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China | |
| Zijin Mining Group Company Limited |
| Ma, Y., Jiang, S. Y., Frimmel, H. E., Duan, R. C., Zhu, L. Y., & Chen, R. S. (2022). Age and fluid source of the sub-volcanic Zhaiping Ag–Pb–Zn deposit in the eastern Cathaysia Block (Fujian Province, Southeastern China). Mineralium Deposita, 57(3), 439-454. |
| Li, S. N., Ni, P., Bao, T., Li, C. Z., Xiang, H. L., Wang, G. G., ... & Ding, J. Y. (2018). Geology, fluid inclusion, and stable isotope systematics of the Dongyang epithermal gold deposit, Fujian Province, southeast China: Implications for ore genesis and mineral exploration. Journal of Geochemical Exploration. |
| Min, Zhuang, Zhang, Wengao, Pan, Jiayong, Zhou, Zhenju, Huo, Hailong, Huang, Guangwen (2023) Structure–Fluid–Mineralization System of Jiadi Gold Deposit in Southwestern Guizhou, China. Minerals, 13 (7) doi:10.3390/min13070896 |
| Wang, Zhenzhen, Zhao, Zhidan, Wang, Sushan, Li, Xuping, Meng, Yuanku, Liu, Dong, Mo, Xuanxue, Cong, Fuyun (2023) Early cretaceous volcanic rocks in Sandaowanzi area constrain the geodynamics and magma fertility. Ore Geology Reviews, 158. 105473 doi:10.1016/j.oregeorev.2023.105473 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. |
| Mao, C., Lü, X., & Chen, C. (2019). Geochemical Characteristics of A-Type Granite near the Hongyan Cu-Polymetallic Deposit in the Eastern Hegenshan-Heihe Suture Zone, NE China: Implications for Petrogenesis, Mineralization and Tectonic Setting. Minerals, 9(5), 309. |
| Li, Xinhao, Xie, Guiqing, Gleeson, Sarah A., Mao, Jingwen, Ye, Zhenchao, Jin, Yilun (2023) Palladium, platinum, selenium and tellurium enrichment in the Jiguanzui-Taohuazui Cu-Au Deposit, Edong Ore District: Distribution and comparison with Cu-Mo deposits. Ore Geology Reviews, 154. 105335 doi:10.1016/j.oregeorev.2023.105335 |
- Chifeng City (Ulanhad League; Chifeng Prefecture)
- Bairin Left Banner (Balin Zuoqi)
| Wang, C., Li, J., & Wang, K. (2019). Fluid Inclusions, Stable Isotopes, and Geochronology of the Haobugao Lead‐Zinc Deposit, Inner Mongolia, China. Resource Geology, 69(1), 65-84. |
| Pei, Q. M., Li, C. H., Zhang, S. T., Zou, H., Liang, Y., Wang, L., ... & Cao, H. W. (2022). Vein-type fluorite mineralization of the Linxi district in the Great Xing'an Range, Northeast China: Insights from geochronology, mineral geochemistry, fluid inclusion and stable isotope systematics. Ore Geology Reviews, 104708. |
- Hulunbuir City (Hulunbei'er Prefecture)
- Ergun City (E'erguna Co.)
| Zhang, Guangliang, Xie, Wei, Wen, Shouqin, Zeng, Qingdong, Zhou, Lingli, Wang, Hui, Zhang, Kailun, Tang, Tieqiao, Ma, Pengcheng (2023) Ore Genesis of the Lower Urgen Porphyry Molybdenum Deposit in the Northern Great Xing’an Range, Northeast China: Constraints from Molybdenite Re-Os Dating, Fluid Inclusions, and H-O-S-Pb Isotopes. Minerals, 13 (9) doi:10.3390/min13091189 |
- Xilingol League (Xilinguole Prefecture)
- West Ujimqin Banner (Xiwuzhumuqin Co.)
| Ji, G., Jiang, S., Liu, Y., Zhang, L., & Li, Q. (2022). Geology, molybdenite Re-Os age, HOS-Pb isotopes, and fluid inclusion features of the Maodeng Mo-Bi-Sn-Cu deposit, Inner Mongolia. Ore Geology Reviews, 105157. |
- Haibei Tibetan Autonomous Prefecture
- Guomisi-Gadaban ore field
| Shao, Y., Tan, H., Peng, G., Zhang, J., Chen, J., Chen, Q., & Zhang, Y. (2019). Geology, Fluid Inclusions and Stable Isotopes of the Xialiugou Polymetallic Deposit in North Qilian, Northwest China: Constraints on its Metallogenesis. Minerals, 9(8), 478. |
- Haixi Mongol and Tibetan Autonomous Prefecture
| Qingfeng Ding, Wei Yan, Benlong Zhang. (2016) Sulfur- and lead-isotope geochemistry of the Balugou Cu-Pb-Zn skarn deposit in the Wulonggou area in the eastern Kunlun Orogen, NW China. Journal of Earth Science, 27(5): 740-750. doi: 10.1007/s12583-015-0574-3 |
| Zhang, Ming, Deng, Jun, Zhao, Zhixin, Liu, Chuanpeng, Li, Hua, Huang, Junjie, Liu, Yan, Zhao, Yanyan, Liu, Xiaoyang, Yao, Yonglin, Tan, Jun (2024) Genesis of the Hacipushanbei Pb-polymetallic deposit in the East Kunlun Orogen, NW China: Constraints from geochronology and in situ trace-elements and sulfur isotopes of sulfides. Ore Geology Reviews, 166. 105954 doi:10.1016/j.oregeorev.2024.105954 |
| Wang, Kai-Xing, Yang, Jianjun, Dai, Jia-Wen, Yu, Chi-Da, Liu, Xiao-Dong, Lei, Yong-Liang, Bonnetti, Christophe, Sun, Li-Qiang, Liu, Wen-Heng (2024) Petrogenesis of Paleozoic trachyte and rhyolite in the Haidewula area, East Kunlun Orogenic Belt, and their implications for uranium mineralization. Ore Geology Reviews, 167. 105963 doi:10.1016/j.oregeorev.2024.105963 |
| Zhang, Zheming, Qingdong Zeng, Tong Pan, Hailin Xie, Zhanhao Wei, Hongrui Fan, Jinjian Wu, Kuifeng Yang, Xinghui Li, and Gaizhong Liang. (2022) "Two Epochs of Mineralization of Orogenic Gold Deposit in the East Kunlun Orogenic Belt: Constraints from Monazite U–Pb Age, In Situ Sulfide Trace Elements and Sulfur Isotopes in Wulonggou Gold Field" Minerals 12, no. 8: 968. https://doi.org/10.3390/min12080968 |
| Wang, T., Lai, C., & Li, H. (2019). Geology and Genesis of Xianglushan Fe-Cu Orefield in Sichuan (SW China): Evidence from COS-Pb Isotopes. Minerals, 9(6), 338. |
| Ma, W., Liu, Y., Yang, Z., Huizenga, J. M., Li, Z., Zhao, M., ... & Zhao, S. (2022). Petrogenesis of the quartz diorite from the Lietinggang-Leqingla Pb-Zn-Fe-Cu-(Mo) deposit in southern Tibet: Implications for the genesis of a skarn-type polymetallic deposit in the Tibetan-Himalayan collisional orogen. Ore Geology Reviews, 145, 104920. |
- Lhünzhub Co. (Linzhou Co.)
| Ma, W., Liu, Y., Yang, Z., Huizenga, J. M., Li, Z., Zhao, M., ... & Zhao, S. (2022). Petrogenesis of the quartz diorite from the Lietinggang-Leqingla Pb-Zn-Fe-Cu-(Mo) deposit in southern Tibet: Implications for the genesis of a skarn-type polymetallic deposit in the Tibetan-Himalayan collisional orogen. Ore Geology Reviews, 145, 104920. |
- Maizhokunggar Co. (Mozhugongka Co.)
| Zhao, Xiaoyan, Yang, Zhusen, Zheng, Yuanchuan, Liu, Yingchao, Tian, Shihong, Fu, Qiang (2015) Geology and genesis of the post-collisional porphyry–skarn deposit at Bangpu, Tibet. Ore Geology Reviews, 70. 486-509 doi:10.1016/j.oregeorev.2014.09.014 |
| Chen, X., Zhang, L., Wang, X., Zou, S., Li, K., Zhu, Z. J., & Leng, C. B. (2022). Volatile evolution of magmas associated with the Bairong deposit, Tibet, and implications for porphyry Cu-Mo mineralization. Ore Geology Reviews, 105201. |
| Pang, Bei, Song Wu, Zezhang Yu, Yu Liu, Jianbing Li, Lei Zheng, Hao Chen, Xiaoxia Li, and Gongwen Shi. (2022) "Rapid Exploration Using pXRF Combined with Geological Connotation Method (GCM): A Case Study of the Nuocang Cu Polymetallic District, Tibet" Minerals 12, no. 5: 514. https://doi.org/10.3390/min12050514 |
| Liu, Jun, Li, Wenchang, Zhou, Qing, Cao, Huawen, Gao, Shunbao, Liu, Hong, Wang, Yiyun (2024) Major types, spatio-temporal distribution, and metallogenesis of magmatism-related polymetallic deposits in the Bangonghu–Nujiang metallogenic belt, Tibet. Ore Geology Reviews, 167. 105983 doi:10.1016/j.oregeorev.2024.105983 |
| Wu, Yong, Ming-Kuan Qin, Cai Zhang, Guo-Lin Guo, Dong-Fa Guo, Fei Liu, Wei-Wei Wu, and Jing-Sui Yang. (2022) "SIMS Zircon U-Pb Ages and O Isotope Compositions of Gabbro from the Laguoco Ophiolite from Western Shiquanhe–Yonzhu Suture Zone (Tibet) and Their Geological Significance" Minerals 12, no. 10: 1184. https://doi.org/10.3390/min12101184 |
- Bayin'gholin Autonomous Prefecture (Bayingolin Autonomous Prefecture; Bayinguoleng Autonomous Prefecture)
| Li, Yan, Jiang, Zongsheng, Wang, Dachuan, Zhang, Zuoheng, Duan, Shigang (2024) Genesis of the Beizhan Iron Deposit in Western Tianshan, China: Insights from Trace Element and Fe-O Isotope Compositions of Magnetite. Minerals, 14 (3) doi:10.3390/min14030304 |
- Bo'ertala Autonomous Prefecture (Börtala Autonomous Prefecture)
- Wenquan Co. (Arixang Co.; Arishang Co.)
| Liu, J., Mao, J. W., Lai, C. K., Wang, X. T., He, J. C., & Xie, H. J. (2022). Contrasting geochemical signatures between fertile and barren granites and multi-isotope (Sr–Nd–Pb–S–He) study in the Lamasu–Saibo deposit, NW China: Implications for petrogenesis and ore genesis. Ore Geology Reviews, 105114. |
| Liu, J., Mao, J. W., Lai, C. K., Wang, X. T., He, J. C., & Xie, H. J. (2022). Contrasting geochemical signatures between fertile and barren granites and multi-isotope (Sr–Nd–Pb–S–He) study in the Lamasu–Saibo deposit, NW China: Implications for petrogenesis and ore genesis. Ore Geology Reviews, 105114. |
- Hami Prefecture (Kumul Prefecture; Qumul Prefecture)
| Sun, Bingke, Lv, Xinbiao, Wang, Shouguo, Ulrich, Thomas, Dai, Zhihui, Ruan, Banxiao (2023) Evolution of an ancient VMS ore-forming system recorded by pyrite and sphalerite mineral texture, trace elements, and sulfur isotope: A case study from the Huangtupo Cu-Zn (-Au) deposit, Eastern Tianshan, NW China. Ore Geology Reviews, 158. 105475 doi:10.1016/j.oregeorev.2023.105475 |
- Kezilesu Autonomous Prefecture (Kizilsu Autonomous Prefecture; Qizilsu Autonomous Prefecture)
- Aketao Co. (Akto Co.; Aqto Co.)
| Zhang, Bang-Lu, Zhi-Cheng Lv, Zhi-Guo Dong, Xin Zhang, Xiao-Fei Yu, Yong-Sheng Li, Shi-Min Zhen, and Chang-Le Wang. (2022) "Source Characteristics of the Carboniferous Ortokarnash Manganese Deposit in the Western Kunlun Mountains" Minerals 12, no. 7: 786. https://doi.org/10.3390/min12070786 |
| Han, Z., Han, C., Xiao, W., Zhao, G., Wang, Z., Ao, S., ... & Wan, B. (2013). Palaeozoic porphyry Cu–Au and ultramafic Cu–Ni deposits in the eastern Tianshan orogenic belt: temporal constraints from U–Pb geochronology. International Geology Review, 55(7), 842-862. |
| Han, Z., Han, C., Xiao, W., Zhao, G., Wang, Z., Ao, S., ... & Wan, B. (2013). Palaeozoic porphyry Cu–Au and ultramafic Cu–Ni deposits in the eastern Tianshan orogenic belt: temporal constraints from U–Pb geochronology. International Geology Review, 55(7), 842-862. |
| Han, Z., Han, C., Xiao, W., Zhao, G., Wang, Z., Ao, S., ... & Wan, B. (2013). Palaeozoic porphyry Cu–Au and ultramafic Cu–Ni deposits in the eastern Tianshan orogenic belt: temporal constraints from U–Pb geochronology. International Geology Review, 55(7), 842-862. |
- Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
- Aletai Prefecture (Altay Prefecture)
| Yang, J., Yang, X., Yang, C., Li, Q., & Yang, F. (2022). Genesis of the Talate Pb–Zn (–Fe) deposit in the Altay, Xinjiang, NW China: Evidence from fluid inclusions and stable isotopes. Ore Geology Reviews, 144, 104864. |
- Chabucha'er Xibo Co. (Qapqal Xibe Co.; Chapchal Shibe Co.)
| Yu, J., Li, N., Zhang, B., Ulrich, T., Chen, X., Hand, M., ... & Chen, Y. J. (2022). Perspective of Permian porphyry Cu-Au mineralization in Chinese Western Tianshan: constraints from sulfide Re-Os dating and trace element study of the Kuruer deposit, Xinjiang. Ore Geology Reviews, 104707. |
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Cyprus | |
| Adamides, N. G. (2010). Mafic-dominated volcanogenic sulphide deposits in the Troodos ophiolite, Cyprus Part 2–A review of genetic models and guides for exploration. Applied Earth Science, 119(4), 193-204. |
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Indonesia | |
| Susanto, A., & Suparka, E. (2012). Hydrothermal alteration and mineralization of porphyry-skarn deposits in the Geunteut area, Nanggroe Aceh Darussalam, Indonesia. |
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Iran | |
| Tajeddin, H. A., Rastad, E., Yaghoubpour, A., Maghfouri, S., Peter, J. M., Goldfarb, R., & Mohajjel, M. (2019). The Barika gold-bearing Kuroko-type volcanogenic massive sulfide (VMS) deposit, Sanandaj-Sirjan zone, Iran. Ore Geology Reviews, 113, 103081. |
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Japan | |
| Arai, Shoji, Akihiro Tamura, Makoto Miura, and Kazuma Seike. (2018) "Abyssal Peridotite as a Component of Forearc Mantle: Inference from a New Mantle Xenolith Suite of Bankawa in the Southwest Japan Arc" Minerals 8, no. 11: 540. https://doi.org/10.3390/min8110540 |
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Russia | |
| Berdnikov, Nikolai, Nevstruev, Victor, Kepezhinskas, Pavel, Astapov, Ivan, Konovalova, Natalia (2021) Gold in Mineralized Volcanic Systems from the Lesser Khingan Range (Russian Far East): Textural Types, Composition and Possible Origins. Geosciences, 11 (2) 103pp. doi:10.3390/geosciences11020103 |
| Berdnikov, N.V., Nevstruev, V.G., Kepezhinskas, P.K., Mochalov, A.G., Yakubovich, O.V. (2020) PGE mineralization in andesite explosive breccias associated with the poperechny iron-manganese deposit (Lesser Khingan, Far East Russia): Whole-rock geochemical, 190Pt-4He isotopic, and mineralogical evidence. Ore Geology Reviews, 118. 103352 doi:10.1016/j.oregeorev.2020.103352 |
| Chayka, Ivan F., Nikolay I. Baykov, Vadim S. Kamenetsky, Anton V. Kutyrev, Evgenii V. Pushkarev, Adam Abersteiner, and Vasily D. Shcherbakov. (2023) "Volcano–Plutonic Complex of the Tumrok Range (Eastern Kamchatka): An Example of the Ural-Alaskan Type Intrusion and Related Volcanic Series" Minerals 13, no. 1: 126. https://doi.org/10.3390/min13010126 |
| Kostin, Aleksey (2021) Mineralization in the andesitic lava from Kildyam volcanic complex, central Yakutia, Russia. IOP Conference Series: Earth and Environmental Science, 906 (1) 12006pp. doi:10.1088/1755-1315/906/1/012006 |
| Vikentyev, I. V. (2015). Invisible and microscopic gold in pyrite: Methods and new data for massive sulfide ores of the Urals. Geology of ore deposits, 57(4), 237-265. |
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Uzbekistan | |
| Herrington, R. J., Achmedov, N. A., & Charter, W. J. (2005). The Khandiza Zn-Pb-Cu-Ag VMS deposit: Part of a new ‘Bathurst District’in southern Uzbekistan?. In Mineral Deposit Research: Meeting the Global Challenge (pp. 615-618). Springer, Berlin, Heidelberg. |