OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

地球物理学报 2014

中国西部地区地壳结构特征与强震活动相关性研究

DOI: 10.6038/cjg20141215, PP. 4029-4040

姜迪迪,江为为,胥颐,郝天珧,胡卫剑,余景锋

Keywords: 西部地区,地壳结构,地震活动性,地震层析成像

Full-Text Cite this paper Add to My Lib

Abstract:

中国西部地区是地震活动十分强烈的地区,天山、阿尔泰、帕米尔和西昆仑都是著名的地震构造带,在这些地震构造带和周边地区发生了多次震级大于5级的强震.本文通过分析西部地区的重力场特征,根据重力数据结合地震剖面、应用Parker-Oldenburg方法反演得到了研究区莫霍面深度,通过对比地震层析成像的反演结果,分析了研究区的地壳结构特征.计算结果表明,研究区地壳结构不均匀特征明显,在造山带地区一般是莫霍面坳陷区,盆地则是莫霍面隆起区,主要造山带地壳速度结构表现为高速区,盆地和主要凹陷区为低速区.根据计算结果和以往强震震中位置分析了地壳构造与强震活动的相关性,西部地区的地震活动与地壳结构的横向不均匀密切相关,强震主要发生在地壳速度变化带附近和地壳速度结构差异较大的地区,在构造应力作用下,这些地壳介质非均匀地区易发生强震,这是中国西部造山带和盆-山边界附近频发强震的构造原因之一.

References

[1]	Teng J W, Yuan X M, Zhang Y Q, et al.2012. The stratificational velocity structure of crust and covering strata of upper mantle and the orbit of deep interaquifer substance locus of movement for Tibetan Plateau. Acta Petrologica Sinica (in Chinese), 28(12): 4077-4100
[2]	Tian Y, Zhao D P, Sun R M, et al. 2007.The 1992 Landers earthquake: Effect of crustal heterogeneity on earthquake generation. Chinese J. Geophys.(in Chinese), 50(5): 1488-1496.
[3]	Wan T F. 2004.Tectonics of China (in Chinese).Beijing: Geological Publishing House.
[4]	Wang Q, Zhang P Z, Niu Z J, et al. 2001.Chinese contemporary crustal movement and tectonic deformation. Science in China (in Chinese), 31(7): 529-536.
[5]	Wang Y X, Han G H, Jiang M, et al. 2004. Crustal structure along the geosciences transect from Altay to AltunTagh. Chinese J. Geophys. (in Chinese), 47(2): 240-249.
[6]	Zhang J R, Shao X Z, Fan H J. 1998. Deep sounding survey by converted waves of earthquakes in central part of the Tarim Basin and its interpretation. Seismology and Geology (in Chinese), 20(1): 34-42.
[7]	Zhang J, Chen S. 2013. Gravity field analysis for crust and mantle structure of the Tibetan Plateau. Earthquake (in Chinese), 33(4): 11-18.
[8]	Zhao J M, Liu G D, Lu Z X, et al. 2001. The crust-mantle transition zone beneath the Tianshanorogenic belt and the JunggarBasin and their geodynamic implications.Science in China (Series D) (in Chinese), 31(4): 272-282.
[9]	Zhao L S, Xie J k. 1993. Lateral variations in compressional velocities beneath the Tibetan Plateau from Pn traveltime tomography. Geophys.J. Int.,115(3): 1070-1084.
[10]	Zeng H L. 2006. Gravity Field and Gravity Exploration (in Chinese).Beijing: Geological Publishing House.
[11]	Zheng H W. 2006. 3-D velocity structure of the crust and upper mantle in Tibet and its geodynamic effect (in Chinese). Beijing: China Academy of Geological Sciences.
[12]	Chen J X, Chen J L. 2003. The crustal structure and velocity feature from Ruoqiang-Altai seismic profile in Xinjiang region. Xinjiang Petroleum Geology (in Chinese), 24(6): 498-501.
[13]	Chen Z, Bruchfiel B C, Liu Y, et al. 2000. Global positioning system measurements from eastern Tibet and their implications for India/Eurasia intercontinental deformation. J. Geophys.,Res.: Solid Earth (1978—2012),105(B7): 16215-16227.
[14]	Cui Z Z, Li Q S, Wu C D, et al. 1995. The crustal and deep structures in GOLMUD-EJIN QI GGT. Chinese J. Geophys.(in Chinese), 38(S2): 15-28.
[15]	Ding D G, Wang G X, Liu W X, et al. 1996. West Kunlunorogenic Belt and Basin (in Chinese). Beijing:Geological Publishing House.
[16]	Feng R. 1985. The crustal thickness and distribution of upper mantle density of China. Acta Seismologica Sinica (in Chinese), 31(7): 529-536.
[17]	Hao T Y, Hu W J, Xing J, et al. 2014. The Moho depth map (1:5000000) in the land and seas of China and adjacent areas and its geological implications. Chinese J. Geophys. (in Chinese),57(12):3869-3883,doi:10.6038/cjg20141202.
[18]	Li Q S, Gao R, Lu D Y, et al. 2002. Tarim crustal subduction in the West Kunlun Mountains—the evidence of wide-angle seismic survey. Acta Geoscientica Sinica (in Chinese), 23(5): 442.
[19]	Liu G D. 2007. Geodynamical evolution and tectonic framework of China. Earth Science Frontiers (in Chinese), 14(3): 39-46.
[20]	Luo W X, Li D W, Wang X F. Focal depth and mechanism of intraplate earthquakes in the Qinghai-Tibet Plateau. Earth Science (Journal of China University of Geosciences) (in Chinese), 33(5): 618-626.
[21]	Oldenburg D W. 1974.The inversion and interpretation of gravity anomalies.Geophysics,39(4): 526-536.
[22]	Song Z H, An C Q, Chen G Y, et al. 1991. Study on 3D velocity structure and anisotropy beneath the west China from the Love wave dispersion. Acta Geophysica Sinica (in Chinese),34(6): 694-707.
[23]	Hauck M L, Nelson K D, Brown L D, et al. 1998. Crustal structure of the Himalayan orogen at ~90° east longitude from Project INDEPTH deep reflection profiles. Tectonics,17(4): 481-500.
[24]	Jiang C F. 1997. Opening-closing tectonics of Tarim Platform. Xinjiang Geology (in Chinese), 15(3):193-202.
[25]	Li T. 2012. Active thrusting and folding along the Pamir Frontal Thrust System(in Chinese)[Ph. D. thesis]. Beijing: Institute of Geology, China Earthquake Administration.
[26]	Parker R L. 1973.The rapid calculation of potential anomalies.Geophys.J. Int., 31(4): 447-455.
[27]	Priestley K, Jackson J, McKenzie D. 2008. Lithospheric structure and deep earthquakes beneath India, the Himalaya and southern Tibet. Geophys.J. Int.,172(1): 345-362.
[28]	Sandwell D T, Smith W H F. 2009. Global marine gravity from retrackedGeosat and ERS-1 altimetry: Ridge segmentation versus spreading rate. J. Geophys. Res.: Solid Earth (1978—2012),114(B1):B01411, doi: 10.1029/2008JB006008.
[29]	Shao X Z, Zhang J R. 1994. Preliminary results of study of deep structures in Tarim Basin by the method of converted waves of earthquakes. Chinese J. Geophys. (in Chinese),37(6): 836.
[30]	Shao X Z, Zhang J R, Fan H J, et al. 1996. The crust structures of Tianshanorogenic belt: A deep sounding work by converted waves of earthquakes along ürümqi-Korla profile. Acta Geophysica Sinica (in Chinese), 39(3): 336-346.
[31]	Wang Y X, Mooney W D, Han G H, et al. 2005. Crustal P-wave velocity structure from AltynTagh to Longmen mountains along the Taiwan-Altay geoscience transect. Chinese J. Geophys. (in Chinese), 48(1): 98-106.
[32]	Xiong X S. 2010. Moho depth and variation of the continent in China and its geodynamic implications(in Chinese) .Beijing: China Academy of Geological Sciences.
[33]	Xu G M, Yao H J, Zhu L B, et al.2007. Shear wave velocity structure of the crust and upper mantle in western China and its adjacent area. Chinese J. Geophys. (in Chinese), 50(1): 193-208.
[34]	Xu Y, Feng X Y, Shstsilov V I. 1996.Deep velocity structure in the Tianshan region. Seismology and Geology (in Chinese), 18(4): 375-381.
[35]	Xu Y, Liu F T, Liu J H, et al. 2000a. Crustal structure and tectonic environment of strong earthquakes in the Tianshan Earthquake Belt. Chinese J. Geophys. (in Chinese), 43(2): 184-193.
[36]	Xu Y, Liu F T, Liu J H, et al. 2000b. Seismic tomography on northwest orogenic belt and adjacent basins of Chinese Mianland. Science in China (Series D) (in Chinese), 30(2): 113-122.
[37]	Xu Y, Liu J H, Liu F T, et al. 2006. Crustal velocity structure and seismic activity in the Tianshan-Pamir conjunctive zone. Chinese J. Geophys.(in Chinese), 49(2): 469-476.
[38]	Yin A. 2001.Geologic evolution of the Himalayan-Tibetan orogen—Phanerozoic growth of Aisacontinetal. Acta Geoscientia Sinica (in Chinese), 22(3): 193-230.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133