导师信息
尹继元
尹继元 男,研究员
研究方向:岩石地球化学和低温热年代学
Add:北京市西城区阜外百万庄大街26号地质研究所,100037
Tel: E-mail:yinjiyuan1983@163.com
自我介绍:
尹继元,1983年3月,中国地质科学院地质研究所,研究员,博士生导师。 2006年毕业于西北大学地质学系获学士学位,2006–2011在中国科学院广州地球化学研究所学习并获得博士学位;2014–2016在中国科学院地质与地球物理研究所做博士后研究。曾在澳大利亚科廷大学(2012)、美国亚利桑那州立大学(2015–2016)、香港大学(2017–2019;2025–2026)和英国朴茨茅斯大学(2023)做访问学者。入选了“国家级青年人才计划(2022)” 、自然资源部–科技创新领军人才(2024)和青年科技人才(2021);获2021年自然资源科学技术奖二等奖(R1)和青年科技奖(2025)、成果入选中国地质调查局和中国地质科学院2024年度十大科技进展(R1)和中国地质学会–银锤奖(2022);先后主持深地国家科技重大专项、国家自然科学基金–地质联合重点项目、国家自然科学基金–国际(地区)合作重点项目和国家高层次人才特殊支持计划青年项目等各类科研项目10余项。目前担任国际SCI刊物《GSA Bulletin》、《Geosphere》、《Lithosphere》和《Ore Geology Reviews》副主编,以及《Chemical Geology》等杂志编委。以第一作者或通讯作者在《Geology》、《Journal of Petrology》、《Tectonics》、《Earth-Science Reviews》和《GSA Bulletin》等权威刊物发表论文40余篇,其中国际SCI论文30余篇。长期担任国家自然科学基金,国家留学基金,教育部学位中心,CEE、EPSL、GCA和GRL等部门和刊物审稿人。
研究领域
1. 中亚增生造山带岩浆作用与深部过程动力学过程
2. 天山-阿尔泰-准噶尔成矿带剥露-隆升及地貌演化
3. 西昆仑-帕米尔中新生代造山过程及其地貌演化
4. 原-古-新特提斯洋的形成,演化及其岩浆响应
5. 岩石探针、同位素填图与深部物质探测
个人经历:
承担项目:
1.国家自然科学基金-地质联合重点项目“东帕米尔-西昆仑造山带中、新生代构造隆升-剥露过程及其动力学机制”,2026-2029主持
2.深地国家科技重大专项“关键廊带深部物质架构探测及其成矿制约”,2025-2028,主持(首席科学家)
3.中国地质科学院基本科研业务费-重点攻关项目“新疆准噶尔洋内弧三维岩石圈架构的多元同位素示踪”,2024-2027,主持
4.国家自然科学基金-国际(地区)合作重点项目“古大洋岩石圈的剥露和热液循环:西藏和特罗多斯蛇绿岩的对比研究”,2024-2026,主持
5.国家高层次人才特殊支持计划青年项目“岩石学”,2023-2025,主持
6.国家重点研发计划项目之专题“西昆仑早古生代构造-岩浆演化与成矿效应”,2022-2025 主持
7.国家重点研发计划项目之专题“西准噶尔深部年轻物质示踪方法” 2020-2025,主持
8.国家自然科学基金-面上项目“西天山晚古生代以来的抬升-剥露过程:来自多种热年代学方法的约束”,2019-2022,主持
9.国家自然科学基金-国际(地区)合作与交流项目“阿尔泰-准噶尔陆内造山带在文德-古生代的构造以及动力学研究”,2017-2018,主持
10.国家自然科学基金-面上项目“西准噶尔成矿带剥露过程的热年代学制约”,2016-2019,主持
11.中国博士后科学基金-第八批特别资助“西准噶尔晚志留-早泥盆世侵入岩的岩石成因和构造意义”,2015-2017,主持
12.中国博士后科学基金第56批面上项目(一等资助)“西准噶尔成矿带的低温热年代学研究”,2014-2016,主持
13.国家自然科学基金-青年基金项目“新疆西准噶尔中基性岩墙的年代学和地球化学研究”,2013-2015,主持
14.国土资源部公益性行业科研专项经费项目“天山中段成矿带成矿地质背景的同位素热年代学应用研究”,2012-2014,主持
代表性论著:
1.Yin., J.Y*., Huang, H., Bindeman, I., Petrone, C.M., Fowler, M., Kerr, K.C., Tao, Z.L., Wang, T., Sun, M., Zhao, G.C., Xiao, W.J., 2026. Rapid recycling of sediment-derived granites in accretionary orogens: implications from the Alataw Mountains, NW China. Chemical Geology, 701, 123181.
2.Du, Q., Yin, J.Y*., Xiao, W.J., Wang, T., Fowler, M., Zhu, Z.Y., Tao, Z.L., Zhang, G.B., Sun, M., Zhao, G.C., 2025. Geochemical, thermodynamic and Li isotope constraints on the genesis of rare-metal pegmatites: implications for crustal Li cycling. Global and Planetary Change, 254, 105029.
3.Tao, Z.L., Yin, J.Y*., Yang, Z.M., Petrone, C.M., Spencer, C.J., Fowler, M., Wang, T., Sun, M., Zhao, G.C., Xiao, W.J., 2025. Continental collision effects on magma source redox state and water content: insights from thermodynamic modeling. Geological Society of America Bulletin, https://orcid.org/0000-0003-3554 -7674.
4.Tan, F.C., Yin, J.Y*., Xiao, W.J., Thomson, S.N., Wang, Y.M., Eizenhöfer, P.R., Chen, W., Wang, T., Huang, H., Wang, Y.M., Zhao, Y., De Grave, J., 2025. Meso-Cenozoic episodic uplift and exhumation of the Zhangguangcai Range, Northeast China: insight from low-temperature thermochronology. Geological Society of America Bulletin, 137 (11-12): 5178–5194.
5.Wang, Y.M., Yin, J.Y*., Xiao, W.J., Thomson, S.N., Wang, T., Wang, Y.N., He, Z.Y., Chen, W., Cai, K.D., Tan, F.C., De Grove, J., 2025. Multi-stage differential exhumation of the West Junggar and adjacent regions, NW China, revealed by regional low-temperature thermochronology. Earth-Science Reviews, 267, 105154.
6.Yang, F., Yin, J.Y*., Yang, Z.M., Fowler, M., Kerr, A.C., Pease, V., Strachan, R., Chen, W., Chen, Y.L., Wang, T., Xiao, W.J., 2025. Petrogenesis of Late Miocene high Ba-Sr granitoids in eastern Pamir, northwest Tibetan Plateau: Insights into lithospheric mantle evolution and geodynamic processes during India-Asia bidirectional subduction. Journal of Petrology, 66 (4), egaf026.
7.Tao, Z.L., Yin, J.Y*., Fowler, M., Xiao, W.J., Yang, Z.M., Sun, M., Kerr, A.C., Pease, V., Wang, T., Chen, W., Yan, F., 2024. Geodynamic Evolution of the Proto-Tethys Ocean in the West Kunlun Orogenic Belt, NW Tibetan plateau: Implications from the Sub-Arc Crust and Lithospheric Mantle Modification. Journal of Petrology, 65(10), egae097.
8.Yin J.Y*., Xiao, W.J., Wang, T., Fowler, M., Kerr, A.C., Sun, M., Strachan, R., Huang, H*., Zhang, J.E., Chen, W., Tao, Z.L., 2024. Maturation from oceanic arcs to continental crust: insights from Paleozoic magmatism in West Junggar, NW China. Earth-Science Reviews, 253, 104795.
9.Tao, Z.L., Yin, J.Y*., Spencer, C.J., Sun, M., Xiao, W.J*., Kerr, A.C., Wang, T., Huangfu, P.P., Zeng, Y.C., Chen, W., 2024. Subduction polarity reversal facilitated by plate coupling during arc-continent collision: Evidence from the Western Kunlun orogenic belt, northwest Tibetan Plateau. Geology, 52(4): 308–313.
10.Yin, J.Y*., Shen, X.M., Jiao, R.H., De Grave, J., 2024. Low-Temperature Thermochronology: Advances, Applications, and Innovations in Tectonics, Earth Surface Processes and Ore Deposits. Lithosphere, 2024_211
11.Yang, F., Yin, J.Y*., Xiao, W.J., Fowler, M., Kerr, A.C., Tao, Z.L., Chen, W., Chen, Y.L., 2024. Early Cretaceous continental arc magmatism in the Wakhan Corridor, South Pamir: mantle evolution and geodynamic processes during flat subduction of the Neo-Tethys oceanic slab. Geological Society of America Bulletin, 136 (9-10): 4175–4194.
12.Wu, M.X., Yin, J.Y*., He, Z.Y*., Xiao, W.J., Wang, Y.N., Chen, W., Wang, Y.,M., Sun, J.B., Li, D.P., Meng. Y., 2024. Mesozoic thermo-tectonic evolution of the western Altai orogenic belt (NW China): Insights from low-temperature thermochronology. Lithosphere, (Special 14): 8161000.
13.Yin J.Y*., Wang, Y.N*., Hodges, K.V., Xiao, W.J., Thomson, S.N., Chen, W., Yuan, C., Sun, M., Cai, K.D., Sun, J.B., 2023. Episodic long‐term exhumation of the Tianshan orogenic belt: New insights from multiple low‐temperature thermochronometers. Tectonics, 42, e2022TC007469.
14.Wang, Y.M., Wang, Y.N*., Yin, J.Y*., Thomson, S.N., Xiao, W.J., He, Z.Y., Chen, W., Cai, K.D., Wu, M.X., Meng, Y., 2023. Mesozoic exhumation of the northern West Junggar, NW China: insights from low-temperature thermochronometers. Tectonophysics, 862, 229939.
15.Zhang, Y.Y., Sun, M., Yin, J.Y*., Yuan, C., Sun, Z., Xia, X.P., 2022. Subduction initiation of the western Paleo-Asian Ocean linked to global tectonic re-organization: Insights from Cambrian island-arc magmatism within West Junggar, NW China. Geological Society of America Bulletin, 134 (11-12): 3099–3112.
16.Zhang, Y.Y., Sun, M., Yin, J.Y*., Yuan, C., Sun, Z., Xia, X.P., 2022. Maturation of East Junggar oceanic arc related to supracrustal recycling driven by arc-arc collision: Perspectives from zircon Hf–O isotopes. International Journal of Earth Sciences, 111, 2519–2533.
17.Tao, Z.L., Yin, J.Y*., Sun, M., Wang, T., Yuan, C., Chen, W., Huang, H., Seltmann, R., Thomson, S.N., Chen, Y.L., 2022. Spatial and temporal variations of geochemical and isotopic compositions of Paleozoic magmatic rocks in the Western Tianshan, NW China: a magmatic response of the Advancing and Retreating Subduction. Journal of Asian Earth Sciences, 232(1): 105112.
18.Tao, Z.L., Yin, J.Y*., Xiao, W.J., Seltmann, R., Chen, W., Sun, M., Wang, T., Yuan, C., Thomson, S.N., Chen, Y.L., Xia, X.P., 2022. Contrasting styles of peraluminous S-type and I-type granitoids in the Chinese south Tianshan (NW China): Petrogenesis and tectonic implications. American Journal of Science, 322, 279-312
19.Yin, J.Y*., Xiao, W.J., Christopher J. Spencer., Sun, M., Chen, W., Huang, H.Q., Yuan, C., Zhang, Y.Y., Tao, Z.L., Huang, H., Xia, X.P., 2021. The role and significance of juvenile sediments in the formation of A-type granites, West Junggar oceanic arc (NW China): zircon Hf-O isotopic perspectives. Geological Society of America Bulletin, 133 (7-8): 1560–1574.
20.Yin, J.Y*., Xiao, W.J., Sun, M., Chen, W., Yuan, C., Zhang, Y.Y., Wang, T., Du, Q.Y., Wang, X.S., Xia, X.P., 2020. Petrogenesis of Early Cambrian granitoids in the western Kunlun orogenic belt, Northwest Tibet: Insight into early stage subduction of the Proto-Tethys Ocean. Geological Society of America Bulletin, 132 (9-10): 2221–2240
21.Yin., J.Y*., Chen, W., Thomson, S.N., Sun, M., Wang, Y.N., Xiao, W.J., Yuan, C., Sun, J.B., Long, X.P., 2019. Fission track thermochronology of the Tuwu-Yandong porphyry Cu deposits, NW China: Constraints on preservation and exhumation. Ore Geology Reviews, 113, 103104.
22.Yin, J.Y*., Chen, W., Hodges, K.V., Xiao, W.J., Cai, K.D., Yuan, C., Sun, M., Liu, L.P., van Soest, M., 2018. The thermal evolution of Chinese central Tianshan and its implications: Insights from multi-method chronometry. Tectonophysics, 722: 536-548.
23.Yin, J.Y*., Chen, W., Xiao, W.J., Long, X.P., Tao, N., Liu, L.P., Yuan, C., Sun, M. 2018. Tracking the multiple-stage exhumation history and magmatic-hydrothermal events of the West Junggar region, NW China: Evidence from 40Ar/39Ar and (U-Th)/He thermochronology. Journal of Asian Earth Sciences, 159: 130-141.
24.Yin, J.Y., Chen, W*., Xiao, W.J., Yuan, C., Sun, M., Cai, K.D., 2018. Petrogenesis and tectonic implications of Early Devonian mafic dyke-granite association in the northern West Junggar, NW China. International Geology Review, 60(1): 87-100.
25.Yin, J.Y*., Chen, W., Xiao, W.J., Yuan, C., Zhang, B., Cai, K.D., Long, X.P, 2017. Geochronology, petrogenesis and tectonic significance of the latest Devonian -early Carboniferous I-type granites in the Central Tianshan, NW China. Gondwana Research, 47: 188-199.
26.Yin, J.Y*., Chen, W., Xiao, W.J., Yuan, C., Windley, B.F., Yu, S., Cai, K.D., 2017. Late Silurian-early Devonian adakitic granodiorite, A-type and I-type granites in NW Junggar, NW China: Partial melting of mafic lower crust and implications for slab roll-back. Gondwana Research, 43:55-73.
27.Yin, J.Y., Chen, W*., Xiao, W.J., Yuan, C., Yu, S., Sun, J.B., Cai, K.D., Long, X.P., 2017. The source and tectonic implications of late Carboniferous–early Permian A-type granites and dikes from the eastern Alataw Mountains, Xinjiang: geochemical and Sr–Nd–Hf isotopic constraints. International Geology Review, 59(10), 1310-1323.
28.Yin, J.Y*., Chen, W., Xiao, W.J., Yuan, C., Long, X.P., Cai, K.D., Zhang, B, 2016. Late Carboniferous adakitic granodiorites in the Qiongkusitai area, western Tianshan, NW China: Implications for partial melting of lower crust in the southern Central Asian Orogenic Belt. Journal of Asian Earth Sciences, 124, 42-54.
29.Yin, J.Y*., Chen, W., Yuan, C., Yu, S., Xiao, W.J., Long, X.P., Li, J., Sun, J.B., 2015. Petrogenesis of Early Carboniferous adakitic dikes, Sawur region, northern West Junggar, NW China: implications for geodynamic evolution. Gondwana Research, 27(4): 1630-1645.
30.Yin, J.Y., Chen, W., Xiao, W. J*., Yuan, C., Sun, M., Tang, G.J., Yu, S., Long, X.P., Cai, K.D., Geng, H.Y., Zhang, Y., Liu, X.Y., 2015. Petrogenesis of Early–Permian Sanukitoids from West Junggar, Northwest China: Implications for Late Paleozoic Crustal Growth in Central Asia. Tectonophysics. 662, 385-397.
31.Yin, J.Y., Long, X.P*., Yuan, C., Sun, M., Zhao, G.C, Geng, H.Y., 2013. A Late Carboniferous slab window: geochronological and geochemical evidence from mafic to intermediate dykes in West Junggar, NW China. LITHOS, 175-176, 146-162
32.Yin J.Y., Yuan, C*., Sun, M., Long, X.P., Zhao, G.C., Wong, K.P., Geng, H.Y., Cai, K.D., 2010. Late Carboniferous high-Mg dioritic dikes in Western Junggar, NW China: Geochemical features, petrogenesis and tectonic implications. Gondwana Research, 17, 145-152.
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