic Host Succession to the Minifie Ore Zone: Ladolam Gold Deposit, Lihir Island, Papua New Guinea. Economic Geology, 109 (4) 1137-1160 doi:10.2113/econgeo.109.4.1137
Müller, D., Kaminski, K., Uhlig, S., Graupner, T., Herzig, P.M., Hunt, S. (2002) The transition from porphyry-to epithermal-style gold mineralization at Ladolam, Lihir Island, Papua New Guinea: a reconnaissance study. Mineralium Deposita 37:61-74. |
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| Sykora, Stephanie, Selley, David, Cooke, David R., Harris, Anthony C. (2018) The Structure and Significance of Anhydrite-Bearing Vein Arrays, Lienetz Orebody, Lihir Gold Deposit, Papua New Guinea. Economic Geology, 113 (1) 237-270 doi:10.5382/econgeo.2018.4550 |
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| Espi, J.O., Kajiwara, Y., Hawkins, M.A., and Bainbridge T. (2002): Hydrothermal alteration and Cu-Au mineralization at the Nena high sulfidation-type deposit, Frieda River, Papua New Guinea. Resource Geology 52(4), 301–313. |
