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China | |
- Akesu Prefecture (Aksu Prefecture; Aqsu Prefecture)
| Yang, Z., & Woolley, A. (2006). Carbonatites in China: a review. Journal of Asian Earth Sciences, 27(5), 559-575.
Fuwen, C., Huaqin, L., & Yuanfa, L. (2002). Temporo?spatial distribution of rare metal and REE deposits in Xinjiang, Northwest China. Acta Geologica Sinica?English Edition, 76(4), 478-487. |
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| Xie, Mingcai, Fan, Hongrui, Asamoah Sakyi, Patrick, Yang, Kuifeng, Li, Xinghui, She, Haidong, Liang, Gaizhong, Han, Chunming (2024) Mineralizations of Nb-Ta-Rb-Zr and rare-earth elements in Boziguoer, South Tianshan, NW China: Geochronology and geochemistry of monazite and bastnΓ€site. Ore Geology Reviews, 168. 106034 doi:10.1016/j.oregeorev.2024.106034
Sun, Zhenghao, Kezhang Qin, Yajing Mao, Dongmei Tang, Fangyue Wang, Noreen J. Evans, and Qifeng Zhou. (2022) "Mineral Chemistry of Pyrochlore Supergroup Minerals from the Boziguoer Nb-Ta-Zr-Rb-REE Deposit, NW China: Implications for Nb Enrichment by Alkaline Magma Differentiation" Minerals 12, no. 7: 785. https://doi.org/10.3390/min12070785 |
- Bayin'gholin Autonomous Prefecture (Bayingolin Autonomous Prefecture; Bayinguoleng Autonomous Prefecture)
| Duan, Shigang, Jiang, Zongsheng, Luo, Wenjuan (2024) Geochronology and Geochemistry of Volcanic and Intrusive Rocks from the Beizhan Iron Deposit, Western Xinjiang, NW China: Petrogenesis and Tectonic Implications. Minerals, 14 (1) doi:10.3390/min14010016 |
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| Wuhan Huaze Science & Technology Development Co. Ltd., 2007 |
- Lopnur Co. (Yuli Co.; Weili Co.)
| Lei, R. X., Wu, C. Z., Zhang, K., Yang, X. F., & Ye, H. (2022). Depositional environment and genesis of the Paleoproterozoic Astingbulake banded iron formations from the Quruqtagh Block, Northeast Tarim Craton. Ore Geology Reviews, 104946. |
- Qiemo Co. (Qerqen Co.; Cherchen Co.)
| Youdong Shi, Anshun Zhou, Tianmin Zhang, and Niangui Yu (2005): Jilin Geology 24(2), 40-43, 49 |
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| Huang, Y. Q., Wu, M. Q., Germain, B., Yu, H. C., Qiao, B. X., Zhao, Z. G., & Qiu, K. F. (2021). Geodynamic setting and ore formation of the Younusisayi thorium deposit in the Altyn orogenic belt, NW China. Ore Geology Reviews, 104552. |
- Ruoqiang Co. (Qakilik Co.; Chaqiliq Co.)
| Wang, C., Zhou, M., Zhong, L., & Li, D. (2021). Garnet and titanite UβPb dating of the Kaladawan FeβMo orefield in the Altyn Mountains, NW China: Constrains for ore genesis. Ore Geology Reviews, 104575. |
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| Li, Hang, Hong, Tao, Liu, Shanke, Ke, Qiang, Yang, Zhiquan, Ma, Yince, Wang, Xuehai, Niu, Lei, Kang, Kai, Xu, Xingwang (2023) Genesis of the Graphite from the Tugeman Graphite Deposit, Xinjiang, China: Evidence for Carbon Isotope Refining by Fluids Associated with the Ductile Shear Zone. Minerals, 13 (10) doi:10.3390/min13101328 |
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| [var. Perthite] Zhang Anda, Liu Liang, Sun Yong, Chen Danling, Wang Yan, and Luo Jinhai (2004): Chinese Science Bulletin 49(23), 2527-2532. |
- Bo'ertala Autonomous Prefecture (BΓΆrtala Autonomous Prefecture)
- Wenquan Co. (Arixang Co.; Arishang Co.)
| Jiang, Z., Zhang, Z., Duan, S., Lv, C., & Dai, Z. (2021). Genesis of the sediment-hosted Haerdaban Zn-Pb deposit, Western Tianshan, NW China: constraints from textural, compositional and sulfur isotope variations of sulfides. Ore Geology Reviews, 104527. |
- Changji Autonomous Prefecture (Sanji Autonomous Prefecture)
| [var. Perthite] Sun, Li, , , Xu, Cui-ping, Xiao, Ke-yan, Zhu, Yu-sheng, Yan, Ling-ya, , , , , , (2018) Geological characteristics, metallogenic regularities and the exploration of graphite deposits in China. China Geology, 1 (3). 424-433 doi:10.31035/cg2018044 |
- Qitai Co. (Gucheng Co.; Guqung Co.)
| Bin Xu, Yanming Lu, Xuexiang Gu, and Wenzhong Zhang (2010): Earth Science Frontiers 17(4), 227-240 |
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| Yang, Fuquan, Mao, Jingwen, Bierlein, Frank P., Pirajno, Franco, Zhao, Caisheng, Ye, Huishou, Liu, Feng (2009) A review of the geological characteristics and geodynamic mechanisms of Late Paleozoic epithermal gold deposits in North Xinjiang, China. Ore Geology Reviews, 35 (2) 217-234 doi:10.1016/j.oregeorev.2008.09.003 |
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| [var. Perthite] Yuping Su, Hongfeng Tang, Sylvester, P.J., Congqiang Liu, Wenjun Qu, Guangshun Hou, and Feng Cong (2007): Geochemical Journal 41, 341-357 |
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| Bin Xu, Yanming Lu, Xuexiang Gu, and Wenzhong Zhang (2010): Earth Science Frontiers 17(4), 227-240 |
- Hami Prefecture (Kumul Prefecture; Qumul Prefecture)
- Huangshan-Jing'erquan ore belt
| Wang, Di, Xue, Chunji, Zhao, Yun, Li, Chao, Xi, Binbin, Yang, Yang, Tian, Qinglei, Kang, Xunshan, Wu, Xing (2023) Ore Genesis and the Magmatism of the Yuhaixi Mo(Cu) Deposit in Eastern Tianshan, NW China: Constraints from Geology, Geochemistry, Zircon U-Pb and Molybdenite Re-Os Dating. Minerals, 13 (11) doi:10.3390/min13111368 |
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| Zhengen Zhang and Li Ma (1994): Gold Science and Technology 2(2), 9-16 |
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| [var. Perthite] Jilu Mu, Yan Sun, and Juxing Tang (2002): Mineral Deposits 21(suppl.), 439-442 |
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| Zhou, Z., Chen, Z., Zhang, W., Huo, H., Liu, B., Yan, Q., & Li, J. (2022). Geology, CHO isotopes, and muscovite 40Ar-39Ar dating of the Qingbaishan gold deposit: Implications for tectonism and metallogenesis of early Devonian gold deposits in the Beishan orogen, NW China. Ore Geology Reviews, 145, 104895. |
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| Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Zhi, J., Lei, R., Chen, B., Muhtar, M. N., Feng, Z., Zhang, K., ... & Wu, C. (2021). Zircon genesis and geochronology for the Zhangbaoshan super-large rubidium deposit in the Eastern Tianshan, NW China: Implication to magmatic-hydrothermal evolution and mineralization processes. Frontiers in Earth Science, 9, 682720. |
- Dahongliutan pegmatite field
| Zhang, X. Y., Wang, H., & Yan, Q. H. (2022). Garnet geochemical compositions of the Bailongshan lithium polymetallic deposit in Xinjiang Province: Implications for magmatic-hydrothermal evolution. Ore Geology Reviews, 105178. |
- Pishan Co. (Pixina Co.; Guma Co.)
| Yao, Jun-Ming, Li, Feng-Ling, Ma, Guan-Zhong, Zhang, Xue-Bin, Hou, Ke-Jun, Yang, Hong-Yun, Li, Nuo (2024) Tourmaline chemical composition and boron isotopic composition at the Longmenshan pegmatite in Dahongliutan area, West Kunlun: Implication for rare-metal Li-Be mineralization. Ore Geology Reviews, 167. 105987 doi:10.1016/j.oregeorev.2024.105987 |
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| Zhang, Z., Xiao, X., Wang, J., Wang, Y., & Kusky, T. M. (2008). Post-collisional Plio-Pleistocene shoshonitic volcanism in the western Kunlun Mountains, NW China: Geochemical constraints on mantle source characteristics and petrogenesis. Journal of Asian Earth Sciences, 31(4-6), 379-403. |
- Kashi Prefecture (Kashgar Prefecture; Qeshqer Prefecture)
- Bachu Co. (Maralbexi Co.; Maralbeshi Co.)
| [var. Perthite] Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
- Tashiku'ergan Co. (Taxkorgan Co.; Tashqurqan Co.)
| Michelou, Jean & Pardieu, Vincent. (2009). A Glimpse of the New Fine Emerald Deposit at Xinjiang's Davdar Mine. InColor Spring 2009 pp 26-31 |
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| Li, Z., Zhou, Y., Yu, P., Zhang, L., Wei, W., Li, Y., ... & Robbins, L. J. (2022). Geology and geochemistry of the high-grade Zankan magnetite ore, Western Kunlun Mountains, NW China. Ore Geology Reviews, 105129. |
- Kezilesu Autonomous Prefecture (Kizilsu Autonomous Prefecture; Qizilsu Autonomous Prefecture)
- Aheqi Co. (Akqi Co.; Aqchi Co.)
| Yang, Fuquan, Mao, Jingwen, Wang, Yitian, Bierlein, Frank P. (2006) Geology and geochemistry of the Bulong quartzβbarite vein-type gold deposit in the Xinjiang Uygur Autonomous Region, China. Ore Geology Reviews, 29 (1) 52-76 doi:10.1016/j.oregeorev.2005.07.033 |
- Aketao Co. (Akto Co.; Aqto Co.)
| Jingchun Wang and Nan Fang (2005): Geology and Prospecting 41(6), 52-54 |
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| 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 |
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| Li, X. Y., Wang, E. J., Wu, C. Q., Zhao, D. H., Hua, B., Zhang, Z. W., ... & Jin, Z. R. (2022). The redox-conditions controlled manganese carbonate mineralization in the Late Paleozoic Qiaerlong deep basin, Western Kunlun Mountains, China. Ore Geology Reviews, 147, 104993. |
- Wuqia Co. (Ulugqat Co.; Ulughchat Co.)
| www.secinfo.com (n.d.) http://www.secinfo.com/dV768.v8y.htm |
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| China Shenzhou Mining & Resources Inc., US SEC 8-K Report, Sep 15, 2006. |
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| Zhong, S., Seltmann, R., & Shen, P. (2017). Two different types of granitoids in the Suyunhe large porphyry Mo deposit, NW China and their genetic relationships with molybdenum mineralization. Ore Geology Reviews, 88, 116-139.
Cao, C., Shen, P., Li, C., & Zheng, G. (2017). Fluid inclusions and CHOS isotope systematics of early Permian porphyry Mo mineralization of the West Junggar region, NW China: the Suyunhe example. International Geology Review, 59(9), 1195-1217. |
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| Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Peng, Xinjian, Maozhong Min, Haiming Qiao, Jinping Wang, and Mostafa Fayek. (2016) "Uranium-Series Disequilibria in the Groundwater of the Shihongtan Sandstone-Hosted Uranium Deposit, NW China" Minerals 6, no. 1: 3. https://doi.org/10.3390/min6010003 |
- Yili Hasake Autonomous Prefecture (Ili Kazakh Autonomous Prefecture)
- Aletai Prefecture (Altay Prefecture)
- Dakalasu Mine (Dahalasu Mine)
| Suo, Qingyu, Ping Shen, Yaoqing Luo, Changhao Li, Haoxuan Feng, Chong Cao, Hongdi Pan, and Yingxiong Bai. (2022) "Beryl Mineralogy and Fluid Inclusion Constraints on the Be Enrichment in the Dakalasu No.1 Pegmatite, Altai, NW China" Minerals 12, no. 4: 450. https://doi.org/10.3390/min12040450 |
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| Xinxia Geng, Fuquan Yang, Fengmai Chai, Min Liu, Xuji Guo, Zhenglin Guo, Feng Liu, and Zhixin Zhang (2012): Mineral Deposits 31(5), 1119-1131 |
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| Jiaxing Li and Yiqiu Yin (2006): Geology and Prospecting 42(1), 7-11 |
- Bu'erjin Co. (Burqin Co.; Burchin Co.)
| Denghong Wang, Yuchuan Chen, and Zhigang Xu (2001): Acta Geologica Sinica 80(3), 419-425 |
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| [var. Perthite] Tong, Y., Wang, T., Siebel, W., Hong, D. W., & Sun, M. (2012). Recognition of early Carboniferous alkaline granite in the southern Altai orogen: post-orogenic processes constrained by UβPb zircon ages, Nd isotopes, and geochemical data. International Journal of Earth Sciences, 101(4), 937-950. |
- Fuhai Co. (Burultokay Co.)
| Zhang, X. B., Chai, F. M., Wang, W., Qi, D. M., & Liu, Y. T. (2022). Geochronology, geochemistry, and Sr-Nd-Hf isotopic compositions of Permian granitoids from the South Altay, NW China: Implications for tungsten-copper skarn mineralization. Ore Geology Reviews, 105101. |
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| [var. Perthite] Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Bin Xu, Yanming Lu, Xuexiang Gu, and Wenzhong Zhang (2010): Earth Science Frontiers 17(4), 227-240 |
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| Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Yong Wang (2008): Xinjiang Nonferrous Metals 31(2), 15-17 |
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| Sun, C., Yang, X., Zhang, H., Ji, W., Chen, B., Dong, Z., ... & Xi, D. (2022). Tracing the formation and modification of the Keketale VMS-type Pb-Zn deposit, Altai Mountains: Insights from ore deposit geology, geochronology, and magnetite geochemistry. Ore Geology Reviews, 144, 104852. |
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| [var. Perthite] Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Wang, Mengtao, Zhang, Xin (2023) Petrogenesis of Devonian and Permian Pegmatites in the Chinese Altay: Insights into the Closure of the Irtysh–Zaisan Ocean. Minerals, 13 (9) doi:10.3390/min13091127 |
- 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 |
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| Wei Xiaofeng, Xu Jiuhua, Shan Lihua, Wang Linlin, Chen Dongliang, Zhang Rui, Lin Longhua, and Kong Lingrui1 (2008), In: Bortnikov, N.S. (ed.): Proceedings of the XIII International conference on thermobarogeochemistry and IVth APIFIS symposium, Vol. 1, IGEM RAS Publishing (Moscow). |
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| Xia, Fang, Li, Shunda, Gao, Lingling, Chen, Chuan (2022) Geochemistry, Zircon UβPb Ages, and Hf Isotopes of the Devonian Mafic and Acidic Dykes of the Jinba Gold Deposit, NW China: Petrogenesis and Tectonic Implications. Minerals, 12 (7) 871 doi:10.3390/min12070871 |
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| wrgis.wr.usgs.gov (2004) http://wrgis.wr.usgs.gov/open-file/of03-220/DATABASE/lode_deposits.txt |
- Jimunay Co. (Jeminay Co.; Jeminey Co.)
- Eastern Sawur Caldera Complex
| Yiqiu Yin, Jiaxing Li, Xingping Hu, Yinjiang Qiu, Dajing Chen, and Zhongmei Ma (2004): Geology and Prospecting 40(2), 1-6 |
- Qinghe Co. (Qinggil Co.; Chinggil Co.)
| Yanling Tang (2005): Non-metallic mineral deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp.
Denghong Wang, Yuchuan Chen, and Zhigang Xu (2001): Acta Geologica Sinica 80(3), 419-425 |
- Dakalasu-Kekexier pegmatite field
| Zhou, Jiehao, Hui Zhang, Yong Tang, Zhenghang Lv, and Shenjin Guan. 2023. "Characteristics and Geological Significance of CO2-Rich Fluid Inclusions in Dakalasu No. 1 Pegmatite Dyke, Altay" Minerals 13, no. 3: 365. https://doi.org/10.3390/min13030365 |
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| [var. Perthite] Ma, Zhesheng (2005) Mineralogy and crystal structure determination of Mg-fillowite. Science in China Series D, 48 (5) 635-646 doi:10.1360/03yd0414 |
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| [var. Perthite] Han, B. F., Wang, S. G., Jahn, B. M., Hong, D. W., Kagami, H., & Sun, Y. L. (1997). Depleted-mantle source for the Ulungur River A-type granites from North Xinjiang, China: geochemistry and NdβSr isotopic evidence, and implications for Phanerozoic crustal growth. Chemical Geology, 138(3-4), 135-159. |
- Chabucha'er Xibo Co. (Qapqal Xibe Co.; Chapchal Shibe Co.)
| Dai, S., Yang, J., Ward, C. R., Hower, J. C., Liu, H., Garrison, T. M., ... & O'Keefe, J. M. (2015). Geochemical and mineralogical evidence for a coal-hosted uranium deposit in the Yili Basin, Xinjiang, northwestern China. Ore Geology Reviews, 70, 1-30.
Aihua Zeng (2012): Mineral Deposits 31(1), 139-150 |
- Tacheng Prefecture (Tarbaghatay Prefecture)
- Hebukesai'er Co. (Hoboksar Co.; Kobuksar Co.; Qobuqsar Co.)
| Yanling Tang (2005): Non-metallic deposits of Xinjiang, China [Zhongguo Xinjiang Fei Jinshu Kuangchuang]. Geological Publishing House (Beijing), 289 pp. |
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| Wu Zhansheng, Li Chun, Sun Xifang, Xu Xiaolin, Dai Bin, Li Jinβe, and Zhao Hongsheng (2006): Chinese Journal of Chemical Engineering 14(2), 253-258 |
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| Tang, Yong, Zhengxiang Lv, Wenjun He, Yuanhua Qing, Xiuzhang Song, Qinming Cao, Yongxin Qian, Tao Zhu, Na Li, and Xiang Li. (2022) "Characteristics and Genesis of Alkaline Lacustrine Tight Oil Reservoirs in the Permian Fengcheng Formation in the Mahu Sag, Junggar Basin, NW China" Minerals 12, no. 8: 979. https://doi.org/10.3390/min12080979
ZHANG, Z., Xuanjun, Y. U. A. N., Mengshi, W. A. N. G., Chuanmin, Z., Yong, T. A. N. G., Xingyu, C., ... & CHENG, D. (2018). Alkaline-lacustrine deposition and paleoenvironmental evolution in Permian Fengcheng Formation at the Mahu sag, Junggar Basin, NW China. Petroleum Exploration and Development, 45(6), 1036-1049. |
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| [var. Perthite] Chen, J. F., Han, B. F., Ji, J. Q., Zhang, L., Xu, Z., He, G. Q., & Wang, T. (2010). Zircon UβPb ages and tectonic implications of Paleozoic plutons in northern West Junggar, North Xinjiang, China. Lithos, 115(1-4), 137-152. |
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| Zuoheng Zhang, Wei Hong, Zongsheng Jiang, Shigang Duan, Zhihua Wang, Fengming Li, Fupin Shi, Jun Zhao, and Renqiao Zheng (2012): Mineral Deposits 31(5), 941-964 |
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| Zuoheng Zhang, Wei Hong, Zongsheng Jiang, Shigang Duan, Zhihua Wang, Fengming Li, Fupin Shi, Jun Zhao, and Renqiao Zheng (2012): Mineral Deposits 31(5), 941-964 |
