姓 名:张向飞
性 别:男
学 历:博士
学 位:理学博士
职 称:正高
科研方向:区域成矿学
培养方向:地质资源与灾害地质
社会兼职:成都理工大学兼职教授、
中国地质科学院硕士生导师
教育背景:
博士(2015.09-2018.12):中国地质大学(北京),矿物学、岩石学、矿床学专业,方向:区域成矿学;
硕士(2008.09-2011.01):成都理工大学大学,矿产普查与勘探专业,方向:固体矿产普查与勘探;
本科(2004.09-2008.06):西南科技大学,地质工程专业
工作经历:
(1)2011.06-2014.10:云南省地质调查院,矿产所,助理工程师;
(2)2014.11-2018.06:云南省地质调查院,矿产所,工程师;
(3)2018.07-2020.01:云南省地质调查院,矿产所,高级工程师;
(4)2020.02-今:中国地质调查院成都地质调查中心,境外室,正高。
主持及参与科研项目:
(1)国家自然科学基金-面上基金,Ca同位素示踪岩浆热液演化:以滇西北休瓦促石英脉型白钨矿床为例(编号:42473021),2025/01—2028/12,主持人,52万元。
(2)国家重点研发计划课题,特提斯成矿域战略性矿产信息与成矿规律(2021YFC2901803),2021/12—2025/11,参与人(排名2),192万元。
(3)国家自然科学基金-重点基金,特提斯构造域地质构造编图及区域对比研究(编号:92055314),2021/01—2024/12,参与人(排名2),576万元。
(4)成果转化项目,厄立特里亚国克尔克贝特金多金属矿成矿规律与找矿方向研究,2024/07—2025/08,主持人,223.55万元。
出版教材或著作:
(1)Li, W.C., Pan, G.T., Hou, Z.Q., Mo, X.X., Wang, L.Q., Zhang, X.F., et al., Metallogenic Theory and Exploration Technology of Multi-arc-basin-terrane Collision Orogeny in Sanjiang Region, Southwest China [M]. Springer, 2023, doi. Org/10.1007/978-981-99-3652-6.
发表学术论文:
(1)Yan, T.T., Zhang, X.F.*, Wang, D., Yang, Z., 2020. Geochronology, mineralogy and geochemistry of the Late Triassic Xiuwacu biotite granite in the southern Yidun Terrane, southwest China: Insights into the petrogenesis and magmatic fertility. Geological Journal, 55(1): 806-820.
(2) Li, W.C., Pan, G.T., Zhang, X.F.*, Wang, L.Q., Zhou, J.X., 2021. Tectonic evolution and multi–episodic metallogenesis of the Sanjiang Paleo-Tethys multi-arc-basin-terrane system, SW Tibetan Plateau. Journal of Asian Earth Sciences 221(2021), 104932. doi.org/10.1016/j.jseaes.2021.104932.
(3)Zhang, X.F., Li, W.C.*, Wang, R., Zhang, L., Qiu, K.F., Wang, Y.Q., 2021. Preservation of Xiuwacu W-Mo deposit and its constraint on the uplifting history of Eastern Tibetan Plateau. Ore Geology Reviews, 132(2021), 103995, doi.org/10.1016/j.oregeorev.2021.103995. (国际SCI)
(4)Zhang, X.F., Li, W.C.*, Yang, Z., Wang, Y.Q., 2021. Stable isotopes and Fluid Inclusions constraints on the Source and Evolution of Ore Fluids in the Xiuwacu W-Mo Granite-related Quartz-vein deposit, Yunnan Province, China. Ore Geology Reviews, 136(2021), 104245: doi.org/10.1016/j.oregeorev.2021.104245.
(5)Zhang, X.F., Li, W.C.*, Yang, Z., Gao, X., Zhu, J., Liu W.D., 2020. Implications of aplite dykes for mineralization in the Late Cretaceous vein-type Xiuwacu W-Mo deposit in the southern Yidun Terrane, SE Tibetan Plateau. Journal of Asian Earth Sciences, 204(2020), 104555: doi.org/10.1016/j.jseaes.2020.104555.
(6) Yang, Z., Zhang, X.F.*, Yuan, Y.S., Zhang, Q., Wang, L.J., 2021. Hydrothermal evolution and mineralization of the Pulang porphyry Cu-Au deposit in the Sanjiang Tethys, Southwest China: Constraints from fluid inclusions and D-O-S isotopes. Ore Geology Reviews, 139(2021), 104430: doi.org/10.1016/j.oregeorev.2021.104430.
(7)Yang, Z., Zhang, X.F.*, 2021. Multiphase intrusion at the giant Pulang porphyry Cu-Au deposit in western Yunnan (Southwestern China): Comparison between ore-causative and barren intrusions. Mineralogy and Petrology, doi.org/10.1007/s00710-020-00734-8.
(8) Cai, X., Zhang, X.F. *, Yang, Z., Zhang, Z.C., 2022. Magma mixing affected the Late Triassic porphyry mineralization in theYidun arc in SW China. Ore Geology Reviews, 152. Doi: org/10.1016/j. oregeorev. 2022. 105225.
(9)Fang S.J., Zhang, X.F.*, 2022. Metallogenic implications from zircon U–Pb ages and Sr–Nd–Hf isotopic geochemistry of quartz monzonite porphyry in the Habo Cu–Au deposit, southern belt of the Jinshajiang-Red River, China. Arabian Journal of Geosciences, doi: 10.1007/s12517-022-09612-3.
(10)Yan, T.T., Zhang, X.F. *, Zhang, B.M., Song, C.G., Li, W.J., Chi, Q.H., 2024. Fluid-rock interactions recorded by bulk-rock and mica compositions in the Xiuwacu granite-related quartz-vein W–Mo deposit, western Yunnan Province, China. Ore Geology Reviews, 234. Doi: org/10.1016/j.earscirev.2022.104229. (SCI)
(11)Cao, H.W., Pei, Q.M., Santosh, M., Li, G.M., Zhang, L.K., Zhang, X.F., Zhang, Y.H., Zou, H., Dai, Z.W., Lin, B., Tang, L., Yu, X., 2022. Himalayan leucogranites: A review of geochemical and isotopic characteristics, timing of formation, genesis, and rare metal mineralization. Earth Science Reviews, 234. Doi: org/10.1016/j.earscirev.2022.104229
(12)Li, W.C., Zhang, X.F., Yu, H.J., Dong, T., Liu, X.L., 2022. Geology and mineralization of the Pulang superlarge porphyry copper deposit (5.11 Mt) in Shangri-la, Yunnan Province, China: A review. China Geology, Doi: 10.31035/cg2022060
(13) Cao, H.W., Pei, Q.M., Yu, X., Cao, A.B., Chen, Y., Liu, H., Zhang, K., Liu, X., Zhang, X.F., 2022. The long-lived partial melting of the Greater Himalayas in southern Tibet, constraints from the geochronology and geochemistry of the Miocene Gyirong anatectic pegmatite. China Geology, Doi: 10.31035/cg2022061
(14) Liu, H., Li, W.C., Cao H.W., Zhang, X.F., Li, Y., Gao, K., Dong, L., Zhang, K., Liu, X., 2023. Origin of Himalayan Eocene Adakitic Rocks and Leucogranites: Constraints from Geochemistry, U-Pb Geochronology and Sr-Nd-Pb-Hf Isotopes. Minerals, 13, 1204. https://doi.org/10.3390/min13091204
(15) Cao, H.W., Pei, Q.M., Yu, X., Cao, A.B., Chen, Y., Liu, H., Zhang, K., Liu, X., Zhang, X.F., 2023. The long-lived partial melting of the Greater Himalayas in Southern Tibet, constraints from the Miocene Gyirong anatectic pegmatite and its prospecting potential for rare element minerals. China Geology, 6: 303-321. Doi: 10.31035/cg2022061. (SCI)
(16)张向飞,陈莉, 曹华文, 彭智敏, 陈奋宁, 洪俊, 任飞, 王启宇, 姜丽莉,高慧, 潘桂棠*,李文昌*. 2023. 中国新疆-中亚大地构造单元划分及演化简述. 西北地质,56(4): 1-39.
(17)张向飞,李文昌*,尹光候,杨镇,唐忠. 2017. 滇西北休瓦促钨钼矿区复式岩体地质及其成矿特征—来自年代学、氧逸度和地球化学的约束. 岩石学报,33(7):2018-2036.(国内SCI)
(18)张向飞,李文昌,尹光候. 2016.云南省香格里拉县休瓦促钨钼矿床就矿机制研究.矿床地质(S2):175-176(中文核心)
(19)张向飞,李佑国,曹晓民,曲晓明,辛洪波,王健,杜德道. 2014. 班公湖-怒江缝合带西段酸性侵入岩LA-ICP-MS锆石U-Pb年龄与地球化学特征.地质通报,33(7): 996 -1006(中文核心)
(20)张向飞,李文昌,杨镇,王裕琴,严桃桃,张军军. 2022. 青藏高原东缘休瓦促矿区复式岩体时空分布及演化意义.沉积与特提斯地质,42(1):105-121.
发明专利及软件著作权:
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获奖及荣誉:
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