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个人简介

2003/09 – 2007/06,吉林大学,资源勘查工程专业,学士; 2007/09 – 2012/06,南京大学, 矿床学专业,博士; 2010/09 – 2011/09,University of Regina(加拿大),联合培养博士

研究领域

金属矿床成矿作用、花岗岩成因及相关矿床、地壳形成与演化等

近期论文

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Ruxiong Lei, Changzhi Wu, Lian-Xing Gu, Zun-Zhong Zhang, Guo-Xiang Chi, Yao-Hui Jiang. 2011. Zircon U-Pb Chronology and Hf isotope of the Xingxingxia granodiorite from the Central Tianshan zone (NW China): Implications for the tectonic evolution of the southern Altaids. Gondwana Research, 20, 582–593.(SCI) Ru-Xiong Lei, Chang-Zhi Wu, Guo-Xiang Chi, Lian-Hui Dong, Lian-Xing Gu, Yao-Hui Jiang. 2012. Petrogenesis of the Paleoproterozoic Xishankou pluton, the northern Tarim Block, NW China: Implications for the assembly of the Columbia supercontinent. International Geology Reviews, 54 (15), 1829–1842.(SCI) Ru-Xiong Lei, Chang-Zhi Wu, Guo-Xiang Chi, Lian-Xing Gu, Lian-Hui Dong, Xun Qu, Yao-Hui Jiang and Shao-Yong Jiang. 2013. The Neoproterozoic Hongliujing A-type granite from Central Tianshan (NW China): Implications for breakup of the Rodinia supercontinent in Central Asia. Journal of Asian Earth Sciences, 74, 142–154.(SCI) 雷如雄, 吴昌志, 张遵忠, 顾连兴, 唐俊华, 黎广荣, 刘四海. 2013. 东天山雅满苏北岩体的年代学、地球化学及其构造意义. 岩石学报, 29(8): 2653-2664.(SCI) Ru-Xiong Lei and Chang-Zhi Wu, 2013. The early Paleozoic magmatic arc of the Central Tianshan, NW China. Mineralogical Magazine, 77, 1580. 雷如雄, 吴昌志, 屈迅, 陈刚, 顾连兴, 吾尔娜, 孙洪涛, 刘国宁. 2014. 中天山天湖东铁钼矿含矿片麻状花岗岩的年代学、地球化学和锆石Hf 同位素—对于中天山早古生代构造演化的启示. 吉林大学学报(地科科学版), 44(5): 1540-1552. Ru-Xiong Lei, Chang-Zhi Wu, Guang-rong Li. 2016. Neoproterozoic Banded Iron Formation in the Central Tianshan, NW China: The Shalong Example.ACTA GEOLOGICA SINICA (English edition), 90(5):1543-1544.(SCI) Ru-xiong Lei, Chang-zhi Wu, Yong-gang Feng, Jian-gang Jiao. 2018. In situ zircon U–Pb and Hf isotopes and tectonic implications of late Palaeoproterozoic host rocks from the Shuangfengling gold deposit, northern Tarim block, NW China. Geological Journal,53(S2):252–262. DOI: 10.1002/gj.3084.(SCI) Chang-Zhi Wu, Ru-Xiong Lei, M. Santosh, Guo-Xiang Chi, Lian-Xing Gu, Si-Wen Xie. 2016. Ordovician volcano–sedimentary iron deposits of the Eastern Tianshan area, Northwest China: the Tianhu example. International geology reviews. 58(11):1398-1416.(SCI) Ru-xiong Lei, Chang-zhi Wu, Yong-gang Feng, Ming‐Zhe Xia, Jian-gang Jiao. 2018. Formation age and geodynamic setting of the NeoproterozoicShalong iron formation in the Central Tianshan, NW China:Constraints from zircon U–Pb dating, geochemistry, and Hf–Ndisotopes of the host rocks.Geological Journal. 53(2):345–361.(SCI) Ru-xiong Lei, Chang-Zhi Wu, M. N. Muhtar, M. J. Brzozowski, Tongyang Zhao, Lian-Hui Dong. The first Precambrian gold deposit in North Xinjiang, NW China: geochronology and metallogenic character of the Dajingou gold deposit. Ore Geology Reviews. 2019, https://doi.org/10.1016/j.oregeorev.2019.103208.(SCI) 雷如雄, 赵同阳, 李平, 董连慧, 李基宏, 吴昌志. 2019. 北阿尔金地区大平沟金矿H-O-S-Pb同位素地球化学—对于金矿成因的启示. 吉林大学学报(地科科学版), 49(6):1578-1590。 Feng, Y., Ru-xiong Lei, Ju, M., Song, G., & Xu, F. 2017. Origin and petrogenetic implications of garnet from Rb‐rich pegmatites in North Qinling Orogen, China. Geological Journal, 52, 215-237.(SCI) 黄建华; 吴昌志 ; 雷如雄; 陈刚; 熊黎明; 秦切; 顾连兴,新疆且干布拉克超大型蛭石矿床的成因与成矿模式 , 矿床地质, 2012, (02): 359~368 孙洪涛; 王秋玲; 雷如雄; 陈世忠; 陈刚; 吴昌志, 闽中裂谷带梅仙铅锌矿区花岗斑岩的LA-ICP-MS锆石U-Pb年龄、成因及成矿效应 , 吉林大学学报(地球科学版), 2014, (02): 527~539 Muhtar, M.N., Wu, C.Z., Santosh, M., Lei, R.X., Gu, L.X., Wang, S.M., Gan, K., Late Paleozoic tectonic transition from subduction to post-collisional extension in Eastern Tianshan, Central Asian Orogenic Belt. GSA Bulletin, 2019, doi.org/10.1130/B35432.1. Muhtar, M.N., Wu, C.Z., Santosh, M., Lei, R.X., Feng, Y., Yang, T., Ye, H., Gu, L. X. Peraluminous granitoid magmatism from isotopically depleted sources: The case of Jing'erquanbei pluton in Eastern Tianshan, Northwest China. Geological Journal. 2018; 1–16 . doi:10.1002/gj.3392 Gao, B. F. Wu, C. Z., Yang, T., Santosh, M., Dong, L. H., Zhao, T. Y., Ye, H., Lei, R. X., and Li, W. The Neoproterozoic “Blood falls” in Tarim Craton and their possible connection with Snowball Earth, JGR: Earth Surface,2019, 124(1): 229-244

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