• 姓名: 李洪颜(2024)
  • 性别: 男
  • 职务: 深地过程与战略矿产资源重点实验室副主任
  • 职称: 研究员
  • 学历: 博士研究生
  • 电话: 020-85297519
  • 传真: 
  • 电子邮件: hongyanli@gig.ac.cn
  • 通讯地址: 广州市天河区五山中国科学院广州地球化学研究所
    简  历:
  • 李洪颜,1981年1月生,山东东营人,中共党员,研究员,博士生导师。国家杰出青年科学基金(2024)和优秀青年科学基金(2019)获得者,入选“广东特支计划”百千万工程青年拔尖人才(2015),国家重点研发计划项目负责人,受聘“十四五”国家重点研发计划“战略性矿产资源开发利用”重点专项总体专家组专家,兼任中国青年科技工作者协会第六届理事会理事,中国矿物岩石地球化学学会海洋地球化学专业委员会和青年工作委员会委员,以及中国海洋湖沼学会地质学分会理事。2004年7月毕业于中国石油大学(华东)资源勘察工程专业,2009年6月毕业于中国科学院广州地球化学研究所,获地球化学专业博士学位并留所工作;2011年9月晋升为副研究员,2018年1月开始担任特任研究员,2019年12月晋升为研究员;2014年7-9月参加了国际大洋发现计划(IODP)352航次:伊豆-小笠原初生岛弧钻探,2018年8-9月,在美国南佛罗里达大学地质系开展合作研究。

    主要从事岩石地球化学研究,近些年,在西太平洋板块起始俯冲机制、俯冲板块脱水/熔融的控制机理、滞留板块与大地幔楔的相互作用及板内玄武岩成因等方面取得了新认识。目前的主要研究方向包括板块俯冲起始-发育-成熟过程中的元素-同位素地球化学记录、穿岛弧火山岩地球化学不均一性的控制因素、马里亚纳弧前泥火山的形成机制与板块低温脱水过程、东亚大地幔楔与滞留俯冲板块相互作用及板内玄武岩成因。

    社会任职:
    研究方向:
    获奖及荣誉:
    代表论著:
  • 1.Wei, Z., Li, H.Y.*, Ma, L., Hou, Y.S., Wang, Y., and Xu, Y.G., 2024. Geochemistry of olivine melt inclusion reveals interactions between deeply derived carbonated melts from the Big Mantle Wedge and pyroxenite in the lithospheric mantle beneath eastern Asia. Geophysical Research Letters 51: e2024GL108234. https://doi.org/10.1029/2024GL108234

    2.Hou, Y.S., Li, H.Y.*, Wang, Y., Zhang, Y.F., Li, Y., Xu, Y.G., 2024. Experimental insights into the petrogenesis of plume-related magmas: Tholeiite-harzburgite interaction at 2–3 GPa and 1400–1500℃. Journal of Geophysical Research: Solid Earth 129: e2023JB028467

    3.Zhao, R.P., Li, H.Y.*, Ryan, J.G., Johnston, R.M., Jensen, O., Xu, Y.G., 2024. Serpentinite geochemistry documents the earliest dehydration and decarbonation of the subducting slab beneath the Mariana forearc. Earth and Planetary Science Letters 637: 118748

    4.Zhao, R.P.*, Li, H.Y.*, Ryan, J.G., Wei, X., Yang, S.X., Xu, Y.G., 2024. Geochemistry of metabasite in Mariana forearc serpentinite mudflows documents interactions between serpentinizing fluid and subducted seamount basalts. Chemical Geology 655: 122090

    5.Liu, L.*, Li, H.Y.*, Liu, L.J., Ryan, J.G., Morgan, J.P., Ren, K.X. and Xu, Y.G. 2024. Horizontally forced initiation of the Izu-Bonin-Mariana subduction zone. Communications Earth & Environment 5, 91

    6.Li, H.Y.*, Xie, C., Ryan, J.G., Spencer, C., Liu, L., and Xu, Y.G. 2023. Pb-Sr isotopes of the Kurile arc provide evidence for Indian-type oceanic crust in the Pacific basin. Lithos 448: 107174.

    7.Li, H.Y.*, Xie, C., Ryan, J.G.*, Yang, C.M., Zhao, R.P., Zhang, C. and Xu, Y.G. 2023. Slab dehydration and magmatism in the Kurile arc as a function of depth: An investigation based on B-Sr-Nd-Hf isotopes. Chemical Geology 621: 121373.

    8.  Li, H.Y.*, Li, X.*, Ryan, J.G.*, Zhang, C., and Xu, Y. G. 2022. Boron isotopes in boninites document rapid changes in slab inputs during subduction initiation. Nature Communications 13: 993.

    9.Zhang, X.*, Li, H.Y.*, Lai, C.K. and Tan, Q., 2022. New sedimentary constraints for the Late Devonian north-dipping Paleo-Tethys subduction and its eastern continuation on Hainan Island, South China. Marine and Petroleum Geology, 142: 105743.

    10.Li, H.Y.*, Zhao, R.P., Li, J., Tamura, Y., Spencer, C., Stern, R. J., Ryan, J.G., and Xu, Y. G. 2021. Molybdenum isotopes unmask slab dehydration and melting beneath the Mariana arc. Nature Communications 12: 6015.

    11.Li, H.Y.*,Li, J., Ryan, J.G., Li, X., Zhao, R.P., Ma, L. and Xu, Y.G. 2019. Molybdenum and boron isotope evidence for fluid-fluxed melting of intraplate upper mantle beneath the eastern North China Craton. Earth and Planetary Science Letters520, 105–114.

    12.Li, H.Y., Taylor, R.N., Prytulak, J., Kirchenbaur, M., Shervais, J., Ryan, J.G., Godard, M., Reagan, M.K. and Pearce, J.A.*. 2019. Radiogenic Isotopes Document the Start of Subduction in the Western Pacific. Earth and Planetary Science Letters518, 197–210.

    13.Li, X., Li, H.Y.*, Ryan, J.G., Wei, G.J., Zhang, L., Li, N.B. Huang, X.L. and Xu, Y.G., 2019. High-precision measurement of B isotopes on low-boron oceanic volcanic rock samples via MC-ICPMS: Evaluating acid leaching effects on boron isotope compositions, and B isotopic variability in depleted oceanic basalts. Chemical Geology 505, 76–85.

    14.Li, H.Y.*, Xu, Y.G., Ryan, J.G., Whattam, S.A., 2017. Evolution of the mantle beneath the eastern North China Craton during the Cenozoic: Linking geochemical and geophysical observations. Journal of Geophysical Research - Solid Earth 122 (1), 224–246.

    15.Li, H. Y.*, Xu, Y.G., Ryan, J.G., Huang, X.L., Ren, Z.Y., Guo, H., Ning, Z.G., 2016. Olivine and melt inclusion chemical constraints on the source of intracontinental basalts from the eastern North China Craton: Discrimination of contributions from the subducted Pacific slab. Geochimica et Cosmochimica Acta 178, 1–19.

    16.Li, H.Y.*, Zhou, Z, Ryan, J.G., Wei, G.J., Xu, Y.G., 2016. Boron isotopes reveal multiple metasomatic events in the mantle beneath the eastern North China Craton. Geochimica et Cosmochimica Acta 194, 77–90.

    17. Li, H.Y., Huang, X.L.*, Guo H., 2014. Geochemistry of Cenozoic basalts from the Bohai Bay Basin: Implications for a heterogeneous mantle source and lithospheric evolution beneath the eastern North China Craton. Lithos 196–197, 54–66.

    18.Li, H.Y.*, Xu, Y.G., Liu, Y.M., Huang, X.L., He, B., 2013. Detrital zircons reveal no Jurassic plateau in the eastern North China Craton. Gondwana Research 24(2), 622–634.

    19.Li, H.Y.* and Huang, X.L., 2013. Constraints on the paleogeographic evolution of the North China Craton during the Late Triassic–Jurassic. Journal of Asian Earth Sciences 70–71, 308–320.

    20.  Li, H.Y., 2013. Destruction of North China Craton: insights from temporal and spatial evolution of the proto-basins and magmatism. Science China: Earth Sciences 56(3), 464–478.

    21.李洪颜, 黄小龙*, 李武显, 曹俊, 贺鹏丽, 徐义刚. 2013. 塔西南其木干早二叠世玄武岩的喷发时代及地球化学特征. 岩石学报29(10), 3353–3368. [Li, H.Y., Huang, X.L., Li, W.X., Cao, J., He, P.L. and Xu, Y.G., 2013. Age and geochemistry of the Early Permian basalts from Qimugan in the southwestern Tarim basin. Acta Petrologica Sinica 29(10), 3353–3368]

    22.Li, H.Y.*, He, B., Xu, Y.G., Huang, X.L., 2010. U-Pb and Hf isotope analyses of detrital zircons from Late Paleozoic sediments: insights into interactions of the North China Craton with surrounding plates. Journal of Asian Earth Sciences 39, 335–346.

    23.Li, H.Y., Xu, Y.G.*, Huang, X.L., He, B., Yan, B., 2009.Activation of northern margin of the North China Craton in Late Paleozoic: Evidence from U-Pb dating and Hf isotopes of detrital zircons from the Upper Carboniferous Taiyuan Formation in the Ningwu-Jingle basin. Chinese Science Bulletin 54(4), 677–686.

    24.Wei, X., Zhang, G. L., Zhang, J., Shi, X. F., Castillo, P. R., Zhang, Y., Zhang, W. F., Xu, Y. G., Li, H.Y., Zhang, H. (2024). Overlapping hotspot tracks and melts from diffuse plume materials in the upper mantle generated intraplate seamount groups in the West Pacific. Earth and Planetary Science Letters, 643, 118901.

    25.Liu, L., Cao, Z.B., Morgan, J.P., Li, H.Y., Yang, F., and Xu, Y. G. 2024, Long-lived Northern Hemisphere convergence systems driven by upper-mantle thermal inhomogeneity. Geology, https://doi.org/10.1130/G51948.1

    26.Angelo, T.V., Spencer, C.J., Cavosie, A.J., Thomas, R. and Li, H.Y., 2023. Petrogenesis of mantle-hosted granitoids from the Samail ophiolite. Journal of Petrology, p.egad021.

    27.Leeman, W. P., Agostini, S., Barnes, J. D., Li, H. Y., Marschall, H. R., & Ryan, J. G. 2022. Fluid-mobile element tracers of subduction processes—the record in volcanic arc magmas and exposed subduction complexes. Frontiers in Earth Science, 10, 1092337.

    28.Chen, S., Peng, X.T., Li, J., Lin, Z., Li, H.Y., Wei, G.J., Li, X., Ta, K.W., Dasgupta, S., Xu, H.C. and Du, M.R., 2022. Extremely light molybdenum isotope signature of sediments in the Mariana Trench. Chemical Geology, p.120959.

    29. Ma, L., Xu, Y. G., Li, J., Chen, L. H., Liu, J. Q., Li, H.Y., Huang, X.L., Ma, Q., Hong, L.B. and Wang, Y., 2022. Molybdenum isotopic constraints on the origin of EM1-type continental intraplate basalts. Geochimica et Cosmochimica Acta 317, 255-268

    30.Shervais, J. W., Reagan, M. K., Godard, M., Prytulak, J., Ryan, J. G., Pearce, J. A., Renat R. A., Li, H.Y., Haugen, E., Chapman, T. and Kurz, W., 2021. Magmatic Response to Subduction Initiation, Part II: Boninites and Related Rocks of the Izu‐Bonin Arc From IODP Expedition 352. Geochemistry, Geophysics, Geosystems, 22(1), e2020GC009093.

    31.Xu, Y., Wang, Q., Tang, G., Wang, J., Li, H.Y., Zhou, J., Li, Q., Qi, Y., Liu, P., Ma, L. and Fan, J., 2020. The origin of arc basalts: New advances and remaining questions. Science China Earth Sciences63, 1969-1991.

    32.Whattam S.A., Shervais, J.W. Reagan, M.K. Coulthard, D.A., Pearce, J.A., Jones, P., Seo, J., Putirka, K., Chapman, T., Heaton, D., Li, H.Y., Nelson, W.R., Shimizu, K., Stern, R.J., 2020. Mineral compositions and thermobarometry of basalts and boninites recovered during IODP Expedition 352 to the Bonin forearc. American Mineralogist 105 (10): 1490–1507.

    33.Li, J., Fan, J.J., Sun, S.L., Zhang, J., Li, H.Y., 2020. An investigation of Re and Os contamination by materials used in rock and mineral powdering. Geochemical Journal 54(6): 421–426.

    34.Shervais, JW, Reagan, MK, Haugen, E, Almeev, R, Pearce, JA, Prytulak, J, Ryan, JG, Whattam, SA, Godard, M, Chapman, T, Li, H.Y., Kurz, W., Nelson, W.R., Heaton, D., Kirchenbaur, M., Shimizu, K., Sakuyama, T., Li, Y.B., Vetter, S.K., 2019. Magmatic Response to Subduction Initiation, Part I: Fore-arc basalts of the Izu-Bonin Arc from IODP Expedition 352. Geochemistry, Geophysics, Geosystems 20 (1), 314–338

    35.Xu, Y., Li H.Y., Hong, L., Ma, L., Ma, Q. and Sun, M., 2018. Generation of Cenozoic intraplate basalts in the big mantle wedge under eastern Asia. Science China Earth Sciences 61 (7), 869–886.

    36.Ryan, J.G., Shervais, J. ., Li, Y., Reagan, M.K., Li, H.Y., Heaton, D., Godard, M., Kirchenbaur, M., Whattam, S.A., Pearce, J.A., Chapman, T., Nelson, W., Prytulak, J., Shimizu, K., Petronotis, K. and the IODP Expedition 352 Scientific Team. 2017. Application of a handheld X-ray fluorescence spectrometer for real-time, high-density quantitative analysis of drilled igneous rocks and sediments during IODP Expedition 352. Chemical Geology 451, 55–66.

    37.Reagan, M.K., Pearce, J.A., Petronotis, K., Almeev, R.R., Avery, A.J., Carvallo, C., Chapman, T., Christeson, G.L., Ferré, E.C., Godard, M., Heaton, D.E., Kirchenbaur, M., Kurz, W., Kutterolf, S., Li, H.Y., Li, Y., Michibayashi, K., Morgan, S., Nelson, W.R., Prytulak, J., Python, M., Robertson, A.H.F., Ryan, J.G., Sager, W.W., Sakuyama, T., Shervais, J.W., Shimizu, K., and Whattam., S.A., 2017. Subduction initiation and ophiolite crust: new insights from IODP drilling. International Geology Review 59 (11), 1439–1450.

    38.He, P.L., Huang, X.L., Xu, Y.G., Li, H.Y., Wang, X., Li, W.X., 2016. Plumeorogenic lithosphere interaction recorded in the Haladala layered intrusion in the Southwest Tianshan Orogen, NW China. Journal of Geophysical Research - Solid Earth 121, 1525–1545

    39.贺鹏丽,黄小龙,李洪颜,李洁,于洋,李武显. 2013. 西天山哈拉达拉辉长岩的Fe-Ti富集机制及其构造意义.岩石学报 (10), 3457–3472. [He, P.L., Huang, X.L., Li, H.Y., Li, J., Yu, Y. and Li, W.X., 2013. Mechanism of Fe-Ti enrichment in the Haladala gabbros: Implication for the tectonic evolution of the western Tianshan orogenic belt. Acta Petrologica Sinica 29 (10), 3457–3472]

    40.曹俊,徐义刚,邢长明,黄小龙,李洪颜. 2013. 塔里木北缘皮羌地区早二叠纪花岗质岩体的成因:对塔里木大火成岩省A型花岗岩成因的启示.岩石学报 (10), 3336–3352. [Cao, J., Xu, Y.G., Xing, C.M., Huang, X.L. and Li, H.Y., 2013. Origin of the Early Permian granitic plutons from the Piqiang region in the northern Tarim Block: Implications for the origin of A-type granites of the Tarim large igneous province. Acta Petrologica Sinica 29 (10), 3336–3352]

    41.Xu, Y.G., Li, H.Y., Pang, C.J. and He, B., 2009. On the time and duration of the destruction of the North China Craton. Chinese Science Bulletin 54, 3379–3396.

    42.Huang, X.L., Xu, Y.G., Li, X.H., Li, W.X., Lan, J.B., Zhang, H.H., Liu, Y.S., Wang, Y.B., Li, H.Y., Luo, Z.Y., Yang, Q.J., 2008. Petrogenesis and tectonic implications of Neoproterozoic, highly fractionated A-type granites from Mianning, South China. Precambrian Research 165, 190–204.

    43.李洪颜,徐义刚,黄小龙,何斌,罗震宇,燕滨. 2009. 华北克拉通北缘晚古生代活化:山西宁武-静乐盆地上石炭统太原组碎屑锆石U-Pb测年及Hf同位素证据.科学通报 54(05): 632-640.

    44.李洪颜. 2013. 华北克拉通原型盆地及岩浆活动时空演化对克拉通破坏的制约.中国科学:地球科学43(09): 1396-1409.

    45.徐义刚,李洪颜,庞崇进,何斌. 2009. 论华北克拉通破坏的时限.科学通报 54 (14):1974-1989.

    46.徐义刚, 李洪颜, 洪路兵, 马亮, 马强, 孙明道. 2018. 东亚大地幔楔与中国东部新生代板内玄武岩成因. 中国科学: 地球科学 48 (7), 825-843

    47.徐义刚, 王强, 唐功建, 王军, 李洪颜, 周金胜, 李奇维, 齐玥, 刘平平, 马林, 范晶晶. 2020. 弧玄武岩的成因: 进展与问题. 中国科学: 地球科学 50 (12), 1818-1844

    48.徐义刚, 钟玉婷, 位荀, 陈军, 刘海泉, 颉炜, 罗震宇, 李洪颜, 何斌, 黄小龙, 王焰, 陈赟. 2017. 二叠纪地幔柱与地表系统演变. 矿物岩石地球化学通报 36 (3), 359-373

    49.樊俊, 李洪颜, 于平, 杨军. 2017. 新常态下我国资源勘探领域科技创新策略思考. 中国矿业 26 (6), 22–27.

    承担科研项目情况:
  • 1. 国家自然科学基金委杰出青年项目,42425304,岩石地球化学,2025.01-2029.12,项目负责人: 李洪颜;

    2. 国家重点研发计划项目,2022YFF0801000,板块俯冲机制与大地幔楔形成,2022.12-2027.11,项目负责人: 李洪颜。