李志伟，男，1980年生，博士，中国科学院精密测量科学与技术创新研究院（原中国科学院测量与地球物理研究所）研究员，博士生导师。长期从事地震成像方法、地壳结构及其深部构造领域研究工作，包括Pg/Sg/Pn多震相差分成像、地震与重力联合成像、密集台阵成像等方法，为获得高分辨、高精度的地壳三维结构模型提供了有力方法。中国科学院青年创新促进会优秀会员，中国地震学会地壳深部探测专业委员会委员、中国科学院青年创新促进会地学分会委员、湖北省地震学会常务理事。作为负责人承担了科技部重点研发计划课题、国家自然科学基金、973及中科院先导专项子课题、中国地质调查局横向课题等项目。在EPSL、GRL、GJI、BSSA、TECTONOPHYSICS、GEOPHYSICS、CRYOSPHERE等知名期刊发表SCI论文60余篇。2018年获湖北省自然科学一等奖（排名第三）。

工作/教育经历

2016.01至今中国科学院测量与地球物理研究所 研究员

2014.11-2014.12韩国釜山国立大学 访问学者

2011.03-2015.12中国科学院测量与地球物理研究所 副研究员 　　 

2008.07-2011.02中国科学院地质与地球物理研究所 博士后

2007.01-2008.01美国伦斯勒理工学院  联合培养博士生

2003.09-2008.06中国科学院地质与地球物理研究所 地球物理 博士

1999.09-2003.07中国科学技术大学地球和空间科学学院 地球物理 本科

主要SCI论文（*为通讯作者）

[1]Bao F, Li Z W*, Tian B F, Wang L L, Tu G H. Sediment thickness variations of the Tangshan fault zone in North China from a dense seismic array and microtremor survey. J. Asian Earth Sci., 2020, 185, in press.

[2]Gao R H*, Li Z W*, Han R*, Wang A D, Li Y F, Xi Y F, Liu J G, Mao X, Sun Y, Xu Y., JULOC: A local 3-D high-resolution crustal model in South China for forecasting geoneutrino measurements at JUNO. Physics of the Earth and Planetary Interiors, 2020, 299, in press.

[3]Wang Y, Li Z W*, Geng J H, You Q Y, Hao T Y, et al. Seismic imaging of shear-wave structures for the shallow sediments in the East China Sea using OBN multi-components Scholte-wave data. Geophysics, 2020, in press.

[4]Yan P, Li Z W*, Li F*, Yang Y D, Hao W F. Estimations of ice thickness and vp/vs ratios of the Antarctic ice sheet unveiled by teleseismic P wave coda autocorrelations. Journal of Glaciology, 2020, 66(255), 153-165.

[5]Wang X T, Wang S F, Li Z W*, Dong Y B, Yuen A D. Source characterization of some collapse earthquakes due ming activities in Shandong and Beijing, North China. Seismological Research Letters, 2019, 90, 183-193.

[6]Li Z W, Ni S D, Roecker S, et al., Seismic imaging of source region in the 1976 MS 7.8 Tangshan earthquake sequence and its implications for the seismogenisis of intraplate earthquakes. Bulletin of the Seismological Society of America, 2018, 108(3A), 1302-1313. 

[7]Wang S, Li Z W*. S-wave attenuation of the shallow sediments in the North China basin based on borehole seismograms of local earthquakes. Geophysical Journal International, 2018, 214, 1391-1400.

[8]Bao F, Li Z W*, Yuen D A, Zhao J Z, Ren J, Tian B F, Meng Q J. Shallow structure of the Tangshan fault zone unveiled by dense seismic array and horizontal-to-vertical spectral ratio method. Physics of the Earth and Planetary Interiors, 2018, 281, 46-54.

[9]Yan P, Li Z W, Li F, Yang Y, Hao W, Bao F., Antarctic ice sheet thickness estimation using the horizontal-to-vertical spectral ratio method with single-station seismic ambient noise. The Cryosphere, 2018, 12, 795-810.

[10]Dong Y B, Ni S D, Yuen D A, Li Z W. Crustal rheology from focal depths in the North China Basin. Earth Planetary Science Letters, 2018, 497, 123-138.

[11]Li X L, Hao T Y, Li Z W*. Upper mantle structure and geodynamics of the Sumatra subduction zone from 3-D teleseismic P-wave tomography. Journal of Asian Earth Sciences, 2018, 161, 25-34.

[12]Li X L, Li Z W*, Hao T Y, et al., A multi-frequency receiver function inversion approach for crustal velocity structure. Comput. & Geosci., 2017, 102, 45-55.

[13]Li Z W, Ni S D, Zhang B L, Bao F, Zhang S Q, Deng Y, Yuen D. Shallow magma chamber under the Wudalianchi volcanic field unveiled by seismic imaging with dense array. Geophysical Research Letters, 2016, 43, 4954-4961. 

[14]Wang Y, Li Z W*, You Q Y, Hao T Y, et al. Shear-wave velocity structure of the shallow sediments in the Bohai Sea from an ocean-bottom-seismometer survey. Geophysics, 2016, 81(3), ID25-ID36.

[15]Li Z W, Ni S D, Roecker S. Interstation Pg and Sg differential traveltime tomography in the northeastern margin of the Tibetan plateau: Implications for spatial extent of crustal flow and segmentation of the Longmenshan fault zone. Physics of the Earth and Planetary Interiors, 2014, 227, 30-40. 

[16]Li Z W, Roecker S, Kim K H, Xu Y, Hao T Y. Moho depth variations in the Taiwan orogen from joint inversion of seismic arrival time and Bouguer gravity data. Tectonophysics, 2014, 632, 151-159. 

[17]Li Z W, Ni S D, Somerville P. Resolving shallow shear-wave velocity structure beneath station CBN by waveform modeling of the Mw 5.8 Mineral, Virginia earthquake sequence. Bulletin of the Seismological Society of America, 2014, 104(2), 944-952. 

[18]Ni S D, Li Z W, Somerville P. Estimating subsurface shear velocity with radial to vertical ratio of local P waves. Seismological Research Letters, 2014, 85, 82-90.

[19]Li Z W, Tian B F, Liu S, Yang J S. Asperity of the 2013 Lushan earthquake in the eastern margin of Tibetan plateau from seismic tomography and aftershock relocation. Geophysical Journal International, 2013, 195, 2016-2022. 

[20]Li Z W, You Q Y, Ni S D, Hao T Y, Wang H T, Zhuang C T. Waveform Retrieval and Phase Identification for Seismic Data from the CASS Experiment. Pure and Applied Geophysics, 2013, 170, 815-830. 

[21]Li Z W, Ni S D, Hao T Y, Xu Y, Roecker S. Uppermost mantle structure of the eastern margin of the Tibetan plateau from interstation Pn traveltime difference tomography. Earth Planetary Science Letters, 2012, 335-336, 195-205. 

[22]Li Z W, Hao T Y, Xu Y. Uppermost mantle structure of the North China Craton: Constraints from interstation Pn travel time difference tomography. Chinese Science Bulletin, 2011, 56: 1691-1699. 

[23]Li Z W, Hao T Y, Xu Y, Xu Y. An efficient and adaptive approach for modeling gravity effects in spherical coordinates. Journal of Applied Geophysics, 2011, 73, 221-231. 

[24]Li Z W, Xu Y, Huang R Q, Hao T Y, Xu Y, Liu J S, Liu J H. Crustal P-wave velocity structure of the Longmen Shan region and its tectonic implications for the 2008 Wenchuan earthquake. Sci China Earth Sci, 2011, 54, 1386-1393. 

[25]Li Z W, Hao T Y, Xu Y, Xu Y, Roecker S. A global optimizing approach for waveform inversion of receiver functions. Comput. & Geosci., 2010, 36, 871-880. 

[26]Xu Y, Li Z W, Huang R Q, et al. Seismic structure of the Longmen Shan region from S-wave tomography and its relationship with the Wenchuan Ms 8.0 earthquake on 12 May 2008, southwestern China. Geophysical Research Letters, 2010, 37, L02304.

[27]Xu Y, Li Z W, Huang R Q, et al. Pn-wave velocity anisotropy of the western Sichuan and Longmen Mountain region, China. Sc. China Earth Sci. 2010, 53(11), 1665-1670.

[28]Li Z W, Roecker S, Li Z H, et al. Tomographic image of the crust and upper mantle beneath the western Tien Shan from the MANAS broadband deployment: Possible evidence for lithospheric delamination. Tectonophysics, 2009, 477, 49-57. 

[29]Li Z W, Xu Y, Hao T Y, Xu Y. Vp and Vp/Vs structures in the crust and upper mantle of the Taiwan region, China. Sci China Earth Sci, 2009, 52(7), 975-983. 

[30]Xu Y, Li Z W, Roecker S. Uppermost mantle structure and its relation with seismic activity in the central Tien Shan. Geophysical Research Letters, 2007, 34, L10304.

[31]王仁涛 李志伟* 包丰 谢军 赵建忠. 松辽盆地沉积层结构的短周期地震背景噪声成像研究. 地球物理学报, 2019, 62 (9):3385-3399.

[32]赵建忠 李志伟 林建民 郝天珧 包丰 谢军 王嘹亮 涂广红. 南海地区地震背景噪声成像与壳幔深部结构. 地球物理学报, 2019, 62 (6): 2070-2087.

[33]陈浩朋 李志伟* 储日升 谢军 崇加军 叶庆东. 云南地区地壳上地幔三维S波速度与径向各向异性结构研究. 地球物理学报, 2018, 61 (8): 3219-3236

[34]晏鹏 李志伟 李斐 杨元德 郝卫峰 周磊. 基于远震接收函数的南极大陆冰盖厚度研究. 地球物理学报, 2017, 60 (10): 3780-3792.

[35]张宝龙 李志伟* 包丰 邓阳 游庆瑜 张森琦. 基于微动方法研究五大连池火山区尾山火山锥浅层剪切波速度结构.地球物理学报, 2016, 59(10):3662-3673.

[36]李志伟 黄志斌 王晓欣 韩立波 陈伟文 包丰. USGS地震目录中4~5级震源深度异常地震可靠性初步研究:以南北地震带若干地震为例.地球物理学报, 2015, 58(4): 1236~1250. 

[37]李志伟 胥颐 Roecker S 郝天珧 刘劲松. 中天山地区的Pn 波速度结构与各向异性. 地球物理学报, 2007, 50(4): 1066~1072.

[38]李志伟 胥颐 郝天珧 刘劲松 张岭. 环渤海地区的地震层析成像与地壳上地幔结构. 地球物理学报, 2006, 49(3): 797~804.