姓名 | 薛飞 | 性别 | 男 |
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民族 | 汉 | 出生日期 | 1992.09.21 | |
政治面貌 | 中共党员 | 执教时间 | 2020年至今 | |
学历 | 博士研究生 | 学位 | 博士 | |
现任职务 |
| 技术职称 | 助理研究员 | |
通信地址 | 江苏省南京市江宁区佛城西路8号地球科学与工程学院笃学楼610 | |||
邮编 | 211100 | fei.xue@hhu.edu.cn | ||
个人简介 薛飞,男,理学博士,江苏盐城人,硕士生导师,从事地热-盐湖矿产地质、同位素地球化学、岩石地球化学等研究。获得中国地质大学(北京)矿物学、岩石学、矿床学专业理学博士和日本筑波大学地球进化科学理学双博士学位。2020年7月至今在河海大学地球科学与工程学院地球关键带研究所工作。主持和参与国家和省部级科研项目多项,包括青藏高原二次科考、国家自然科学基金、国家重点研发等。至今发表20余篇SCI论文,其中第一作者和通讯作者10余篇,引用超三百多次,H指数10。担任《Frontiers in Earth Science》期刊客座编辑,《Gondwana Research》《Ore Geology Reviews》《Lithos》《岩石学报》《成都理工大学学报》等国内外期刊特邀审稿人。 欢迎对地热、盐湖、地球化学等方向感兴趣的研究生报考。
1.教育工作背景 2020.07-至今 河海大学地球科学与工程学院/地球关键带研究所 讲师 2018.11-2021.07 日本筑波大学 地球进化科学 博士 2017.09-2020.06 中国地质大学(北京)矿物学、岩石学、矿床学 博士 2014.09-2017.06 中国地质大学(北京)矿产普查与勘探 硕士 2010.09-2014.06 中国矿业大学 地质工程 学士
2.科研项目 (11)中国科学院青海盐湖研究所,青海省盐湖地质与环境重点实验室开放课题A类项目,藏北典型温泉-河流-盐湖系统富锂机制与成矿模式研究,2024-01至2025-12,10万元,主持,在研 (10)中华人民共和国科学技术部,第二次青藏高原综合科学考察研究,2022QZKK0202,西藏地热系统铷、铯资源现状与远景评估: 雅江缝合带及南北两侧温泉Rb、Cs分布富集规律与资源通量估算,2022-10 至 2025-09,60万元,主持,在研 (9)国家自然科学基金委员会,联合基金项目,U22A20573,藏北高原盐湖聚锂成矿过程、机制与模式研究,2023-01 至 2026-12,253万元,骨干,在研 (8)国家自然科学基金委员会,面上项目,42272278,冻融循环作用下地下水NAPLs再分布行为与驱动机制,2023-01 至 2026-12,60万元,参与,在研 (7)广东省地质调查院,丹霞山地质地貌科考专项(二期),丹霞盆地红层非传统同位素特征及其古气候响应研究,2023-04至2024-06,55万元,参与,在研 (6)河海大学,中央高校基本科研业务费项目,B230201014,藏南查托岗地热泉中锂的富集演化机制及其对锂矿床找矿指示意义,2023-01至 2024-12,10万元,主持,在研 (5)河海大学,中央高校基本科研业务费项目,B210201004,北太行中生代花岗质杂岩体成分多样性研究,2021-01至 2021-12,5万元,主持,结题 (4)韩国地球科学与矿产资源研究所,基础地质科研项目,GP2020-003,Geological survey in the Korean Peninsula and publication of the geological maps of Korea Institute of Geoscience and Mineral Resources,2020-01 至 2022-12,75万元,骨干,结题 (3)中华人民共和国科学技术部,国家重点研发计划,华北克拉通成矿系统的深部过程与成矿机理,2016-01至2020-12,参与,结题 (2)国家自然科学基金委员会,面上项目,基于三维地质建模与不确定性分析的矿产资源定量预测评价-以栾川矿集区为例,2016-01至2019-12,参与,结题 (1)中国地质调查局,整装勘查项目,河南省栾川地区铅锌金银矿整装勘查区专项填图与技术应用示范,2014-01至2016-12,参与,结题
3. 期刊论文 一作及通讯: (11)Xue, F., Yang, F., Ren, W., Santosh, M., Qian, Z., Huang, Y., Tan, Z., 2024b. Petrogenesis of the Early Paleozoic Dioritic–Granitic Magmatism in the Eastern North Qilian Orogen, NW China: Implications for Tethyan Tectonic Evolution. Lithosphere 2024, lithosphere_2023_297. (10)Xue, F., Tan, H., Zhang, X., Santosh, M., Cong, P., Ge, L., Li, C., Chen, G., Zhang, Y., 2024. Contrasting sources and enrichment mechanisms in lithium-rich salt lakes: A Li-HO isotopic and geochemical study from northern Tibetan Plateau. Geoscience Frontiers 15, 101768. (9)薛飞,谭红兵,张西营,陈国辉,王迪,丛培鑫,张昱, 2023. 藏北富锂盐湖物源和富集机制研究:水化学和Li-H-O同位素制约. 第十届全国成矿理论与找矿方法学术讨论会论文摘要集.DOI:10.26914/c.cnkihy.2023.080787. (8)Xue, F*., Santosh, M., Tsunogae, T., Yang, F., Tan, H., Chen, G., Li, C., Xu, Y., 2023. Mesozoic magmatic evolution of the Laiyuan complex: Tracing the crust-mantle and lithosphere-asthenosphere interactions in the central North China Craton. Frontiers in Earth Science 10, 1109327. (7)Xue, F*., Santosh, M., Kim, S.W., Tsunogae, T., Yang, F., 2021. Thermo-mechanical destruction of Archean cratonic roots: Insights from the Mesozoic Laiyuan granitoid complex, North China Craton. Lithos 400, 106394. (6)Yang, F., Xue, F*., Santosh, M., Qian, Z., Zhang, C., Tu, J., 2021. Petrogenesis and tectonic evolution of the Palaeozoic to Mesozoic Niuxinshan granitoids in the North Qilian orogen, NW China. Geological Journal 56, 3207–3224. (5)Xue, F., Santosh, M., Tsunogae, T., Yang, F., Zhou, H., 2020. The genesis of high Ba‐Sr adakitic rocks: Insights from an Early Cretaceous volcanic suite in the central North China Craton. Geological Journal 55, 5398–5416. (4)Xue, F., Santosh, M., Li, S.-R., Zhang, J.-Q., Tsunogae, T., 2019. Early Cretaceous cryptoexplosive breccia-related gold mineralization in the North China Craton: Evidence from the Puziwan gold deposit. Ore Geology Reviews 111, 102986. (3)Xue, F., Santosh, M., Tsunogae, T., Yang, F., 2019. Geochemical and isotopic imprints of early cretaceous mafic and felsic dyke suites track lithosphere-asthenosphere interaction and craton destruction in the North China Craton. Lithos 326, 174–199. (2)Xue, F., Wang, G., Santosh, M., Yang, F., Shen, Z., Kong, L., Guo, N., Zhang, X., Jia, W., 2018. Geochemistry and geochronology of ore-bearing and barren intrusions in the Luanchuan ore fields of East Qinling metallogenic belt, China: Diverse tectonic evolution and implications for mineral exploration. Journal of Asian Earth Sciences 157, 57–77. (1)薛飞,王功文, 2015.栾川矿集区燕山期花岗岩体含矿性评价.矿物学报,35(S1):86-87.
参与文章: (15)Ren, W., Yang, F., Qian, Z., Liu, C., Li, X., Santosh, M., Xue, F., 2024. High heat production of the Late Mesozoic Luanchuan granites from East Qinling Orogen, China: Implications for petrogenesis and mineral exploration. Geological Journal 59, 12–28. (14)Yang, F., Xue, F., Jepson, G., Zhang, L., 2023. (Paleo-) Pacific plate subduction tectonics and related magmatism and mineralization. Frontiers in Earth Science 11, 1248758. (13)谭红兵, 石智伟, 丛培鑫, 薛飞, 陈国辉, 2023. 西藏地热系统 B, Li, Rb 和 Cs 元素空间分布规律与超常富集机制. 沉积与特提斯地质 43, 404–415. (12)Qian, Z., Yang, F., Ren, W., Santosh, M., Liu, J., Li, H., Xue, F., 2023. Two episodes of Mesozoic granitic magmatism in East Qinling, central China: Constraints from geochemistry and isotope geochronology of the Huangbeiling pluton. Lithos 454, 107234. (11)李超, 陈国辉, 何智远, 王平, 薛飞, 施一凡, 2023. 中国西部新生代陆内前陆盆地迁移过程及其构造指示意义. 地球科学进展 38, 729. (10)Li, C., Wang, S., Wang, Y., He, Z., Sun, C., Sinclair, H., Chen, Y., Liu, S., Chen, G., Xue, F., 2023. Evolution of the foreland basins on either side of the Tian Shan and implications for lithospheric architecture. Marine and Petroleum Geology 155, 106344. (9)Qian, Z., Yang, F., Liu, C., Xue, F., Santosh, M., Yang, B., Zhang, S., Kim, S.W., 2022. Late Mesozoic Huangbeiling S-type granite in the East Qinling Orogen, China: Geochronology, petrogenesis and implications for tectonic evolution. Geochemistry 82, 125857. (8)Li, C., Wang, S., Wang, Y., He, Z., Wei, D., Jia, D., Chen, Y., Chen, G., Xue, F., Li, Y., 2022. Modern southern Junggar foreland basin system adjacent to the northern Tian Shan, northwestern China. Lithosphere 2022, 7872549. (7)Guo, X.-G., Li, J.-W., Zhang, D.-H., Xue, F., Xian, H.-B., Wang, S.-J., Jiao, T.-L., 2020. Petrogenesis and tectonic setting of igneous rocks from the Dongbulage porphyry Mo deposit, Great Hinggan Range, NE China: Constraints from geology, geochronology, and isotope geochemistry. Ore Geology Reviews 120, 103326. (6)Wang, J., Yang, F., Santosh, M., Zhang, X., Wei, W., Zhuan, S., Zhang, J., Chen, C., Wang, S., Yang, X., Xue, F., 2022. Middle Triassic volcanic rocks from the Gangdese belt, southern Tibet: petrogenesis and implications for Tethys tectonic evolution. International Geology Review 64, 867–884. (5)Yang, F., Santosh, M., Glorie, S., Jepson, G., Xue, F., Kim, S.W., 2020. Meso-Cenozoic multiple exhumation in the Shandong Peninsula, eastern North China Craton: Implications for lithospheric destruction. Lithos 370, 105597. (4)Yang, F., Santosh, M., Glorie, S., Xue, F., Zhang, S., Zhang, X., 2020. Apatite geochronology and chemistry of Luanchuan granitoids in the East Qinling Orogen, China: Implications for petrogenesis, metallogenesis and exploration. Lithos 378, 105797. (3)Yang, F., Santosh, M., Kim, S.W., Zhou, H., Xue, F., 2019. Early Cretaceous adakitic granitoids from the Z hijiazhuang skarn iron deposit, North Taihang M ountain, China: Implications for petrogenesis and metallogenesis associated with craton destruction. Geological Journal 54, 3189–3211. (2)Yang, F*., Xue, F*., Santosh, M., Wang, G., Kim, S.W., Shen, Z., Jia, W., Zhang, X., 2019. Late Mesozoic magmatism in the East Qinling Orogen, China and its tectonic implications. Geoscience Frontiers 10, 1803–1821. (1)Yang, F., Wang, G., Cao, H., Li, R., Tang, L., Huang, Y., Zhang, H., Xue, F., Jia, W., Guo, N., 2017. Timing of formation of the Hongdonggou Pb-Zn polymetallic ore deposit, Henan Province, China: Evidence from Rb-Sr isotopic dating of sphalerites. Geoscience Frontiers 8, 605–616.
4. 主讲课程 主讲研究生课程《岩石学与岩石成因》《板块构造与岩石圈演化》等。
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