全部 标题 作者
关键词 摘要

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...

中国东北地区远震S波走时层析成像研究

DOI: 10.6038/cjg20140109, PP. 88-101

Keywords: 中国东北,长白山,阿尔山,五大连池,层析成像

Full-Text   Cite this paper   Add to My Lib

Abstract:

利用中国东北流动和固定台网的234个宽频带地震仪在2009年6月—2011年5月所记录的远震波形数据,采用波形相关方法拾取了10301个有效的S震相相对走时残差数据,进一步采用两种射线走时层析成像的方法,反演获取了研究区下方深达800km的S波速度结构,不同射线走时层析成像方法的结果对本区的S波速度异常结构起到一定的约束作用.S波成像结果与我们先前开展的P波成像研究结果整体相似:在长白山下方发现有一个高速异常结构,这可能就是俯冲到欧亚大陆板块下方的太平洋板块,由于板块的部分下沉,使得板块的形状并没有呈现出明显的板片状.长白山、阿尔山、五大连池火山下方都有低速异常体,长白山和阿尔山下的低速异常向下延伸至地幔转换带附近,可能与其上部的火山形成有关.五大连池火山下方的低速异常向下延伸至200km左右,不同埋深的低速异常结构可能意味着五大连池与长白山和阿尔山有着不同的成因.松辽盆地呈现以高速异常为主导、高低速异常混合分布的特性,暗示松辽盆地岩石圈地幔可能遭受了改造与破坏,可能有岩石圈拆沉的过程,盆地南部下方的低速异常与长白山和阿尔山下的低速异常有连通性,可能是下地幔热物质上涌的一个通道.S波和P波相似的成像结果从另一个角度展示了中国东北地区的上地幔速度异常结构,对我们认识此区的地下结构提供了重要的约束.

 References

[1]  Li C, van der Hilst R D. 2010. Structure of the upper mantle and transition zone beneath Southeast Asia from traveltime tomography. J. Geophys. Res., 115: B07308, doi: 10.1029/2009JB006882.
[2]  Li X Q, Yuan X H. 2003. Receiver functions in northeast China-implications for slab penetration into the lower mantle in northwest Pacific subduction zone. Earth and Planetary Science Letters, 216(4): 679-691.
[3]  Li Y H, Wu Q J, Pan J T, et al. 2012. S-wave velocity structure of northeastern China from joint inversion of Rayleigh wave phase and group velocities. Geophys. J. Int., 190(1): 105-115, doi: 10.1111/j.1365-246X.2012.05503.x.
[4]  Li Y H, Wu Q J, Pan J T, et al. 2013. An upper-mantle S-wave velocity model for East Asia from Rayleigh wave tomography. Earth and Planetary Science Letters, 377-378: 367-377.
[5]  Miyashiro A. 1986. Hot regions and the origin of marginal basins in the western pacific. Tectonophysics, 122(3-4): 195-216.
[6]  Paige C C, Saunders M A. 1982a. LSQR: An algorithm for sparse linear equations and sparse least squares. ACM Trans. Math. Softw., 8(1): 43-71.
[7]  Paige C C, Saunders M A. 1982b. Algorithm 583 LSQR: Sparse linear equations and least squares problems. ACM Trans. Math. Softw., 8(2): 195-209.
[8]  Rawlinson N, Kennett B L N. 2004. Rapid estimation of relative and absolute delay times across a network by adaptive stacking. Geophys. J. Int., 157(1): 332-340.
[9]  Rawlinson N, Reading A M, Kennett B L N. 2006. Lithospheric structure of Tasmania from a novel form of teleseismic tomography. J. Geophys. Res., 111: B02301, doi: 10.1029/2005JB003803.
[10]  Rawlinson N, Kennett B L N. 2008. Teleseismic tomography of the upper mantle beneath the southern Lachlan Orogen, Australia. Physics of the Earth and Planetary Interiors, 167(1-2): 84-97.
[11]  Tang J, Deng Q H, Zhao G Z, et al. 2001. Electric conductivity and magma chamber at the Tianchi volcano area in Changbaishan mountain. Seismology and Geology (in Chinese), 23(2): 191-200.
[12]  Tang J, Wang J J, Chen X B, et al. 2005. Preliminary investigation for electric conductivity structure of the crust and upper mantle beneath the Aershan volcano area. Chinese J. Geophys. (in Chinese), 48(1): 196-202.
[13]  Tang J, Zhao G Z, Wang J J, et al. 2006. Study of the formation mechanism for volcanism in Northeast China based on deep electric structure. Acta Petrologica Sinica (in Chinese), 22(6): 1503-1510.
[14]  Tatsumi Y, Maruyama S, Nohda S. 1990. Mechanism of backarc opening in the Japan Sea: role of asthenospheric injection. Tectonophysics, 181(1-4): 299-306.
[15]  Tian Y, Liu C, Feng X. 2011. P-wave velocity structure of crust and upper mantle in Northeast China and its control on the formation of mineral and energy. Chinese J. Geophys. (in Chinese), 54(2): 407-414, doi: 10.3969/j.issn.0001-5733.2011.02.017.
[16]  Ai Y S, Zheng T Y, Xu W W, et al. 2003. A complex 660 km discontinuity beneath northeast China. Earth and Planetary Science Letters, 212(1-2): 63-71.
[17]  Li C, van der Hilst R D, Toksoz M N. 2006. Constraining P-wave velocity variations in the upper mantle beneath Southeast Asia. Physics of the Earth and Planetary Interiors, 154(2): 180-195.
[18]  Duan Y H, Zhao D P, Zhang X K, et al. 2009. Seismic structure and origin of active intraplate volcanoes in Northeast Asia. Tectonophysics, 470(3-4): 257-266.
[19]  Guo B, Liu Q Y, Chen J H, et al. 2009. Teleseismic P-wave tomography of the crust and upper mantle in Longmenshan area, west Sichuan. Chinese J. Geophys. (in Chinese), 52(2): 346-355.
[20]  He C S, Dong S W, Chen X H, et al. 2013. Seismic evidence for plume-induced rifting in the Songliao Basin of Northeast China. Tectonophysics, in press.
[21]  Huang J L, Zhao D P. 2006. High-resolution mantle tomography of China and surrounding regions. J. Geophys. Res., 111: B09305, doi: 10.1029/2005JB004066.
[22]  Julian B R, Gubbins D. 1977. Three-dimensional seismic ray tracing. J. Geophys, 43: 95-113.
[23]  Kennett B L N, Engdahl E R. 1991. Traveltimes for global earthquake location and phase identification. Geophys. J. Int., 105(2): 429-465.
[24]  Lei J S, Zhao D P. 2005. P-wave tomography and origin of the Changbai intraplate volcano in Northeast Asia. Tectonophysics, 397(3-4): 281-295.
[25]  Turcotte D L, Schubert G. 1982. Geodynamics. New York: John Wiley and Sons Press.
[26]  Van Decar J C, Crosson R S. 1990. Determination of teleseismic relative phase arrival times using multi-channel cross-correlation and least squares. Bull. Seismol. Soc. Am., 80(1): 150-169.
[27]  Wei W, Xu J D, Zhao D P, et al. 2012. East asia mantle tomography: new insight into plate subduction and intraplate volcanism. Journal of Asian Earth Sciences, 60: 88-103.
[28]  Zhan Y, Zhao G Z, Wang J J, et al. 2006. Crustal electic conductivity structure for Wudalianchi volcanic cluster in the Heilongjiang province, China. Acta Petrologica Sinica (in Chinese), 22(6): 1494-1502.
[29]  Zhang F X, Wu Q J, Li Y H. 2013a. The traveltime tomography study by teleseismic P wave data in the Northeast China area. Chinese J. Geophys. (in Chinese), 56(8): 2690-2700, doi: 10.6038/cjg20130818.
[30]  Zhang F X, Wu Q J, Li Y H, et al. 2013b. Pick up the teleseismic relative traveltime residuals by wave form correlation based on the GUI. Seismological and Geomagnetic Observation and Research (in Chinese), 34(3-4): 58-64, doi: 10.3969/j.issn.1003-3246.2013.03/04.012.
[31]  Zhang R Q, Wu Q J, Li Y H, et al. 2012. Lateral variations in SH velocity structure of the transition zone beneath Korea and adjacent regions. J. Geophys. Res., 117, B09315, doi: 10.1029/2011JB008900.
[32]  Zhao D P. 2004. Global tomographic images of mantle plumes and subducting slabs: insight into deep Earth dynamics. Physics of the Earth and Planetary Interiors, 146(1-2): 3-34.
[33]  Zhao D P, Tian Y, Lei J S, et al. 2009. Seismic image and origin of the Changbai intraplate volcano in East Asia: Role of big mantle wedge above the stagnant Pacific slab. Physics of the Earth and Planetary Interiors, 173(3-4): 197-206.
[34]  Zheng H W, Geng S F, Yang G, et al. 2012. Deep structure beneath eastern China from teleseismic P-wave tomography. Geological Bulletin of China (in Chinese), 31(7): 1069-1077.
[35]  Zheng X F, Ouyang B, Zhang D N, et al. 2009. Technical system construction of Data Backup Centre fo China Seismograph Network and the data support to researches on the Wenchuan earthquake. Chinese J. Geophys. (in Chinese), 52(5): 1412-1417, doi: 10.3969/j.issn.0001-5733.2009.05.031.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133