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The present paper shows analysis of water level (the distance from the land surface to the water in the well under static condition) and water temperature observed at three different levels of Chuan no. 03 well to study the changes associated with the Wenchuan earthquake of 2008 and the 2011 Tohoku-Oki earthquake. Our analysis shows co-seismic changes in water level and water temperature associated with the increase in compressive stress associated with the Wenchuan earthquake. The water level shows an increase, whereas there was drop in water temperature at the shallow depth (395 m) and enhancement of water temperature at the middle (595 m) and the bottom (765 m) layers. However, no step change in water level or temperature of Chuan no. 03 well is observed associated with the Tohoku-Oki earthquake, only seismic wave propagation-induced water level oscillation and led to co-seismic response of water temperature. The analysis of the co-seismic responses and post-earthquake adjustment processes combined with the borehole histogram and the borehole temperature gradient data clearly show co-seismic changes in water temperature that could be closely associated with the changes in the regional stress and strain state and the distribution of the aquifer and the characteristics of the aquifer. The observed temperature variation of different layers in the borehole is likely to be controlled by the flow of water in the horizontal direction. 相似文献
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Sustained groundwater level changes and permeability variation in a fault zone following the 12 May 2008, Mw 7.9 Wenchuan earthquake 
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下载免费PDF全文 We analyse the groundwater level changes following the Wenchuan earthquake in three wells – NX, DZ and BBLY – located in the same fault zone, in the near field (distance of ~300 km from the epicentre). Co‐seismic falls in the water level and gradual recovery were recorded in these wells but with different recovery periods (from 200 days to more than 1600 days). The response of the groundwater level to Earth tides is used as a proxy to explore the permeability evolution. We found that the permeability increased in response to the Wenchuan earthquake in the three wells but with different post‐earthquake recovery processes. Only BBLY recovered to its pre‐earthquake value 260 days after the Wenchuan earthquake and remained stable. The permeability in NX returned to its pre‐earthquake value over a similar period but then continued to drop. The permeability in DZ returned to its pre‐earthquake value much quicker than that in the other two wells and remained stable below the pre‐earthquake value 200 days after the earthquake. This suggests that the groundwater level changes in the three wells were mainly caused by permeability changes. In the BBLY well, the unclogging/clogging of the fracture flow path mechanism may explain the permeability evolution, whereas mechanisms such as unclogging/clogging or the opening/closing of the fracture associated with blocking of the narrow fracture apertures appears to be responsible for the permeability evolution in the NX and DZ wells. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Co-seismic deformation derived from GPS observations during April 20th, 2013 Lushan Earthquake,Sichuan, China 总被引:1,自引:1,他引:0
We process the standard 30 s, static GPS data and the 1 s, high-rate GPS (HRGPS) data provided by the Crustal Movement Observation Network of China with GAMIT/GLOBK software package, and obtain the co-seismic displacements of near field and far field, and the epoch-by-epoch time series of HRGPS during Lushan earthquake. GPS data from about 20 sites in Sichuan province, which located between 40 and 450 km from the epicenter, are analyzed so as to study the characteristics of the static displacements and the dynamic crustal deformations, with periods ranging from several minutes to over a month. The result shows that: the static displacements caused by Lushan earthquake are limited to several centimeters; the nearest station SCTQ at 43 km from the epicenter has the largest static displacement of about 2 cm, while the other stations generally have insignificant displacements of less than 5 mm. the stations in the east of Sichuan–Yunnan region shifts 5–10 mm toward the southwest, and the stations in the middle-west of Sichuan Basin moves indistinctively 1–2 mm toward the northwest; station SCTQ has the largest kinematic displacement of about 4 and 3 cm peak-to-peak on the north and east component, respectively, and is much greater than the static permanent displacement; for the stations located at a distance greater than 150 km from the epicenter, the kinematic motions are generally insignificant; exceptionally, station SCNC and station SCSN in central Sichuan Basin have significant kinematic motions although they are more than 200 km away from the epicenter. 相似文献
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通过对我国地震地热台网273口观测井的水温数据进行梳理,发现汶川地震前有10口井记录到客观的异常现象;而这些井的异常信息的持续时间、幅度、空间分布极其复杂,决定了利用这些异常信息进行汶川地震三要素的准确预测还不太现实,但也发现一些有一定科学价值的认识:空间上井震距1000km范围内集中了大部分异常点;异常幅度集中在千分之几到百分之几度;时间上异常具有短临性质,呈现出井震距越大持续时间越短、井震距越小持续时间越长的规律;自流井记录到的异常概率远高于静水位井,不过干井也可以记录到异常信息。通过数据梳理与分析,提出了水温异常取决于井-含水层结构以及观测井所处的水系单元位置这一认识。 相似文献
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通过统计2015年4月25日尼泊尔MS8.1地震和5月12日MS7.5余震发生时云南地区水位、水温的空间分布、异常形态、变化幅度、起始和结束时间等远场响应特征,分析认为:同震响应主要集中在川滇菱形块体东南部、滇缅弧形块体东部和小滇西一带,即云南地区中西部;同井观测的水位、水温同震响应异常形态多样,单井同测项的同震响应异常形态具有一致性,与地震震级、震中距、方位无关;观测井的记震能力与观测仪器的分辨率、井孔含水层条件等有关,同震响应的异常幅度(ΔH、ΔT)与震级(M)、震中距(D)之间有一定的数量关系;近来云南区域地震活动整体呈现"平静—活动—平静"特征,小震活动有丛集特点,未来一段时间需注意滇西—滇西北和滇西南地区中强地震的危险性。 相似文献
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利用于田震中300 km范围内的1个GPS连续站和12个GPS流动站数据,解算得到了2014年新疆于田MS7.3地震地表同震位移,并反演了发震断层滑动分布,探讨此次地震对周边断裂的影响.地表同震位移结果显示,GPS观测到的同震位移范围在平行发震断裂带的北东-南西向约210 km,垂直发震断裂带的北西-南东方向约为120 km,同震位移量大于10 mm的测站位于震中距约120 km以内;同震位移特征整体表现为北东-南西方向的左旋走滑和北西-南东方向的拉张特征,其中在北东-南西方向,I069测站位移最大,约为32.1 mm,在北西-南东方向,XJYT测站位移最大,约为28.1 mm;位错反演结果表明,最大滑动位于北纬36.05°,东经82.60°,位于深部约16.6 km,最大错动量为2.75 m,反演震级为MW7.0,同震错动呈椭圆形分布,以左旋走滑为主并具有正倾滑分量,两者最大比值约为2.5:1,同震错动延伸至地表,并向北东方向延伸,总破裂长度约50 km,地表最大错动约1.0 m;同震水平位移场模拟结果显示贡嘎错断裂、康西瓦断裂和普鲁断裂等不同位置主应变特征具有差异性,这种差异特征是否影响断裂带以及周围区域的应力构造特征,值得关注. 相似文献
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许多地下流体监测井在地震发生时都能记录到同震水位变化,而利用地下水位的同震响应特征以及水位固体潮效应可以反演地震对含水层产生的体应变量.本文尝试从大尺度上对大地震引起的体应变变化进行研究,为此收集了位于我国大陆不同构造活动区5口地下流体监测井两年半的水位数据资料进行分析,去除干扰项,提取出水位固体潮成分,进行调和分析求取潮汐因子,并反演出汶川MS8.0地震对这5口井所在含水层产生的体应变量.结果显示,汶川大地震对这5口井 含水层造成的体应变量基本在10-7量级. 地震引起的体应变随距离的衰减规律比较复杂,其不仅与震中距有关,而且与活动断裂带的展布和地壳岩体结构等密切相关. 相似文献
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玉树和汶川地震前后区域水平形变的空间分布 总被引:3,自引:0,他引:3
以1999—2007年和2009—2010年两个时间段的GNSS观测资料为基础, 借助于多核函数解析、 滤波和应变场的无偏算法以及区域无旋转基准, 在运动场连续变化的条件下获得了玉树MS7.1和汶川MS8.0地震前后青藏高原东南地域运动与形变场, 并得到如下基本认知: ① 玉树和汶川地震前震源区构造活动在空间和较长时间上明显弱化, 最大正应变和最大剪切应变均处在区域构造活动的最低水平。 ② 与地震破裂相应的旋剪形变最大部位既不位于震源区也不远离震源区, 似乎存在某种协调有序活动, 玉树地震发震构造断裂带基本上处在区域右旋活动与左旋活动的过渡区上, 而左旋活动最大条带却为平行于该断裂带且相距约150 km的东北构造活动区内; 汶川地震发震构造断裂虽处在右旋活动的龙门山断裂带上, 但右旋活动最大条带为平行于该断裂带且相距约200 km的西北活动区内。 ③ 玉树地震震时较大水平形变的范围较小, 汶川地震震后水平形变仍较突出。 ④ 理塘—德巫断裂带的北段及周边地区应给予关注, 面应变为象限分布图像, 最大正应变和最大剪切应变均显示闭锁的迹象。 相似文献
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中国青海省门源县于2022年1月8日发生6.9级地震。依据该地震震源断层信息设置4种不同的位错分布模式,基于Okada提出的地表位移解析解分别计算4种模式下地表同震位移场,结合现场观测数据,探讨发震断层的滑动形式及其对周边地表产生的影响。结果表明,此次地震发震断裂初步判断主要为冷龙岭断裂西侧延伸至托莱山断裂,以左旋走滑断层为主,断层面上最大位错量达到4 m左右;震中西南侧向NE方向运动,东南侧向SE方向运动,西北侧和东北侧分别向NW以及SW方向运动;震中附近小范围区域产生了超过1.5 m的地表水平位移,破裂带上存在竖向地表位移超过0.5 m的区域;现场监测到局部产生最大约2.1~2.3 m的水平位错,以及部分区段垂直位错量最大达到0.7 m;以震中位置为中心,断层引起的地表位移影响范围达到约30 km×36 km,此范围内产生的地表位移大于0.1m。研究为此次地震的震后恢复工作以及此区域后续的工程设防等提供参考。 相似文献
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Tsai-Ping Lee Yeeping Chia Hsin-Ying Yang Ching-Yi Liu Yung-Chia Chiu 《Pure and Applied Geophysics》2012,169(11):1947-1962
Widespread persistent coseismic groundwater level changes induced by the M w 7.9 Wenchuan earthquake were recorded in 80 wells in Taiwan, located approximately 2,000?km from the epicenter. The timing and magnitude of these changes, ranging from ?40 to +23?cm, have been examined by statistical evaluation. The coseismic fall dominated in the plain area, but in the mountainous area most changes are coseismic rises. Both the coseismic rise and the coseismic fall were observed in wells of different depths at two monitoring stations. The processes of the coseismic changes can be shown by the high-frequency well water level data. Analysis of the 1?Hz water level data and the broadband seismogram revealed that a temporary water level change, ranging from 0.2 to 2.3?cm, occurred at the arrival of high-energy Love waves and Rayleigh waves. However, a water level change of 0.3–6.4?cm occurred in 7–20?min after the passing of high-energy surface waves. It is doubtful that such a change could be induced directly by ground shaking. The cross-formational flow due to fracturing or unclogging of sediment pores was possibly too slow to cause the coseismic change. Further studies are required to understand the mechanism of coseismic groundwater level changes induced by a distant earthquake. 相似文献
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通过对漾濞MS 6.4地震云南数字化井水位分钟值数据同震响应特征进行分析,分析观测仪器采样率对井水位映震能力的影响,并对水位同震响应机理进行初步分析。结果表明,对于漾濞MS 6.4地震,13口同震响应观测井主要分布在震中距200 km范围内的红河断裂带北侧和小滇西地区;同震响应形态可分为阶升(上升)型、阶降(或缓降)型、阶变(阶升、阶降)—复原型等3种变化类型,阶升型同震响应幅度相对大于其他2种类型;由漾濞MS 6.4地震烈度长轴和短轴共同划定的椭圆区域来划分此次地震静态应力和动态应力的影响范围,可以从各观测井受力状态初步分析水位同震响应变化形态的力学机理;在静态应力影响范围内,井水位同震响应主要表现为阶升变化;在静态应力影响范围以外,除以阶变(阶升、阶降)—复原变化为主外,还有阶降(缓降)、阶升变化。观测仪器采样率对井水位映震能力的影响较大,水位秒钟值数据的同震响应变化形态更加完整,但目前水位秒钟值数据的收集和使用都还在不便之处,这种情况有待改进。 相似文献
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Groundwater responses at 15 monitoring wells on Jeju Island were observed in relation to the magnitude 9.0 Tohoku Earthquake off the Pacific coast of Honshu, Japan, on 11 March 2011, at 14:46:23 h local time (05:46:24 h UTC time). In coastal areas, the groundwater level responses to the earthquake were oscillatory at 12 wells, and the range of the maximum groundwater level changes was 3–192.4 cm. The response durations were approximately 1–62 min. The relationship between the maximum groundwater level changes and the response durations displayed a high correlation coefficient (r = 0.81). Groundwater temperature changes were also observed at 7 of 12 wells 3–10 min after the seismic wave arrived, and the range was from 0.01 °C to 1.20 °C. In mid‐elevation areas, the groundwater level changes appeared in three different forms: oscillatory, spiky and persistent. The groundwater temperature changes were also observed at two wells. One indicated decreasing and recovering temperatures, and the other exhibited rising and persistent temperatures. The primary temperature changes occurred 5–6 min after the earthquake and 2–3 min after the seismic wave arrived. In addition, the electrical conductivities at the depth of the transition zone were monitored, and the responses to the earthquake appeared at all three wells. Although the electrical conductivity and temperature changes were not well understood, groundwater inflow and mixing were likely caused by the earthquake, and the responses were various and site specific. The responses to the earthquake were closely related to the hydrogeological characteristics at each monitoring well, and a more detailed hydrogeological characterization is needed to understand the mechanisms related to earthquakes in general. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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2008年汶川MS8.0地震前,距震中450km范围内有7个视电阻率台站运行,震前记录到了不同形态和幅值的变化。本文采用断层虚位错模式,在模型中将汶川地震同震滑动位移按大小相等但方向相反的方式进行加载,计算震前产生这些同震位错所需积累的应力应变分布。计算结果表明:在100m深度,震前正应力和剪切应力主要积累区域位于龙门山断裂带两侧约100km范围内,最大应力变化量为0.5MPa;体应变积累区域与应力积累区域基本一致,最大应变值为10-5,显示这些区域在震前存在较高的挤压应力应变积累,而在这些区域外,应力应变积累程度较低。成都台和江油台位于震前主要的应力应变挤压积累集中区域,视电阻率观测数据均为震前下降-准同震阶跃-震后回升,与震前应力应变积累-震后释放的变化形式一致,这2个台站震前的异常变化与汶川地震关系密切;而甘孜台、武都台、冕宁台、小庙台和天水台位于应力应变积累较弱的区域,其视电阻率变化与汶川地震的关联性较弱。 相似文献
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Sohan Lal A. Joshi Sandeep Monu Tomer Parveen Kumar Chun-Hsiang Kuo Che-Min Lin Kuo-Liang Wen M. L. Sharma 《Acta Geophysica》2018,66(4):461-477
On 25th April, 2015 a hazardous earthquake of moment magnitude 7.9 occurred in Nepal. Accelerographs were used to record the Nepal earthquake which is installed in the Kumaon region in the Himalayan state of Uttrakhand. The distance of the recorded stations in the Kumaon region from the epicenter of the earthquake is about 420–515 km. Modified semi-empirical technique of modeling finite faults has been used in this paper to simulate strong earthquake at these stations. Source parameters of the Nepal aftershock have been also calculated using the Brune model in the present study which are used in the modeling of the Nepal main shock. The obtained value of the seismic moment and stress drop is 8.26 × 1025 dyn cm and 10.48 bar, respectively, for the aftershock from the Brune model .The simulated earthquake time series were compared with the observed records of the earthquake. The comparison of full waveform and its response spectra has been made to finalize the rupture parameters and its location. The rupture of the earthquake was propagated in the NE–SW direction from the hypocenter with the rupture velocity 3.0 km/s from a distance of 80 km from Kathmandu in NW direction at a depth of 12 km as per compared results. 相似文献
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分析总结了2013年7月22日甘肃岷县—漳县MS6.6地震前后甘肃前兆台网观测资料变化情况,发现该地震前有7个台站、4种观测手段、14个测项出现了明显的异常,既有长期、中长期异常,也有短期和短临异常,说明对资料的分析既要看短期变化,还要看中期和长期变化。出现异常测点的震中距多数在200 km范围之内。另外部分水位、流量和水温测点的资料记录到不同程度的同震效应;形变观测多数测点记录到比较明显的同震响应,记录同震响应的测点与震中位置、方向、距离无明显关系。 相似文献
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Hou Kangming 《中国地震研究》2006,20(1):1-18
INTRODUCTIONAstrong earthquake struck between Wudu and Wenxian in Gansu Province on July1,1879,another catastrophic earthquake hittingthe southeastern mountainous area of the province ever sincethe1654TianshuiM8.0earthquake.After an elapse of126years,this massive earthquake has fadedfrommemoryastime goes onandthe humanand natural environment changes.However,the historicaldocumentation about the earthquake is abundant,including official documents of the Qing Dynasty,local newspapers and… 相似文献
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2017年8月8日四川阿坝州九寨沟发生M_W6.6地震,震源机制解显示该地震为左旋走滑型地震。对震中周围的GPS连续站观测资料进行处理,获得高频GPS动态形变和静态同震水平位移。震中100km范围内四川松潘和甘肃武都站观测到1 Hz动态形变。距离震中约69km的松潘站观测的同震水平位移为7.4mm。根据少量的GPS静态同震位移反演的同震破裂模型显示本次地震的最大滑动量为376mm,地震矩为7.25×1018 N·m,等效矩震级为M_W6.6。正演计算的同震三维形变场显示本次地震的最大水平位移可达4~5cm,垂直位移呈四象限分布,最大可达1.5cm,区域内10个流动GPS站可观测到同震形变。 相似文献