刘潇老师简介（2024年6月26日更新）

电子邮箱：liuxiao@glut.edu.cn

 

刘潇，男，1993年8月出生，湖南长沙人，汉族，中共党员，博士。

一、工作教育背景

2023/07-至今 桂林理工大学 地球化学教研室副教授

2021/07-2023/06 桂林理工大学 地质资源与地质工程博士后流动站 博士后 合作导师：刘希军教授

2015/09-2021/06 中国科学院广州地球化学研究所 地球化学 理学博士 导师：王强研究员，马林研究员

2011/09-2015/06  中国地质大学（武汉） 地球化学 理学学士

二、获得奖励

桂林理工大学2019-2022年“青年科技工作先进个人”

2022年“生态环境综合治理保护”全国博士后学术论坛暨第二届屏风山论坛“优秀成果奖”

2021年度北京市普通高等学校优秀毕业生

2020-2021年度中国科学院大学朱李月华优秀博士生奖学金

2019-2020年度中国科学院大学三好学生标兵

2015-2016年度中国科学院大学三好学生

2014-2015年度中国地质大学（武汉）优秀毕业生

2013-2014年度本科生国家励志奖学金

2012-2013年度本科生国家奖学金

2011-2012年度本科生国家奖学金

三、主持/参加的科研项目

1. 国家自然科学基金-青年基金：华南广州白水寨早白垩世含铁橄榄石流纹斑岩的成因及地球动力学意义（42203051），2023-2024，20万，主持。

2. 广西壮族自治区博士后创新人才支持计划：湖南上堡晚白垩世含电气石二云母花岗岩及其共生镁铁质岩墙：壳幔相互作用与淡色花岗岩成因（202214），2022-2023，30万，主持。

3. 广西自然科学基金-青年基金：华南晚白垩世含电气石二云母花岗岩和共生辉绿岩的成因及其地质意义（2022GXNSFBA035538），2022-2025，8万，主持。

4. 广西科技基地和人才专项：华南粤中白水寨早白垩世含铁橄榄石流纹斑岩的成因研究（桂科AD23026175），2023-2026，10万，主持。

5. 国家自然科学基金-重点项目：早-晚古生代地幔DUPAL组成演变与特提斯域陆块北向汇聚机制（92055208），2021-2024，260万，参与。

6. 广州市科技计划项目：广州市花岗岩类地质遗迹形成过程和旅游地质学意义（201707020032），2017-2021，250万，参与。

四、已发表的文章

1. Liu X., Wang Q*., Ma L*., Derek A.Wyman., Zhao Z.H., Yang J.H., Zi F., Tang G.J., Dan W., Zhou J.S., 2020. Petrogenesis of Late Jurassic Pb-Zn mineralized high δ¹⁸O granodiorites in the western Nanling Range, South China. Journal of Asian Earth Sciences. 192, 104236.

2. Liu X., Wang Q*., Ma L*., Yang Z.Y., Hu W.L., Ma, Y.M., Wang J., Huang T.Y., 2020. Petrogenesis of Late Jurassic two-mica granites and associated diorites and syenite porphyries in Guangzhou, SE China. Lithos. 364-365, 105537.

3. Liu X., Wang Q*., Ma L*., Yang J.H., Gou G.N., Ou, Q., Wang J., 2020. Early Paleozoic intracontinental granites in the Guangzhou region of South China: partial melting of a metasediment-dominated crustal source. Lithos. 376-377, 105763.

4. Liu, X., Wang, Q*., Ma, L*., Gou, G.N., Ou, Q., Wang, J., 2021. Late Jurassic Maofengshan two-mica granites in Guangzhou, South China: fractional crystallization products of metasedimentary-rock-derived magmas. Mineralogy and Petrology. 115, 1-19.

5. Liu, X., Wang, Q*., Ma, L*., Yang, J.H., Ma, Y.M., Huang, T.Y., 2021. Early Paleozoic and Late Mesozoic crustal reworking of the South China Block: Insights from Early Silurian biotite granodiorites and Late Jurassic biotite granites in the Guangzhou area of the south-east Wuyi-Yunkai orogeny. Journal of Asian Earth Sciences. 219, 104890.

6. Liu, X., Liang He, Wang, Q*., Ma, L*., Yang J.H., Guo H.F., Xiong X.L., Ou, Q., Zeng, J.P., Gou, G.N., Hao, L.L., 2022. Early Cretaceous Sn-bearing granite porphyries, A-type granites, and rhyolites in the Mikengshan–Qingxixiang–Yanbei area, South China: Petrogenesis and implications for ore mineralization. Journal of Asian Earth Sciences. 235, 105274.

7. Liu, X., Liu, X.J*., Fu, W., Shi, Y., Guo, J.L., Hu, R.G., Zhao, C., Feng, M., Li, Z.L., Qin, X.Z., 2022. Petrogenesis of Paleozoic–Early Mesozoic Granites and Pegmatites in the Yuechengling Pluton of South China. Lithosphere. 8377620.

8. Liu, X., Liu, X.J*., Hu, R.G*., Li, Z.L., Wei, Y.L., Shi, Y., Wang, B.H., Liu, L., Qin, X.Z., Liao, S., 2022. Late Permian A-type granites in Ma'andi in the Jinping area, southwestern China: Petrogenesis and implications for plume–slab interaction. Lithos. 430-431, 106878.

9. Zhou, D., Sun, P., Jiang, S.J., Liu, X*., Wang, Q*., 2023. Geochronology and geochemistry of Early Cretaceous high-silica granites in the Nan’ao Island, South China: Petrogenesis and implications for lithospheric extension. Journal of Asian Earth Sciences. 245, 105558.

10. Liu, X., Wang, Q*., Liu, X.J., Ma, L., Wyman, D.A., Tang, G.J., Dan, W., Jiang, Z.Q., Wu, H., Hu W.L., Liu, J.H., Xu, C.B., Fang, G.C., 2024. Early Cretaceous fayalite-, ferrosilite-, and biotite-bearing rhyolitic porphyries in the Baishuizhai area, South China: Formation by fractional crystallization in the shallow crust. Lithos. 482-483, 107694.

11. Ma, Y.M*., Wang, Q., Wang, H.P., Wan, B., Zhang, S.H., Deng, C.L., Zheng, D.Y., Ren, Q., Yang, T.S., Wu, D., Zou, D., Wang, J., Liu, X., Kang, Z.Q., Dan, W., Han, F., Dekkers, M.J., 2022. Jurassic Paleomagnetism of the Lhasa Terrane–Implications for Tethys Evolution and True Polar Wander. Journal of Geophysical Research: Solid Earth. e2022JB025577.

12. Song, Y.J., Liu, X.J*., Xiao, W.J*., Gong, X.H., Liu, X., Xiao, Y., Zhang, Z.G., Liu, P.D., 2023. Tectonic evolution of circum-Rodinia subduction: Evidence from Neoproterozoic A-type granitic magmatism in the Central Tianshan Block, northwest China. Precambrian Research. 387, 106976.

13. Song, Y.J, Liu, X.J, Xiao, Y., Liu, X., Tian, H., 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), 1232.

14. Huang, W.M., Liu, X.J*., Liu, L*., Li, Z.L., Liu, X., Wu, H., 2023. Early Triassic roll-back of subducted Paleo-Tethys oceanic lithosphere: Insights from A₂-type silicic igneous rocks in the Pingxiang area, southwest China. Geosphere. https://doi.org/10.1130/GES02617.1.

15. Fan, J.J., Zhang, X.Z*., Ma, L., Wang, Q., Jiang, Z.Q., Xia, X.P., Wei, G.J., Wang, Z.L., Zhou, J.S., Li, Q.W., Liu, X., Huang, T.Y., Zhang, M.Y., Liu, J.H., 2023. Formation of Eocene-Miocene felsic magmatic rocks along N-S−trending Yardoi-Kongbugang mountain ranges in the eastern Himalaya: New insights into surface uplift and the initiation of E-W extension in southern Tibet. Geological Society of America Bulletin. 136(1-2), 433-446.

16. Fan, J.J., Wang, Q*., Wei, G.J., Li, J., Ma, L., Zhang, X.Z*., Jiang, Z.Q., Ma, J.L., Zhou, J.S., Li, Q.W., Wang, Z.L., Liu, X., Huang, T.Y., Zhang, M.Y., 2023. Boron and Molybdenum Isotope Evidence for Source‐Controlled Compositional Diversity of Cenozoic Granites in the Eastern Tethyan Himalaya. Geochemistry, Geophysics, Geosystems. 24, e2022GC010629.

17. Tian, H., Liu, X.J*., Wu, H*., Li, D.C., Liu, X., Song, Q., Li, Z.L., Liu, P.D., Hu, R.G., Yang, Q.J., 2023. Development of a cambrian back-arc basin in the North Qilian orogenic belt: New constraints from gabbros in Yushigou ophiolite. Frontiers in Earth Science. 11, 1192997.

18. 刘潇，王强，马林*，王军. 广州市白云山片麻状花岗岩成因及构造意义, 2021. 地球化学. 50, 340-353.

19. 石钰祥，刘希军*，李政林，刘潇，赵兵，覃显著，张一尘，黄雯敏，苏悦. 桂西大化辉绿岩岩石成因及对区域构造演化的指示, 2023. 华南地质. 39, 617-629.

20. 韩怡颖，刘希军*，王葆华，时毓，李政林，刘潇，邓发亮. 广西南丹石炭系黄龙组下段碳酸盐岩地球化学特征及其古沉积环境意义, 2023. 地球化学. 52, 637-648.

五、研究方向

华南中生代花岗岩、祁连造山带原特提斯蛇绿岩、东南亚特提斯构造带岩浆岩的成因及其对区域构造演化，成矿作用的启示。