刘成利

博士生导师 硕士生导师

性别:男

出生年月:1986-06-09

毕业院校:中国科学院测量与地球物理研究所

学历:博士研究生毕业

学位:理学博士学位

在职信息:在职

所在单位:地球物理与空间信息学院,固体地球物理系

入职时间:2016-09-01

办公地点:基础楼205

联系方式:13971417171

Email:

   
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个人简历

刘成利,教授,硕士、博士生导师。

2009年本科毕业于山东理工大学,2014年获得中科院测量与地球物理研究所博士学位,2019年在美国加州大学圣克鲁兹分校访问交流,2022年获批国家自然科学基金优秀青年项目。

工作聚焦于综合利用多种观测资料,发展和完善相应联合反演方法,针对全球典型中强地震,尤其是大地震震例,开展震源破裂过程的联合反演研究,以期获得稳定、可靠、精细的震源破裂模型。

并在此基础上,深入探讨地震破裂发展过程及其孕震机理,对地震与火山相互作用、复杂断层系统的破裂传播、大地震孕震环境和起破位置等问题形成了新的认识,取得了系列研究成果。

相关成果发表在 Nat. Comm., EPSL, JGR-Solid Earth, GRL, GJI, BSSA, SRL, TSR 等地球物理学期刊。


科研项目

1.强震有限断层模型中的高频辐射信息研究 2018063184 国家自然科学基金青年项目 2017-01-012019-12-31

2. 川滇地区不同尺度区域应力场及其变化特征研究 2018061022 国家重点研发计划专题 2018-01-012021-12-31

3. 道孚-川滇交界东部断层现今闭锁状态研究 2018063184 国家自然科学基金重点项目子课题 2018-01-012022-12-31

4. 基于混合经验格林函数方法研究地震震源破裂过程 2020063139 国家自然科学基金面上项目 2020-01-012023-12-31

5. 地震学 2023063006 国家自然科学基金优秀青年科学基金项目 2023-01-012025-12-31

6.多尺度多参数壳幔流变结构模型研究 20230610049 国家重点研发计划专题 2022-12-012027-11-31



发表论文

2024年:

46. Liu, C., Bai, Y., Lay, T., He, P., Wen, Y., Wei, X., ... & Xiong, X. (2024). Shallow crustal rupture in a major Mw 7.5 earthquake above a deep crustal seismic swarm along the Noto Peninsula in western Japan. Earth and Planetary Science Letters, 648, 119107., https://doi.org/10.1016/j.epsl.2024.119107   

45. 肖阳, 单斌, 刘成利, &周万里. (2024). 2022 年芦山Ms 6.1 地震应力触发及地震危险性分析.地球科学, 49(8), 2979-2991. doi: 10.3799/dqkx.2023.053 

44. He, P., Liu, C., Wen, Y., & Ding, K. (2024). Complex rupture features and triggering during the 2022 Chishang earthquake sequence in Eastern Taiwan estimated by InSAR, GPS, strong motion, and teleseismic waveform evidence. Seismological Research Letters, 95(4), 2092-2104. https://doi.org/10.1785/0220230358

43. 丁灿阳, 冯雅杉, 刘成利, & 熊熊. (2024). 全球 Mw≥ 7.0 强震震级与断层滑动尺度的关系.大地测量与地球动力学, (1671-5942), 44(5).

42. 余建胜, 赵斌, 董培育, 刘刚, 刘成利, 徐锐, ... & 乔学军. (2024). GNSS 约束的2022 年泸定M6. 8 地震滑动分布及同震应力变化.地球物理学报, 67(3), 1022-1036.

41. Liu, G., Zhao, B., Xu, R., Qiao, X., Liu, C., Li, Y., ... & Wang, Q. (2024). GNSS‐Constrained Rupture Kinematics of the 2022 Mw 6.7 Luding, China, Earthquake: Directivity Pulse during the Asymmetrical Bilateral Rupture. Seismological Research Letters, 95(1), 264-276.  https://doi.org/10.1785/0220230096 

2023年:

40. Liu, C., Lay, T., Wang, R., Taymaz, T., Xie, Z., Xiong, X., ... & Erman, C. (2023). Complex multi-fault rupture and triggering during the 2023 earthquake doublet in southeastern Türkiye. Nature Communications, 14(1), 5564. https://doi.org/10.1038/s41467-023-41404-5

39. Bai, Y., Liu, C., Lay, T., Cheung, K. F., and Yamazaki, Y. (2023). Fast and slow intraplate ruptures during the 19 October 2020 magnitude 7.6 Shumagin earthquake. Nature Communications, 14(1), 2015. https://doi.org/10.1038/s41467-023-37731-2

38. Liu, C., Lay, T., Bai, Y., He, P., and Xiong, X.  (2023). Coseismic Slip Model of the 19 September 2022 Mw 7.6 Michoacán, Mexico, Earthquake: A Quasi-Repeat of the 1973 Mw 7.6 Rupture, The Seismic Record. 3(2), 57–68. https://doi.org/10.1785/0320220042 

37. Liu, C., Bai, Y., Lay, T., Feng, Y., and Xiong, X. (2023). Megathrust complexity and the up-dip extent of slip during the 2021 Chignik, Alaska Peninsula earthquake. Tectonophysics, 854, 229808. https://doi.org/10.1016/j.tecto.2023.229808 

36. He, P., C. Liu, Y. Wen, X. Hu, K. Ding, and C. Xu (2023). The 2022 Mw 6.6 Menyuan Earthquake in the Northwest Margin of Tibet: Geodetic and Seismic Evidence of the Fault Structure and Slip Behavior of the Qilian–Haiyuan Strike-Slip Fault, Seismological Research Letters. 94 (1), 26-38. https://doi.org/10.1785/0220220192

2022年:

35. Bai, Y., Liu, C., Lay, T., Cheung, K. F., & Ye, L. (2022). Optimizing a model of coseismic rupture for the 22 July 2020 MW 7.8 Simeonof earthquake by exploiting acute sensitivity of tsunami excitation across the shelf break. Journal of Geophysical Research: Solid Earth, 127(7), e2022JB024484. https://doi.org/10.1029/2022JB024484

34. Taymaz, T., Yolsal-Çevikbilen, S., Irmak, T. S., Vera, F., Liu, C., Eken, T., ... & Keleş, D. (2022). Kinematics of the 30 October 2020 Mw 7.0 Néon Karlovásion (Samos) earthquake in the Eastern Aegean Sea: Implications on source characteristics and dynamic rupture simulations. Tectonophysics, 826, 229223. https://doi.org/10.1016/j.tecto.2022.229223

33. Liu, C., Lay, T., & Xiong, X. (2022). The 29 July 2021 Mw 8.2 Chignik, Alaska Peninsula Earthquake Rupture Inferred From Seismic and Geodetic Observations: Re‐Rupture of the Western 2/3 of the 1938 Rupture Zone. Geophysical Research Letters, 49(4), e2021GL096004. https://doi.org/10.1029/2021GL096004 

32. Feng, Y., Xiong, X., Shan, B., & Liu, C. (2022). Coulomb stress changes due to the 2021 MS7. 4 Maduo Earthquake and expected seismicity rate changes in the surroundings. Science China Earth Sciences, 65(4), 675-686. https://doi.org/10.1007/s11430-021-9882-8

2021年:

31. Diao, F., Wang, R., Xiong, X., & Liu, C. (2021). Overlapped postseismic deformation caused by afterslip and viscoelastic relaxation following the 2015 Mw 7.8 Gorkha (Nepal) earthquake. Journal of Geophysical Research: Solid Earth, 126(3), e2020JB020378. https://doi.org/10.1029/2020JB020378

30. Zhu, Y., Diao, F., Fu, Y., Liu, C., & Xiong, X. (2021). Slip rate of the seismogenic fault of the 2021 Maduo earthquake in western China inferred from GPS observations. Science China Earth Sciences, 64(8), 1363-1370. https://doi.org/10.1007/s11430-021-9808-0

29. Liu, C., Lay, T., Pollitz, F. F., Xu, J., & Xiong, X. (2021). Seismic and Geodetic Analysis of Rupture Characteristics of the 2020 Mw 6.5 Monte Cristo Range, Nevada, Earthquake. Bulletin of the Seismological Society of America, 111(6), 3226-3236. https://doi.org/10.1785/0120200327 

2020年:

28. Shan, B., Feng, Y., Liu, C., Xie, Z., & Xiong, X. (2020). Stress triggering among faults rupturing during one earthquake: a case study of the 2016 Mw7. 8 Kaikōura Earthquake, New Zealand. Science Bulletin, 65(2), 89-91. 10.1016/j.scib.2019.11.007 

27. Shan, B., Feng, Y., Liu, C., & Xiong, X. (2020). Interactions of Earthquakes in Central Italy over the Past 100 Yr through Coulomb Stress Changes, and Implications for Seismic Hazards. Bulletin of the Seismological Society of America, 110(1), 178-190. https://doi.org/10.1785/0120190112 

26. Liu, C., Lay, T., Wang, Z., & Xiong, X. (2020). Rupture process of the 7 January 2020, Mw 6.4 Puerto Rico earthquake. Geophysical Research Letters, 47(12), e2020GL087718. https://doi.org/10.1029/2020GL087718 

25. Liu, C., Lay, T., Xiong, X., & Wen, Y. (2020). Rupture of the 2020 Mw 7.8 earthquake in the Shumagin gap inferred from seismic and geodetic observations. Geophysical Research Letters, 47(22), e2020GL090806. https://doi.org/10.1029/2020GL090806 

24. Xu, J., Liu, C., & Xiong, X. (2020). Source process of the 24 January 2020 Mw 6.7 East Anatolian fault zone, Turkey, earthquake. Seismological Research Letters, 91(6), 3120-3128. https://doi.org/10.1785/0220200124 

2019年:

23. Liu, C., Lay, T., Xie, Z., & Xiong, X. (2019). Intraslab deformation in the 30 November 2018 Anchorage, Alaska, Mw 7.1 earthquake. Geophysical Research Letters, 46(5), 2449-2457. https://doi.org/10.1029/2019GL082041 

22. Liu, C., Lay, T., Brodsky, E. E., Dascher-Cousineau, K., & Xiong, X. (2019). Coseismic rupture process of the large 2019 Ridgecrest earthquakes from joint inversion of geodetic and seismological observations. Geophysical Research Letters, 46(21), 11820-11829. https://doi.org/10.1029/2019GL084949 

21. Lay, T., Liu, C., & Kanamori, H. (2019). Enhancing tsunami warning using P wave coda. Journal of Geophysical Research: Solid Earth, 124(10), 10583-10609. https://doi.org/10.1029/2019JB018221 

2018年:

20. Liu, C., An, C., Shan, B., Xiong, X., & Chen, X. (2018). Insights into the kinematic rupture of the 2015 Mw 8.3 Illapel, Chile, earthquake from joint analysis of geodetic, seismological, tsunami, and superconductive gravimeter observations. Journal of Geophysical Research: Solid Earth, 123(11), 9778-9799. https://doi.org/10.1029/2018JB016065

19. Liu, C., Lay, T., & Xiong, X. (2018). Rupture in the 4 May 2018 Mw 6.9 earthquake seaward of the Kilauea east rift zone fissure eruption in Hawaii. Geophysical Research Letters, 45(18), 9508-9515. https://doi.org/10.1029/2018GL079349 

18. Xie, Z., Zheng, Y., Yao, H., Fang, L., Zhang, Y., Liu, C., ... & Song, M. (2018). Preliminary analysis on the source properties and seismogenic structure of the 2017 Ms7.0 Jiuzhaigou earthquake. Science China Earth Sciences, 61(3), 339-352. https://doi.org/10.1007/s11430-017-9161-y 

2017年:

17. Liu, C., Zheng, Y., Xie, Z., & Xiong, X. (2017). Rupture features of the 2016 Mw 6.2 Norcia earthquake and its possible relationship with strong seismic hazards. Geophysical Research Letters, 44(3), 1320-1328. https://doi.org/10.1002/2016GL071958 

16. Li, J., Liu, C., Zheng, Y., & Xiong, X. (2017). Rupture process of the M s 7.0 Lushan earthquake determined by joint inversion of local static GPS records, strong motion data, and teleseismograms. Journal of Earth Science, 28(2), 404-410. https://doi.org/10.1007/s12583-017-0757-1 

15. Xie, Z., Zheng, Y., Liu, C., Shan, B., Riaz, M. S., & Xiong, X. (2017). An integrated analysis of source parameters, seismogenic structure, and seismic hazards related to the 2014 Ms 6.3 Kangding earthquake, China. Tectonophysics, 712, 1-9. https://doi.org/10.1016/j.tecto.2017.04.030 

14. Shan, B., Zheng, Y., Liu, C., Xie, Z., & Kong, J. (2017). Coseismic Coulomb failure stress changes caused by the 2017 M7. 0 Jiuzhaigou earthquake, and its relationship with the 2008 Wenchuan earthquake. Science China Earth Sciences, 60(12), 2181-2189. https://doi.org/10.1016/j.tecto.2017.04.030 

2016年:

13. Liu, C., Zheng, Y., Wang, R., Shan, B., Xie, Z., Xiong, X., & Ge, C. (2016). Rupture processes of the 2015 Mw 7.9 Gorkha earthquake and its Mw 7.3 aftershock and their implications on the seismic risk. Tectonophysics, 682, 264-277. https://doi.org/10.1016/j.tecto.2016.05.034 

12. Zheng, Y., & Liu, C. (2016). Towards combining multiple geophysical datasets to determine earthquake source parameters in China. Science China Earth Sciences, 59(11), 2260. 10.1007/s11430-016-0147-9 

2015年:

11. 刘成利, 郑勇, 谢祖军, 熊熊. 2013722日甘肃定西地震的震源破裂过程.地球物理学进展, 2015, 30(1): 0099-0105. doi: 10.6038/pg20150115 

10. Liu, C., Zheng, Y., & Xiong, X. (2015). Focal mechanism and rupture process of the 2012 Mw 7.0 Santa Isabel, Mexico earthquake inverted by teleseismic data. Journal of Earth Science, 26(3), 384-390. https://doi.org/10.1007/s12583-014-0503-x 

9. Liu, C., Zheng, Y., Xiong, X., & Wang, R. (2015). Rupture process of the 23 October 2011 Mw7. 1 Van earthquake in eastern Turkey by joint inversion of teleseismic, GPS and strong-motion data. Pure and Applied Geophysics, 172(6), 1383-1396. https://doi.org/10.1007/s00024-014-0994-5 

8. Liu, C., Zheng, Y., Wang, R., & Xiong, X. (2015). Kinematic rupture process of the 2014 Chile Mw 8.1 earthquake constrained by strong-motion, GPS static offsets and teleseismic data. Geophysical Journal International, 202(2), 1137-1145. https://doi.org/10.1093/gji/ggv214 

7. Liu, C., Zheng, Y., Xiong, X., Wang, R., López, A., & Li, J. (2015). Rupture processes of the 2012 September 5 Mw 7.6 Nicoya, Costa Rica earthquake constrained by improved geodetic and seismological observations. Geophysical Journal International, 203(1), 175-183. https://doi.org/10.1093/gji/ggv295 

6. Xie, Z., Zheng, Y., Liu, C., Xiong, X., Li, Y., & Zheng, X. (2015). Source parameters of the 2014 Ms 6.5 Ludian earthquake sequence and their implications on the seismogenic structure. Seismological Research Letters, 86(6), 1614-1621. https://doi.org/10.1785/0220150085 

2014年:

5. 刘成利, 郑勇, 熊熊等.(2014).利用区域宽频带数据反演鲁甸Ms6.5级地震震源破裂过程.地球物理学报, 57(9): 3028-3037.

4. Jiang, Y., Hu, X., Liu, C., & Sun, H. (2014). Constraining the focal mechanism of the Lushan earthquake with observations of the Earth’s free oscillations. Science China Earth Sciences, 57(9), 2064-2070. https://doi.org/10.1007/s11430-014-4913-5 

2013年:

3. Liu, C., Zheng, Y., Ge, C., Xiong, X., & Hsu, H. (2013). Rupture process of the Ms7. 0 Lushan earthquake, 2013. Science China Earth Sciences, 56(7), 1187-1192. https://doi.org/10.1007/s11430-013-4639-9 

2. Shan, B., Xiong, X., Zheng, Y., Jin, B., Liu, C., Xie, Z., & Hsu, H. (2013). Stress changes on major faults caused by 2013 Lushan earthquake and its relationship with 2008 Wenchuan earthquake. Science China Earth Sciences, 56(7), 1169-1176. https://doi.org/10.1007/s11430-013-4642-1 

1. Wang, K., Liu, C., Xiong, X., & Zheng, Y. (2013). Co-and post-seismic surface deformation and gravity changes of Ms7. 0 Lushan, earthquake. Earthquake Science, 26(3), 207-212. https://doi.org/10.1007/s11589-013-0001-8 


教育经历

[1]   2009.9-2014.7

中国科学院测量与地球物理研究所  |  固体地球物理  |  理学博士  |  博士研究生

[2]   2005.9-2009.6

山东理工大学  |  测绘工程  |  学士学位  |  大学本科

工作经历

[1]   2021.6-至今

中国地质大学(武汉)  |  特任教授

[2]   2020.1-2021.5

中国地质大学(武汉)  |  副教授

[3]   2016.9-2019.12

中国地质大学(武汉)  |  特任副教授

[4]   2018.11-2019.11

University of California Santa Cruz  |  访问学者

[5]   2014.7-2016.8

中国科学院测量与地球物理研究所  |  助理研究员

研究方向

  • [1]   震源破裂过程研究

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