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1.
青藏高原东南缘多尺度重力场变化特征及孕震机理分析 总被引:1,自引:0,他引:1
文中基于青藏高原东南缘2013—2016年的流动重力观测资料,获得了鲁甸和景谷地震前后不同时间尺度下区域重力场的动态演化趋势和异常特征,利用小波多尺度分解分析重力场变化与构造运动、物质密度变迁和强震孕育的关系和规律,对青藏高原东南缘深部物质变化、动力学过程及地震孕育机理进行了探讨。结果表明:1)鲁甸、景谷震前震源区重力场变化呈现与断裂构造走向一致的剧烈正、负异常过渡带和梯度带特征,显示了孕震期间震源区强烈的地壳运动和深部物质变化过程; 2) 2013年9月—2014年4月重力场变化的小波多尺度分解结果显示,青藏高原东南缘地壳、上地幔不同深度和尺度的重力场变化与地震分布及活动断裂带位置相关性显著,表明研究区地震孕育与断裂运动以及地壳、上地幔内物质密度分布变化关系密切,可能受地壳、上地幔物质运移的复杂深部动力学过程影响; 3)基于青藏高原东南缘地壳、上地幔物质运移的动力学过程,对强震多发生在重力场变化的正、负异常过渡带和梯度带附近的特征进行了初步的解释。文中的研究结果对地球构造运动、地震机理研究具有一定的参考价值。 相似文献
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地震的孕育发生过程伴随着构造运动、物质迁移和密度变化,将引起地球重力场变化,流动重力重复观测有可能捕捉到与地震孕育有关的前兆信息,从而为中短期地震预测提供重要依据。对云南地区流动重力观测资料进行整体计算分析,研究了2014年10月7日云南景谷6.6级地震前区域重力场动态演化特征,并利用小波多尺度分解技术对布格重力异常和区域重力场动态变化进行分解,并选取合适的小波基分离得到不同深度场源特征的地壳介质横向不均匀性。结果表明,EGM2008布格重力异常数据和实测重力数据的小波多尺度结果较为一致。对比分析发现,此次景谷地震发生在区域重力场负异常的边缘,由负向正变化的高梯度带附近。基于小波多尺度分解的重力场图像能较清晰地反映2014年景谷6.6级地震孕育、发生过程中震中区域深部物质密度变化引起的异常,为地球构造运动及孕震机理研究提供一定参考。 相似文献
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2014年鲁甸M_S6.5地震位于川滇菱形块体向东突出的过渡变形区大凉山次级块体南东缘的昭通、莲峰断裂带内部,属于青藏高原东南缘南北地震带的中南段,近十多年来,该断裂带及其周边中强地震的发生频次明显增多,昭通、莲峰断裂带是否具备孕育和发生强震的深部构造背景成为一个亟待研究的问题.为了研究昭通、莲峰断裂带的深部结构特征及孕震背景,探求2014年鲁甸M_S6.5地震的成因的深部动力机制,本文充分收集了四川、云南等区域数字地震台网和"中国地震科学台阵探测-南北地震带南段"("喜马拉雅"项目Ⅰ期)流动地震台阵的观测数据,应用区域震和远震联合反演的方法得到川滇地区三维速度结构图像,在此基础上重点剖析和研究了昭通、莲峰断裂带P波速度结构;再对昭通、莲峰断裂带及周边区域的重力、航磁数据进行三维视密度和视磁化强度反演,得到了壳内不同深度层视密度的横向变化特征和反映壳内磁性物质的分布范围以及结晶基底的视磁化强度异常分布情况,综合分析研究昭通、莲峰断裂带的深部结构特征及孕震动力环境.研究结果表明:川滇交界东部昭通、莲峰断裂带及其周边地区上地壳物质存在显著的横向介质差异,中下地壳深度范围大凉山次级块体西南缘存在低速异常分布,并呈现出近SN向的展布特征,2014年鲁甸M_S6.5地震位于该高低速异常的分界线附近略偏向高速体一侧.P波速度结构还揭示了鲁甸M_S6.5主震震源体下方中下地壳存在大范围低速异常分布,P波速度异常扰动与重磁异常的展布特征、梯度变化在深度和分区特征上均具有较好的联系和可比性,结合昭通、莲峰断裂带中下地壳范围内存在大范围的低密度弱磁性异常分布,综合表明了该区中下地壳物质相对较为软弱,这种特有的深部物性结构特征有利于应力在脆性的上地壳内积累和集中.研究结果还揭示了共轭断裂的深部构造形态,高低航磁异常边界与NW向的苞谷脑—小河断裂的深部展布形态相一致,苞谷脑—小河断裂处于航磁异常突变带附近,昭通断裂北段(昭通—鲁甸段)位于上地壳强磁性、高波速异常区内且具有深大断裂的深部地球物理场响应特征,因此该断裂段(昭通—鲁甸段)具备发生7级及以上强震的深部构造背景.当大凉山次级块体内部的中下地壳低速管流层自NW向SE方向运动到昭通、莲峰断裂带附近时,受到华南块体的强烈阻挡,应力在昭通、莲峰断裂附近基底性质存在差异处集中,脆性上地壳中低强度区域在横向挤压的构造应力场作用下易于破裂从而引发强震,这也正是昭通、莲峰断裂带内部鲁甸M_S6.5地震孕育和发生的深部构造环境. 相似文献
4.
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 总被引:2,自引:1,他引:1
利用川滇地区不同时-空尺度的重力复测资料,系统分析了区域重力场时-空动态变化及其与2014年云南鲁甸MS6.5、2013年四川芦山MS7.0和2008年四川汶川MS8.0地震发生的关系。结果表明:1)强震发生前,重力场出现较大空间范围的区域性重力异常及与测区主要断裂构造带走向基本一致的重力变化高梯度带,可能反映地震前区域应力场的增强及沿主要断裂带在地震孕育发生期间发生了引起地表重力变化效应的构造活动或变形;2)多时-空尺度的重力场动态变化图像均出现较显著的相对重力异常变化,随着累计时间的增长,重力变化更为显著,可视为强震的中期前兆信息,强震主要发生在重力场变化分布差异较为剧烈的地区;3)重力场动态变化对强震的地点预测具有重要指示作用,大区域重力网能较好地判断强震主体地区,时-空分辨率较高的省局区域重力网能较好地判定强震发震地点,为更好地判定强震发震位置,则需要相应的更密集的观测网点控制;4)文章第一作者在汶川、芦山、鲁甸地震前的中期预测尤其是地点预测均取得较好成效。基于上述认识,进而强调在研究区形成的一些重力变化异常部位可能仍存在大震中-长期危险背景,需继续加强监视。 相似文献
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河北省南部及邻区的地壳深部构造与地震 总被引:3,自引:0,他引:3
本文利用区域布格重力异常图(1:100万)和地质构造资料来研究河北省南部及其相邻地区的地壳深部构造特征,并讨论其与强震发生的关系。方法主要是运用三维重力正演计算,层层消除地壳浅部对布格重力异常的影响,得出一系列剩余重力异常和剩余深部重力异常,再根据异常图形的变换,探讨一些活动断裂和构造由浅到深的变化趋势。还用三维重力反演计算,求出了全区莫霍界面的深度,得到了全区的地壳厚度图,进而分析强震区的深部构造背景,这些对地震地质和烈度区划是有意义的。 相似文献
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通过强震震例阐述了重力观测在地震预测中的作用,分析了强震震间期与同震及震后重力场变化特征、区域重力场变化及其与强震活动的关系。强震前区域重力场出现大范围的有序性变化,震源区附近产生与地震孕育发生有关的局部重力异常区,并沿区域主要发震构造断裂带出现显著的重力变化梯度带;强震一般发生在重力变化高梯度带转弯附近或重力变化四象限分布特征中心附近;重力场动态变化图像能够较清晰地反映强震孕育、发展、调整过程的重力变化信息,并基于震例提出了强震震前重力变化的“场-源-带”基本模式。最后,提出我国重力监测预报发展中仍存在的问题,并对利用重力监测资料开展地震预测预报研究进行了展望。 相似文献
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基于川滇地区2011—2014年的重力复测资料,系统分析了区域重力场时-空动态变化及其与2012年云南彝良MS5.7、2013年四川芦山MS7.0、2014年云南鲁甸MS6.5和四川康定MS6.3地震发生的关系.结合GPS、水准观测成果和区域地质构造动力环境,进一步研究了区域重力场变化的时空分布特征及其机理,讨论了近期区域重力场动态变化的强震危险含义.结果表明:1重力变化与川滇地区断裂构造活动存在密切空间联系,重力变化较好地反映了伴随活动断层的物质迁移和构造变形引起的地表重力变化效应.2重力资料对测区内2012年以来发生的4次MS5.7以上强震均有较好反映,地震前震中区及其附近观测到明显的区域性重力异常及重力变化高梯度带,可能是地震孕育过程中观测到的重力前兆信息.3区域重力场动态演化大体反映了青藏高原物质东流的动态效应,龙门山断裂带地壳受挤压隆起、面压缩率和重力上升变化的特征最为显著.4重力场的空间分布及其随时间变化与地壳垂直与水平运动及地质构造活动等观测结果有一定的对应关系,强震易发生在重力变化四象限分布中心地带或正、负异常区过渡的高梯度带上,研究区的一些重力异常部位仍存在中-长期大震危险背景. 相似文献
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青藏高原东北缘重力异常多尺度横向构造分析 总被引:8,自引:6,他引:2
本文研究了青藏高原东北缘地区布格重力异常特征,采用优化滤波法和归一化总水平梯度垂直导数法对研究区重力异常进行多尺度分离和横向构造分析.分离出的多尺度重力异常特征表明:1) 青藏高原东北缘地区大致以东经106°线为界,有一条醒目的重力异常梯级带,即贺兰山-六盘山-川滇南北构造带的北段,其东西两侧布格重力异常特征在形态和走向上截然不同,意味着两侧密度结构和构造特征存在明显差异. 2) 鄂尔多斯地块内部定边以北,重力异常高带走向由北东向转为近南北向,推测定边附近存在一个密度或构造界面,其两侧物质组成和构造特征具有差异,对比大尺度重力异常和中尺度重力异常,表明异常特征的这种差异主要是由上地幔深部结构引起的. 3) 青藏高原东北部各块体深部边界位置与地表构造分布不同,反映出该区构造复杂,深浅构造差异大. 4) 由于印度-欧亚板块碰撞及随后印度板块持续向北的挤压作用,造成青藏高原东北缘中、下地壳物质在巨大的北东向推挤力和鄂尔多斯刚性块体阻挡的共同作用下,沿着相对软弱的秦岭造山带方向蠕动.依据多尺度重力异常及其横向构造特征,综合推断出研究区内五条断裂带,即秦岭地轴北缘断裂带、海原-六盘山断裂带、香山-天景山断裂带、烟筒山断裂带和青铜峡-固原断裂带,并分析了它们在地壳深部的可能展布特征. 相似文献
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前人研究给出, 龙门山断裂带中南段地壳均衡异常显著, 具有发生7级以上大地震的深部动力背景。 2016年6月, 我们围绕该均衡异常显著区域开展重力/GNSS加密观测, 提高了该地区布格重力异常和地壳均衡异常场的空间分辨率。 依据上述观测结果与前期同类观测数据, 反演了汶川MW7.9地震周边地区地壳密度构造。 结果显示, 龙门山断裂带是地壳密度变化的高梯度带, 其东侧地壳较薄, 但其西部明显变厚, 上、 中、 下地壳变化趋势均呈现上述特征; 研究区东侧的莫霍面深度为35~40 km, 西侧为60~65 km。 此外, 利用重力/GNSS联合观测数据计算了汶川MW7.9地震震中区周边地区岩石圈承载的垂向构造应力场, 结果表明, 汶川MW7.9地震震中区北部、 宁强、 峨眉山周边地区蓄积了-30 MPa至-40 MPa的负向构造应力, 龙门山断裂带中南段蓄积了约40 MPa的正向构造应力, 区域最大垂向构造应力分布在龙门山断裂带中南段, 临近芦山MW6.6地震。 统计结果表明, 地震多发生在垂向构造应力高梯度带附近, 或垂向构造应力的高值区域。 相似文献
10.
《地球物理学进展》2015,(5)
本文利用最新超高阶重力场模型EIGEN-6C2、全球DEM模型topo_15.1.img和地壳模型CRUST1.0等数据,研究了川滇地区的不同类型的静态重力场(自由空气重力异常、布格重力异常和剩余均衡重力异常)分布特征,探讨了区域强震与静态重力场之间的关系.整体上看,川滇地区自由空气重力异常FA与地形镜像关系明显,说明地形效应对重力场影响较大;由于扣除了地形效应,区域布格重力异常格呈现西北低、东南高的特征,总体反映了川滇地区地壳厚度变化的基本格局,并在此之上,叠加了各种强度不等的局部异常;利用Parker方法正演了Moho起伏引起的地表重力变化,将其从区域布格重力异常中扣除,得到反映地表密度分布的剩余重力异常.通过对比2000年以来发生的区域大震震源机制与不同静态重力场分布特征可知,逆冲/正断型地震(如汶川地震、芦山地震)往往发生在静态重力异常的高梯度带上,而走滑型地震(如玉树地震、鲁甸地震)发生在重力异常变化较为平稳的区域,这可能与断裂的性质及其所处构造环境有关. 相似文献
11.
TAN Hong-bo SHEN Chong-yang XUAN Song-bai WU Gui-ju YANG Guang-liang WANG Jian 《地震地质》2017,39(2):356-373
The main rupture of Ludian MS6.5 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. 相似文献
12.
北京时间2019年6月17日22时55分,四川省宜宾市长宁县发生了MS6.0地震(28.34°N,104.90°E),四川盆地内部及边缘地带的深部孕震环境和潜在地震危险性再次引起了国内外地震专家和学者们的密切关注.为了揭示长宁MS6.0震区的深部介质结构特征和孕震环境,综合解译地震活动的构造背景和展布特征,本文充分收集川东南宜宾长宁地震震区及其周边范围内由四川省数字测震台网、宜宾市地方测震台网以及2016年以后宜宾长宁地区新增小孔径流动地震台阵等共计35套观测地震设备2013年1月—2019年7月记录到的17305次地震的P波到时资料的数据,应用双差地震层析成像方法,反演得到了长宁震区及周边上地壳三维P波速度结构特征,并结合此次震后科考组在震区获取的三维大地电磁阵列测深和重力密集测量等最新观测资料,综合分析讨论了长宁震区速度结构特征与地震活动关系、孕震环境及其地震危险性等科学问题.研究结果表明:长宁震区及周边上地壳P波速度结构呈现出明显的横向不均匀性,震区沉积盖层的物性特征分异明显,双河场背斜褶皱北西侧的波速结构与其东部存在明显的差异性且浅层P波速度结构分布特征与地表地质构造和地层岩性密切相关.重新定位后的长宁MS6.0地震序列空间分布特征与震区上地壳介质速度结构存在密切关系,序列大体上沿着高低速异常分界线呈NW-SE向展布,并终止于白象岩—狮子滩背斜构造东段附近,长宁震区及周边介质速度结构的非均匀变化是控制主震及其序列空间展布的深部构造因素.三维P波速度结构还表明了长宁MS6.0震区双河场褶皱附近存在不一样的深浅构造背景,震区褶皱构造伴生断裂的复杂性可能破坏了盖层地层成层性,造成了介质物性界面的变化多样,从而导致深浅构造耦合存在明显的差异.长宁MS6.0地震震中位于速度结构发生变化的边界带附近,这种介质物性变化的边界带可能是中强地震孕育和发生的有利部位.长宁MS6.0地震及其序列绝大部分发生在基底滑脱带之上,由于受到区域NE-SW向主压应力和经华蓥山构造带传递而来的NW-SE向的现今应力场的共同作用,导致了此次长宁6.0级地震的发生,而随后发生的珙县MS5.1、长宁MS5.3、珙县MS5.4和MS5.6地震以及大量中小地震事件均为长宁6.0级地震触发作用所致.P波速度结构还揭示了震区双河场褶皱以及该褶皱构造地表出露伴生的大地湾断层和NW向大佛崖断层两侧浅层速度结构特征各异,结合长宁—双河背斜与轴线方向一致的NW向伴生断裂构造比较发育,而褶皱东侧的伴生断裂走向表现出多样性和复杂性,由此推断除了受区域性构造运动的影响之外,长宁震区局部构造的差异性活动也较为突出,长宁—双河背斜构造区轴部构造及其伴生的断裂具备一定的发震能力和深部孕震背景,这可能也是长宁地震余震强度较大、活动持续时间较长的主要原因,川东南地区地震活动趋势和潜在地震危险性仍值得进一步关注. 相似文献
13.
Based on the mobile gravity observation data in 2014-2016 in Guangxi and its adjacent areas, this paper systematically analyzed the changes of regional gravity field and its relation to the MS5.4 Cangwu, Guangxi earthquake on July 31, 2016, and combined with GPS observation data and seismic geological survey results, discussed the temporal and spatial distribution characteristics of the changes of regional gravity field and its mechanism. The results show that:(1) Before and after the MS5.4 Cangwu earthquake, the gravity anomaly changes near the earthquake area were closely related to the major faults in space, which reflects the crustal deformation and tectonic activities that caused the surface gravity change along the seismogenic fault in the period of 2014-2016; (2) The gravity changes near the epicenter before and after the MS5.4 Cangwu earthquake showed an evolution process in which the positive gravity anomaly zone changed to the negative gravity anomaly zone, a gravity gradient belt appeared along NNE direction and the earthquake occurred in its reverse change process; (3) The epicenter of the MS5.4 Cangwu earthquake located both near the gravity gradient belt and in the zero transition zone of the surface strain gradient and the edge of the high maximum shear strain rate area, the observational fact further proved that the dynamic image of gravitational field and deformation field have important instruction significance to the location prediction of strong earthquakes; (4) in recent years, the gravity dynamic change in northwestern Guangxi presented a four-quadrant distribution pattern, and there is the risk of generating earthquake of magnitude about 5 in the center of the quadrants. 相似文献
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WEI Shou-chun ZHU Yi-qing ZHAO Yun-feng ZHANG Song LIU Fang LI Rui GAO Duo-wen 《地震地质》1979,42(4):923-935
The Hutubi MS6.2 earthquake of December 8, 2016 is a pure thrust event in the northern Tianshan thrust fold belt. The earthquake occurred between the Qigu Fault and the Junggar southern margin fault, which are both thrust faults. Based on mobile gravity measurements from 2013 to 2018 in the northern Tianshan, the gravity net adjustment was accomplished using Urumqi absolute gravity observation point as the datum, and the absolute gravity value of surface observation points were obtained. In order to eliminate the seasonal effect on gravity variation, the paper uses the observation data in May per annual as studying objects and obtains the temporal-spatial dynamic evolution images of gravity field differences in the northern Tianshan at different time scales as well as the time series of gravity variation of some points in the adjacent area of the epicenter. The characteristics of regional gravity variation before and after the Hutubi MS6.2 earthquake on December 8, 2016 and their relations are analyzed systematically. The results show that: 1)The gravity variations in the study area are dramatic in generally, and the contours of gravity variation are consistent with the main faults basically. There was a four-quadrant distribution near the epicenter before the earthquake, and the Hutubi MS6.2 earthquake occurred near the center of the four-quadrant distribution and at the turn of the gravity variation contour. The three years' cumulative gravity variation before the earthquake and the gravity variation after the earthquake are inversed, and the variation amplitudes are equivalent, suggesting that the MS6.2 earthquake has released the stress and the energy accumulated before the earthquake. 2)This paper focuses on the analysis of gravity variation at the observation points on both sides of the Junggar southern margin fault near the epicenter. Regional gravity variation and gravity time series show that gravity variations at the same side of the Junggar southern margin fault are basically consistent, however, gravity variations at the different sides of the Junggar southern margin fault are different from each other obviously, indicating the difference of material migration laws in different structural regions. In addition, the strain energy accumulated in the epicenter is basically released after the earthquake, and the area nearby the epicenter tends to be stable. 3)The Hutubi MS6.2 earthquake occurred near the center of the four-quadrant and at the turn of the high-gradient zone of gravity variation, reflecting the location of strong earthquake is related to the distribution of four-quadrant of regional gravity variation, the high-gradient zone of regional gravity variation and its turn. It has a unique advantage in determining the location of strong earthquake using gravity variation results. The regional spatial-temporal gravity variation before the earthquake is manifested as a systematic evolution process of “steady state→regional gravity anomaly→four-quadrant distribution→earthquake occurring in the reverse process”. Studying the temporal-spatial evolution characteristics of gravity field before and after Hutubi MS6.2 earthquake has important practical significance for understanding the occurrence law of large earthquakes and capturing the precursory information of earthquakes. 相似文献
15.
2014年11月22日16时55分在四川省甘孜藏族自治州康定县发生的6.3级地震,结束了鲜水河断裂带近30多年以来没有较大地震发生的历史,其潜在的地震危险性再次引起国内外地学工作者的关注.为了研究鲜水河断裂带南东段深部孕震环境和探求康定MS6.3地震的成因,本文先利用四川区域数字地震台网和康定地区及周边所布设的流动地震台阵在2009年1月1日至2014年12月5日期间所记录到7397次区域地震事件的99287条P波到时资料,反演得到了鲜水河断裂带南东段上地壳范围内不同深度的三维P波速度结构特征;再对康定震区及周边的重力、航磁数据进行视密度、视磁化强度反演,得到了壳内不同深度密度的横向变化信息和视磁化强度的分布特征;在此基础上综合研究鲜水河断裂带南东段的深部孕震环境.研究结果表明,雅江—九龙一带的低速区与泸定—宝兴高速区的速度结构特征表明了鲜水河断裂带南东段两侧壳内物质存在显著的横向介质差异,康定MS6.3地震发生在该高低速异常区的分界线上;结合康定MS6.3地震的1028个余震序列的精确定位结果可以看出,重新定位后的余震沿着鲜水河断裂带南东段呈条带状分布,且震源深度优势分布层位深度为8~15km,该余震序列的空间分布特征与鲜水河断裂南东段的深部介质条件密切相关.鲜水河断裂带南东段特有的视密度和视磁化强度异常分布特征反映了康定地区东西两侧块体的基底性质存在明显差异,康定—石棉及其以东地区所表现出的磁异常高和重力高的位场特征,反映该区域由强磁性、高密度物质组成,而康定MS6.3地震就发生在康定—石棉重力梯度变化带上、雅安—泸定磁性穹窿区的西边界线上.随着川青块体向南东方向滑移,受到四川盆地西缘边界刚性基底对川青块体的强烈阻挡,加剧了康定—石棉及其以东地区基底岩层的褶皱变形并产生了强烈的应力积累,所积累的应力突然释放导致了康定MS6.3地震的发生,这正是此次鲜水河断裂带南东段康定地区强震孕育和发生的深部构造环境和介质特征.根据本文对鲜水河断裂带南东段深部孕震环境的综合研究成果可知,石棉段处于重磁异常梯级带上且其北东侧表现出的高密度、强磁性和高波速等物性特征有利于区域应力的相对集中,因此,鲜水河断裂带南东段石棉地区的地震活动趋势和地震危险性背景值得进一步关注和研究. 相似文献
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基于区域-时间-长度(RTL)算法,本文以汶川MS8.0、 于田MS7.3、 芦山MS7.0、 鲁甸MS6.5及景谷MS6.6地震为例, 对强震前地震活动异常空间分布与发震地点的关系进行分析, 并根据新提出的物理参数区域-时间-长度的面积分IRTL探索区域地震活动水平与地震发生时间的关系. 结果显示:3次MS≥7.0强震前均检测到地震活动平静, 2次MS>6.0地震前均检测到地震活动增强, 这些地震活动平静和增强异常主要分布在震中及其附近潜在发震断裂带及周边, 异常范围和异常程度随时间由小到大再到小. MS≥7.0强震前, 地震活动平静主体区的IRTL曲线在震前1—3年从零值下降至低谷后回升,低谷点与地震发生的时间间隔为9—18个月; 鲁甸MS6.5和景谷MS6.6地震前, IRTL曲线分别在震前1年和1.8年由低值开始上升, 达到峰值后回落, 峰值点与地震发生的时间间隔分别为3个月和9个月. 本文结果表明, 地震活动平静的IRTL低谷点和地震活动增强的IRTL峰值点对地震发生可能有一定的指示意义. 相似文献
17.
CHARACTERISTICS OF MULTI-SCALE GRAVITY FIELD VARIATION AND SEISMOGENIC MECHANISM ANALYSIS IN THE SOUTHEASTERN TIBETAN PLATEAU 
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下载免费PDF全文 CHEN Zhao-hui MENG Xiao-hong ZHANG Shuang-xi LIU Jin-zhao WANG Tong-qing ZHANG Pin WEI Shao-gang 《地震地质》2019,41(3):690-703
As the most basic geophysical field, the earth gravity field has achieved wide attention, and its spatial anomaly characteristics and dynamic variation can provide important scientific basis for studying the internal structure and dynamics of the Earth. Based on the mobile gravity observation data of the southeastern Tibetan plateau from 2013 to 2016, the dynamic variation tendency and anomaly characteristics of the regional gravity field in different temporal resolutions are obtained before and after the Ludian and Jinggu earthquakes in the study area respectively. The method of wavelet multi-scale decomposition is used to analyze the relationships of gravity field variation with the earth movement, material density change, and strong earthquake preparation. The deep material variation, dynamic process and the mechanism of earthquake inoculation in the southeastern Tibetan plateau are further discussed. Results indicate that the gravity field variation in the source region before the Ludian and Jinggu earthquake respectively is characterized by obvious positive and negative anomalous transition zone and gradient zone that are consistent with the direction of fault tectonics, suggesting the strong crustal movement and mass migration during the earthquake incubation period. The result of wavelet multi-scale decomposition of the gravity field during the period from September 2013 to April 2014 shows that the gravity field variation at different depth and space scale in the crust and upper mantle of the southeastern Tibetan plateau is significantly correlated with seismic distribution and the location of active fault zone. This indicates that the earthquake inoculation in the study area is closely related to the fault movement and the distribution of material density in the crust and upper mantle, which may be affected by the complex deep dynamic process of the material migration in the crust and mantle. The characteristic that strong earthquakes always occur near positive and negative anomaly transition zones and gradient zones of gravity field change is preliminarily explained, based on the dynamic process of material migration in the crust and upper mantle of the southeastern Tibetan plateau. The research results of this paper have some reference value to the study on the earth movement and seismogenic mechanism. 相似文献
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2014年新疆于田7.3级地震发震构造和震前地震活动过程讨论 总被引:1,自引:1,他引:0
2014年2月12日在新疆于田发生7.3级地震,震中位于阿尔金断裂西段,这是继2008年3月21日于田7.3级地震后在塔里木盆地南侧发生的第2次7级地震。这次于田7.3级地震的余震主体沿NE向分布,余震区的西南段呈近SN向分布;绝大部分余震与前震在余震区西南密集分布,强余震(全部的5级以上地震和81%的4级地震)绝大多数都分布在这个区域,第1天的余震主要在这个区域呈近SN向分布,余震由西向东扩展。在这次于田地震的近SN方向上曾在1982、2011以及2012年先后发生过几次6级左右的地震,而这次地震填补了其中的空段。文中从区域构造环境、地震震源机制解和余震分布特征等方面,分析这次地震的发震过程,认为地震发生在硝尔库勒盆地南缘的分支断裂,受阿尔金断裂带构造应力影响,硝尔库勒盆地受到局部近EW向的拉张作用力,首先沿近SN向破裂,这个构造部位的解锁,促进阿尔金断裂左旋错动,产生NE向破裂,应力向东传递;文中还对有历史记录以来,阿尔金断裂上7级地震的发震构造及其对阿尔金断裂带的影响进行了讨论。 相似文献
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ANALYSIS ON STRUCTURAL FEATURES:INSIGHTS FROM SATELLITE-DERIVED GRAVITY MODEL AND SEISMIC PATTERN 下载免费PDF全文
下载免费PDF全文 In this paper, based on a large number of cumulative observational data from the seismic monitoring network in China, we grid the research area to calculate the density values at each grid node and convert the qualitative earthquake epicenter distribution to quantitative seismic pattern. Minimum magnitude of completeness(MC)is determined by magnitude-rank analysis, which provides lower limit earthquake and original time. New satellite-derived gravity model v23.1, which is based on satellites CryoSat-2 and Jason-1 data, is used to determine the Bouguer gravity anomaly derived from free-air gravity anomaly and elevation database sets SRTM30, and ultimately, the complete Bouguer correction is obtained. In this paper, the Xingtai earthquake zone and Tanlu fault zone (Anhui segment) are selected for case study. Bouguer gravity anomaly presents a NE-trending U-shaped narrow strip in the Xingtai earthquake zone, and its location is consistent with Shulu Fault Basin. Grid density value contours are restricted by the U-shaped strip, and the extreme value of seismic activity density lies in the bottom of the U-shaped strip as shown in the cross section. The results of Bouguer gravity anomaly and upward continuations to the different heights show good linearity and gradient in the Tanlu fault zone (Anhui segment); and both long-axis direction of seismic pattern and nodal plane strike of seismogenic fault from focal mechanism solutions trend NNE. In short, the Tanlu fault zone(Anhui segment)is a large deep-seated fault that still has the ability to control seismic activity along it. Based on the measured gravity and magmatic data, using the edge detection TDX method to interpret the concealed boundary of the Anqing M4.8 earthquake near the Tanlu fault, and combining with the results from deep seismic reflection profiles of the study area, we discussed the causative fault of the Anqing earthquake. 相似文献