苏斌，副研究员，1989年出生于江苏徐州。2011年本科毕业于南京大学地质学专业，2017年博士毕业于中国科学院地质与地球物理研究所岩石学专业。2017-2020年在本所开展博士后研究，2021年起任特聘副研究员。
　　主要从事俯冲带变质岩石学和热力学相平衡模拟研究，研究兴趣包括俯冲带壳幔相互作用、克拉通地幔起源、大陆地壳生长、月球形成与演化等。入选2017年度“博新计划”，主持自然科学基金2项、博士后面上资助1项。已发表论文40余篇，以第一/通讯作者在Science Advances,Communications Earth & Environment,JGR: Solid Earth,Science Bulletin,American Mineralogist等期刊上发表论文12篇。

• 热力学相平衡模拟
• 高压-超高压变质岩石学
• 行星地质学

• 国家自然科学基金面上项目（42272057）：大洋弧造陆的深部岩石学过程：以巴基斯坦Kohistan古岛弧为例，2023-2026，主持。
  
• 国家自然科学基金青年基金（41802059）：俯冲带壳幔相互作用对地幔楔氧逸度的影响：以苏鲁造山带橄榄岩为例，2019-2021，主持。
• 中国博士后科学基金面上一等资助（2017M620065）：巴基斯坦北部Kohistan岛弧下地壳拆沉的岩石地球化学响应，2017-2019，主持。
• 博士后创新人才支持计划（BX201700239）：造山带橄榄岩记录的俯冲带硫循环，2017-2019，主持。

Researchgate: https://www.researchgate.net/profile/Bin_Su6

第一/通讯作者论文：

1. Su,B Zhang,D.,Chen,Y.,Yang,W.,Mao,Q.,Li,X.H.,Wu,F.Y.,2023b. Low Ni and Co olivine in Chang'E-5 basalts reveals the origin of the young volcanism on the Moon. Science Bulletin,68,1920–1929.Su,B Chen,Y.,Yue,Z.Y.,Chen,L.,Mitchell,R.N.,Tang,M.,Yan
2. g,W., HuangG.YGuoJ.HLiX.HWuF.Y2023a. Crustal remelting origin of highly silicic magmatism on the Moon. Communications Earth & Environment4228.【中文简介】SuB Yuan,J.Y.,Chen,Y.,Yang,W.,Mitchell,R.N.,Hui,H.J.,Wang,H., Tian,H.C.,Li,X.H.,Wu,F.Y.,2022. Fusible mantle cumula
3. tes trigger young mare volcanism on the cooling Moon. Science Advances8eabn2103.【中文简介】ZhangDSuB.*ChenYYangWMaoQJiaL.H2022. Titanium in olivine reveals low-Ti origin of the ChangE-5 lunar basalts. Lithos414–415106639.【中文简介】Su,B.,ChenYMaoQ., 2020. S
4. odium in olivine as a potential pressure indicator for orogenic dunite. Science Bulletin,65,94–96. Su,B.,Chen,Y.,Guo,S.,Chen,S.,Li,Y.B.,2019a. Garnetite andp
   
5. yroxenite in the mantle wedge formed by slab-mantle interactions at different melt/rock ratios. Journal of Geophysical Research: Solid
6. Earth,124,6504–6522.【中文简介】Su,B.,Chen,Y.,Mao,Q.,Zhang,D.,Jia,L.H.,Guo,S.,2019b. Minor elements in olivine inspect the petrogenesis of orogenic peridotites. Lithos,344–345,207–216. Su,B.,Chen,Y.,2018. Making Craton
7. ic Lithospheric Mantle. Journal of Geophysical Research: Solid Earth,123,7688–7706.【中文简介】Su,B.,Chen,Y.,Guo,S.,Liu,J.B.,2017. Dolomite dissociation indicates
8. ultra-deep (>150 km) subduction of a garnet-bearing dunite block (the Sulu UHP terrane). American Mineralogist,102,2295–230
9. 6. Su,B.,Chen,Y.,Guo,S.,Chu,Z.Y.,Liu,J.B.,Gao,Y.J.,2016a. Carbonatitic metasomatism in orogenic dunites from Lijiatun in the Sulu UHP terrane,eastern China. Lithos,262,266–284. Su,B.,Chen,Y
10. .,Guo, S.,Liu,J.B.,2016b. Origins of orogenic dunites: Petrology,geochemistry,and implications. Gondwana Research,29,41–59. 苏斌,2012. 大陆地壳生长演化模式：亏损地幔Th-U-Nb体系的证据. 大学生自然科学,3,101–10
11. 5.【PDF】合作作者论文： Zhang,D.,Chen,Y.,Mao,Q.,Jiao,S.J.,Su,B.,Chen,S.,Sein,K.,2023. Different cooling histories of ultrahigh-temperature gra
12. nulites revealed by Ti in quartz: An electron microprobe approac
    
    h. Cryst
13. als,13,1116.杨蔚,田恒次,陈意,胡森,苏斌,林杨挺,李献华,2023. 嫦娥五号玄武岩岩石地球化学特征及成因讨论. 矿物岩石地球化学通报,42,10.19658/j.issn.1007-2802.2023.42.071.Zhang,D.,Chen,Y.,Su,B.,Qi,C.,Mao,Q.,2023. High-precision measurement of trace F and Cl in olivine
14. by electron probe microanalysis. Progress in Earth and Planetary Science,10,29.Li,Y.B.,Chen,Y.,Su,B.,Zhan
15. g,Q.H.,Shi,K.H.,2022. Redox species and oxygen fugacity of slab-derived fluids: implications for mantle oxidation and deep carbon-sulfur cycle. Frontiers in Earth Science,10,974548.Guo,S.,Hermann,J
16. .,Tang,P.,Chu,X.,Chen,Y.,Su,B.,2022. Formation of carbon-bearing silicate melts by melt-metacarbonate interaction at convergent plate margins. Earth and Planetary Science Letters,597,117816. Li,Y.B.,Wu,Y.W.,Su,B.,Chen,
17. S.,Zhang,Q.H.,Chen,Y.,2022. Thermodynamic constraints on the composition of orogenically thickened lower crust. Journal of Metamorphic Geology,40,1405–1426.Zhang,D.,Chen,Y.,Yang,W.,Fournelle,J.H.,Ji,J.L.,Su,B.,Mao,Q.,
18. Jia,L.H.,Yuan,J.Y.,Li,X.G.,2022. High-precision Measurement of Trace Level Na,K,P,S,Cr,and Ni in Lunar Glass Using Electron Probe Microanalysis. Atomic Spectroscopy,43,28–41.Jia,L.H.,Chen,Y.,Su,B.
19. ,Mao,Q.,Zhang,D.,2022. Oxygen fugacity evolution of magmatic Ni-Cu sulfide deposits in East Kunlun: insights from Cr-spinel composition. American Mineralogist,107,1968–1981.Guo,S.,Su,B.,John,T.,Zhao,K.D.,Tang,P.,Chen,Y.,Li,Y.B., 2022. Boron release and transf
20. er induced by phengite breakdown in subducted impure metacarbonates. Lithos,408,106548.Jia,L.H.,Mao,Q.,Su,B.,Wu,S.T.,Huang,L.L.,Yuan,J.Y.,Zhang,D.,Chen,Y.,2021. MK-1 Orthopyroxene—A New Potential Reference
21. Material for In-Situ Microanalysis. Minerals,11,1321.Chen,S.,Chen,Y.,Li,Y.B.,Su,B.,Zhang,Q.H.,Aung,M.M.,Sein,K.,2021. Cenozoic ultrahigh-temperature metamorphism in pelitic granulites from
22. the Mogok metamorphic belt,Myanmar. Science China Earth Sciences,64,1873–1892.Tang,P.,Guo,S.,Yang,Y.,Chen,Y.,Su,B.,2021. Evolution of fluids and melts in deeply subducted continental crust: Insi
23. ghts from an UHP eclogite–vein system in the Dabie terrane,China. Lithos,398,106325.Guo,S.,Zhao,K.D.,John,T.,Tang,P.,Chen,Y.,Su,B.,2019. Metasomatic flow of metacarbonate-derived fluids carrying isotopically heavy boron in continenta
24. l subduction zones: Insights from tourmaline-bearing ultra-high pressure eclogites and veins (Dabie terrane,eastern China). Geochimica et Cosmochimica Acta,253,159–200. 张迪，陈意，毛骞，苏斌，贾丽辉，郭顺，2019. 电子探针分析技术进展及面临的挑战. 岩石学报，35，261–274
    
25. . 陈意，苏斌，郭顺，2019. 造山带橄榄岩起源和大陆俯冲带壳幔相互作用. 地球科学，44，4086–4094. Chen,Y.,Huang,F.,Shi,G.H.,Wu,F.Y.,Chen,X.,Jin,Q.Z.,Su,B.,Guo,S.,Sein,K.,Nyunt,T.T.,2018. Magnesium isotope composition of subduction zone fluids as constrained by jadeitites from Myanmar. Journal of Geophysical Research: Solid Earth,123,7566–7585. 陈意，陈思
26. ，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. Guo,S.,Ta
27. ng, P.,Su,B.,Chen,Y.,Ye,K.,Zhang,L.M.,Gao,Y.J.
28. ,Liu,J.B.,Yang,Y.H.,2017. Unusual replacement of Fe-Ti oxides by rutile during retrogression in amphibolite-hosted veins (Dabie UHP terrane):A mineralogical record of fluid-induced oxidation processes in exhumed UHP slabs. American Mineralogist,102,2268–2283. Ch
29. en,Y.,Su,B.,Guo,S.,2017. Modification of an anci
30. ent subcontinental lithospheric mantle by continental subduction: Insight from the Maowu garnet peridotites in the Dabie UHP belt,eastern China. Lithos,278,54–71. Guo,S.,Yang,Y.H.,Chen,Y.,Su,B.,Gao,Y.J.,Zhang,L.M.,Liu,J.B.,Mao,Q.,2016a. Grain-scale Sr isotope heterogeneity in amphibolite (retrograded UHP eclogite,
31. Dabie terrane):Implications for the origin and flow behavior of retrograde fluids during slab exhumation. Lithos,266,383–405. Guo,S.,Chen,Y.,Liu,C.Z.,Wang,J.G.,Su,B.,Gao,Y.J.,Wu,F.Y.,Sein,K.,Yang,Y.H.,
32. Mao,Q.,2016b. Scheelite and coexisting F-rich zoned garnet,vesuvianite,fluorite,and apatite in calc-silicate rocks from the Mogok metamorphic belt,Myanmar: Implications for metasomatism in marble and the role of halogens in W mobilization and mineralization. Journal of Asian Earth Sciences,
33. 117,82–106. Guo,S.,Chen,Y.,Ye. K.,Su,B.,Yang,Y.H.,Zhang,L.M.,Liu,J.B.,Mao,Q.,2015a. Formation of multiple high-pressure veins in ultrahigh-pressure eclogite (Hualiangting,Dabie terrane,China):Fluid source,element transfer,and closed-system metamorphic veining. Chemical Geology,417,238–260. Guo,S.,Ye,K.,Cheng,N.F.,Chen,Y.,Su,B.,Liu,J.B.,2015b. Metamorphic PT trajector
34. y and multi-stage fluid events of vein-bearing UHP eclogites from the Dabie terrane: insights from compositional zonations of key minerals. International Geology Review,57,1077–1102. Chen,Y.,Su,B.,Guo,S.,2015. The Dabie-Sulu orogenic peridotites: Progress and key issues. Science China Earth S
35. ciences,58,1679–1699. Chen,Y.,Ye,K.,Wu,Y.W.,Guo,S.,Su,B.,Liu,J.B.,2013. Hydration and dehydration in the lower margin of a cold mantle wedge: implications for crust–mantle interactions and petrogeneses of arc magmas. International Geology Review,55,1506–1522.
36. 陈意，叶凯，苏斌，郭顺，刘景波，2013. 大别-苏鲁造山带橄榄岩的变质和交代过程. 科学通报，58,2294–2299. Liu,Q.,Yu,J.H.,Wang,Q.,Su, B.,Zhou,M.F.,Xu,H.,Cui,X.,2012. Ages
37. and geochemistry of granites in the Pingtan–Dongshan Metamorphic Belt,Coastal South China: new constraints on Late Mesozoic magmatic evolution. Lithos,150,268–286. 刘潜，于津海，苏斌，王勤，唐红峰，许海，崔翔，2011. 福建锦城 187Ma 花岗岩的发现—对华南沿海早侏罗世构造演化的制约. 岩石学报，27，3575–3589.