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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MS6.6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。 相似文献
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利用北天山地区2016~2019年观测的4期流动重力观测资料,分析研究一年尺度的重力场动态变化特征,并利用小波分析方法,将不同场源深度的重力异常进行分离。通过功率谱分析,获取各阶小波重力细节对应的场源深度。研究结果表明,2017年8月9日精河MS6.6地震前,震中位于负值集中区,四阶小波重力细节显示震中附近出现明显的四象限分布;2020年1月16日库车MS5.6地震前,震中位于负值区,小波重力细节整体量值较小;功率谱估算的场源近似深度与2次地震的震源深度相近。 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
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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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In order to explore the abnormal variations before and after the Wen'an M5. 1 earthquake on July 4,2006,the gravity data observed by the Wenba Gravity Observation Network before and after the earthquake was analyzed. The relationships between gravity change and vertical displacement and shallow groundwater level were discussed,and elevation correction of the gravity was preliminarily performed. The results show that there were abnormal gravity changes before the M5. 1 earthquake,which appeared as gravity rising in the whole observation network,especially in the south part. A high gradient of gravity variation appeared around the epicenter before the M5. 1 earthquake,especially during the short period between October 2005 to April 2006. The boundary of the positive and negative gravity variations gradually deflected and began to recover from October 2007. 相似文献
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In order to explore the abnormal variations before and after the Wen'an M5. 1 earthquake on July 4, 2006, the gravity data observed by the Wenba Gravity Observation Network before and after the earthquake was analyzed. The relationships between gravity change and vertical displacement and shallow groundwater level were discussed, and elevation correction of the gravity was preliminarily performed. The results show that there were abnormal gravity changes before the M5. 1 earthquake, which appeared as gravity rising in the whole observation network, especially in the south part. A high gradient of gravity variation appeared around the epicenter before the M5. 1 earthquake, especially during the short period between October 2005 to April 2006. The boundary of the positive and negative gravity variations gradually deflected and began to recover from October 2007. 相似文献
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利用青藏高原东北缘2011-2015年期间的流动重力观测资料,系统分析了区域重力场变化及其与2016年1月21日青海门源MS6.4地震发生的关系,结合GNSS、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.结果表明:(1)测区内重力场异常变化与祁连山断裂带在空间上关系密切,反映沿祁连山断裂带(段)在2011-2015年期间发生了引起地表重力变化效应的构造活动或变形.(2)门源MS6.4地震前,测区内先出现了较大空间范围的区域性重力异常,到临近发震前显示出相对闭锁的现象,且围绕震中区周围出现四象限分布特征的局部重力变化,地震发生在重力反向变化过程中,并出现显著的四象限分布特征的重力异常变化,其中,青海门源与甘肃天祝一带重力差异变化达100×10-8m·s-2以上.(3)区域重力场动态演化大体反映了青藏高原东北缘物质北东流的动态效应,门源震中附近区域地壳受挤压变形显著、面压缩率和重力剧烈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. 相似文献
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泾阳4.8级地震前后重力变化探析 总被引:2,自引:0,他引:2
系统分析了泾阳Ms4.8地震前后陕西关中地区流动重力观测资料,探讨了重力场的时空变化及其映震特征。结果表明:①震前在震中区附近形成较显著地重力负异常区,且与沉降区基本吻合。②泾阳地震震中区既是重力变化梯度带,也是重力异常的正值区到负值区的过度带。③由于震源区应力作用方式是以水平为主的左旋走滑运动,震前局部重力异常不显著。 相似文献
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AbstractThe relation between the gravity variation features and M_S=8.1 earthquake in Qinghai-Xizang monitoring area isanalyzed preliminarily,by using spatial dynamic variation results of regional gravity field from absolute gravityand relative gravity observation in 1998 and 2000.The results show that:1)M_S=8.1 earthquake in Kulun mountainpass western occurred in the gravity variation high gradient near gravity's high negative variation; 2)The maintectonic deformation and energy accumulation before M_S=8.1 earthquake are distributed at south side of theepicenter;3)The range of gravity’s high negative variation at east of the M_s=8.1 earthquake epicenter relativelycoincides with that rupture region according to field geology investigation; 4)Gravity variation distribution in highnegative value region is just consistent with the second shear strain’s high value region of strain field obtainedfrom GPS observation. 相似文献
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利用南北地震带2014-2017年期间的流动重力观测资料,系统分析了区域重力场变化及其与2017年8月8日四川九寨沟7.0级地震发生的关系.结果表明:①区域重力场异常变化与北西西向塔藏断裂和南北向岷江断裂带在空间上关系密切,反映了沿控震断裂在2013-2017年期间发生了引起地表重力变化效应的地壳变形和构造活动.②九寨沟地震前,测区内出现了大空间范围的区域性重力异常,而震源区附近产生了局部重力异常,沿塔藏断裂带形成了重力变化高梯度带,其中,甘肃玛曲、迭部、青海河南蒙古族自治县、四川若尔盖、九寨沟一带重力差异变化达100×10-8m·s-2以上;这些可能反映九寨沟地震前,区域及震源区附近均产生与该地震孕育、发生有关的构造运动或应力增强作用.③九寨沟地震震中位于重力差异运动剧烈的鞍部等值线附近,与断裂走向基本一致的重力变化高梯度带零值线上,这一观测事实进一步佐证了重力场动态变化图像对强震地点预测具有重要的指示意义. 相似文献
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2020年1月19日新疆伽师发生M S6.4地震,地震发生后,梳理了连续GNSS和流动GNSS的观测资料,发现震中附近站点运动方向与其东部站点的运动方向存在一定的差异,可能显示了震中附近区域应力震前处于失稳状态。巴楚—叶城基线挤压缩短速率快于以往,约为前期缩短速率的3倍,趋势转折时间近3年;从巴楚—乌恰基线可以看出该地震受东西向应力的作用较小。最新一期的流动GNSS结果显示,地震发生在剪应变高值向低值过渡的区域,发生在面膨胀负极值区域边缘;块体应变参数从短期变化来看,面膨胀值在增大的同时,剪应变在减小,也说明北北西向的正应力和北东东向剪应力的作用差异增大,断层的受力平衡被打破,这可能是地震发生的力学机制。 相似文献
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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MS8.0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. 相似文献
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陆地重力观测获取的时变重力信号是研究地壳内部孕震区介质变化的重要依据。利用贝叶斯平差方法处理了川西地区2010—2012年的流动重力观测资料,发现相对重力仪的格值系数在两年内变化可达2×10^-4,而且仪器存在较小的非线性漂移率;重力场累积动态变化图像显示,2013年芦山MS7.0地震发生在重力梯度带零值线与龙门山断裂带交会部位附近。进一步采用等效源方法划定了测网内以雅安、康定和石棉为中心的场源分辨能力较高的区域,并反演了地震前的地壳视密度变化。场源视密度动态变化结果表明:2013年芦山MS7.0地震前2年,在龙门山断裂带的南侧和鲜水河断裂南段的东侧区域形成了范围较大的等效视密度增加区,而在小金至康定一带和都江堰周边地区也存在小规模的视密度增加。本文基于陆地时变重力测量结果反演得到芦山地震前的地壳内部等效视密度变化,可为研究壳内深部孕震环境变化特征提供参考。 相似文献
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以新疆伽师M S6.4地震为案例,利用地磁日变化异常分析方法,对中国地磁台网所记录的地磁观测资料进行分析,结果显示:1、离震中最近的喀什台震前59 d和39 d出现一组逐日比高值异常,排除干扰,且地磁日变形态也出现明显的畸变,异常集中于震中附近台站,震中位于异常阈值线附近;2、震前,新疆及周边地区出现地磁垂直分量日变化幅度的极小值时间在空间上出现地磁低点位移现象,低点时间分界线横穿南天山西段,呈现近EW走向分布,分界线两侧低点时间相差超过2 h,发震日期为异常发生后的38(41±4)d,震中位于低点位移分界线附近;3、地磁逐日比和低点位移异常的发生时间和空间分布可能与伽师M S6.4地震的孕育和发生有非常高的关联性。该研究进一步推广和检验了地磁日变化异常分析方法在地震预报方面的应用。 相似文献
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Zhu Yi-qing Wang Shuang-xu Jiang Zai-sen Zhu Gui-zhi Li Hui Zhang Yong-zhi 《地震科学(英文版)》2003,16(3):304-311
The relation between the gravity variation features and M S=8.1 earthquake in Qinghai-Xizang monitoring area is analyzed preliminarily, by using spatial dynamic variation results of regional gravity field from absolute gravity and relative gravity observation in 1998 and 2000. The results show that: 1) M S=8.1 earthquake in Kulun mountain pass western occurred in the gravity variation high gradient near gravity’s high negative variation; 2) The main tectonic deformation and energy accumulation before M S=8.1 earthquake are distributed at south side of the epicenter; 3) The range of gravity’s high negative variation at east of the M S=8.1 earthquake epicenter relatively coincides with that rupture region according to field geology investigation; 4) Gravity variation distribution in high negative value region is just consistent with the second shear strain’s high value region of strain field obtained from GPS observation. 相似文献
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本文在考虑全球陆面数据同化系统陆地水储量变化影响后,利用2002年4月—2015年4月GRACE卫星RL05月重力场模型获取了2011年日本MW9.0地震震中及其周边区域的重力场信息;然后给出了日本及其周边2003—2015年的年度累积重力变化和差分重力变化,并且利用经验正态函数方法深入分析了该地震过程中同震重力变化对区域重力场的贡献. 结果显示:日本MW9.0地震前研究区域出现了幅值高达2×10-8 m/s2的异常重力变化,其同震效应的时间和空间特征均出现在第一模态,且同震重力变化和震后区域重力场变化特征显著,这充分表明该地震对区域重力场的影响显著. 相似文献