The crustal structures of the central Longmenshan along and its margins as related to the seismotectonics of the 2008 Wenchuan Earthquake

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• 作者：ShiXu Jia (1)
  BaoJin Liu (1)
  ZhaoFan Xu (1)
  Zhi Liu (1)
  ShaoYing Feng (1)
  JianShi Zhang (1)
  JieYan Lin (1)
  XiaoFeng Tian (1)
  QiaoXia Liu (1)
  WenBin Guo (1)
  
• 关键词：deep seismic sounding ; crustal structure ; central Longmenshan ; crustal uplift ; brittle ; ductile transition ; Wenchuan earthquake
• 刊名：Science China Earth Sciences
• 出版年：2014
• 出版时间：April 2014
• 年：2014
• 卷：57
• 期：4
• 页码：777-790
• 全文大小：1,800 KB
• 参考文献：1. Cai X L, Cao J M, Zhu J S, et al. 2008. A preliminary study on the 3-D crust structure for the Longmen lithosphere and the genesis of the huge Wenchuan earthquake, Sichuan, China (in Chinese). J Chengdu Univ Tech (Sci Tech), 35: 357鈥?64
  2. Cerveny V, Psencik I. 1984. SEIS83-numerical modeling of seismic wavefield in 2-D laterally varying layered structures by the ray method. In: Engdahl E R, ed. Documentation of Earthquake Algorithm. Boulder Colo Rep: World Data Center for Solid Earth Geohpysical. SE-35: 36鈥?0
  3. Clark M K, Royden L H. 2000. Topographic ooze: Building the eastern margin of Tibet by lower crustal flow. Geology, 28: 703鈥?06 CrossRef
  4. Cui Z Z, Chen J P, Wu L. 1996. Integrated Study of Altay-Taiwan Lithospheric Geoscience Section, Deep Crustal Texture of Huashixia-Shaoyany Section (in Chinese). Beijing: Geology Publishing House
  5. Fu B H, Shi P L, Guo H D, et al. 2011. Surface deformation related to the 2008 Wenchuan earthquake, and mountain building of the Longmenshan, eastern Tibetan Plateau. J Asian Earth Sci, 40: 805鈥?24 CrossRef
  6. Jia S X, Liu C Q. 1995. Study on the seismic phase of DSS in North China (in Chinese). Seismol Geol, 17: 97鈥?04
  7. Jia S X, Zhang X K. 2005. Crustal structure and comparison of different tectonic blocks in North China. Chin J Geophys, 48: 672鈥?83 CrossRef
  8. Jia S X, Zhang X K. 2008. A study on the crust phases of deep seismic sounding experiments and fine crust structures in the northeast margin of Tibetan Plateau. Chin J Geophys, 51: 1000鈥?014 CrossRef
  9. Jia S X, Zhang X K, Zhao J R, et al. 2010. Deep seismic sounding data reveal the crustal structures beneath Zoig锚 basin and its surrounding folded orogenic belts. Sci China Earth Sci, 53: 203鈥?12 CrossRef
  10. Jordan T A, Watts A B. 2005. Gravity anomalies, flexure and the elastic thickness structure of the India-Eurasia collisional system. Earth Planet Sci Lett, 236: 737鈥?50 CrossRef
  11. Kirby E, Reiners P W, Krol M A, et al. 2002. Late Cenozoic evolution of the eastern margin of the Tibetan Plateau: Inferences from ⁴⁰Ar/³⁹Ar and (U-Th)/He thermochronology. Tectonics, 21: 1鈥?0 CrossRef
  12. Li Y, Zhou R J, Dong S L, et al. 2008. Surface rupture, thrusting and strike-slipping in the Wenchuan earthquake of Sichuan, China (in Chi nese). J Chengdu Univ Tech (Sci Tech), 35: 404鈥?13
  13. Liu Q Y, Chen J H, Li S C, et al. 2008. The / M _s8.0 Wenchuan earthquake: Preliminary results from the western Sichuan mobile seismic array observations (in Chinese). Seismol Geol, 30: 584鈥?96
  14. Liu Q X, Zhu J S, Cao J X, et al. 2010. Relocation of the Wenchuan / M _s8.0 earthquake sequence and its aftershocks and their spatial distribution characteristics (in Chinese). Quatern Sci, 30: 736鈥?44
  15. Ma L F. 2002. Geology Atlas of China (in Chinese). Beijing: Geology Publishing House. 279
  16. Ma X Y. 1989. Lithospheric Dynamics Atlas of China (in Chinese). Beijing: China Cartographic Publishing House. 19鈥?9
  17. Royden L H, Burchfiel B C, van der Hilst R D. 2008. The geological evolution of the Tibetan plateau. Science, 321: 1054鈥?058 CrossRef
  18. Teng J W, Bai D H, Yang H, et a1. 2008. Deep processes and dynamic responses associated with the Wenchuan / M _s8.0 earthquake of 2008 (in Chinese). Chin J Geophys, 51: 1385鈥?402
  19. Wang X B, Yu N, Zhu Y T, et al. 2008. Preliminary result of magnetotelluric sounding in the Longmen thrust belt of West Sichuan, China (in Chinese). J Chengdu Univ Tech (Sci Tech), 35: 398鈥?03
  20. Wang C Y, Wu J P, Lou H, et al. 2003. Crust structure of P wave velocity in the eastern Tibetan Plateau and western Sichuan (in Chinese). Sci China Ser D-Earth Sci, 33 (Suppl): 181鈥?89
  21. Wang C Y, Han W B, Wu J P, et al. 2007. Crustal structure beneath the eastern margin of the Tibetan Plateau and its tectonic implications. J. Geophys Res, 112: B07307, doi: 10.1029/2005JB003873
  22. Wang X F, He J K. 2012. Channel flow of the lower crust and its relation to large-scale tectonic geomorphology of the eastern Tibetan Plateau. Sci China Earth Sci, 55: 1383鈥?390 CrossRef
  23. Xu X W, Wen X Z, Ye J Q, et al. 2008. The / M _s8.0 Wenchuan earthquake surface ruptures and its seismogenic structure (in Chinese). Seismol Geol, 30: 596鈥?29
  24. Xu Z Q, Li H Q, Hou L W, et al. 2007. Uplift of the Longmen-Jinping orogenic belt along the eastern margin of the Qinghai-Tibet Plateau: Large-scale detachment faulting and extrusion mechanism (in Chinese). Geol Bul China, 26: 1262鈥?276
  25. Yuan X C. 1997. The Proceedings of Altay-Taiwan Geoscience Section (in Chinese). Beijing: China University of Geosciences Press
  26. Zhang P Z, Xu X W, Wen X Z, et al. 2008. Slip rates recurrence intervals of the Longmenshan active fault zone, and tectonic implications for the mechanism of the May 12 Wenchuan earthquake, Sichuan, China (in Chinese). Chin J Geophys, 51: 1066鈥?073
  27. Zhang P Z, Wen X Z, Shen Z K, et al. 2010. High-angle listric-reverse faulting and associated development of strain: The Wenchuan Earthquake of May 12, 2008, Sichuan, China. Earth Planet Sci Lett, 38: 353鈥?82 CrossRef
  28. Zhang Z, Wang Y, Chen Y, et al. 2009. Crustal structure profile across Longmenshan fault belt from passive source seismic profiling. Geophys Res Lett, 36: L17310, doi: 10.1029/2009 GL039580 CrossRef
  29. Zhao J M, Walter D M, Zhang X K, et al. 2006. Crustal structure across the Altyn Tagh Range at the northern margin of the Tibetan Plateau and tectonic implications. Earth Planet Sci Lett, 241: 804鈥?14 CrossRef
  30. Zhou Y S, He C R. 2009. The rheological structures of curst and mechanics of high-angle revers fault slip for Wenchuang / M _s8.0 earthquake (in Chinens). Chin J Geophys, 52: 474鈥?84
  31. Zhu J S. 2008. The Wenchuan earthquake occurrence background in deep structure and dynamics of lithosphere (in Chinese). J Chengdu Univ Tech (Sci Tech), 35: 348鈥?56
  
• 作者单位：ShiXu Jia (1)
  BaoJin Liu (1)
  ZhaoFan Xu (1)
  Zhi Liu (1)
  ShaoYing Feng (1)
  JianShi Zhang (1)
  JieYan Lin (1)
  XiaoFeng Tian (1)
  QiaoXia Liu (1)
  WenBin Guo (1)
  
  1. Geophysical Exploration Center, China Earthquake Administration, Zhengzhou, 450002, China
  
• ISSN：1869-1897

文摘

In 2010, a 500-km-long wide-angle reflection/refraction seismic profile was completed, running northwest from the central Sichuan Basin. This profile orthogonally crosses the meizoseismal area of great Wenchuan earthquake of 12 May 2008, which occurred in the central part of the Longmenshan. The profile also passes through the northwestern Sichuan Plateau, along which a new deep seismic sounding observation system was set up that was much improved over previous datasets and enabled abundant observations to be recorded. Seismic wave phase records that reflect the structural characteristics of different tectonic blocks, especially the complicated phase features associated with the Wenchuan earthquake, were calculated and analyzed in detail. A 2D crustal P-wave velocity model for the orogenic belt in the central Longmenshan and its margins was determined, and crustal structure differences between the stable Sichuan Basin and the thickened northwestern Sichuan Plateau were characterized. Lithological variations within the upper and lower crust in the interior of the plateau, especially a great velocity decrease and plastic rheological properties associated with strong lithologic weakening in lower crust, were detected. From west to east in the lower crust beneath the orogenic belt lying between the Sichuan Basin and the northwestern Sichuan Plateau, a giant shovel-like upwelling is observed that dips gently in the lower part and at higher angles in the upper part; this is inferred to be related to the fault systems in the central Longmenshan. An upwelling in the upper-middle crust along the eastern margin of the orogenic belt is associated with steeply dipping thrusts that strongly uplift the upper crust and crystalline basement beneath a central fault system in the Longmenshan. The data, combined with an understanding of the regional tectonic stress field and previous geological results, enable a discussion of basin-and-range coupling, orogenic tectonics, the crustal fault system, and the seismogenic tectonic environment of the central Longmenshan along the eastern margin of the Qinghai-Tibet Plateau.