Altaite from Amur Plate


China
Beijing Huairou District ⓘ Detiangou Au deposit	Yanhe Cui, Shaomei Qi, Mingsheng Peng, and Bin Shi (1994): Mineral Deposits 13(3), 261-270
Hebei Chengde Xinglong County ⓘ Dongzigou Ag-Cu deposit	Yingfu Zhao and Zengyao Lu (2004): Mineral Resources and Geology 18(3), 212-216
Zhangjiakou Chongli District Shuiquangou Complex Dongping Au-Te ore field ⓘ Dongping Mine	Wang, Chengyang, Jiajia Yu, Yunsheng Ren, Junkang Zhao, and Zhenjun Sun. (2022) "Ore Genesis of the Dongping Gold Deposit in the Northern Margin of North China Craton: Constraints from In-Situ Major, Trace Elemental Analysis of Magnetite and Pyrite" Minerals 12, no. 8: 978. https://doi.org/10.3390/min12080978 Wang, Chengyang, Jiajia Yu, Yunsheng Ren, Junkang Zhao, and Zhenjun Sun. (2022) "Ore Genesis of the Dongping Gold Deposit in the Northern Margin of North China Craton: Constraints from In-Situ Major, Trace Elemental Analysis of Magnetite and Pyrite" Minerals 12, no. 8: 978. Wang, D., Liu, J., Zhai, D., Carranza, E. J., Wang, Y., Zhen, S., ... & Zhang, F. (2019). Mineral Paragenesis and Ore‐Forming Processes of the Dongping Gold Deposit, Hebei Province, China. Resource Geology, 69(3), 287-313. Cisse, M., Lü, X., Adam, M. M. A., Palinkaš, L., & Thomas, A. J. (2018). Genesis of Dongping Gold-telluride Deposit Based on Geochemical Characteristics of Fluids, 40Ar/39Ar Dating, Stable and Radiogenic Isotopes (North China). Geologica Macedonica, 32(2), 119. Gao, S., Xu, H., Zhang, D., Shao, H., & Quan, S. (2015). Ore petrography and chemistry of the tellurides from the Dongping gold deposit, Hebei Province, China. Ore Geology Reviews, 64, 23-34. Zaihong Yang (2003): Geology and Prospecting 39(2), 34-39 Peihua Zhang, Jinchu Zhu, Zhenhua Zhao, Long Lu, and Di Liu (2002): Mineral Deposits 21(suppl.), 783-786 Fengjun Nie (1998): Resource Geology 48(3), 139-158 Debao Mao (1992): Geology and Prospecting 28(9), 13-17 Guanxiang Song (1991): Geology and Prospecting 27(8), 1-8
Heilongjiang Heihe Aihui District ⓘ Sandaowanzi Mine (Shandaowanzi Mine)	Gao, S., Hofstra, A. H., Qin, K., & Xu, H. (2022). A case of Te-rich low-sulfidation epithermal Au-Ag deposits in a calc-alkaline magmatic arc, NE China. Ore Geology Reviews, 105158. Zhai, D., Williams-Jones, A. E., Liu, J., Tombros, S. F., & Cook, N. J. (2018) Mineralogical, fluid inclusion, and multiple isotope (HOS-Pb) constraints on the genesis of the Sandaowanzi epithermal Au-Ag-Te deposit, NE China. Economic Geology, 113(6), 1359-1382. Zhai, D., Liu, J., Ripley, E. M., & Wang, J. (2015). Geochronological and He–Ar–S isotopic constraints on the origin of the Sandaowanzi gold-telluride deposit, northeastern China. Lithos, 212, 338-352. Zhai, D., & Liu, J. (2014). Gold-telluride-sulfide association in the Sandaowanzi epithermal Au-Ag-Te deposit, NE China: implications for phase equilibrium and physicochemical conditions. Mineralogy and Petrology, 108(6), 853-871. Xuxing Yu, Hong Xu, Xiangke Wu, Lijun Yang, Zhu Tian, Shen Gao, and Qiushu Wang (2012): Acta Petrologica Sinica 28(1), 345-356 Siyu Han, Degao Zhai, Jiajun Liu, Jun Lü, Shenghua Wu, and Longbo Yang (2011): Mineral Deposits 30(5), 855-866 Jun Lü, Xuguang Liu, Zhenzhe Han, Aikui Zhang, Handong Zhao, and Derong Li (2009): Geology and Exploration 45(4), 395-401
Xunke County ⓘ Dong'an Au deposit	Gao, S., Hofstra, A. H., Qin, K., & Xu, H. (2022). A case of Te-rich low-sulfidation epithermal Au-Ag deposits in a calc-alkaline magmatic arc, NE China. Ore Geology Reviews, 105158.
Jilin Baishan Hunjiang District ⓘ Liuijiapuzi-Langdonggou Au-Ag deposit	Keevil, Halley A., Monecke, Thomas, Goldfarb, Richard J., Feng, Tao (2022) Metallogeny of the Hunjiang basin, northeastern North China block. Ore Geology Reviews, 148. 104995 doi:10.1016/j.oregeorev.2022.104995
Jilin Huadian City ⓘ Jiapigou ore field	Fengtong Zhao, Guangrong Xu, Yilin Liang, and Hongguang Zhao (1995): Geology and Prospecting 31(6), 1-7
Yanbian Chaoxianzu Antu County ⓘ Haigou Mine	Zhiming Li, Changjiang Zhang, Zongting Liao, and Jianzhong Qin (2005): Geology and Resources 14(2), 111-117 Shouzhong Feng (1998): Journal of Precious Metallic Geology 7(4), 288-292

Japan
Hyogo Prefecture Toyooka City ⓘ Takeno mine	Afifi, Abdulkader M., Kelly, William C., Essene, Eric J. (1988) Phase relations among tellurides, sulfides, and oxides; Pt. II, Applications to telluride-bearing ore deposits. Economic Geology, 83 (2) 395-404 doi:10.2113/gsecongeo.83.2.395 Ishibashi, Masao (1960) Au-Ag-tellurides from the Date mine, Hokkaido, Japan. Memoirs of the Faculty of Engineering, Hokkaido University, 11 (1) Hokkaido University. 73-84 Okamoto collection (Geological Survey museum, Japan) 395-404.
Okayama Prefecture Ibara City Higashi-Mihara ⓘ Mihara mine
Kume District Misaki-cho ⓘ Yanahara mine (Yanahara mining district)	Kase, Katsuo, Kusachi, Isao, Kishi, Shigetomo (1993) Rucklidgeite solid-solution in the Yanahara Deposit, Japan. The Canadian Mineralogist, 31 (1) 99-104

Russia
Amur Oblast Urusha-Oldoi ore district ⓘ Berezitovy mine (Berezitovoe; Konstantinovskii)	Nordgold
Khabarovsk Krai ⓘ Malmyzh porphyry copper project	Буханова, Д. С. (2018). ТЕЛЛУРИДЫ В РУДАХ МАЛМЫЖСКОГО ЗОЛОТО-МЕДНОПОРФИРОВОГО МЕСТОРОЖДЕНИЯ, НИЖНЕЕ ПРИАМУРЬЕ. Сопредседатели оргкомитета, 91.
ⓘ Mnogovershinnoe Au-Ag deposit	webmineral.ru (2021) http://webmineral.ru/deposits/item.php?id=4178 Fats’yanov, I. I., Khomich, V. G., & Boriskina, N. G. (2010, November). Hidden mineralogical and geochemical zonation of low-sulfide gold—silver mineralization (Mnogovershinnoe deposit, lower amur area). In Doklady Earth Sciences (Vol. 435, No. 1, pp. 1456-1459). SP MAIK Nauka/Interperiodica.
Tuguro-Chumikansky District ⓘ Kutyn gold-bearing deposit	Marian, A.M., Badanina, E.V., Anisimov, I.S. (2022): Ore Mineralization of the Gold-Bearing Kutyn Deposit, Khabarovsk Region. Zapiski RMO, 151(3), 16-36.
Primorsky Krai Olginsky District ⓘ Shirokopadninskaya area	Perevoznikova, E. V., & Miroshnichenko, N. V. (2009). Tausonite and aluminum-fluorine titanite from the metamorphosed metalliferous sediments of the Triassic chert formation of the Sikhote Alin. Russian Journal of Pacific Geology, 3(3), 294-297.
Zabaykalsky Krai Tungokochensky District Vershino-Darasunskiy ⓘ Darasun mine	Lyubimtseva, N. G., Bortnikov, N. S., Borisovsky, S. E., Prokofiev, V. Y., & Vikent’eva, O. V. (2018). Fahlore and Sphalerite from the Darasun Gold Deposit in the Eastern Transbaikal Region, Russia: I. Mineral Assemblages and Intergrowths, Chemical Composition, and Its Evolution. Geology of Ore Deposits, 60(2), 93-120.

South Korea
South Chungcheong Province ⓘ Yuryang deposit	Heo, C. H. (2007) Fluid Inclusion Study of Gold Mineralization at the Yuryang Mine, Korea. 한국지구시스템공학회지Vol. 44, No. 1 (2007) pp. 20-27 Pak, S. J., Choi, S. G., Oh, C. W., Kim, S. W., & Wee, S. M. (2005). Genetic environment of the Yuryang Te-bearing Au deposit: Batholith-type orogenic Au mineralization in Korea. In Mineral Deposit Research: Meeting the Global Challenge (pp. 1029-1031). Springer Berlin Heidelberg.
South Jeolla Province Hwasun County Seongsan ⓘ Moisan Mine	Choi, S-G., Ryu, I-C., Pak, S.J., Wee, S-M., Kim, C.S., Park, M-E. (2005) Cretaceous epithermal gold–silver mineralization and geodynamic environment, Korea. Ore Geology Reviews, 26, 115-135.

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