3D P-WAVE VELOCITY STRUCTURE AT THE NORTHEASTERN MARGIN OF ORDOS BLOCK

doi:10.3969/j.issn.0253-4967.2018.01.016

Abstract

Abstract: Using the 7 100 absolute first arrivals of P waves and 91 513 relative P arrival times of 726 events at the northeastern margin of the Ordos block since 2009, the 3D fine structure of P wave velocity within the depth of 15km in the crust was inverted by the double difference seismic tomography method. The results show that there exist obvious high-speed continuous bodies in the northwest of the study area, and their lateral areas increase gradually with depth, while the velocity of east and south is relatively low. The velocity inhomogeneity exists and differs at different depths. The lateral differences of velocity are related to seismicity and faults. The 5~15km depth profile shows that earthquakes tend to occur in the area with relatively high velocity or high speed transition zones, which to some extent reflects the fragility of regional crustal media and the strong differential movement of faults in vertical and horizontal directions where the crust body is easy to absorb and store strain energy and generate major earthquakes. A "Y"-shape low-velocity channel is present in the lower crust around Liangcheng, corresponding to the NW-trending Heilaoyao-Shahukou fault set, which may reveal the migration path of the Late Tertiary-Quaternary basalt eruption. The Helingeer M6.2 earthquake in 1976 was related to the formation of the locking section of the thermal welding in this area. The three-dimensional fine structure of P wave velocity presented in this paper provides intuitive seismological evidence for physical and chemical properties of crustal media and the deep tectonic environment of earthquake preparation.

Key words: Double difference tomography, Fine structure of P wave velocity, Northeastern margin of Ordos block, Earthquake relocation, Active tectonics

摘要： 筛选出2009年以来26个台站记录的726条天然地震的7 100条P波到时数据和91 513条相对到时数据，采用双差层析成像方法反演了鄂尔多斯块体东北缘地壳浅层15km深度以内的P波速度三维精细结构。结果显示，研究区西北部存在明显的连续的高速体，高速体的横向面积随着深度逐渐增加，东部和南部则表现为相对低速的分布特征。速度横向不均匀性在各个深度都存在，但在不同深度上又有差异，这种速度横向分布的差异性与地震活动性和断裂构造具有一定的相关性。从0～15km的深度剖面看，地震多发生在相对高速区或者高、低速过渡区，这在一定程度上反映了区域地壳介质体比较脆弱，断裂构造在纵横方向上差异活动比较剧烈，易于吸收并储存应变能，产生了较强的地震活动。凉城一带的地壳下方存在1个"Y"字型的相对高速区通道，并与NW向展布的黑老夭-杀虎口活动断裂组对应，呈现了该区新近纪—第四纪玄武岩喷发的运移轨迹，而1976年和林格尔6.2级地震的发生更是与该部位火山喷发引起热力"焊接"后形成闭锁区段有关。文中给出的P波速度三维精细结构，为揭示鄂尔多斯块体东北缘的地壳介质体的物化性质及地震孕育的深部构造环境提供了直观的地震学依据。

关键词: 双差层析成像, P波速度结构, 鄂尔多斯块体东北缘, 重新定位, 活动构造

CLC Number:

P315.3

HAN Xiao-ming, Liu Fang, ZHANG Fan, CHEN Li-feng, LI Juan, LI Shuan-hu, YANG Hong-ying. 3D P-WAVE VELOCITY STRUCTURE AT THE NORTHEASTERN MARGIN OF ORDOS BLOCK[J]. SEISMOLOGY AND GEOLOGY, 2018, 40(1): 215-231.

韩晓明, 刘芳, 张帆, 陈立峰, 李娟, 李拴虎, 杨红樱. 鄂尔多斯块体东北缘的P波速度精细结构[J]. 地震地质, 2018, 40(1): 215-231.

References

毕珉烽. 2012. 岱海断陷带活动性与地震危险性研究 F. 北京:中国地质大学(北京). BI Min-feng. 2012. The study of fault activity and seismic hazard in Daihai fault zone F. China University of Geosciences(Beijing), Beijing(in Chinese).
陈兆辉, 楼海, 孟小红, 等. 2014. 鄂尔多斯块体-华北地区地壳上地幔P波三维速度结构［J］. 地球物理学进展, 29(3):999-1007. CHEN Zhao-hui, LOU Hai, MENG Xiao-hong, et al. 2014. 3D P-wave velocity structure of crust and upper mantle beneath Ordos block and North China［J］. Progress in Geophysics, 29(3):999-1007(in Chinese).
邓起东, 张培震, 冉勇康, 等. 2002. 中国活动构造基本特征［J］. 中国科学(D辑), 32(12):1020-1030. DENG Qi-dong, ZHANG Pei-zhen, RAN Yong-kang, et al. 2003. Basic characteristics of active tectonics of China［J］. Science in China(Ser D), 46(4):356-372.
段永红, 刘保金, 赵金仁, 等. 2015. 华北构造区岩石圈二维P波速度结构特征:来自盐城-包头深地震测深剖面的约束［J］. 中国科学(D辑), 45(8):1183-1197. DUAN Yong-hong, LIU Bao-jin, ZHAO Jin-ren, et al. 2015. 2-D P-Wave velocity structure of lithosphere in the North China tectonic zone:constraints from the Yancheng-Baotou deep seismic profile［J］. Science in China(Ser D), 58(9):1577-1591.
范俊喜, 马瑾, 刁桂苓. 2003. 由小震震源机制解得到的鄂尔多斯周边构造应力场［J］. 地震地质, 25(1):88-99. FAN Jun-xi, MA Jin, DIAO Gui-ling. 2003. Contemporary Tectonic Stress Field around the Ordos Fault Block Inferred from Earthquake Focal Mechanism［J］. Seismology And Geology, 25(1):88-99(in Chinese).
酆少英, 刘保金, 姬计法, 等. 2015. 呼和浩特-包头盆地岩石圈细结构的深地震反射探测［J］. 地球物理学报, 58(4):1158-1168. FENG Shao-ying, LIU Bao-jin, JI Ji-fa, et al. 2015. The survey on fine lithospheric structure beneath Hohhot-Baotou Basin by deep seismic reflection profile［J］. Chinese Journal of Geophysics, 58(4):1158-1168(in Chinese).
高彬, 周仕勇, 蒋长胜. 2016. 基于地震活动性资料估计鄂尔多斯块体周缘构造断层面倾角［J］. 地球物理学报, 59(7):2444-2452. GAO Bin, ZHOU Shi-yong, JIANG Chang-sheng. 2016. Estimate of dip angles of faults Ordos block based on earthquakes［J］. Chinese Journal of Geophysics, 59(7):2444-2452(in Chinese).
国家地震局"鄂尔多斯周缘活动断裂系"课题组. 1988. 鄂尔多斯周缘活动断裂系［M］. 北京:地震出版社:39-76. The Research Group on "Active fault System around Ordos Massif". 1988. Active Fault System around Ordos Massif［M］. Seismological Press, Beijing:39-76(in Chinese)..
韩晓明, 刘芳, 张文韬, 等. 2015. 基于震源机制资料分析河套地震带的应力场变化特征［J］. 地震地质, 37(4):1030-1042. doi:10.3969/j.issn.0253-4967.2015.04.008. HAN Xiao-ming, LIU Fang, ZHANG Wen-tao, et al. 2015. Analyzing the variation characteristics of stress field in Hetao seismic belt using focal mechanism data［J］. Seismology and Geology, 37(4):1030-1042(in Chinese).
韩晓明, 张帆, 张晖, 等. 2016. 河套地震带Pg波速度过渡区的地震空间相关长度幂律变化［J］. 地震学报, 38(5):761-775. HAN Xiao-ming, ZHANG Fan, ZHANG Hui, et al. 2016. Power-law variation of seismic spatial correlation length in Pg wave velocity transitional zone of Hetao seismic belt［J］. Acta Seismologica Sinica, 38(5):761-775(in Chinese).
贺日政, 高锐, 郑洪伟, 等. 2010. 地震波速层析成像方法研究进展［J］. 地质学报, 84(6):840-846. HE Ri-zheng, GAO Rui, ZHENG Hong-wei, et al. 2010. Progress in seismic tomography［J］. Acta Geologica Sinica, 84(6):840-846(in Chinese).
黄金莉, 赵大鹏. 2005. 首都圈地区地壳三维P波速度细结构与强震孕育的深部构造环境［J］. 科学通报, 50(4):348-355. HUANG Jin-li, ZHAO Da-peng. 2005. Fine three-dimensional P-wave velocity structure beneath the capital region and deep environment for the nucleation of strong earthquakes［J］. Chinese Science Bulletin, 50(6):544-552.
贾萌, 王显光, 李世林, 等. 2015. 鄂尔多斯块体及周边区域地壳结构的接收函数研究［J］. 地球物理学进展, 30(6):2474-2481. JIA Meng, WANG Xian-guang, LI Shi-lin, et al. 2015. Crustal structures of Ordos block and surrounding regions from receiver functions［J］. Progress in Geophysics, 30(6):2474-2481(in Chinese).
雷建设, 赵大鹏, 苏金蓉, 等. 2009. 龙门山断裂带地壳精细结构与汶川地震发震机理［J］. 地球物理学报, 52(2):339-345. LEI Jian-she, ZHAO Da-peng, SU Jin-rong, et al. 2009. Fine seismic structure under the Longmenshan fault zone and the mechanism of the large Wenchuan earthquake［J］. Chinese Journal of Geophysics, 52(2):339-345(in Chinese).
雷鹏. 2016. 鄂尔多斯块体周缘新生代断陷活动动力学成因机制初探［J］. 西部资源, (3):100-105. LEI Peng. 2016. Preliminary study on the dynamic mechanism of Cenozoic Fault depression around Ordos block［J］. Westrn Resources, (3):100-105(in Chinese).
李多, 周仕勇, 陈永顺, 等. 2012. 鄂尔多斯地区上地幔岩石圈三维速度结构面波反演研究［J］. 地球物理学报, 55(5):1613-1623. LI Duo, ZHOU Shi-yong, CHEN Yong-shun, et al. 2012. 3-D lithospheric structure of upper mantle beneath Ordos region from Rayleigh-wave tomography［J］. Chinese Journal of Geophysics, 55(5):1613-1623(in Chinese).
梁金鹏, 谢富仁, 李克. 1997. 大青山地区构造应力场与构造活动方式及地震活动特点［G］. 中国地震局地壳应力研究所. 地壳构造与地壳应力文集. 北京:地震出版社:87-96. LIANG Jin-peng, XIE Fu-ren, LI Ke. 1997. The character of tectonic stress field, structural movement and seismicity in Daqing mountain area［G］//Institute of Crustral Dynamics, CEA. Bulletin of the Institute of Crustal Dynamics. Seismological Press, Beijing:87-96(in Chinese).
毛慧慧, 雷建设, 滕吉文. 2016. 鄂尔多斯盆地北缘SN向剖面上地幔远震P波层析成像［J］. 地球物理学报, 59(6):2056-2065. MAO Hui-hui, LEI Jian-she, TENG Ji-wen. 2016. Teleseismic P-wave tomography of the upper mantle along the north-south profile under the northern Ordos Basin［J］. Chinese Journal of Geophysics, 59(6):2056-2065(in Chinese).
齐诚, 赵大鹏, 陈颙, 等. 2006. 首都圈地区地壳P波和S波三维速度结构及其与大地震的关系［J］. 地球物理学报, 49(3):805-815. QI Cheng, ZHAO Da-peng, CHEN Yong, et al. 2006. 3-D P and S wave velocity structures and their relationship to strong earthquakes in the Chinese capital region［J］. Chinese Journal of Geophysics, 49(3):805-815(in Chinese).
冉勇康, 陈立春, 杨晓平, 等. 2003. 鄂尔多斯地块北缘主要活动断裂晚第四纪强震复发特征［J］. 中国科学(D辑), 33(S1):135-143. RAN Yong-kang, CHEN Li-chun, YANG Xiao-ping, et al. 2003. Recurrence characteristics of late-quaternary strong earthquakes on the major active faults along the northern border of Ordos block［J］. Science in China(Ser D), 46(S2):189-200.
盛书中, 万永革, 黄骥超, 等. 2015. 应用综合震源机制解法推断鄂尔多斯块体周缘现今地壳应力场的初步结果［J］. 地球物理学报, 58(2):436-452. SHENG Shu-zhong, WAN Yong-ge, HUANG Ji-chao, et al. 2015. Present tectonic stress field in the Circum-Ordos region deduced from composite focal mechanism method［J］. Chinese Journal of Geophysics, 58(2):436-452(in Chinese).
滕吉文, 王夫运, 赵文智, 等. 2008. 鄂尔多斯盆地上地壳速度分布与沉积建造和结晶基底起伏的构造研究［J］. 地球物理学报, 51(6):1753-1766. TENG Ji-wen, WANG Fu-yun, ZHAO Wen-zhi, et al. 2008. Velocity distribution of upper crust, undulation of sedimentary formation and crystalline basement beneath the Ordos Basin in North China［J］. Chinese Journal of Geophysics, 51(6):1753-1766(in Chinese).
滕吉文, 王夫运, 赵文智, 等. 2010. 阴山造山带-鄂尔多斯盆地岩石圈层、块速度结构与深层动力过程［J］. 地球物理学报, 53(1):67-85. TENG Ji-wen, WANG Fu-yun, ZHAO Wen-zhi, et al. 2010. Velocity structure of layered block and deep dynamic process in the lithosphere beneath the Yinshan orogenic belt and Ordos Basin［J］. Chinese Journal of Geophysics, 53(1):67-85(in Chinese).
王霞, 宋美琴, 王亮, 等. 2015. 口泉断裂及其邻近地区的地壳速度结构［J］. 地震地质, 37(4):939-952. doi:10.3969/j.issn.0253-4967.2015.04.001. WANG Xia, SONG Mei-qin, WANG Liang, et al. 2015. Study on crustal velocity structure beneath Kouquan Fault and adjacent area［J］. Seismology and Geology, 37(4):939-952(in Chinese).
王小娜, 于湘伟, 章文波. 2015. 芦山震区地壳三维P波速度精细结构及地震重定位研究［J］. 地球物理学报, 58(4):1179-1193. WANG Xiao-na, YU Xiang-wei, ZHANG Wen-bo. 2015. 3D P-wave velocity structure of the crust and relocation of earthquakes in the Lushan source area［J］. Chinese Journal of Geophysics, 58(4):1179-1193(in Chinese).
闻学泽. 2014. 内蒙古1979年五原6.0级和1996年包头6.4级地震的震源区构造［J］. 地震地质, 36(3):586-596. doi:10.3969/j.issn.0253-4967.2014.03.004. WEN Xue-ze. 2014. Structures of source regions of the 1979 M_S6.0 Wuyuan Earthquake and the 1996 M_S6.4 Baotou Earthquake in Inner Mongolia, China［J］. Seismology and Geology, 36(3):586-596(in Chinese).
谢富仁, 崔效峰, 赵建涛, 等. 2004. 中国大陆及邻区现代构造应力场分区［J］. 地球物理学报, 47(4):654-662. XIE Fu-ren, CUI Xiao-feng, ZHAO Jian-tao, et al. 2004. Regional division of the recent tectonic stress field in China and adjacent areas［J］. Chinese Journal of Geophysics, 47(4):654-662(in Chinese).
徐杰, 蒋溥, 宋方敏, 等. 1978. 和林格尔地震地震地质特征的初步分析［J］. 地质科学, 13(2):174-182. XU Jie, JIANG Pu, SONG Fang-min, et al. 1978. A preliminary study of seismo-geological characteristics in Horinger region［J］. Scientia Geologica Sinica, 13(2):174-182(in Chinese).
张洪双, 田小波, 刘芳, 等. 2009. 呼包盆地周缘壳、幔结构研究［J］. 地球物理学进展, 24(5):1609-1615. ZHANG Hong-shuang, TIAN Xiao-bo, LIU Fang, et al. 2009. Structure of crust and mantle beneath the Hu-bao basin and its adjacent region［J］. Progress in Geophysics, 24(5):1609-1615(in Chinese).
张培震, 邓起东, 张国民, 等. 2003. 中国大陆的强震活动与活动地块［J］. 中国科学(D辑), 33(S):12-20. ZHANG Pei-zhen, DENG Qi-dong, ZHANG Guo-min, et al. 2003. Active tectonic blocks and strong earthquakes in the continent of China［J］. Science in China(Ser D), 46(S2):13-24.
张永谦, 滕吉文, 王谦身, 等. 2013. 河套盆地及其邻近地域的地壳结构与深层动力学过程［J］. 地球物理学进展, 28(5):2264-2272. ZHANG Yong-qian, TENG Jiwen, WANG Qian-shen, et al. 2013. Crustal structure and the geodynamic process beneath the Hetao Basin and adjacent area［J］. Progress in Geophysics, 28(5):2264-2272(in Chinese).
周龙泉, 刘杰, 马宏生, 等. 2009. 2003年大姚6.2级、6.1级地震序列震源位置及震源区速度结构的联合反演［J］. 地震, 29(2):12-24. ZHOU Long-quan, LIU Jie, MA Hong-sheng, et al. 2009. Simultaneous inversion for the 2003 Dayao M6.2 and 6.1 earthquakes sequence locations and velocity structure in the hypocentral area［J］. Earthquake, 29(2):12-24(in Chinese).
朱绅玉, 杨继贤. 1998. 阴山带燕山运动特征［J］. 内蒙古地质, (2). 29-38. ZHU Kun-yu, YANG Ji-xian. 1998. The characteristic of Yanshan movement in Yinshan belt［J］. Geology of Inner Mongolia, (2):29-38.
Eberhart-Phillips D. 1993. Local earthquake Tomography:Earthquake source regions［M］//Iyer H M, Hirahara K. Seismic Tomography:Theory and Practice. London:Chapman and Hall:613-643.
Huang J L, Zhao D P, Zheng S H. 2002. Lithospheric structure and its relationship to seismic and volcanic activity in southwest China［J］. Journal of Geophysical Research:Solid Earth, 107(B10):2255.
Kissling E, Ellsworth W L, Eberhard-Phillips D, et al. 1994. Initial reference models in local earthquake tomography［J］. Journal of Geophysical Research:Solid Earth, 99(B10):19635-19646.
Lin C H, Roecker S W. 1997. Three-dimensional P-wave velocity structure of the Bear Valley region of Central California［J］. Pure and Applied Geophysics, 149(4):667-688.
Shearer P M. 1999. Introduction to Seismology［M］. New York:Cambridge University Press.
Thurber C H. 1983. Earthquake locations and three-dimensional crustal structure in the Coyote Lake area, central California［J］. Journal of Geophysical Research:Solid Earth, 88(B10):8226-8236.
Zhang H J, Thurber C H. 2003. Double-difference tomography:The method and its application to the Hayward fault, California［J］. Bulletin of the Seismological Society of America, 93(5):1875-1889.
Zhao D P, Hasegawa A, Horiuchi S. 1992. Tomographic imaging of P and S wave velocity structure beneath northeastern Japan［J］. Journal of Geophysical Research:Solid Earth, 97(B13):19909-19928.

[1]	ZHANG Ling, MIAO Shu-qing, YANG Xiao-ping. THE ANALYSIS AND IMPLEMENTATION OF THE AUTOMATIC EXTRACTING METHOD FOR ACTIVE THRUST FAULTS IN THE NORTH TIANSHAN MOUNTAINS BASED ON ARCGIS SOFTWARE PLATFORM [J]. SEISMOLOGY AND GEOLOGY, 2023, 45(2): 422-434.
[2]	WANG Liang, JIAO Ming-ruo, QIAN Rui, ZHANG Bo, YANG Shi-chao, SHAO Yuan-yuan. CRUSTAL VELOCITY STRUCTURE BENEATH THE SOUTHERN LIAONING PROVINCE DERIVED FROM DOUBLE DIFFERENCE TOMOGRAPHY [J]. SEISMOLOGY AND GEOLOGY, 2022, 44(2): 378-394.
[3]	LI Cui-ping, TANG Mao-yun, GUO Wei-ying, WANG Xiao-long, DONG Lei. A PRELIMINARY STUDY ON 3D VELOCITY STRUCTURE OF RONGCHANG AND ITS ADJACENT AREA [J]. SEISMOLOGY AND EGOLOGY, 2022, 44(1): 205-219.
[4]	YIN Xin-xin, JIANG Chang-sheng, CAI Run, GUO Xiang-yun, JIANG Cong, WANG Zu-dong, ZOU Xiao-bo. STUDY OF CRUSTAL TOMOGRAPHY AND PRECISE EARTHQUAKE LOCATION IN YANGBI AREA, YUNNAN PROVINCE [J]. SEISMOLOGY AND EGOLOGY, 2021, 43(4): 864-880.
[5]	CUI Ren-sheng, ZHAO Cui-ping, ZHOU Lian-qing, CHEN Yang. SEISMICITY FEATURE AND SEISMOGENIC FAULT OF THE M_S6.4 EARTHQUAKE SEQUENCE ON JANUARY 19, 2020 IN JIASHI, XINJIANG [J]. SEISMOLOGY AND GEOLOGY, 2021, 43(2): 329-344.
[6]	LUO Ren-yu, CHEN Ji-feng, YIN Xin-xin, LI Shao-hua. STUDY ON THE 3D CRUSTAL VELOCITY STRUCTURE OF BODY-WAVE IN GONGHE AREA [J]. SEISMOLOGY AND GEOLOGY, 2021, 43(1): 232-248.
[7]	LI Xia, CHEN Shi-jun, ZHANG Zheng-shuai, DAI Zong-hui, LI Xiao-han, LU Zhong-bin. INVERSION OF P-WAVE THREE-DIMENSIONAL VELOCITY STRUCTURE AND ANALYSIS OF SEISMOGENIC STRUCTURE OF EARTHQUAKE SWARM IN 2017 IN MIAODAO ISLANDS, SHANDONG PROVINCE [J]. SEISMOLOGY AND GEOLOGY, 2020, 42(5): 1188-1204.
[8]	LI Jun, WANG Qin-cai, CUI Zi-jian, LIU Geng, ZHOU Lin, LU Zhen, ZHOU Hui. FOCAL FAULTS AND STRESS FIELD CHARACTERISTICS OF M7.0 JIUZHAIGOU EARTHQUAKE SEQUENCE IN 2017 [J]. SEISMOLOGY AND GEOLOGY, 2019, 41(1): 58-71.
[9]	AI Ming, BI Hai-yun, ZHENG Wen-jun, YIN Jin-hui, YUAN Dao-yang, REN Zhi-kun, CHEN Gan, LIU Jin-rui. USING UNMANNED AERIAL VEHICLE PHOTOGRAMMETRY TECHNOLOGY TO OBTAIN QUANTITATIVE PARAMETERS OF ACTIVE TECTONICS [J]. SEISMOLOGY AND GEOLOGY, 2018, 40(6): 1276-1293.
[10]	WANG Si-yu, AI Ming, WU Chuan-yong, LEI Qi-yun, ZHANG Hui-ping, REN Guang-xue, LI Chuan-you, REN Zhi-kun. APPLICATION OF DEM GENERATION TECHNOLOGY FROM HIGH RESOLUTION SATELLITE IMAGE IN QUANTITATIVE ACTIVE TECTONICS STUDY: A CASE STUDY OF FAULT SCARPS IN THE SOUTHERN MARGIN OF KUMISHI BASIN [J]. SEISMOLOGY AND GEOLOGY, 2018, 40(5): 999-1017.
[11]	WANG Zhi-wei, WANG Xiao-long, MA Sheng-li, LEI Xing-lin, LIU Pei-xun. DETAILED TEMPORAL-SPATIAL DISTRIBUTION OF INDUCED EARTHQUAKES BY WATER INJECTION IN RONGCHANG, CHONGQING [J]. SEISMOLOGY AND GEOLOGY, 2018, 40(3): 523-538.
[12]	WU Xi-yan, XU Xi-wei, YU Gui-hua, CHENG Jia, CHEN Gui-hua, AN Yan-fen, WANG Qi-xin. MAP PREPARATION OF EARTHQUAKE SURFACE RUPTURES IN THE NATIONAL EXPERIMENTAL FIELD OF EARTHQUAKE MONITORING AND PREDICTION IN SICHUAN AND YUNNAN PROVINCE [J]. SEISMOLOGY AND GEOLOGY, 2018, 40(1): 27-41.
[13]	BI Hai-yun, ZHENG Wen-jun, ZENG Jiang-yuan, YU Jing-xing, REN Zhi-kun. APPLICATION OF SFM PHOTOGRAMMETRY METHOD TO THE QUANTITATIVE STUDY OF ACTIVE TECTONICS [J]. SEISMOLOGY AND GEOLOGY, 2017, 39(4): 656-674.
[14]	ZHU Ai-lan, XU Xi-wei, REN Ye, SUN Dong-jun, WANG Peng, YU Hai-ying, SONG Xiu-qing, LIU Fang. RELOCATION OF THE BACKGROUND SEISMICITY AND INVESTIGATION ON THE BURIED ACTIVE FAULTS IN SOUTHEASTERN CHINA [J]. SEISMOLOGY AND GEOLOGY, 2017, 39(1): 67-80.
[15]	LUO Jia-hong, MA Wen-tao. A PRELIMINARY STUDY ON UPPER CRUSTAL VELOCITY STRUCTURE IN THE THREE GORGES RESERVOIR AREA [J]. SEISMOLOGY AND GEOLOGY, 2016, 38(2): 329-341.