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姓名 陈赟 性别:
职称 副研究员 学位 博士
电话 010-82998339 传真: 010-82998339
Email: yunchen@mail.iggcas.ac.cn 邮编: 100029
地址 北京市朝阳区北土城西路19号 中国科学院地质与地球物理研究所
更多信息:
 
简历:

  陈赟,男,副研究员。1997年大学本科毕业于原长春地质学院,获学士学位;2004年毕业于中国地质大学(北京),获硕士学位;2007年毕业于中国科学院研究生院,获博士学位。
  大学毕业后分配至中国科学院地质与地球物理研究所工作至今。曾以高级访问学者身份在美国圣路易斯大学(SLU)、德国地球科学研究中心(GFZ)从事访问研究。兼任中国地球物理学会中国大陆动力学专业委员会副秘书长。
  主要研究领域为地球壳幔结构成像与动力学,在青藏高原壳幔结构探测与成像、古老重大地质事件岩浆作用的地球物理响应特征与深部过程重建等方面取得了一些重要进展。在国内外学术刊物发表论文80余篇,其中,SCI论文66余篇,引用3700多次,H指数30。多篇论文入选ESI全球TOP1%高引论文目录。
  曾主持国家自然科学青年基金项目1项,面上项目2项;国家973计划课题1项,国家重点研发计划课题/子课题1项;中国科学院战略性先导科技专项(B类)子课题1项,中国科学院青年人才领域前沿项目1项。
 
学科类别:
固体地球物理学
 
研究方向:
典型构造域综合地球物理探测、地球壳幔结构成像与动力学
 
职务:
 
社会任职:
 
承担科研项目情况:

主持的科研项目如下:

  1. 燕山期重大地质事件关键廊带的综合地球物理探测与深部结构,国家重点研发计划课题/子课题,2016.07-2020.12
  2. 南北重力梯度带的深部结构,中国科学院战略性先导科技专项(B类)子课题,2016.07-2020.12
  3. 青藏高原北部及邻区壳幔结构特征与深部过程研究,国家自然科学基金面上项目,2014.01-2017.12;
  4. 地幔柱活动区壳幔精细结构及其深部制约,国家973计划课题,2010.08-2015.08;
  5. 青藏高原东缘强烈盆山作用区地壳结构及各向异性特征重建,国家自然科学基金面上项目,2011.01-2013.12;
  6. 宽角反射/折射地震资料中红色噪声的剔除及其应用,国家自然科学青年基金项目,2006.01-2008.12;
  7. 区域面波层析成像中的有限频率效应,中国科学院青年人才领域前沿项目,2007.10-2010.10.

此外,作为骨干研究人员,参加完成了国家自然科学杰出青年基金项目1项,重点基金项目2项,创新研究群体项目1项,中国科学院知识创新工程重要方向项目2项,国家973计划项目课题1项,中国科学院战略性先导科技专项(B类)课题1项。
 
获奖及荣誉:

曾获第八届青藏高原青年科技奖(2011年)、中国地质学会“2010年度十大地质科技进展”(2011年)、“2015年度十大地质科技进展”(2016年)、Tectonophysics Most Cited Article 2005-2010 (2011年)、教育部“高等学校科学研究优秀成果奖(自然科学奖)”一等奖(2021年)、二等奖(2009年)等科技奖励。
 
代表论著:

(*为通讯作者;未标注的,通讯作者同第一作者) 

2022年

  1. Li W, Chen Y*, Yuan XH, Xiao WJ*, Windley B. 2022. Intracontinental deformation of the Tianshan orogen in response to India-Asia collision. Nature Communications, 13: 3738.
  2. Li X*, Chen Y*, Tian XB, Liu SZ. 2022. Magnetotelluric evidence for distributed lithospheric modification beneath the Yinchuan-Jilantai rift system and its implications for Late Cenozoic rifting in western North China. Journal of Geophyscial Research: Solid Earth, 127: e2021JB022585.
  3. Li X*, Bai DH, Chen Y*, Deng YF, Zhang SQ, Xue S. 2022. Magnetotelluric signatures of Neoproterozoic subduction, and subsequet litospheric reactivation and thinning beneath central South China. Tectonophysics, 833: 229365.
  4. Deng YF, Chen Y, Li PF, Zhang Z, Badal J. 2022. A synthesis of geophysical data in southeastern North China craton: Implications for the formation of the arcuate Xuhuai thrust belt. Journal of Earth Science, https://doi.org/10.1007/s12583-021-1584-y.
  5. Dong XP, Yang DH*, Zhu HJ, Chen Y. 2022. Geometry-preserving full-waveform tomography and its application in the Longmen Shan area. Seicence China: Earth Sciences, 65(3): 437-448.
  6. 董兴鹏,杨顶辉*,祝贺君,陈赟. 2022. 保几何特性的全波形层析成像及其在龙门山地区的应用. 中国科学:地球科学, 52(3): 450-461.
  7. Yang F, Guo GR, Li J*, Chen Q-F, Chen Y, Chen SD. 2022. Panoptic view of mantle flow beneath trans-Continental northeast Asia: Distinct variation detected from ~2,000 km shear wave splitting profile. Geophysical Research Letters, 49: e2021GL097116.
  8. He Y, Chen Q-F*, Chen L, Wang X, Guo GR, Li TJ, Zhang KW, Li J, Chen Y. 2022. Distinct lithospheric structure in the Xing’an-Mongolian orogenic belt. Geophysical Research Letters, 49: e2021GL097283.

2021年

  1. Li W, Chen Y*, Liang XF, Xu YG. 2021. Lateral seismic anisotropy variations record interaction between Tibetan mantle flow and plume-strengthened Yangtze Craton. Journal of Geophysical Research: Solid Earth, 126, e2020JB020841
  2. Li W, Chen Y*, Xu YG. 2021. Crustal SiO2 content of the Emeishan large igneous province and its implications for magma volume and plumbing system. Geochemistry, Geophysics, Geosystems, 22: e2021GC009783
  3. Deng YF*, Xu YG*, Chen Y*. 2021. Formation mechanism of the North-South Gravity Lineament in eastern China. Tectonophysics, 818: 229074
  4. Li W, Yuan X, Heit B, Schmidt-Aursch MC, Almenddros J, Geissler WH, Chen Y. 2021. Back-arc extension of the Central Bransfield Basin induced by ridge-trench collision: Implications from ambient noise tomography and stress field inversion. Geophysical Research Letters, 48(21): e2021GL095032
  5. Xue S, Chen Y, Liang H, Li X, Ma X, Lu Z, Bai DH, Yan Y. 2021. Deep electrical resistivity structure across the Gyaring Co Fault in Central Tibet revealed by magnetotelluric data and its implication. Tectonophysics, 809: 228835

2020年

  1. 李玮,陈赟*,谭萍,袁晓晖. 2020. 大陆深俯冲的深浅动力学响应:来自帕米尔高原地壳精细结构的约束. 中国科学:地球科学, 50(5): 663-676
  2. Li W, Chen Y*, Tan P, Yuan XH. 2020. Geodynamic processes of the continental deep subduction: Constraints from the fine crustal structure beneath the Pamir plateau. Science China Earth Sciences, 63(5): 649-661
  3. Liu Z, Tian XB, Yuan XH, Liang XF, Chen Y, Zhu GH, Zhang HS, Li W, Tan P, Zuo SC, Wu CL, Nie ST, Wang GC, Yu GP, Zhou BB. 2020. Complex structure of upper mantle beneath teh Yadong-Gulu rift in Tibet revealed by S-to-P converted waves. Earth and Planetary Science Letters, 531, 115954.
  4. 张凯文, 陈棋福, 陈赟. 2020. 接收函数揭示的兴蒙造山带西南部的地壳结构特征. 地球物理学报, 63(4): 1484-1504
  5. Nie ST, Tian XB, Liang XF, Chen Y, Xu T. 2020. Pn uppermost mantle tomography of central Tibet: Implication for mechanisms of N-S rifts and conjugate faults. Tectonophysics, 788: 228499

2019年

  1. Li W, Chen Y*, Liu F, Yang HF, Liu JL, Fu BH. 2019. Chain-style landslide hazardous process: Constraints from seismic signals analysis of the 2017 Xinmo landslide, SW China. Journal of Geophsical Research: Solid Earth, 124: 2025-2037
  2. Chen Y, Cui T, Ding W W, Wei X D, et al. 2019. New progress on the onshore-offshore seismic survey in East China Continental Margin. Solid Earth Sciences, 4: 85-91
  3. Xue S, Bai DH, Chen Y, Ma XB, Chen L, Li X, Yan YL. 2019. Contrasting crustal deformation mechanisms in the Longmenshan and West Qinling orogenic belts, NE Tibet, revealed by magnetotelluric data. Journal of Asian Earth Sciences, 176: 120-128
  4. Li X, Bai DH, Ma XB, Chen Y, Varentsov IM, Xue GQ, Xue S, Lozovsky I. 2019. Electrical resistivity structure of the Xiaojiang strike-slip fault system (SW China) and its tectonic implications. Journal of Asian Earth Sciences, 176: 57-67
  5. 陈棋福,艾印双,陈赟. 2019. 长白山火山区深部结构探测的研究进展与展望. 中国科学-地球科学, 49(5): 778-795
    Chen QF, Ai YS, Chen Y. 2019. Overview of deep sturctures under the Changbaishan volcanic area in Northeast China. Science China Earth Sciences, 62: 935-952
  6. Wu CL, Tian XB, Xu T, Liang X, Chen Y, Taylor M, Badal J, Bai Z, Duan Y, Yu GP, Teng JW. 2019. Deformation of crust and upper mantle in central Tibet caused by the northward subduction and slab tearing of the Indian lithosphere: New evidence based on shear wave splitting measurements. Earth and Planetary Science Letters, 514: 75-83.
  7. Wu CL, Tian XB, Xu T, Liang XF, Chen Y, et al. 2019. Upper-Crustal anisotrpoy of the conjugate strike-slip fault zone in central Tibet anayzed using local earthquakes and shear wave splitting. Bulletin of the Seismolgogical Society of America, 109(5): 1968-1984.
  8. Chen L, Song XD, Gerya TV, Xu T, Chen Y. 2019. Crustal melting beneath orogenic plateaus: Insights from 3-D thermo-mechanical modeling. Tectonophysics, 761: 1-15
  9. 滕吉文, 杨顶辉, 田小波, 徐涛, 陈赟, 白志明, 梁晓峰, 张晰, 吴晶, 刘有山. 2019. 青藏高原深部地球物理探测70年. 中国科学:地球科学, 49(10): 1546-1564.

2018年

  1. Li W, Chen Y*, Yuan XH, Schurr B, Mechie J, Oimahmadov I, Fu BH,2018. Continental lithospheric subduction and intermediate-depth seismicity: Constraints from S-wave velocity structures in the Pamier and Hindu Kush. Earth and Planetary Science Letters 482: 478-489
  2. 王振华,陈赟*,陈林,宋海斌,徐义刚,2018. 岩浆底侵的热-流变学效应及对峨眉山大火成岩省的启示. 岩石学报,34(1): 91-102
  3. 谭萍,陈赟*,孙维昭,李玮,唐国彬,崔田.2018. 一种改进的适应于倾斜Moho面的H-k-θ叠加方法及应用. 地球物理学报,61(9): 3689-3700
  4. Zhang X, Wang P, Xu Tao, Chen Y, Badal J, Teng J. 2018. Density structure of the crust in the Emeishan large igneous province revealed by the Lijiang-Guiyang gravity profile. Earth and Planetary Physics 2(1): 74-81

2017年

  1. 陈赟,王振华,郭希,邓阳凡,徐涛,梁晓峰,田小波,吴晶,陈林,张晰,唐国彬,徐义刚,2017. 古地幔柱作用“遗迹”的深部地球物理探测-以峨眉山大火成岩省为例. 矿物岩石地球化学通报,36(3):394-403
  2. 陈赟,丁巍伟,郑勇,邓阳凡,田晓峰,郭希,2017. 燕山期重大地质事件关键廊带的地球物理探测. 矿物岩石地球化学通报,36(4):561-567
  3. 郭希,陈赟*,李士东,邓阳凡,徐涛,李玮,谭萍,2017. 峨眉山大火成岩省地壳横波速度结构特征及其动力学意义. 地球物理学报,60(9):3338-3351
  4. 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
  5. Liu Z, Tian XB, Chen Y, Xu T, Bai ZM, Liang XF, Iqbal J, Xu YG,2017. Unusually thickened crust beneath the Emeishan large igneous province detected by virtual deep seismic sounding. Tectonophysics 721: 387-394.

2016年

  1. Deng YF, Chen Y, Wang P, Essa KS, Xu T, Liang XF, Badal J, 2016. Magmatic underplating beneath the Emeishan large igneous province (South China) revealed by the COMGRA-ELIP experiment. Tectonophysics 672-673: 16-23
  2. Liang XF, Chen Y, Tian XB, Chen YS J, Ni J, Gallegos A, Klemperer S, Wang ML, Xu T, Sun CQ, Si SK, Lan HQ, Teng JW, 2016. 3D imaging of subducting and fragmenting Indian continental lithosphere beneath southern and central Tibet using body-wave finite-frequency tomography. Earth and Planetary Science Letters 443: 162-175
  3. Liang XF, Tian XB, Zhu GH, ..., Chen Y, Teng JW, 2016. SANDWICH: A 2D broadband seismic array in central Tibet. Seismological Research Letters 87(4): 864-873

2015 

  1. Chen Y, Xu YG, Xu T, Si SK, Liang XF, Tian XB, Deng YF, Chen L, Wang P, Xu YH, Lan HQ, Xiao FH, Li W, Zhang X, Yuan XH, Badal J, Teng JW, 2015. Magmatic underplating and crustal growth in the Emeishan Large Igneous Province, SW China, revealed by a passive seismic experiment. Earth and Planetary Science Letters 432:103-114. 
  2. Chen Y, Li W, Yuan XH, Badal J, Teng JW, 2015. Tearing of the Indian lithospheric slab beneath southern Tibet revealed by SKS-wave splitting measurements. Earth and Planetary Science Letters 413:13-24. 
  3. Tian XB, Chen Y, Tseng TL, Klemperer SL, Thybo H, Liu Z, Xu T, Liang XF, Bai ZM, Zhang X, Si SK, Sun CQ, Lan HQ, Wang E, Teng JW, 2015. Weakly coupled lithospheric extension in southern Tibet. Earth and Planetary Science Letters 430:171-177. 
  4. 王敏玲,陈赟*,梁晓峰,徐逸鹤,范宇婷,徐涛,张忠杰,滕吉文,2015. 华南及南海北部地区瑞利面波层析成像. 地球物理学报, 58(6):1963-1975.
  5. 徐涛,张忠杰,刘宝峰,陈赟,张明辉,田小波,徐义刚,滕吉文,2015. 峨眉山大火成岩省地壳速度结构与古地幔柱活动遗迹:来自丽江-清镇宽角地震资料的约束. 中国科学-地球科学, 45(5):561-576. 
  6. Xu T, Zhang ZJ, Liu BF, Chen Y, Zhang MH, Tian XB, Xu YG, Teng JW, 2015. Crustal velocity structure in the Emeishan large igneous province and evidence fo the Permian mantle plume activity. Science China: Earth Sciences 589(7):1133-1147.  

2014年 

  1. Zhang ZJ, Wang YH, Houseman, GA, Xu T, Wu ZB, Yuan XH, Chen Y, Tian XB, Bai ZM, Teng JW, 2014. The Moho beneath western Tibet: Shear zones and eclogitizaitn in the lower crutst. Earth and Planetary Science Letters 408: 370-377. 

2013 

  1. Chen Y, Zhang ZJ, Sun CQ, Badal J, 2013. Crustal anisotropy from Moho converted Ps wave splitting analysis and geodynamic implications beneath the eastern margin of Tibet and surrounding regions. Gondwana Research 24(3-4): 946-957. 
  2. Zhang ZJ, Chen Y, Yuan XH, Tian XB, Klemperer SL, Xu T, Bai ZM, Zhang HS, Wu J, Teng JW, 2013. Normal faulting from simple shear rifting in South Tibet, using evidence from passive sesmic profiling across Yadong-Gulu Rift. Tectonophysics 606: 178-186. 
  3. Badal J, Chen Y, Chourak M, Stankiewicz J, 2013. S-wave velocity images of the Dead Sea Basin provided by amibent seismic noise. Journal of Asian Earth Sciences 75: 26-35. 
  4. Zhang ZJ, Wang YH, Deng YF, Chen L, Wu J, Teng JW, Chen Y, Fan WM, Panza G, 2013. Geophysical constraints on mesozoic disruption of North China Craton by underplating-griggered lower-crust flow of the Archaean lithosphere. Terra Nova 25: 245-251. 

2012 

  1. Zhang ZJ, Wu J, Deng YF, Teng JW, Zhang X, Chen Y, Panza G, 2012. Lateral variation of the strength of lithosphere across the eastern North China Craton: New constraints on lithospheric disruption. Gondwana Research 22:1047-1059. 

2011 

  1. Badal J, Chen Y, Zhang ZJ, 2011. Modeling of Rayleigh wave dispersion in Iberia. Geoscience Frontiers 2(1):35-48. 
  2. Zhang ZJ, Deng YF, Teng JW, Wang CY, Gao R, Chen Y, Fan WM, 2011. An overview of the crustal structure of the Tibetan plateau after 35 years of deep seismic soundings. Journal of Asian Earth Sciences 40: 977-989. 
  3. Zhang ZJ, Klemperer S, Bai ZM, Chen Y, Teng JW, 2011. Crustal structure of the Paleozoic Kunlun orogeny from an active-source seismic profile between Moba and Guide in East Tibet, China. Gondwana Research 19: 994-1007. 
  4. Tian XB, Zhang ZL, Si SK, Wang JB, Chen Y, Zhang ZJ, 2011. SKS splitting measurements with horizontal component misalignment. Geophysical Journal International 185(1): 329-340. 
  5. 孙长青,陈赟*,高尔根.青藏高原东缘强烈盆山相互作用区地壳各向异性特征及其动力学意义探讨,地球物理学报,2011,54(5): 1205-1214

2010 

  1. Chen Y, Badal J, Hu JF, 2010. Love and Rayleigh wave tomography of Qinghai-Tibet Plateau and its surrounding areas. Pure and Applied Geophysics 167:1171-1203. 
  2. Zhang ZJ, Yuan XH, Chen Y, Tian XB, Kind R, Li XQ, Teng JW, 2010. Seismic signature of the collision between the east Tibetan escape flow and the sichuan Basin. Earth and Planetary Science Letters 292:254-264. 

2009 

  1. Chen Y, Badal J, Zhang ZJ, 2009. Radial anisotropy in the crust and upper mantle beneath the Qinghai-Tibet Plateau and surrounding regions. Journal of Asian Earth Sciences 36:289-302. 
  2. Zhang ZJ, Wang Y, Chen Y, Houseman GA, Tian XB, Wang EC, Teng JW, 2009. Crustal structure across Longmenshan fault belt from passive source seismic profiling, Geophysical Research Letters 36, L17310, doi:10.1029/2009GL039580. 
  3. Yan YL, Chen BC, Chen Y, Ma XB, 2009. Multiple superimposed probability tomography on a second electrical field, Journal of Geophysics and Engineering 6:82-86. 
  4. 张忠杰,陈赟,田小波.青藏高原东缘地壳上地幔结构及其动力学意义.地质科学,2009, 44(4):1136-1150. 

2008 

  1. Badal J, Chen Y, and Hu J, 2008. Editors M. Asorey, J.V. Garcia Esteve, M.F. Ranada and J. Sesma. Group velocity tomography of Tibet. Mathematical Physics and Field Theory, 121-148, Prensas Universitarias de Zaragoza. 
  2. 张智,陈赟,李飞. 利用地震面波频散重建川滇地区壳幔S波速度. 地球物理学报,2008,51(4):1114-1122. 
  3. 胡家富,胡毅力,夏静雨,陈赟,赵宏,杨海燕. 缅甸弧及邻区的壳幔S波速度结构与动力学过程. 地球物理学报,2008,51(1):140-148. 
  4. 闫永利,赵永贵,陈本池,陈赟,马晓冰,孔祥儒. 二次电流场多次叠加概率成像. 地球物理学报,2008,51(5):1544-1550. 

2008年以前

  1. 陈赟,高乐,赵烽帆. 一种基于频率域偏振分析提高三分量地震资料信噪比的方法. 地球物理学进展,2007,22(1):255-261. 
  2. 杨立强,邓军,陈赟. 青藏高原壳幔形变数值模拟研究. 地学前缘,2006,13(5):360-373. 
  3. Zhang ZJ, Badal J, Li YK, Chen Y, Yang LQ, Teng JW, 2005. Crust-upper mantle seismic velocity structure across Southeastern China. Tectonophysics 395:137-157. 
  4. 胡家富,朱雄关,夏静瑜,陈赟. 利用面波和接收函数资料联合反演滇西地区壳幔速度结构. 地球物理学报,2005,48(5):1069-1076. 
    Hu JF, Zhu XG, Xia JY, Chen Y, 2005. Using surface wave and receiver function data to jointly inversion the crustal and mantle velocity structure of west Yunnan area. Chinese Journal of Geophysics 48(5): 1148-1155. 
  5. 刘彦,陈赟,王者顺. TI介质各向异性速度多参数分析. 地球物理学进展, 2005, 20(2):540-544. 
  6. 陈赟,张中杰,田小波. 基于加窗Hilbert变换的复偏振分析方法及其应用. 地球物理学报, 2005, 48(4):889-895. 
    Chen Y, Zhang ZJ, Tian XB, 2005. Complex polarization analysis based on windowed Hilbert transform and its application. Chinese Journal of Geophysics 48(4): 960-967. 
  7. 陈赟,张中杰,胡家富等. 青藏高原及其邻区Love波速度横向展布特征. 张中杰,高锐,吕庆田,刘振宽主编,中国大陆地球深部结构与动力学研究. 2004,北京:科学出版社. 
  8. 张中杰,秦义龙,陈赟,等. 由宽角反射地震资料重建壳幔反射结构的相似性剖面. 地球物理学报,2004, 47(3):469-474. 
    Zhang ZJ, Qin YL, Chen Y, et al., 2004. Seismic reflection resemblance imaging for crust/upper mantle structure form wide-angle seismic data, Chinese Journal of Geophysics 47(3):533-538 
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