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| Chen, K., Shao, Y. J., Zhang, J. K., Zhang, Y., Tan, H. J., Zhang, Y. C., & Liu, Z. F. (2022). Garnet U-Pb geochronology and geochemistry reveal deposit types and fluid evolution: An example from the Dongguashan Cu-Au deposit, eastern China. Ore Geology Reviews, 145, 104883. |
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- Meixian Pb-Zn-(Ag) ore field
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| Chang, Su-Chin, Li, Yuling, Zheng, Daran (2023) Dating Amber: Review and Perspective. Minerals, 13 (7) doi:10.3390/min13070948 |
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| Yu, Junpeng, Yibu Wu, Chunhui Zhang, Haojia Si, Dongze Si, and Chengjun Zhang. (2023) "Mineral Characteristics and the Mineralization of Leptynite-Type Nb–Ta Ore Deposit in the Western Qilian Orogenic Belt" Minerals 13, no. 2: 218. https://doi.org/10.3390/min13020218 |
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| Zhou, H., Xiao, L., Dong, Y., Wang, C., Wang, F., & Ni, P. (2009). Geochemical and geochronological study of the Sanshui basin bimodal volcanic rock suite, China: implications for basin dynamics in southeastern China. Journal of Asian Earth Sciences, 34(2), 178-189. |
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| 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 |
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| Wang, Mingzhi, Han, Runsheng, Zhou, Weiwei, Wu, Shunchuan, Song, Danhui (2023) Active ages of metallogenic structures in the Liangyan lead–zinc deposit, northwestern Guizhou: Constraints from geometric, kinematic, and sphalerite Rb-Sr dating analyses. Ore Geology Reviews, 158. 105518 doi:10.1016/j.oregeorev.2023.105518 |
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| Bai, L. (2021) Tennantite–Tetrahedrite-Series Minerals and Related Pyrite in the Nibao Carlin-Type Gold Deposit, Guizhou, SW China. Minerals 11, 2.
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| Chen, J., Yang, R. D., Du, L. J., Zheng, L. L., Gao, J. B., Lai, C. K., ... & Yuan, M. G. (2018). Mineralogy, geochemistry and fluid inclusions of the Qinglong Sb-(Au) deposit, Youjiang basin (Guizhou, SW China). Ore Geology Reviews, 92, 1-18. |
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| Sun, Jun, Yunlong Liu, and Xiqiang Liu. (2021) "Iron Isotope Constraints on the Mineralization Process of Shazi Sc-Rich Laterite Deposit in Qinglong County, China" Minerals 11, no. 7: 737. https://doi.org/10.3390/min11070737 |
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| Wang, Guang-Ya, Xiao-Yan Yu, and Fei Liu. (2022) "Genesis of Color Zonation and Chemical Composition of Penglai Sapphire in Hainan Province, China" Minerals 12, no. 7: 832. https://doi.org/10.3390/min12070832 |
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| Zhang, Yu, Kefu Yu, and Handong Qian. (2018) "LA-ICP-MS Analysis of Clinopyroxenes in Basaltic Pyroclastic Rocks from the Xisha Islands, Northwestern South China Sea" Minerals 8, no. 12: 575. https://doi.org/10.3390/min8120575 |
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| FAN, Q., & HOOPER, P. R. (1991). The Cenozoic basaltic rocks of eastern China: petrology and chemical composition. Journal of petrology, 32(4), 765-810. |
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| Zhou, Danyi, Guanghai Shi, Suzhen Liu, and Bailing Wu. (2021) "Mineralogy and Magnetic Behavior of Yellow to Red Xuanhua-Type Agate and Its Indication to the Forming Condition" Minerals 11, no. 8: 877. https://doi.org/10.3390/min11080877 |
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| Ding, J., Deng, C., Feng, Y., Yang, Y., & Zhao, R. (2022). Contrasting tectonic regimes between Late Jurassic and Early Cretaceous porphyry-epithermal Cu-Mo-Au mineralization in NE China: A perspective from the petrogenesis of the adakitic rocks in the Sishanlinchang porphyry Cu-Mo deposit. Ore Geology Reviews, 105035. |
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| Chen, J. C., Hsu, C. N., & Ho, K. S. (2003). Geochemistry of Cenozoic volcanic rocks and related ultramafic xenoliths from the Jilin and Heilongjiang provinces, northeast China. Journal of Asian Earth Sciences, 21(9), 1069-1084.
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| Zhang, Lu, Jiang, Shao-Yong, Xiong, Suo-Fei, Duan, Deng-Fei (2018) Fluid Evolution of Fuzishan Skarn Cu-Mo Deposit from the Edong District in the Middle-Lower Yangtze River Metallogenic Belt of China: Evidence from Petrography, Mineral Assemblages, and Fluid Inclusions. Geofluids, 2018. 1-25 doi:10.1155/2018/9402526 |
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| Dai, J., Xu, D., Chi, G., Li, Z., Deng, T., Zhang, J., & Li, B. (2022). Origin of the Woxi Orogenic Au-Sb-W Deposit in the West Jiangnan Orogen of South China: Constraints from Apatite and Wolframite U-Pb Dating and Pyrite in-situ S-Pb Isotopic Signatures. Ore Geology Reviews, 105134. |
- Baotou City (Baotou Prefecture)
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- Chifeng City (Ulanhad League; Chifeng Prefecture)
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- Hulunbuir City (Hulunbei'er Prefecture)
- Ergun City (E'erguna Co.)
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| Liu, J., He, J. C., Lai, C. K., Wang, X. T., & Li, T. G. (2022). Time and Hf isotopic mapping of Mesozoic igneous rocks in the Argun massif, NE China: Implication for crustal architecture and its control on polymetallic mineralization. Ore Geology Reviews, 141, 104648. |
- New Barag Right Banner (Xin Barag Youqi)
| Liu, J., He, J. C., Lai, C. K., Wang, X. T., & Li, T. G. (2022). Time and Hf isotopic mapping of Mesozoic igneous rocks in the Argun massif, NE China: Implication for crustal architecture and its control on polymetallic mineralization. Ore Geology Reviews, 141, 104648.
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- Old Barag Banner (Chenba'erhu Co.)
| Liu, J., He, J. C., Lai, C. K., Wang, X. T., & Li, T. G. (2022). Time and Hf isotopic mapping of Mesozoic igneous rocks in the Argun massif, NE China: Implication for crustal architecture and its control on polymetallic mineralization. Ore Geology Reviews, 141, 104648. |
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- 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. |
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- Haixi Mongol and Tibetan Autonomous Prefecture
- Da Qaidam (Dachaidan Co.)
| Yang, Hui, Sun, Huashan (2023) Microfabrics, In Situ Trace Element Compositions of Pyrite, and the Sulfur Isotope Chemistry of Sulfides from the Xitieshan Pb-Zn Deposit, Qinghai Province, Northwest China: Analysis and Implications. Minerals, 13 (12) doi:10.3390/min13121549 |
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| 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 |
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- Golmud City (Ge'ermu Co.)
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| Sun, Yumeng, Zhang, Liang, Yang, Liqiang, Li, Dapeng, Zhang, Yan, Li, Zengsheng, Chen, Guodong, Sun, Xiujin, Wang, Haoshuai, Wang, Yiqi (2024) Mineralogical Characteristics and Genesis of Trapiche-like Sapphire in Changle, Eastern North China Craton. Minerals, 14 (4) doi:10.3390/min14040364 |
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| Sun, H., Wu, P., Li, H., Wang, Y., Danišík, M., Li, Z., ... & Wu, H. (2022). Comparison of the exhumed history and magnitude between Jiaojia and Linglong goldfields in the Jiaodong gold Province, North China: Constraints from zircon and apatite (U-Th)/He data. Ore Geology Reviews, 144, 104857. |
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- Garzê Autonomous Prefecture (Ganzi Autonomous Prefecture)
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- 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. |
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- Shannan Prefecture (Lhokha Prefecture; Lhoka Prefecture)
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- Bayin'gholin Autonomous Prefecture (Bayingolin Autonomous Prefecture; Bayinguoleng Autonomous Prefecture)
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- Bo'ertala Autonomous Prefecture (Börtala Autonomous Prefecture)
- Wenquan Co. (Arixang Co.; Arishang Co.)
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- Changji Autonomous Prefecture (Sanji Autonomous Prefecture)
- Qitai Co. (Gucheng Co.; Guqung Co.)
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- Hami Prefecture (Kumul Prefecture; Qumul Prefecture)
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- Kashi Prefecture (Kashgar Prefecture; Qeshqer Prefecture)
- Jiashi County (Peyziwat Co.; Payzawat Co.)
| Chen, Mi-Mi, Tian, Wei, Suzuki, Katsuhiko, Tejada, M.-L.-G., Liu, Feng-Lin, Senda, Ryoko, Wei, Chun-Jing, Chen, Bin, Chu, Zhu-Yin (2014) Peridotite and pyroxenite xenoliths from Tarim, NW China: Evidences for melt depletion and mantle refertilization in the mantle source region of the Tarim flood basalt. Lithos, 204. 97-111 doi:10.1016/j.lithos.2014.01.005 |
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- Wulumuqi Prefecture (Ürümqi Prefecture; Ürümchi Prefecture)
- Wulumuqi Co. (Ürümqi Co.; Ürümchi Co.)
| Song, Yujia, Liu, Xijun, Xiao, Yao, Liu, Xiao, Tian, Hao (2023) Clinopyroxene Compositions of E-MORB-Type Gabbro from Bingdaban Ophiolites in Central Tianshan, NW China: Insights into the Evolution of the Magmatic System and Geodynamic Setting. Minerals, 13 (9) doi:10.3390/min13091232 |
- Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
- Aletai Prefecture (Altay Prefecture)
| Zhang, Zhenlong, Zhang, Zhixin, Yang, Fuquan, Yang, Chengdong (2024) Co enrichment and Au–Cu–Co association in the Yundukala deposit in East Junggar, NW China: An in situ LA-ICP-MS study. Ore Geology Reviews, 167. 105986 doi:10.1016/j.oregeorev.2024.105986 |
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| Wang, Zhaolin, Yan, Jiayong, Tang, Hejun, Xiao, Yandong, Deng, Zhen, Meng, Guixiang, Sun, Hui, Qi, Yaogang, Yuan, Lulu (2023) Geochemistry and Mineralogy of Peridotites and Chromitites from Zhaheba Ophiolite Complex, Eastern Junggar, NW China: Implications for the Tectonic Environment and Genesis. Minerals, 13 (8) doi:10.3390/min13081074 |
- Habahe Co. (Kaba Co.; Qaba Co.)
| Yang, Yu, Zhang, Huishan, Yang, Xiaoyong, Sun, Chao, Ren, Guangli, Li, Yanguang, Chen, Bo, Jin, Mengqi, Zhao, Xiaojian, Zhou, Ningchao (2024) Evolution of the hydrothermal ore-forming system of Ashele VMS-type Cu-Zn deposit in Xinjiang, NW China: Insights from mineralogy and geochemistry of sulfides. Ore Geology Reviews, 167. 105977 doi:10.1016/j.oregeorev.2024.105977 |
- Nileke Co. (Nilka Co.; Nilqa Co.)
| Zhao, X., Xue, C., Chi, G., Zhao, Y., & Yan, Y. (2018). Diabase-hosted copper mineralization in the Qunjsai deposit, West Tianshan, NW China: Geological, geochemical and geochronological characteristics and mineralization mechanism. Ore Geology Reviews, 92, 430-448. |
- Tacheng Prefecture (Tarbaghatay Prefecture)
- Sartohay (Sartokay; Sartuohai; Saertuohai)
| Zhang, H., Zhu, Y., Salvi, S., Wu, Y., & Gilbert, S. (2022). Complex fluid source of the multistage pyrite-bearing Huilvshan gold deposit (west Junggar, NW China): Insight from pyrite texture, sulfur isotope and trace element compositions. Ore Geology Reviews, 149, 105081. |
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- Machangqing Cu-Mo-Au ore field (Baoxingchang Cu-Mo-Au ore field)
| Fu, Yu, Xiaoming Sun, Dengfeng Li, Hai Lin, and Chunkit Lai. (2017) "LA-ICP-MS U-Th-Pb Dating and Trace Element Geochemistry of Allanite: Implications on the Different Skarn Metallogenesis between the Giant Beiya Au and Machangqing Cu-Mo-(Au) Deposits in Yunnan, SW China" Minerals 7, no. 12: 251. https://doi.org/10.3390/min7120251 |
- Dêqên Autonomous Prefecture
- Dêqên County (Deqin Co.; Diqing Co.)
| Xie, S., Yang, L., He, W., & Gao, X. (2022). Garnet trace element geochemistry of Yangla Cu deposit in NW Yunnan, China: Implications for multistage ore-fluid activities in skarn system. Ore Geology Reviews, 141, 104662. |
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| Wei, Chen, Lin Ye, Zhilong Huang, Wei Gao, Yusi Hu, Zhenli Li, and Jiawei Zhang. (2018) "Ore Genesis and Geodynamic Setting of Laochang Ag-Pb-Zn-Cu Deposit, Southern Sanjiang Tethys Metallogenic Belt, China: Constraints from Whole Rock Geochemistry, Trace Elements in Sphalerite, Zircon U-Pb Dating and Pb Isotopes" Minerals 8, no. 11: 516. https://doi.org/10.3390/min8110516 |
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| Liang, Xingyu, Li, Bo, Zhang, Xinyue, Qin, Huaikun, Li, Gao (2024) Fluid Mixing, Organic Matter, and the Origin of Permian Carbonate-Hosted Pb-Zn Deposits in SW China: New Insights from the Fuli Deposit. Minerals, 14 (3) 312 doi:10.3390/min14030312 |
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| Gong, Hongsheng, Han, Runsheng, Wu, Peng, Chen, Gang, Ma, Ling (2023) Metallogenic Model for Pb-Zn Deposits in Clastic Rocks of the Dahai Mining Area, Northeast Yunnan: Evidence from H-O-S-Sr-Pb Isotopes. Minerals, 13 (10) 1343 doi:10.3390/min13101343 |
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| Chen, Q., Xia, J., Zhao, Z., Zhou, J., Zhu, R., Zhang, R., ... & Zhang, G. (2022). Interpretation of hydrothermal alteration and structural framework of the Huize Pb–Zn deposit, SW China, using Sentinel-2, ASTER, and Gaofen-5 satellite data: implications for Pb–Zn exploration. Ore Geology Reviews, 105154. |
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