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China | |
| Tianwei Guo and Zhongwen Han (1990): Northeastern Geological Science and Technology Information 11(2), 1-11 Chao Chen and Fapeng Xie (1986): Mineral Deposits 5(1), 53-62 |
- Chifeng City (Ulanhad League; Chifeng Prefecture)
- Bairin Left Banner (Balin Zuoqi)
| Wu, X., Zhao, J., Liu, W., Xie, G., Ye, Z., Li, Z., & Sun, H. (2023). Tin mineralization in the giant Shuangjianzishan Ag-Pb-Zn deposit, Inner Mongolia. Ore Geology Reviews, 152, 105241. Yongsheng Kuang, Guangrui Zheng, Minjie Lu, Yanlin Liu, Shaojie Zhang, Ruiyang Li, and Wenjing Cheng (2014): Mineral Deposits 33(4), 847-856 |
| Shi, Jiangpeng, Wu, Guang, Chen, Gongzheng, Yang, Fei, Zhang, Tong, Jiang, Biao, Liu, Wenyuan (2024) Genesis of the Supergiant Shuangjianzishan Ag–Pb–Zn Deposit in the Southern Great Xing’an Range, NE China: Constraints from Geochronology, Isotope Geochemistry, and Fluid Inclusion. Minerals, 14 (1) doi:10.3390/min14010060 |
- Hulunbuir City (Hulunbei'er Prefecture)
- New Barag Right Banner (Xin Barag Youqi)
| Jingxian Li and Jiajun Liu (2014): Resources & Industries 16(2), 90-97 Zhicheng Lü, Paiping Zhang, Guozheng Duan, Libo Hao, and Guanghua Dong (2002): Journal of Mineralogy and Petrology 22(1), 1-5 Zhicheng Lu, Peiping Zhang, Guozheng Duan, Libo Hao, and Dianchao Li (2002): Acta Mineralogica Sinica 22(1), 75-80 |
| Xia Ai and Zengyi Chen (1993): Geology and Prospecting 29(4), 25-29 |
| Dong Zhensheng et al. (1996). In: Tu Guangzhi, Ed.: Low Temperature Geochemistry, Science Press (Beijing), 32-42 |
|
Indonesia | |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. |
- Rejang Lebong District (Rediang Lebong District)
| Simon, Grigore, Kesler, Stephen E., Essene, Eric J. (1997) Phase relations among selenides, tellurides, and oxides; II, Applications to selenide-bearing ore deposits. Economic Geology, 92 (4) 468-484 doi:10.2113/gsecongeo.92.4.468 |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. The Canadian Mineralogist Vol. 41, pp. 185-200 (2003) Milési, J.P., Marcoux, E., Sitorus, T., Simandjuntak, M., Leroy, J., and Bailly, L. (1999): Mineralium Deposita 34, 131-149. |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. |
| Yuningsih, E. T., Matsueda, H., & Rosana, M. F. (2014). Epithermal Gold-Silver Deposits in Western Java, Indonesia: Gold-Silver Selenide-Telluride Mineralization. Indonesian Journal on Geoscience, 1(2), 71-81. |
|
Iran | |
- Sistan and Baluchestan Province
| DALIRAN, F., PAAR, W.H., NEUBAUER, F., RASCHIDI, B. (2005): New Discovery of Epithermal Gold at Chahnali Prospect, Bazman Volcano, SE-Iran. In: Mao, J. & Bierlein, F. P. (eds.): Mineral deposit research: Meeting the global challenge. Springer, Berlin – Heidelberg, 917–919. |
|
Japan | |
| Shikazono, N. (1985) A comparison of temperatures estimated from the electrum-sphalerite-pyrite-argentite assemblage and filling temperatures of fluid inclusions from epithermal Au-Ag vein-type deposits in Japan. Economic Geology: 80(5): 1415–1424. |
| Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226. |
| Yuningsih, E. T., & Matsueda, H. (2018). Study on the Cu–As–Sb–Ag–Bi–Pb–Te Sulfosalt Minerals from the Hydrothermal System of Southwestern Hokkaido, Japan. Resource Geology, 68(3), 209-226. Shimizu, T., Matsueda, H., Ishiyama, D., Matsubaya, O. (1998) Genesis of epithermal Au-Ag mineralization of the Koryu mine, Hokkaido, Japan. Economic Geology: 93: 303-325. SUGAKI, Asahiko, KITAKAZE, Arashi, ISOBE, Kiyoshi (1985) Johannsenite from the Koryu mine, Hokkaido, Japan. Mineralogical Journal, 12 (7) 341-348 doi:10.2465/minerj.12.341 |
| Econ Geol (1985) 80:1415-1424 Sugaki et al (1982) Journal of the Japan Association of Mineralogists, Petrologists and Economic Geologists, 77, 65-77. |
| Tharalson, Erik, Monecke, Thomas, Reynolds, T., Zeeck, Lauren, Pfaff, Katharina, Kelly, Nigel (2019) The Distribution of Precious Metals in High-Grade Banded Quartz Veins from Low-Sulfidation Epithermal Deposits: Constraints from µXRF Mapping. Minerals, 9 (12) 740 doi:10.3390/min9120740 Tharalson, E.R. Monecke, T. Reynolds, T.J. Zeeck, L. Pfaff, K. |
| Zeeck, Lauren. (2018). The Role of Flashing in The Formation of High-Grade, Low-Sulfidation Epithermal Deposits: A Case Study from The Omu Camp in Hokkaido, Japaan. Master of Science Colorado School of Mines |
| Zeeck, Lauren. (2018). The Role of Flashing in The Formation of High-Grade, Low-Sulfidation Epithermal Deposits: A Case Study from The Omu Camp in Hokkaido, Japaan. Master of Science Colorado School of Mines |
| Zeeck, Lauren. (2018). The Role of Flashing in The Formation of High-Grade, Low-Sulfidation Epithermal Deposits: A Case Study from The Omu Camp in Hokkaido, Japaan. Master of Sciencee Colorado School of Mines |
| Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.) |
| Shikazono, N. (1985) A comparison of temperatures estimated from the electrum-sphalerite-pyrite-argentite assemblage and filling temperatures of fluid inclusions from epithermal Au-Ag vein-type deposits in Japan. Economic Geology: 80(5): 1415–1424. |
| Morishita, Yuichi, and Yoriko Yabe. (2022) "Genesis and Evolution of Hydrothermal Fluids in the Formation of the High-Grade Hishikari Gold Deposit: Carbon, Oxygen, and Sulfur Isotopic Evidence" Minerals 12, no. 12: 1595. https://doi.org/10.3390/min12121595 Morishita, Y., Hammond, N. Q., Momii, K., Konagaya, R., Sano, Y., Takahata, N., & Ueno, H. (2019). Invisible Gold in Pyrite from Epithermal, Banded-Iron-Formation-Hosted, and Sedimentary Gold Deposits: Evidence of Hydrothermal Influence. Minerals, 9(7), 447. Morishita, Y., & Nakano, T. (2008). Role of basement in epithermal deposits: the Kushikino and Hishikari gold deposits, southwestern Japan. Ore Geology Reviews, 34(4), 597-609. |
| Fulin Zhang, Chengmo Jin, and Qiyun Qing (1986): Geology and Prospecting 22(6), 9-12 |
| Econ Geol (1985) 80:1415-1424 |
- Okuchi mine (Oguchi mine)
| Shikazono, N. (1985) A comparison of temperatures estimated from the electrum-sphalerite-pyrite-argentite assemblage and filling temperatures of fluid inclusions from epithermal Au-Ag vein-type deposits in Japan. Economic Geology: 80(5): 1415–1424. |
| Shikazono, N. (1985) A comparison of temperatures estimated from the electrum-sphalerite-pyrite-argentite assemblage and filling temperatures of fluid inclusions from epithermal Au-Ag vein-type deposits in Japan. Economic Geology: 80(5): 1415–1424. |
|
Russia | |
- Chukotka Autonomous Okrug
| Savva, N. E., & Shakhtyrov, V. G. (2011). The Ol’cha gold-silver deposit: Tectonic setting, structure, and mineralogy. Geology of Ore Deposits, 53(5), 412-433. |
| Nokleberg, Warren J. et al (2005) Metallogenesis and tectonics of the Russian Far East, Alaska, and the Canadian Cordillera. USGS Professional Paper 1697 |
| www.infomine.com (n.d.) http://www.infomine.com/press_releases/wpn/pr111097wpn.html Sidorov, A. A., & Eremin, R. A. (1994). Metallogeny and gold lode deposits of northeastern Russia. ICAM-94 proceedings, 247-256. |
| Ono, Shuji (2007): Epithermal gold-silver mineralization of the Asachinskoe deposit in southern Kamchatka, Russia. Resource Geology 57(4), 354-373. Takahashi, Ryohei Natsueda, Hiroharu Okrugin, Victor M. |
| Tolstykh, Nadezhda, Shapovalova, Maria, Shaparenko, Elena, Bukhanova, Daria (2022) The Role of Selenium and Hydrocarbons in Au-Ag Ore Formation in the Rodnikovoe Low-Sulfidation (LS) Epithermal Deposit, Kamchatka Peninsula, Russia. Minerals, 12 (11) 1418 doi:10.3390/min12111418 Takahashi, R., Matsueda, H., & Okrugin, V. M. (2002). Hydrothermal gold mineralization at the Rodnikovoe deposit in South Kamchatka, Russia. Resource Geology, 52(4), 359-369. |
| Obushkov, A. V., Struzhkov, S. F., Natalenko, M. V., Ryzhov, O. B., Kryazhev, S. G., & Radchenko, Y. I. (2010). Geology and mineralogy of ore at the hidden Engteri Au-Ag deposit, the Magadan Region. Geology of Ore Deposits, 52(6), 459–478. doi:10.1134/s1075701510060036 |
| Savva, N. E., & Shakhtyrov, V. G. (2011). The Ol’cha gold-silver deposit: Tectonic setting, structure, and mineralogy. Geology of Ore Deposits, 53, 412-433. |
- Nizhne-taezhnyi ore cluster
| Ivin, VV, Medvedev, EI (2021) First Data on Isotopy and Mineralogical Features Ores Kumirnogo Silver Deposit (Russia, Primorsky Region) IOP Conference Series: Earth and Environmental Science, 720 (1) 12057 |
|
Uzbekistan | |
| Koneev, R.I., Turesebekov, A.H., Ignatikov, E.N., Vasilevsky, B.B., and Rakhimov, R.R. (2005), In: Jingwen Mao and Bierlein, F.P. (Eds.): Mineral Deposit Research: Meeting the Global Challenge, Vol. 1, 1403-1406 |
| Koneev, R.I., Turesebekov, A.H., Ignatikov, E.N., Vasilevsky, B.B., and Rakhimov, R.R. (2005), In: Jingwen Mao and Bierlein, F.P. (Eds.): Mineral Deposit Research: Meeting the Global Challenge, Vol. 1, 1403-1406 |
| Koneev, R.I., Turesebekov, A.H., Ignatikov, E.N., Vasilevsky, B.B., and Rakhimov, R.R. (2005), In: Jingwen Mao and Bierlein, F.P. (Eds.): Mineral Deposit Research: Meeting the Global Challenge, Vol. 1, 1403-1406 |
- Chatkal-Kuraminskii Range
| Rustam Koneev, Evgeniy Ignatikov, Arpay Turesebekov, Umid Aripov, Rustam Khalmatov, Obidjon Kodirov, Miraziz Usmanov (2005) Gold ore deposits of Uzbekistan: Geochemistry and nanomineralogy of tellurium and selenium. IGCP Project 486, 2005 Field Workshop, Kiten, Bulgaria, 14-19 September 2005 |
Koryu mine, Ishikari Subprefecture, Hokkaidō Prefecture, Japan