
姓名:李仪兵
职称:助理研究员
学术职衔:浙江海洋大学硕士生导师(海洋技术)
研究方向:热力学模拟,水岩相互作用,地幔氧化,碳硫循环,行星内部结构与组成
电子邮箱:liyibing@zjou.edu.cn
学习工作简历:
2012– 2016合肥工业大学,本科
2016 – 2022中国科学院大学,直博
2022– 2025中国科学院地质与地球物理研究所,博士后
2025–至今浙江海洋大学,助理研究员
主持或承担科研项目:
国家自然科学基金青年项目《俯冲沉积物对地幔楔氧逸度影响的热力学模拟研究:以西太平洋俯冲带为例》,2024-2026,30万元,主持
国家自然科学基金重大研究计划项目《俯冲带深部硫循环过程与深时通量约束》,2025-2028,300万元,骨干
国家自然科学基金重大研究计划项目《特提斯单向裂解-聚合的全地幔尺度动力源质作用研究》,2024-2025,500万元,骨干
中国科学院基础与交叉前沿科研先导专项(B类)《岩石圈驱动的地球系统过程及表生资源效应》,2023-2028,2391万元,参与
国家自然科学基金面上项目《现代板块汇聚边缘极端热效应:缅甸抹古新生代超高温变质作用研究》,2022.01-2025.12,61万元,参与
国家自然科学基金国家重点研发计划项目《岩石矿物微区实验测试关键技术》,2017-2020,871万元,参与
主要论文:
Fei CH, Guo S,Li YB, Li XG, Liu JB. (2025). Coupled Sulfur and Carbon Transfer via Diverse Species in Deep Subduction-Zone Fluids Revealed by Diamond-Facies Fluid Inclusions.Journal of Earth Science. 36(3).
Peng W, Evans KA, Connolly JA,Li YB, Hu H, & Zhan L. (2025). Thermodynamic constraints on devolatilization of variably altered oceanic ultramafic rocks during subduction: Implications forsubarcmantle oxidation.Earth and Planetary Science Letters. 659, 119308.
Li YB, Chen Y, Palin RM, Tian XB, Liang XF, Liu LJ. (2024). Thermodynamically detecting subducted continents in theupplemantle and mantle transition zone.Geophysical Research Letters. 51, e2024GL111556.
Su B, Chen Y, Guillot S, Chen HJ, Li YB, Chen S, Zhang QH, Sein K. (2024). Origin of high-Mg# orthopyroxene-rich cratonic mantle: Insights from theMogokperidotites (Myanmar). Precambrian Research. 410, 107487.
Wu LG, Chen Y, Palin RM, Li QL, Zhao L,Li YB, Li CF, Li YL, Li XH. (2024). Reinitiation of modern-style plate tectonics in the Early Neoproterozoic: Evidence from a ~930 Ma blueschist-facies terrane in South China.Precambrian Research. 401, 107276.
Zhou YY, Zhai MG, Mitchell R,CawoodPA, Huang GY, Spencer C, Chen MM,Li YB, Zhao TP, Wu TF. (2024). Low δ18O and δ30Si TTG at ca. 2.3 Ga Hints at an Intraplate Rifting Onset of the Paleoproterozoic Supercontinent Cycle.Journal of Geophysical Research: Solid Earth.
Liang XF, Chu Y, Wan B, Chen L, Chen L,Sandvol E, Grand SP,Li YB, Wang ML, Tian XB, Chen Y, Xu T, Li Y, Ji WQ. (2023). Fragmentation of continental subduction is ending the Himalayan orogeny.Science Bulletin. 68, 3048–3054
Wang G, Tian XB,Li YB, Xu T, Wan B, Chen Y, Nie ST, Yang X, Zuo S, Zhang J. (2023). Indian plate blocked by the thickened Eurasian crust in the middle of the continental collision zone of southern Tibet.Earthquake Research Advances. 3, 100233.
Zhang QH, Chen Y, Chen S, Su B,Li YB, Shi KH, Aung MM, Sein K. (2023). Intra−Neo-Tethyan subduction initiation inferred from theIndawgyimafic rocks in the Central Ophiolite Belt, Myanmar.Geological Society of America Bulletin.
Li YB, Wu YW, Su B, Chen S, Zhang QH, Chen Y. (2022). Thermodynamic constraints on the composition oforogenicallythickened lower crust.Journal of Metamorphic Geology. 40(8), 1405–1426.
Li YB, Chen Y, Su B, Zhang QH, Shi KH. (2022). Redox species and oxygen fugacity of slab-derived fluids: implications for mantle oxidation and deep carbon-sulfur cycling.Frontiers in Earth Science. 10, 974548.
Guo S, Su B, John T, Zhao KD, Tang P, Chen Y,Li YB. (2022). Boron release and transfer induced by phengite breakdown in subducted impuremetacarbonates.Lithos. 408, 106548.
Chen S, Chen Y,Li YB, Su B., Zhang QH., Aung MM, Sein K. (2021). Cenozoic ultrahigh-temperature metamorphism in peliticgranulitesfrom theMogokmetamorphic belt, Myanmar.Science China Earth Sciences. 64, 1873–1892.
Liu XC, Chen Y, Wang W, Xia MM, Hu J,Li YB, Hu DG, Song B. (2020). Carboniferous eclogite and garnet-omphacite granulite from northeastern Hainan Island, South China: Implications for the evolution of the easternPalaeo-Tethys.Journal of Metamorphic Geology. 39(1), 1–32.
Su W, Schwarzenbach EM, Chen L,Li YB, John T, Gao J, Chen F, Hu XM. (2019). Sulfur isotope compositions of pyrite from high-pressure metamorphic rocks and related veins (SW Tianshan, China): Implications for the sulfur cycle in subduction zones.Lithos. 348, 105212.
Su B, Chen Y, Guo S, Chen S,Li YB. (2019).Garnetiteand pyroxenite in the mantle wedge formed by slab-mantle Interactions at different melt/rock ratios.Journal of Geophysical Research: Solid Earth. 124, 6504–6522.
陈意,陈思,苏斌,李仪兵,郭顺. (2018).麻粒岩相金红石微量元素体系.地球科学. 43, 127–149.