鲁甸MS6.5地震孕育环境的重力学分析

doi:10.3969/j.issn.0253-4967.2017.02.007

摘要/Abstract

摘要： 鲁甸地震发生在鲜水河-小江断裂带东侧，主破裂为NW走向，其震中区处于川滇块体与华南块体过渡地带，走滑和推覆构造发育，目前对该地震的孕震构造环境认识上还存在一些争议。基于此，利用EGM2008计算的布格重力异常进行1-5阶离散小波变换，分离得到反映不同深度场源特征的地壳介质横向不均匀性；利用实测重力剖面数据，分析其布格重力异常分布特征，计算并绘制其归一化总梯度（NFG）图像，研究了地壳密度变化的差异性。分析结果表明： 1）莲峰断裂与昭通-鲁甸断裂之间布格重力异常呈现SW-NE向的"高-低-高"型异常特征，鲁甸主震及余震均分布于低值带内，反映出青藏高原物质东流沿包谷垴-小河一带（低异常条带）向SE推进，至昭通鲁甸断裂受阻，能量积累到一定程度后发震；2）第3阶小波细节显示：上地壳负重力异常与主要断裂分布一致性非常好，反映了由断裂运动造成地壳浅部物质破碎而呈现出重力异常减小，震中附近NW向负异常条带可能与大凉山断裂向S发展有关，推测NW走向大凉山断裂向S扩展运动是鲁甸地震发震的直接动力来源；3）第4阶小波细节显示鲁甸震中存在明显的正异常，印证了中地壳内部高密度体的存在；第5阶小波细节显示鲁甸震中处于正异常区，预示着地幔物质的侵入，地幔隆升产生地壳引张力和印度板块推挤产生的压扭力是鲁甸地震震源拉张和走滑的动力来源；4）剖面布格重力异常归一化总梯度图像显示："变形"显著且E倾的小江断裂带为区域控制性断裂，鲁甸震源底部存在稳定的局部"不变体"，稳定的密度不变体对此次地震破裂具有限制作用，是导致震源新生破裂规模有限且切割较浅的原因；5）通过与鲜水河-小江断裂系比较，认为昭通-鲁甸断裂孕震能力明显偏弱，其最大发震能力应在7级左右。

关键词: 鲁甸地震, 布格重力异常, 离散小波变换, 归一化总梯度, 地壳结构

Abstract: The main rupture of Ludian M_S6.5 earthquake is directed to the northwest, which occurred in the east of Xianshuihe-Xiaojiang fault zone. The epicenter is in the transitional zone of the Sichuan-Yunnan block and the South China block, where there are many slip and nappe structures. Some controversy still remains on the earthquake tectonic environment. So, Bouguer gravity anomalies calculated by EGM2008 were broken down into 1-5 ranks using the way of Discrete Wavelet Transform(DWT), then we get the lateral heterogeneity in different depths of the crust. The distribution characteristics of Bouguer gravity anomaly are analyzed using measured gravity profile data. We also get its normalized full gradient(NFG)picture, and study the differences between different depths in crust. The results show that: (1)the characteristic of Buoguer gravity anomaly in southwest to northeast is high-low-high between the Lianfeng Fault(LFF)and Zhaotong-Ludian Fault(ZLF). The mainshock and aftershocks are distributed in the middle of the low-value zone, which means that the east moving materials of Qinghai-Tibet plateau broke through the southern section of Lianfeng Fault(LFF), moving along the Baogunao-Xiaohe zone(low-value belt)to the southeast, stopped by the Zhaotong-Ludian Fault(ZLF), and then earthquake occurred.(2)The third-order discrete wavelet transform(DWT)details show that: there is a good consistency between the negative gravity anomaly in upper crust and the distribution of major faults, which reflects that the rupture caused by the movements of the faults in crust has reduced gravity anomaly. There is a NW-trending negative anomaly belt near the epicenter, which may has some relationship to the southward development of the Daliangshan Fault(DLSF). So we speculate that the southward movement of Daliangshan Fault is the main direct force source of Ludian earthquake.(3)In the picture of the fourth-order DWT details, there is an obvious positive gravity anomaly under the epicenter of Ludian earthquake, which confirms the presence of a high-density body in the middle crust. While the fifth-order DWT details show that: A positive anomaly belt is below the epicenter too, which may be caused by mantle material intruding to the lower crust. Tensile force in crust caused by mantle uplift and extrusion-torsion force caused by Indian plate push are the main force source in the tensile and strike slip movement of the Ludian earthquake.(4)The normalized total gradient of Bouguer gravity anomalies of Huili-Ludian-Zhaotong profile shows that: there is obvious ‘deformation’ in the Xiaojiang fault zone which dips to the east and controls the local crust movement. There is a local ‘constant body’ at the bottom of the epicenter. The stable constant body in density has limiting effects to the earthquake rupture, which is the reason that the earthquake rupture' scale in strike and in depth are limited.(5)The ability of earthquake preparation in Zhaotong-Ludian Fault is lower than the Xianshuihe-Xiaojiang fault zone, and the maximum earthquake capacity in this area should be around magnitude 7.

Key words: Ludian earthquake, Bouguer gravity anomaly, discrete wavelet transform, normalized full gradient, crustal structure

中图分类号:

315.72⁺6

谈洪波, 申重阳, 玄松柏, 吴桂桔, 杨光亮, 汪健. 鲁甸M_S6.5地震孕育环境的重力学分析[J]. 地震地质, 2017, 39(2): 356-373.

TAN Hong-bo, SHEN Chong-yang, XUAN Song-bai, WU Gui-ju, YANG Guang-liang, WANG Jian. THE SEISMOGENIC ENVIRONMENT ANALYSIS OF LUDIAN M_S6.5 EARTHQUAKE USING GRAVITY DATA[J]. SEISMOLOGY AND GEOLOGY, 2017, 39(2): 356-373.

参考文献

陈桂华, 徐锡伟, 闻学泽, 等. 2008. 川滇块体北-东边界活动构造带运动学转换与变形分解作用［J］. 地震地质, 30(1): 58-85.
CHEN Gui-hua, XU Xi-wei, WEN Xue-ze, et al. 2008. Kinematical transformation and slip partitioning of northern to eastern active boundary belt of Sichuan-Yunnan block［J］. Seismology and Geology, 30(1): 58-85(in Chinese).
陈琦, 王平. 1987. 攀西裂谷的多期活动性及其深部地质意义［J］. 长春地质学院学报, 17(1): 1-10.
CHEN Qi, WANG Ping. 1987. The multiperiodic activity of the Pan-Xi rift and its significance in deep geology［J］. Journal of Changchun College of Geology, 17(1): 1-10(in Chinese).
陈石, 王青华, 王谦身, 等. 2014. 云南鲁甸M_S6.5地震震源区和周边三维密度结构及重力场变化［J］. 地球物理学报, 57(9): 3080-3090.
CHEN Shi, WANG Qing-hua, WANG Qian-shen, et al. 2014. The 3D density structure and gravity change of Ludian M_S6.5 Yunnan epicenter and surrounding regions［J］. Chinese Journal of Geophysics, 57(9): 3080-3090(in Chinese).
房立华, 吴建平, 王未来, 等. 2014. 云南鲁甸M_S6.5地震余震重定位及其发震构造［J］. 地震地质, 36(4): 1173-1185. doi: 10.3969/j.issn.0253-4967.2014.04.019.
FANG Li-hua, WU Jian-pin, WANG Wei-lai, et al. 2014. Relocation of the aftershock sequence of the M_S6.5 Ludian earthquake and its seismogenic structure［J］. Seismology and Geology, 36(4): 1173-1185(in Chinese).
何宏林, 池田安隆, 何玉林, 等. 2008. 新生的大凉山断裂带: 鲜水河-小江断裂系中段的裁弯取直［J］. 中国科学 (D辑), 38(5): 564-574.
HE Hong-lin, Ikeda Y, HE Yu-lin, et al. 2008. Newly-generated Daliangshan fault zone: Shortcutting on the central section of Xianshuihe-Xiaojiang fault system［J］. Science in China(Ser D), 51(9): 1248-1258.
何骁慧, 倪四道, 刘杰. 2015. 2014年8月3日云南鲁甸M6.5地震破裂方向性研究［J］. 中国科学(D辑), 45(3): 253-263.
HE Xiao-hui, NI Si-dao, LIU Jie. 2015. Rupture directivity of the August 3rd, 2014 Ludian earthquake(Yunnan, China)［J］. Science China(Ser D), 58(5): 795-804.
侯遵泽, 杨文采. 1997. 中国重力异常的小波变换与多尺度分析［J］. 地球物理学报, 40(1): 85-95.
HOU Zun-ze, YANG Wen-cai. 1997. Wavelet transform and multi-scale analysis on gravity anomalies of China［J］. Acta Geophysica Sinica, 40(1): 85-95(in Chinese).
李永华, 徐小明, 张恩会, 等. 2014. 青藏高原东南缘地壳结构及云南鲁甸、景谷地震深部孕震环境［J］. 地震地质, 36(4): 1204-1216. doi: 10.3969/j.issn.0253-4967.2014.04.021.
LI Yong-hua, XU Xiao-min, ZHANG En-hui, et al. 2014. Three-dimensional crust structure beneath SE Tibetan plateau and its seismotectonic implications for the Ludian and Jinggu earthquakes［J］. Seismology and Geology, 36(4): 1204-1216(in Chinese).
孟令顺, 曾庆益, 卢履仁, 等. 1987. 攀西地区重力均衡异常的研究［J］. 长春地质学院学报, 17(1): 91-98.
MENG Ling-shun, ZENG Qing-yi, LU LÜ-ren, et al. 1987. On isostatic anomalies of Panzhihua-Xichang region, southwestern China［J］. Journal of Changchun College of Geology, 17(1): 91-98(in Chinese).
申重阳, 李辉, 孙少安, 等. 2009. 重力场动态变化与汶川M_S8.0地震孕育过程［J］. 地球物理学报, 52(10): 2547-2557.
SHEN Chong-yang, LI Hui, SUN Shao-an, et al. 2009. Dynamic variations of gravity and the preparation process of the Wenchuan M_S8.0 earthquake［J］. Chinese Journal of Geophysics, 52(10): 2547-2557(in Chinese).
申重阳, 杨光亮, 谈洪波, 等. 2015. 维西-贵阳剖面重力异常与地壳密度结构特征［J］. 地球物理学报, 58(11): 3952-3964.
SHEN Chong-yang, YANG Guang-liang, TAN Hong-bo, et al. 2015. Gravity anomalies and crustal density structure characteristics of profile Weixi-Guiyang［J］. Chinese Journal of Geophysics, 58(11): 3952-3964(in Chinese).
石磊, 楼海, 王谦身, 等. 2015. 攀西地区重力场特征及其地壳密度结构［J］. 地球物理学报, 58(7): 2402-2412.
SHI Lei, LOU Hai, WANG Qian-shen, et al. 2015. Gravity field characteristics and crust density structure in the Panxi region, China［J］. Chinese Journal of Geophysics, 58(7): 2402-2412(in Chinese).
宋谢炎, 王玉兰, 曹志敏, 等. 1998. 峨眉山玄武岩、峨眉地裂运动与幔热柱［J］. 地质地球化学, (1): 47-52.
SONG Xie-yan, WANG Yu-lan, CAO Zhi-min, et al. 1998. Emeishan basalts, Emei tafrogeny and mantle plume［J］. Geology-Geochemistry, (1): 47-52(in Chinese).
滕吉文, 白登海, 杨辉, 等. 2008. 2008汶川M_S8.0地震发生的深层过程和动力学响应［J］. 地球物理学报, 51(5): 1385-1402.
TENG Ji-wen, BAI Deng-hai, YANG Hui, et al. 2008. Deep processes and dynamic responses associated with the Wenchuan M_S8.0 earthquake of 2008［J］. Chinese Journal of Geophysics, 51(5): 1385-1402(in Chinese).
滕吉文, 魏斯禹. 1987. 中国四川攀枝花-西昌(攀西)裂谷的形成、演化与裂谷分类［J］. 大地构造与成矿学, 11(1): 77-90.
TENG Ji-wen, WEI Si-yu. 1987. The formation, evolution and classification of the Panzhihua-Xichang(Pan-Xi)rift［J］. Geotectonica et Metallogenia, 11(1): 77-90(in Chinese).
汪健, 王安怡, 申重阳, 等. 2015. 南北地震带南段莫霍面重力反演研究［J］. 大地测量与地球动力学, 35(6): 931-935.
WANG Jian, WANG An-yi, SHEN Chong-yang, et al. 2015. The gravity inversion of Moho in southern area of North-South Earthquake Belt［J］. Journal of Geodesy and Geodynamics, 35(6): 931-935(in Chinese).
王谦身, 武传真, 江为为. 1997. 青藏高原西部吉隆-鲁谷地区的重力场与地壳构造［J］. 科学通报, 42(8): 858-862.
WANG Qian-shen, WU Chuan-zhen, JIANG Wei-wei. 1997. Gravity field and crustal structure of Gyirong-Lugu region in western Xizang(Tibet)Plateau［J］. Chinese Science Bulletin, 42(8): 669-673.
王未来, 吴建平, 房立华, 等. 2014. 2014年云南鲁甸M_S6.5地震序列的双差定位［J］. 地球物理学报, 57(9): 3042-3051.
WANG Wei-lai, WU Jian-ping, FANG Li-hua, et al. 2014. Double difference location of the Ludian M_S6.5 earthquake sequences in Yunnan Province in 2014［J］. Chinese Journal of Geophysics, 57(9): 3042-3051(in Chinese).
王兴臣, 丁志峰, 武岩, 等. 2015. 鲁甸M_S6.5地震震源区地壳结构及孕震环境研究［J］. 地球物理学报, 58(11): 4031-4040.
WANG Xing-chen, DING Zhi-feng, WU Yan, et al. 2015. The crustal structure and seismogenic environment in the Ludian M_S6.5 earthquake region［J］. Chinese Journal of Geophysics, 58(11): 4031-4040(in Chinese).
闻学泽, 杜方, 易桂喜, 等. 2013. 川滇交界东段昭通、莲峰断裂带的地震危险背景［J］. 地球物理学报, 56(10): 3361-3372.
WEN Xue-ze, DU Fang, YI Gui-xi, et al. 2013. Earthquake potential of the Zhaotong and Lianfeng fault zones of the eastern Sichuan-Yunnan border region［J］. Chinese Journal of Geophysics, 56(10): 3361-3372(in Chinese).
吴建平, 杨婷, 王未来, 等. 2013. 小江断裂带周边地区三维P波速度结构及其构造意义［J］. 地球物理学报, 56(7): 2257-2267.
WU Jian-pin, YANG Ting, WANG Wei-lai, et al. 2013. Three-dimensional P-wave velocity structure around Xiaojiang fault system and its tectonic implications［J］. Chinese Journal of Geophysics, 56(7): 2257-2267(in Chinese).
许力生, 张旭, 严川, 等. 2014. 基于勒夫波的鲁甸M_S6.5地震震源复杂性分析［J］. 地球物理学报, 57(9): 3006-3017.
XU Li-sheng, ZHANG Xu, YAN Chuan, et al. 2014. Analysis of the Love waves for the source complexity of the Ludian M_S6.5 earthquake［J］. Chinese Journal of Geophysics, 57(9): 3006-3017(in Chinese).
徐涛, 张明辉, 田小波, 等. 2014. 丽江-清镇剖面上地壳速度结构及其与鲁甸M_S6.5地震孕震环境的关系［J］. 地球物理学报, 57(9): 3069-3079.
XU Tao, ZHANG Ming-hui, TIAN Xiao-bo, et al. 2014. Upper crustal velocity of Lijiang-Qingzhen profile and its relationship with the seismogenic environment of the M_S6.5 Ludian earthquake［J］. Chinese Journal of Geophysics, 57(9): 3069-3079(in Chinese).
徐涛, 张忠杰, 刘宝峰, 等. 2015. 峨眉山大火成岩省地壳速度结构与古地幔柱活动遗迹: 来自丽江-清镇宽角地震资料的约束［J］. 中国科学(D辑), 45(5): 561-576.
XU Tao, ZHANG Zhong-jie, LIU Bao-feng, et al. 2015. Crustal velocity structure in the Emeishan large igneous province and evidence of the Permian mantle plume activity［J］. Science China(Ser D), 58(7): 1133-1147.
徐锡伟, 江国焰, 于贵华, 等. 2014. 鲁甸6.5级地震发震断层判定及其构造属性讨论［J］. 地球物理学报, 57(9): 3060-3068.
XU Xi-wei, JIANG Guo-yan, YU Gui-hua, et al. 2014. Discussion on seismogenic fault of the Ludian M_S6.5 earthquake and its tectonic attribution［J］. Chinese Journal of Geophysics, 57(9): 3060-3068(in Chinese).
徐锡伟, 闻学泽, 郑荣章, 等. 2003. 川滇地区活动块体最新构造变动样式及其动力来源［J］. 中国科学(D辑), 33(S): 151-162.
XU Xi-wei, WEN Xue-ze, ZHENG Rong-zhang, et al. 2003. Pattern of latest tectonic motion and its dynamics for active blocks in Sichuan-Yunnan region, China［J］. Science in China(Ser D), 46(S2): 210-226.
玄松柏, 申重阳, 谈洪波. 2015. 芦山-康定地区布格重力异常及其归一化梯度图像的构造物理涵义［J］. 地球物理学报, 58(11): 4007-4017.
XUAN Song-bai, SHEN Chong-yang, TAN Hong-bo. 2015. Tectonic implications of images of Bouguer gravity anomaly and its normalized full gradient in Lushan-Kangding area［J］. Chinese Journal of Geophysics, 58(11): 4007-4017(in Chinese).
杨光亮, 申重阳, 谈洪波, 等. 2014. 云南鲁甸M_S6.5地震震区地壳密度结构特征［J］. 地震地质, 36(4): 1143-1156.
YANG Guang-liang, SHEN Chong-yang, TAN Hong-bo, et al. 2014. Crustal density structure of Yunnan Ludian M_S6.5 earthquake area［J］. Seismology and Geology, 36(4): 1143-1156(in Chinese).
杨金玉, 张训华, 张菲菲, 等. 2012. EGM2008地球重力模型数据在中国大陆地区的精度分析［J］. 地球物理学进展, 27(4): 1298-1306.
YANG Jin-yu, ZHANG Xun-hua, ZHANG Fei-fei, et al. 2012. On the accuracy of EGM2008 earth gravitational model in Chinese Mainland［J］. Progress in Geophysics, 27(4): 1298-1306(in Chinese).
杨文采, 施志群, 侯遵泽, 等. 2011. 离散小波变换与重力异常多重分解［J］. 地球物理学报, 44(4): 534-541.
YANG Wen-cai, SHI Zhi-qun, HOU Zun-ze, et al. 2011. Discrete wavelet transform for multiple decomposition of gravity anomalies［J］. Chinese Journal of Geophysics, 44(4): 534-541(in Chinese).
章传银, 郭春喜, 陈俊勇, 等. 2009. EGM2008地球重力场模型在中国大陆适用性分析［J］. 测绘学报, 38(4): 283-289.
ZHANG Chuan-yin, GUO Chun-xi, CHEN Jun-yong, et al. 2009. EGM2008 and its application analysis in Chinese Mainland［J］. Acta Geodaetica et Cartographica Sinica, 38(4): 283-289(in Chinese).
张广伟, 雷建设, 梁姗姗, 等. 2014. 2014年8月3日云南鲁甸M_S6.5地震序列重定位与震源机制研究［J］. 地球物理学报, 57(9): 3018-3027.
ZHANG Guang-wei, LEI Jian-she, LIANG Shan-shan, et al. 2014. Relocations and focal mechanism solutions of the 3 August 2014 Ludian, Yunnan M_S6.5 earthquake sequence［J］. Chinese Journal of Geophysics, 57(9): 3018-3027(in Chinese).
张培震. 1999. 中国大陆岩石圈最新构造变动与地震灾害［J］. 第四纪研究, 19(5): 404-413.
ZHANG Pei-zhen. 1999. Late Quaternary tectonic deformation and earthquake hazard in continental China［J］. Quaternary Sciences, 19(5): 404-413(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), 33(S): 12-20(in Chinese).
张世民, 聂高众, 刘旭东, 等. 2005. 荥经-马边-盐津逆冲构造带断裂运动组合及地震分段特征［J］. 地震地质, 27(2): 221-233.
ZHANG Shi-min, NIE Gao-zhong, LIU Xu-dong, et al. 2005. Kinematical and structural patterns of Yingjing-Mabian-Yanjin thrust fault zone, southeast of Tibetan plateau, and its segmentation from earthquakes［J］. Seismology and Geology, 27(2): 221-233(in Chinese).
张晓曼, 胡家富, 胡毅力, 等. 2011. 云南壳幔S波速度结构与强震的构造背景［J］. 地球物理学报, 54(5): 1222-1232.
ZHANG Xiao-man, HU Jia-fu, HU Yi-li, et al. 2011. The S-wave velocity structure in the crust and upper mantle as well as the tectonic setting of strong earthquake beneath Yunnan region［J］. Chinese Journal of Geophysics, 54(5): 1222-1232(in Chinese).
赵小艳, 孙楠. 2014. 2014年云南鲁甸6.5级地震震源位置及震源区速度结构联合反演［J］. 地震研究, 37(4): 523-531.
ZHAO Xiao-yan, SUN Nan. 2014. Simultaneous inversion for focal location of Yunnan Ludian M_S6.5 earthquake sequence in 2014 and velocity structure in the source region［J］. Journal of Seismological Research, 37(4): 523-531(in Chinese).
赵旭, 刘杰, 冯蔚. 2014. 2014年云南鲁甸M_S6.5地震震源运动学特征［J］. 地震地质, 36(4): 1157-1172. doi: 10.3969/j.issn.0253-4967.2014.04.018.
ZHAO Xu, LIU Jie, FENG Wei. 2014. The kinematic characteristics of the M_S6.5 Ludian Yunnan earthquake in 2014［J］. Seismology and Geology, 36(4): 1157-1172(in Chinese).
周荣军, 黎小刚, 黄祖智, 等. 2003. 四川大凉山断裂带的晚第四纪平均滑动速率［J］. 地震研究, 26(2): 191-196.
ZHOU Rong-jun, LI Xiao-gang, HUANG Zu-zhi, et al. 2003. Average slip rate of Daliang mountain fault zone in Sichuan in late Quaternary period［J］. Journal of Seismological Research, 26(2): 191-196(in Chinese).
祝意青, 付广裕, 梁伟峰, 等. 2015. 鲁甸M_S6.5、芦山M_S7.0、汶川M_S8.0地震前区域重力场时变［J］. 地震地质, 37(1): 319-330. doi: 10.3969/j.issn.0253-4967.2015.01.025.
ZHU Yi-qing, FU Guang-yu, LIANG Wei-feng, et al. 2015. Earthquake predictions: Spatial-temporal gravity changes before the Ludian M_S6.5, Lushan M_S7.0 and Wenchuan M_S8.0 earthquake［J］. Seismology and Geology, 37(1): 319-330(in Chinese).
祝意青, 闻学泽, 孙和平, 等. 2013. 2013年四川芦山M_S7.0地震前的重力变化［J］. 地球物理学报, 56(6): 1887-1894.
ZHU Yi-qing, WEN Xue-ze, SUN He-ping, et al. 2013. Gravity changes before the Lushan, Sichuan, M_S=7.0 earthquake of 2013［J］. Chinese Journal of Geophysics, 56(6): 1887-1894(in Chinese).
Dondurur D. 2005. Depth estimates for Slingram electromagnetic anomalies from dipping sheet-like bodies by the normalized full gradient method［J］. Pure and Applied Geophysics, 162(11): 2179-2195.
Ebrahimzadeh A V. 2004. Detection of near-surface anomalies through 2-D normalized full gradient of gravity data［J］. Journal of the Earth and Space Physics, 30(2): 1-6.
Pavlis N K, Holmes S A, Kenyon S C, et al. 2008. An earth gravitational model to degree 2160: EGM2008［C］//EGU General Assembly. EGU, Vienna, Austria.
Pavlis N K, Holmes S A, Kenyon S C, et al. 2012. The development and evaluation of the Earth Gravitational Model 2008(EGM2008)［J］. Journal of Geophysical Research, 117(B4): B04406. doi: 10.1029/2011JB008916.
Peltzer G, Tapponnier P. 1988. Formation and evolution of strike-slip faults, rifts, and basins during the India-Asia collision: An experimental approach［J］. Journal of Geophysical Research, 93(B12). 15085-15117.
Wang Q, Zhang P Z, Freymueller J T, et al. 2001. Present-day crustal deformation in China constrained by Global Positioning System measurements［J］. Science, 294(5542): 574-577.
Xuan S B, Shen C Y, Li H, et al. 2016. Structural interpretation of the Chuan-Dian block and surrounding regions using discrete wavelet transform［J］. International Journal of Earth Sciences, 105: 1591-1602. doi: 10.1007/s00531-015-1272-1.
Zeng H L, Meng X H, Yao C L, et al. 2002. Detection of reservoirs from normalized full gradient of gravity anomalies and its application to Shengli Oil Field, East China［J］. Geophysics, 67(4): 1138-1147.
Zhang P Z, Shen Z K, Wang M, et al. 2004. Continuous deformation of the Tibetan plateau from global positioning system data［J］. Geology, 32(9): 809-812.

[1]	徐志萍, 张扬, 杨利普, 徐顺强, 姜磊, 唐淋, 林吉焱. 河南省及邻区主要活动断裂的深部构造特征[J]. 地震地质, 2022, 44(6): 1521-1538.
[2]	潘纪顺, 李朋辉, 段永红, 赵延娜, 彭诣淙, 孙凯旋. 华北克拉通中西部地区的地壳结构研究[J]. 地震地质, 2021, 43(5): 1269-1291.
[3]	吴桂桔, 于炳飞, 郝洪涛, 胡敏章, 谈洪波. 漾濞震区及周缘深部构造特征与发震构造[J]. 地震地质, 2021, 43(4): 739-756.
[4]	陈晓利, 刘春国, 传一健, 兰剑, 魏延坤. 鲁甸地震的滑坡物质运移规律与地形特征[J]. 地震地质, 2021, 43(1): 92-104.
[5]	顾勤平, 许汉刚, 晏云翔, 赵启光, 李丽梅, 孟科, 杨浩, 王金艳, 蒋新, 马董伟. 郯庐断裂带新沂段地壳浅部结构和断裂活动性探测[J]. 地震地质, 2020, 42(4): 825-843.
[6]	高见, 杨宜海, 黄世源, 杨聪, 张元生, 柳存喜, 李少睿, 花茜. 重庆地区地壳各向异性及其构造启示[J]. 地震地质, 2020, 42(1): 147-162.
[7]	段梦乔, 赵翠萍. 金沙江下游水库区地震震源机制特征[J]. 地震地质, 2019, 41(5): 1155-1171.
[8]	徐志萍, 王夫运, 姜磊, 徐顺强, 唐淋. 川滇地区莫霍面深度和地壳厚度[J]. 地震地质, 2018, 40(6): 1318-1331.
[9]	陈晓利, 张凌, 王明明. 基于地震滑坡敏感性分析的同震滑坡分布格局——以2014年M_S6.5鲁甸地震诱发滑坡为例[J]. 地震地质, 2018, 40(5): 1129-1139.
[10]	吴玮莹, 许冲. 2014年鲁甸M_W6.2地震触发滑坡新编目[J]. 地震地质, 2018, 40(5): 1140-1148.
[11]	姜磊, 徐志萍, 方盛明, 杨利普, 李怡青, 徐顺强. 利用重震资料研究豫北及邻区地壳结构特征与地震分布[J]. 地震地质, 2018, 40(2): 323-336.
[12]	杨竹转, 邓志辉, 杨跃文, 邓盛昌, 李庆. 2014年鲁甸M_S6.5地震前云南丽江地下流体的异常变化[J]. 地震地质, 2018, 40(2): 480-498.
[13]	王鑫, 张景发, 姜文亮, 蒋洪波, 田甜, 高敏, 付萍杰. 郯庐断裂带南段重力异常及不同深度的横向构造特征[J]. 地震地质, 2016, 38(2): 370-385.
[14]	缪淼, 朱守彪. 2014年鲁甸地震(M_S=6.5)静态库仑应力变化及其影响[J]. 地震地质, 2016, 38(1): 169-181.
[15]	付芮, 单斌, 熊熊, 郑勇, 谢祖军, 刘成利, 房立华. 2014年云南鲁甸地震同震库仑应力对余震分布及周边断层的影响[J]. 地震地质, 2015, 37(4): 1084-1095.