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1.
本文利用糯扎渡水库台网和景洪水库台网记录的地震波形,反演震源谱,计算了2011年1月至2014年3月糯扎渡水库附近143个1.0级以上地震的震源参数。分析研究发现:(1) 糯扎渡水库蓄水后,库区内地震活动明显增强,尤其是在水位上升3~4个月后;(2)水库开始蓄水后,库区内地震震源深度变浅,一段时间以后则与库区外的差别减小;(3)地震拐角频率随地震矩增大而减小,且蓄水以后,库区内地震的拐角频率的对数与地震矩的对数线性关系更明显;(4)应力降、视应力与地震矩存在正相关关系,且相同地震矩时库区内的应力降与视应力低于蓄水前和库区外的地震应力降与视应力值;(5)蓄水对库区内地震的影响可延伸至库底10km深度处,且在3-6km深度内影响最大、库区内外地震频度与视应力均值差异最显著。 相似文献
2.
本文利用紫坪铺水库台网记录到的波形资料,计算了2004~2008年170个ML≥1.0级地震的震源参数.紫坪铺水库震源参数计算结果与其他大陆地区有明显不同:(1)拐角频率远低于其他大陆地区结果,表明库区地震波传播经过了较强的衰减过程;(2)视应力计算结果比其他地区小3个数量级,可能是由于库区地震波的高频成分衰减强烈,低估了能量集中在高频的小地震的地震辐射能量.分析了蓄水前后拐角频率和地震矩以及视应力和地震矩关系(视应力标度率)变化,结果表明:相同地震矩的地震蓄水后拐角频率增加,地震高频成分相对丰富;蓄水前视应力与地震矩的关系不明显,蓄水后视应力随地震矩的增加而增加.视应力标度率的改变可能是蓄水后地震震源物理过程逐渐改变的直接反映. 相似文献
3.
利用紫坪铺水库数字地震台网和成都区域数字台网中的油榨坪台2004年8月到2008年5月12日汶川大地震前的地震波形资料,采用遗传算法反演计算了紫坪铺库区261次1.6级以上地震的震源波谱参数.结果表明紫坪铺库区中小地震的地震矩Mo在1.35×1012~5.98×1014 N·m之间;应力降随着震级的增加而升高;库区小震震源谱拐角频率与地震矩、震级的依赖关系不明确,这可能与紫坪铺水库蓄水后库区压力增加,且水体沿着龙门山断裂方向扩散和渗透有关. 相似文献
4.
基于云南省糯扎渡水库台网17个台站所记录到的2009年11月至2014年9月期间的5 247次地震的P波绝对到时资料和相对到时资料,以及波形互相关得到的相对到时资料,采用双差地震层析成像方法联合反演了糯扎渡水库库区蓄水前和蓄水后2011年11月30日至2012年12月31日及2013年1月1日至2014年9月30日这3个阶段的震源参数和三维P波速度结构。结果显示:糯扎渡水库蓄水后,水库库区地震的发生频次增多,经重定位后的震源深度大多在10 km以内,尤其以5 km以内的居多,与前人得到的水库诱发地震震源深度小于10 km的结果基本吻合;随着蓄水量的增加,库水沿断层渗透,孔隙压力变化导致地震增多的区域延伸至左岸支库黑江和库区回水至库区中段的澜沧江段,并进一步向威远江和小黑江延伸,这些区域的P波速度降低;整体的水库渗水作用最大深度不超过7 km。 相似文献
5.
利用“十五”数字化后山西地震台网记录的612次 ML ≥2.0地震,使用中国地震局地震预测研究所推广的中小地震新参数计算软件,计算其中148次事件的震源新参数,对地震矩、矩震级、震源破裂尺度、应力降、拐角频率等参数间的定标关系做初步研究,得出 ML 震级与地震矩、矩震级间存在较好的线性正相关;震级与震源尺度间存在多项式关系;与应力降的对数呈显著正相关,当大于 ML 4.0后,随着震级的增大,释放的应力降略有变缓;与拐角频率的对数呈负相关。 相似文献
6.
本文根据昆明区域数字台网记录的数字地震波形资料,采用Atkinson方法反演了施甸地震震源区非弹性衰减,运用Moya方法反演了施甸震中200km区域内6个数字地震台的场地响应。首先扣除了地震记录数据中传播路径、场地响应和仪器响应的影响,继而利用遗传算法测定了2001年施甸震群的震源参数。结果表明:①地震矩和近震震级有很好的线性关系,地震矩范围为1×1012~1014N.m,震源破裂半径为157~973m,地震矩与震源半径之间亦呈线性关系。②拐角频率随地震矩的增大而减小。用最小二乘法拟合出拐角频率与地震矩之间的关系式,据此关系式可计算出拐角频率的估计值。拐角频率与其估计值之差的时间进程曲线表明,强余震发生之前会连续出现拐角频率与其估计值的差值呈高值或低值异常。③地震应力降范围为0.07~1.55MPa,应力降与近震震级无明显的依赖关系,强余震发生之前会出现高应力降异常。④余震的震源深度主要分布在5~10km,表明地震能量释放主要集中在这一深度范围内。 相似文献
7.
糯扎渡水电站位于澜沧江中下游,该地区构造环境复杂,活动断层发育,地震频发。本文利用区域构造、糯扎渡库区水荷载变化、云南省区域地震台网2000-2021年地震监测资料,对糯扎渡水库区域断层性质、库水位荷载变化、地震震源参数和水库蓄水前后的地震活动空间等进行综合分析。研究结果表明,糯扎渡水库影响区及附近区域活断层密集,构造环境复杂且存在应力水平较高区域,蓄水前库区地震活动强度较高。伴随蓄水量的增加,微小地震活动频度和强度逐渐增强,显示出蓄水对库区内断层上的应力分布具有明显的扰动作用。蓄水后水库坝区附近和澜沧江库区中段窝拖寨断层区的地震活动频度和强度有所增强,普洱大河库段地震活动强度则低于区域背景地震,但微小地震活动的频度有所上升,且与库水位的周期性变化有一定的相关性。地震活动的空间位置与库区内复杂的构造断层密切相关。在区域构造应力和库区水加、卸载的共同作用下,构成了糯扎渡水库影响区微小地震时间、空间、强度的活动图像。未来区内地震活动仍将受到区域构造应力影响和水位变化及水的渗透作用影响,其地震活动强度可能达到5.0级左右。 相似文献
8.
《高原地震》2017,(1)
利用贵州董箐水库附近的地震台站记录的地震波资料,采用Brune(1970)模型,通过几何扩散校正、介质衰减校正、仪器校正等,将速度记录谱归算为震源位移谱,使用遗传算法计算拐角频率及零频极限,然后计算地震矩、应力降等小震震源参数,并系统分析各种参数之间的关系。通过对董箐水库341次较大地震的震源参数计算结果为:地震矩范围为7.79×10~(11)~1.18×10~(15)N·m之间;震源破裂半径为510 m~752 m;地震应力降在0.010 2 MPa~2.70 Mpa之间。地震矩与近震震级、震源半径、拐角频率、应力降之间表现出较好的线性关系。董箐水库区应力降值明显偏低,这可能与水库蓄水诱发地震有关。 相似文献
9.
利用2014年1月-2015年12月浙江省区域数字地震台网记录的1 360次珊溪水库ML0.5-4.4地震资料,采用Brune模式,将台站获取的速度记录进行几何扩散校正、介质衰减校正及仪器校正后得到速度谱,对速度谱在频率域进行傅里叶积分得到震源位移谱,之后使用遗传算法计算得到拐角频率和震源位移谱零频极限值,进而计算出该区的地震矩为1010-1014 N·m,震源破裂半径为33-550 m,拐角频率为2.4-39.7 Hz,地震应力降为0.04-6.74 MPa,视应力为0-2.75 MPa.在此基础上,对各参数特征及其关系进行系统性分析,结果表明:各震源参数之间表现出一定的对数线性或半对数线性关系;空间上,应力降和拐角频率在库区西北段较高,东南段较低;应力降与地震矩在空间上呈反向关系,拐角频率与破裂半径在空间上呈负相关. 相似文献
10.
使用广西数字地震台网记录的2013年6月-7月广西平果ML1.0-3.0震群162次地震波形资料,采用Brune(1970)模型,通过几何扩散校正、介质衰减校正、仪器校正等,将速度记录谱归算为震源位移谱,利用遗传算法计算拐角频率及零频极限,然后计算地震矩、应力降等小震震源参数,系统分析各参数之间的关系.研究表明:近震震级、地震矩、震源破裂半径、拐角频率、应力降等之间可以拟合为对数或半对数的线性关系;地震应力降、视应力与震源破裂半径没有明显的依赖关系,但与地震矩成正相关关系;与其他地区的同类研究结果基本一致,获得各参数的定标关系相近,尤其是通过最小二乘法拟合应力降与地震矩之间的关系后,与浙江珊溪水库地区的应力降与地震矩之间的关系有很强的一致性;与其他地区的应力降及视应力降相比较,本研究区属于低应力释放地区,但由于此次研究的地震事件时间跨度较短,且时间段比较集中,对该地区的应力释放水平还需跟踪研究. 相似文献
11.
CHARACTERISTICS OF TECTONIC STRESS FIELD OF THE XIAOWAN RESERVOIR BEFORE AND AFTER THE IMPOUNDMENT 
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下载免费PDF全文 Using the seismic waveform data of Xiaowan seismic network and Yunnan seismic network, we determined the focal mechanisms of 36 earthquakes(ML ≥ 3.0)from Jun. 2005 to Dec. 2008 and 51 earthquakes(ML ≥ 2.5)from Jan. 2009 to Dec. 2015 by generalized polarity and amplitude technique.
We inverted tectonic stress field of the Xiaowan reservoir before impounding, using the focal mechanisms of 36 earthquakes(ML ≥ 3.0)from Jun. 2005 to Dec. 2008 and CAP solutions of 58 earthquakes(ML ≥ 4.0)collected and the solutions in the Global Centroid Moment Tensor(GCMT)catalog; We inverted local stress field of the reservoir-triggered earthquake clustering area, using 51 earthquakes(ML ≥ 2.5)from Jan. 2009 to Dec. 2015.
Focal mechanisms statistics show that, the Weixi-Qiaohou Fault is the seismic fault. Focal mechanisms were strike-slip type in initial stage, but normal fault type in later stage. Focal depths statistics of 51 earthquakes(ML ≥ 2.5)show that, the average value of focal depths in period Ⅰ, period Ⅱ and period Ⅲ are 8.2km, 7.3km and 7.8km respectively and the standard deviations are 4.3km, 3.5km and 6.0km respectively. The average value of focal depths is basically stable in different period, only the standard deviation is slightly different. Therefore, there is not positive connection between focal depth and deviation of focal mechanisms. What's more, there are 2 earthquakes(number 46 and number 47 in Fig.5 and Table 3)with almost the same magnitude, epicenter and focal depth, but they have different faulting types as normal and strike-slip. The focal mechanism of event No.46 is strike:302°, dip:40° and rake:-97° for plane Ⅰ, however, the focal mechanism of event No.47 is strike:292°, dip:82° and rake:140° for plane Ⅰ. Likewise, earthquake of number 3 and number 18 have similar characteristic. Therefore, the obvious focal mechanism difference of similar earthquake pair indicates the complexity of Weixi-Qiaohou Fault.
Considering the quiet-active character of reservoir-triggered earthquakes, we discussed the change of local stress field in different period. The σ1 of tectonic stress field was in the near-south direction, with a dip angle of 14° before the impoundment, however, the direction of σ1 of local stress field changed continuously, with the dip angle getting larger after the impoundment. The direction of σ1 of local stress field of reservoir-triggered earthquake clustering area is close to the strike of Weixi-Qiaohou Fault, and reservoir impoundment increased the shear stress in the fault, so the weakening of fault was beneficial to trigger earthquakes. Comprehensive analysis suggests that fluid permeation and pore pressure diffusion caused by the water impounding, and the weakening of fault caused by local stress field are the key factors to trigger earthquake in the Xiaowan reservoir. 相似文献
12.
P-wave velocity structure beneath reservoirs and surrounding areas in the lower Jinsha River 下载免费PDF全文
下载免费PDF全文 Changzai Wang Jianping Wu Lihua Fang Yaning Liu Jing Liu Yan Cai Poren Li 《地震科学(英文版)》2023,36(1):64-75
The lower reaches of the Jinsha River are rich in hydropower resources because of the high mountains, deep valleys, and swift currents in this area. This region also features complex tectonic structures and frequent earthquakes. After the impoundment of the reservoirs, seismic activity increased significantly. Therefore, it is necessary to study the P-wave velocity structure and earthquake locations in the lower reaches of the Jinsha River and surrounds, thus providing seismological support for subsequent earthquake prevention and disaster reduction work in reservoir areas. In this study, we selected the data of 7,670 seismic events recorded by the seismic networks in Sichuan, Yunnan, and Chongqing and the temporary seismic arrays deployed nearby. We then applied the double-difference tomography method to this data, to obtain the P-wave velocity structure and earthquake locations in the lower reaches of the Jinsha River and surrounds. The results showed that the Jinsha River basin has a complex lateral P-wave velocity structure. Seismic events are mainly distributed in the transition zones between high- and low-velocity anomalies, and seismic events are particularly intense in the Xiluodu and Baihetan reservoir areas. Vertical cross-sections through the Xiangjiaba and Xiluodu reservoir areas revealed an apparent high-velocity anomaly at approximately 6 km depth; this high-velocity anomaly plays a role in stress accumulation, with few earthquakes distributed inside the high-velocity body. After the impoundment of the Baihetan reservoir, the number of earthquakes in the reservoir area increased significantly. The seismic events in the reservoir area north of 27° N were related to the enhanced activity of nearby faults after impoundment; the earthquakes in the reservoir area south of 27° N were probably induced by additional loads (or regional stress changes), and the multiple microseismic events may have been caused by rock rupture near the main faults under high pore pressure. 相似文献
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14.
晋冀鲁豫交界地区震源位置及震源区速度结构的联合反演 总被引:1,自引:0,他引:1
利用邯郸数字台网记录到的2001—2008年间460次ML≥1.0地震的1861条P波到时数据, 采用震源位置和速度结构联合反演方法确定晋冀鲁豫交界地区(35.0°~38.0°N, 113.0°~116.0°E)地震的震源位置分布和该区域的速度结构。 结果表明: ① 经过重新定位后, P波走时的均方根残差(RMS)由反演前的1.35 s降到反演后的0.45 s。 定位偏差在EW方向上平均为0.031 km, 在NS方向上平均为0.029 km, 在垂直方向上平均为0.060 km。 ② 邢台震区的中小地震明显呈NEE向分布, 深度主要集中分布在7~14 km范围内; 磁县震区中小震分布相对复杂, 具有NEE和NWW两个展布方向, 震源深度主要集中在8~18 km范围内, 总体上晋冀鲁豫交界地区中小地震深度呈现北部浅南部深的趋势。 ③ 反演得到了晋冀鲁豫交界地区的速度结构, 在邢台地震极震区下方7~14 km处存在低速层, 与1966年邢台7.2级地震的震源深度一致;在磁县地震极震区下方13~18 km处也存在低速层与1831年磁县7.5级地震震源深度一致, 且磁县震区下方的速度结构比邢台震区更为复杂。 相似文献
15.
APPARENT STRESS VARIATION CHARACTERISTICS BEFORE AND AFTER BADONG EARTHQUAKE IN THE THREE GORGES RESERVOIR AREA 下载免费PDF全文
下载免费PDF全文 DAI Miao WU Gui-ju LIU Jian SHEN Chong-yang SHEN Xue-lin SHEN Xue-lin WEI Gui-chun 《地震地质》2017,39(4):837-852
The causes of earthquakes in the Three Gorges reservoir area are complex. In order to study the cause of earthquakes happening in the region, we calculated the source parameters of 394 ML ≥ 2.0 earthquakes occurring in Three Gorges reservoir area based on waveform data observed by the regional seismic network of Hubei Province and Three Gorges, obtained the apparent stress spatial-temporal variation map of Three Gorges reservoir area, and analyzed apparent stress spatial-temporal variation characteristics before and after the main earthquakes in the Three Gorges reservoir area. The results show that:1)Before the Badong ML5.5, Zigui ML4.7 and Zigui ML5.1 earthquake, high apparent stress of earthquakes with different magnitudes is concentrated in Xinhua-Shuitianba Fault and Gaoqiao Fault. The distribution of high value area shows the high degree of synergism before the earthquake and the scattering after the earthquake, which indicates that the area accumulated a high stress before the earthquake, and the fault was in a locked state; 2)In the study area, the apparent stress before and after the earthquake showed significant rise in the first and then decline, the earthquake occurred in the process of rising; 3)Apparent stress depth profiles show that apparent stress at different depths has a positive correlation with the size of magnitude of earthquake, and the phenomenon of "small magnitude and strong apparent stress" did not appear. The small earthquakes occurring after the major earthquakes in the study area belong to low strain release under the background of low stress release, and there are no new apparent stress anomaly concentration areas appearing, this indicates that the Badong-Gaoqiao Fault, Zhoujiashan-Niukou Fault and Zigui Xiannushan Fault have been effective in releasing after the Badong earthquake and Zigui earthquakes and the probability of destructive earthquake is small on these faults. 相似文献
16.
Awad Hassoup 《Journal of Seismology》2002,6(4):459-467
The data described here are obtained from the continuous record of earthquakeactivity and lake water-level variation in the Lake Aswan area in Egypt between 1982 and 1997. The seismicity is monitored by a local telemetered seismograph network. The hypocentral parameters of earthquakes have been determined using Hypo71. The earthquake foci are distributed in two seismic zones, shallow and deep in the crust. Shallow events have focal depths of less than 10 km. Deep events extend from 10 to 30 km. The temporal sequence of seismicity iscorrelated with both the water-level variation and the average daily change of the water level in the lake Aswan. The temporal variation of the seismicityindicates that there are only six sequences of increased seismic activity during 1982–1997. The correlation between the seismic activity and the daily variation of the lake water level is poorly observed except with the June 1987 events swarm, which was accompanied by the presence of an anomaly in rate of water level decreasing. It is concluded that the increase in seismic activity in the Aswan reservoir is demonstrating an example of rapid reservoir-triggered seismicity. The deeper seismic sequence in this area, which was associated with the November 14, 1981 mainshock (MD = 5.7), and the earlier seismicity (1981–82), has been correlated with a deeper high velocity anomaly (Awad and Mizoue, 1995-b). 相似文献
17.
Based on the digital seismic waveform data observed from regional and reservoir seismic networks,the seismicity and source parameters in the Zipingpu reservoir area from January 1,2000 to May 11,2008 before the Wenchuan MS8.0 earthquake are studied. The analysis shows a continuous activity of small earthquakes before the Wenchuan MS8. 0 earthquake. The level of seismic activity was from ML2.0 to ML3.0 in recent years. The impoundment of Zipingpu reservoir started in September 2005 and the obvious increment of seismic activities occurred in February 2008,but according to the analysis of the longer time series,the frequency and intensity of seismic activities do not exceed its range,which means it is still a fluctuation of regional seismic activities or tectonic activity. At the same time,we also studied the spatio-temporal distribution and the change of apparent stress difference in the source region before the great earthquake,and the results show that the apparent stress values of small earthquakes are generally higher than fitted values of apparent stress in the reservoir area in the nearly three months before the Wenchuan MS8.0 earthquake. It can be seen from the spatial distribution of apparent stress difference,that the epicenter of the earthquake is located at a low stress distribution area,and the relatively high apparent stress difference is at the east of the epicenter. Apparent stress increment occurred in local areas. 相似文献
18.
本文以龙滩水库为例,根据库区地质构造、深部速度结构及数字地面高程,建立了库区三维有限元模型,基于孔隙弹性理论计算了水库蓄水过程中库底断层和围岩体孔隙压力、有效附加正应力、剪应力和库伦应力的动态变化,并结合水库蓄水后库区地震活动时空分布的特征,讨论了RIS时空演化与库水加卸载及渗透过程的动态响应关系及其可能的成因机制.结果表明:(1) 龙滩水库蓄水后地震活动呈现出明显的丛集性,主要分布在罗妥(丛Ⅰ)、八茂(丛Ⅱ)、拉浪(丛Ⅲ)、坝首(丛Ⅳ)和布柳河(丛Ⅴ)5个水库蓄水后淹没的深水区,这些区域也恰恰是库水加卸载及渗透过程中ΔCFS增加最明显的区域,而ΔCFS的影区几乎没有地震发生,表明水库蓄水后库区地震活动与ΔCFS的变化密切相关.(2) 在水库蓄水过程中,与水库有直接水力联系且渗透性较好的断裂成为地表水体附加水头压力向深部扩散的优势通道,沿此通道附加水头压力扩散的最大深度达13 km左右,震旦系-古生界以碳酸盐岩为主的地层成为附加水头压力扩散的主体层位,这与蓄水后库区中、小地震震源深度均小于13 km,且优势分布在5~10 km的特征相吻合,表明由于孔隙压力的存在降低了岩石的抗剪强度,同时部分抵消了围压的影响,致使该层位的岩体易于产生脆性破坏从而诱发地震活动.(3) 无论是深部还是浅部,各丛地震密集发生的时段绝大部分与相应深度ΔCFS加速升高或阶段性高值时段相重叠,可能说明在库水位快速抬升或阶段性高值时段,受外部荷载加载速率快速升高的影响,库底岩体和断层、裂隙等结构面更容易实现失稳扩展;深、浅部地震响应时间、活动频度和强度的差异可能与不同层位岩体力学性质及渗透性能的不均匀性有关.(4) 各丛地震诱发的物理力学机制有所不同.丛Ⅰ、丛Ⅱ、丛Ⅲ地震的诱发可能与库体重力荷载、孔隙压力扩散和库水浸润弱化3种作用都有关;丛Ⅳ地震的诱发主要受控于库体重力荷载作用,孔隙压力扩散和库水浸润弱化不起主导作用;丛Ⅴ地震的诱发主要受孔隙压力扩散和库水浸润弱化作用的影响,库体重力荷载作用一定程度上抑制了地震的发生. 相似文献
19.
We investigate the relationship between the impoundment and seismicity in the Longtan reservoir, southwestern China and find evidence that the seismicity was reservoir induced. After the reservoir impoundment, a pronounced increase in seismicity was observed in five clusters mainly concentrated in the areas where few earthquakes had occurred before the first filling. The observed induced seismicity shows a strong correlation with the filling cycles. The activity levels in the five clusters are different due to differences in the structures and permeabilities of the faults. Source parameters for 1,616 earthquakes with M L 0.1–4.2 recorded by 24 fixed and temporary stations deployed around the reservoir were calculated after applying corrections for geometrical spreading, frequency-dependent Q, and site effects. The static stress drop and apparent stress in this area both appear to increase with increasing seismic moment over the entire magnitude range. Our results show that reservoir induced earthquakes have ten times lower average stress drop than natural tectonic earthquakes. These results may indicate that the reservoir induced seismicity can occur with a lower tectonic stress due to the high pore pressures of the underground medium, and that the effect of the water decreases the coefficient of friction. 相似文献