新疆南天山地区重力场动态演化特征

通过分析南天山地区2005-2008年近8期流动重力测量资料,研究了重力场的时空动态演化特征,提取与地震活动有关的信息,并对重力场变化与构造活动及地震活动的关系进行了探讨.结果表明:重力场变化与构造环境变化有关;地震孕育发生阶段重力场出现一定范围的区域性重力异常;地震往往多发于重力场变化正负值交替的零线附近.     

利用数值计算方法（Lagrange）研究伽师及邻近地区重力场变化特征

利用数值计算的方法（Lagrange）,结合近4期流动重力资料,分析伽师及邻近地区的重力场时空动态变化特征,初步研究了该区的重力变化与地震活动及构造的关系。结果表明：重力场变化与构造环境变化有关。在地震孕育过程中,重力场出现有规律的变化并伴随重力变化密集区,地震往往多发于重力场变化正负值交替的零线附近。     

雅江6.0级地震前后的重力变化异常特征

对川西地区2000～2001年雅江—康定间6．0级地震前后的重力观测资料进行了处理，绘制了重力场变化等值线图和三维曲面图，从动态的观点研究了雅江地震前后重力场的图像变化特征。结果表明：①重力变化与构造环境变化有关，地震前重力场有明显的异常变化。②雅江地震前后重力场空间分布图较好地反映了鲜水河断裂带及北西向的理塘断裂和北东的玉龙西断裂构造活动弓l起的重力变化。③地震发生在重力异常下降区及高梯度带附近。     

福建重力场演变特征与仙游M_L 5.2级地震研究

对福建地区2008—2017年的流动重力复测资料进行系统整理和分析,从重力场时空变化角度分析了福建地区重力场演变特征,并重点研究了2013年仙游M_L 5.2级地震前区域重力场累积变化和震中附近测点重力点值时序变化,探讨了重力场变化与地震的关系。研究发现:福建地区重力场变化显著,且呈现逐渐增强态势;仙游地震发生前,沙县—南日岛断裂两侧重力正、负高值异常变化,震中附近测点重力值存在转折异常。     

广西北流Ms5.2地震区域重力场变化

利用广西及邻区2016—2019年流动重力观测资料,系统分析区域重力场变化及其与广西北流M_S5.2地震的关系。结果表明:①北流M_S5.2地震前,震区附近重力异常变化与主干断裂关系密切,反映沿控震断裂在2016—2019年间发生了引起地表重力变化效应的地壳变形和构造活动;②差分重力图像表明北流M_S5.2地震前震中附近的重力变化是一个"局部重力异常→重力反向变化→重力变化平缓后发震"过程;③近期重力场累积动态图像表明玉林—岑溪—苍梧一带为重力变化剧烈区域,有利于应力的高度积累而孕育地震。     

河西地区重力变化与2013年门源MS5.1地震研究

基于2010年5月—2013年10月的6期在河西地区流动重力测量资料获得的重力场时空变化结果,分析该区近期重力场变化及与2013年门源MS5.1地震的关系。结果表明：河西地区重力场变化空间分布显示在活动断裂附近重力变化较大,沿祁连山北缘断裂、昌马—门源断裂及庄浪河断裂形成与断裂带走向基本一致的重力变化高梯度带,反映了断裂构造活动引起的重力局部异常变化特征。2013年门源MS5.1地震发生在重力变化的高梯度带附近。     

重力观测地震预测应用研究

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。     

甘东南重力、b值异常与岷县-漳县M6.6地震关系探讨

利用甘东南测网2010—2014年的流动重力观测数据,分析2013年7月22日甘肃岷县—漳县M6.6地震前后1a尺度的重力场变化,并结合地震b值图像和GNSS结果进一步分析甘东南重力、b值异常与岷县—漳县M6.6地震的关系,结果表明:(1)测区重力异常经历了由"区域重力负值变化→持续负值变化→转折上升正变化—发震→震后恢复变化"的时空演化过程;(2)岷县—漳县M6.6地震前后b值曲线出现"低值—高值—回落发震"的变化特征;(3)岷县—漳县M6.6地震发生在重力变化高梯度带上、"0"等值线附近和低b值区域。     

河南范县ML4.3级地震前后重力异常探讨

分析研究范县地震前后豫鲁测网的重力场与点值变化特征后发现:地震发生在重力场上升过程中,且地震震中位于重力等值线负值区到正值区的过渡带上,重力点值在时间上具有同步性,而震后重力场的下降有可能是新的异常。     

2005～2009年喀什—伽师地区重力场变化与地震

分析了2005～2009年喀什—伽师地区10期流动重力测量资料,研究了重力场的时空动态演化特征,并提取与地震活动有关的信息,进一步探讨重力场变化与构造活动及地震活动的关系,结果表明:重力场变化与构造环境变化有关——地震孕育、发生阶段,其重力场出现一定范围的区域性重力异常.重力测量可以较好地反映由活动断层的物质迁移和构造...     

北天山中段近期重力场变化特征研究

利用北天山中段最新的流动重力观测数据,通过整理计算平差,绘制该地区半年和一年尺度的重力场变化图像;选取横跨北天山中段乌鲁木齐、独山子两条测线,并分别绘制其重力剖面变化图;结合北天山中段地区动力构造环境,剖析该地区重力变化特征及其与地震孕育之间的关系。分析表明:北天山中段地区重力异常变化值不大,重力变化等值线图和剖面变化图均能较好地反映重力场随时空变化特征;北天山中段动态重力变化特征基本反映了该地区动力构造运动的外部环境;研究区域内的重力场空间格局分布特征较清晰,其重力变化具有明显的分区特征,山体和盆地之间的重力变化具有显著差异,山体与盆地边缘正负重力变化交替出现,且变化相对较平稳。     

华南地区时变重力场建模实验和异常分析

陆面时变重力测量是监测地壳内部密度变化和物质运移的重要手段。 为确定华南时变重力观测网络的场源监测能力和重力场变化特征, 本文采用球面六面体单元构建重力场模型, 开展重力场建模实验, 对比不同建模方法与噪声条件下的局部重力场恢复效果, 并对2015—2017年来5期实测流动重力观测数据进行计算和分析。 结果表明, 最小二乘配置方法的建模效果和抗噪声干扰能力较好。 华南重力测网在地表等效可观测信号约±30×10^-8 m/s²的条件下, 场源空间分辨能力约为55 km; 实际重建的2015至2017年重力场累积变化基本趋势较一致, 重力负异常在不同时间尺度下表现为持续增强和积累, 且在局部出现正负波动的周期性变化。 本文研究结果对评价陆地重力数据质量, 指导地震重力观测网络系统改造升级, 客观地开展重力场变化解释、 分析强震孕育和物质变迁等科学问题具有重要的参考价值。     

2017年精河MS6.6地震前重力变化特征分析

利用新疆地区北疆测网2015～2017年观测的共4期流动重力资料,分析研究区半年、1年尺度重力变化特征,并采用小波分解方法,对2017年8月9日精河M_S6.6地震前重力变化异常进行分解,分离了不同深度的重力异常。结果表明,震中附近的精河地区从2015年开始一直处于重力负值变化,同时,震中周围的重力正值变化集中区逐步向震中地区迁移,地震发生前震中以南60km处出现重力变化零值线,并且零值线两侧的重力累积变化量达到70μGal。小波分解后,4阶细节图较好地反映了精河地震前的重力异常,其与地震孕育发生有较好的对应性。     

2017年12月19日海城M4.4地震重力变化及机理研究

利用辽宁地区2013-2018年流动重力观测资料,分析研究2017年12月海城M4.4震前重力空间演化特征及变化机理。研究表明:(1)辽中南地区重力场异常变化与海城M4.4地震具有一定的时空对应性;(2)一年半的累积变化显示震中东北部呈正变化,西南部呈负变化,并伴有重力变化高梯度带,最大幅差达70μGal。邻期变化显示,震前半年出现大范围正负反转变化和四象限特征,幅值在40μGal左右;(3)0值线控制海岫地区并出现转折,海城河断裂附近出现差异的重力变化;(4)结合海岫地区地质构造背景,认为该次地震事件所反映出的重力变化可能是辽中南地区地壳构造运动和地壳深部物质迁移共同所致。     

CHARACTERISTICS OF MULTI-SCALE GRAVITY FIELD VARIATION AND SEISMOGENIC MECHANISM ANALYSIS IN THE SOUTHEASTERN TIBETAN PLATEAU

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.     

四川地区流动重力资料的位场 分离与异常特征提取

用于监测四川地区重力场随时间变化的流动重力测网于2008年5月12日汶川M_S8.0地震后进行了全面改造, 形成了新的闭合环线并对整网点位每年实施2次重力观测工作. 该文以2010—2012年获取的5期流动重力资料为基础, 分别采用小波多尺度分解和三维视密度反演等位场分离方法, 对测区内重力场的动态变化进行多层次分解及异常特征提取, 以探求四川测区范围内重力异常动态变化特征以及地震前后不同深度范围内密度变化情况与重力场响应之间的关系. 结果表明, 对同一期资料进行小波分解得到不同阶次的细节图像, 揭示了不同深度处重力异常动态变化特征; 分解结果同时也表明了四川测区范围内重力场的变化形态与川内特有的断裂构造格架和深部结构环境及过渡带特征密切相关. 通过对不同时期的差分重力异常资料进行三维视密度反演对比研究发现, 在地震前后四川测区范围内由浅到深密度变化呈现出不同程度的差异, 震区附近出现较为明显的横向密度变化特征且浅层物质密度局部性的异常变化差异较为突出, 测区范围内中上地壳深度层密度反演切片显示出的趋势性差异基本上反映了地震前后测区内地下物质的动态变化趋势, 因此, 深刻认识不同深度范围内重力场的动态演化特征, 对研究壳内物质密度变化以及与地震的孕育和发展有关的深部介质环境具有积极的意义.      

STUDY ON DYNAMIC CHANGE OF GRAVITY FIELD IN XIANSHUIHE FAULT ZONE AND THEIR RELATION TO THE OCCURRENCE OF MS ≥ 5.0 EARTHQUAKES

Xianshuihe Fault, a main strong earthquake activity belt in southwest China, begins from Ganzi in the northwest, passes through Luhuo, Daofu, and Kangding, and then extents along the Dadu River valley. The fault is divided into two parts at Shimian, one part turns to south and converses to Anninghe Fault extending further to south, the other part, continuing to extend to southeast, cutting through Xiaoxiangling and then changing to Daliangshan Faults in the north of the Yuexi Basin, has the length of about 400km. Since 1700AD, there have happened 22 earthquakes larger than magnitude 6.0 and 8 earthquakes larger than magnitude 7.0. In this paper, we systematically collated and computed the gravity repetition measurement data along the Xianshuihe fault zone since 1988, and by referring to the anomaly index of gravity field of the predecessor achievements, analyzed the spatial-temporal variation of the regional gravity field and the relation to the occurrence of ≥ M_S5.0 earthquakes. The mechanism of the regional gravity changes is further studied, and also the implication of strong earthquake risk because of the dynamic variation of gravity field in the near future is discussed.The results show that:1)The mobile gravity observation has the ability to detect crustal activity and M_S ≥ 5.0 earthquake events. 2)There is definite correspondence between interannual gravitational field change and the 8 earthquakes among the 13 M_S ≥ 5.0 earthquakes occurring in the surveying area since 1988, which can be determined according to the change of interannual gravitational field. Three M ≥ 6.0 earthquakes occurred 3~4 years after the abnormal image was developed, 4 earthquakes that occurred in the region of no data available were not determined. 3)A significant feature of the spatial-temporal variation of the regional gravity is a north-south run-through image before 2004, and characterized by the alternatively positive or negative variation in different year, the earthquakes of M_S ≥ 5.0 occurring in this period were not distributed along the fault. Gravity variation magnitude indicates that there were two similar crustal material movement waves before 2004, corresponding to the course of earthquake space-time distribution from strong to weak in the study area. After 2010, the variation image shows that the local positive and negative zones are concurrent within a year, different from the image before 2004, and earthquakes of M_S ≥ 5.0 basically occurred on the fault. It is believed that the variation of gravity field since 1988 and the seismic distribution fit with the geodynamic mode of strong and weak stages of the northeast motion of Indian plate. According to the conclusion we can try to optimize gravity anomaly index. After the Kangding earthquake in 2014, the north segment of Moxi Fault was still subject to negative high value changes till 2017 and then the gravity variation was further developed to a four quadrant distribution image. Based on the analysis of this paper and the previous variation trend of gravity field, we believe that the north segment of Moxi Fault has the background of medium-long term, strong or large earthquake risk.     

川滇地区重力场动态变化及其强震危险含义

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.     

山西地震带不同基准的重力场变化

对2011—2017年山西及周边的流动重力观测资料,在绝对点控制下重新做平差计算,从不同尺度分析重力场的动态变化和跨断裂重力段差变化,重点对不同基准的重力场累积变化特征进行比较,结果显示:①文中的平均值基准可以明显削弱单期数据或个别测点对重力场造成的非正常影响;②在山西地震带持续出现了区域性的重力异常,形成了与构造断裂较为一致的重力梯度带;③山西地震带北部测段重力段差的变化幅值最大,南部次之但强于中部,反映了北部的构造活动比较活跃。     

GRAVITY VARIATION BEFORE AND AFTER THE MS5.4 EARTHQUAKE IN CANGWU IN 2016

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 M_S5.4 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 M_S5.4 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 M_S5.4 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 M_S5.4 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.