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1.
活动断层不仅是产生地震的根源,而且地震时其断层线两侧的建筑物破坏最为严重。因此准确探测出活动断层的位置和分布范围,并采取有效的工程避让措施,可大大降低地震灾害和经济损失。康定—色拉哈断裂作为鲜水河断裂南东段的主干断裂,具备发生强震的地震地质构造条件,因此该断裂所穿越的几个城镇的地震危险性不容忽视。针对康定新城探测场区存在交通条件不便、场地工作面狭窄等问题,在浅层地震反射波法探测工作中采取小道间距、小偏移距、多道短排列接收和共反射点多次覆盖观测的工作方式获取地震反射时间剖面,浅层地震探测结果辅以高密度电阻率成像断面,并结合地表地震地质调查结果,共同揭示康定—色拉哈断裂在康定新城北侧的展布位置、产状规模和近地表构造形态。研究结果发现康定—色拉哈断裂在康定新城北东侧呈左旋右界羽列状展布,经过两岔口村折多河Ⅰ级阶地处该断裂隐伏段近地表倾角约40°~50°,其破碎带及其影响带宽度约110m,随着地形的升高,破碎带的视宽度进一步增加至200m左右,并沿断层垭口向木格措方向延伸展布。浅层地球物理探测成果为判定康定—色拉哈断裂近地表构造活动提供了可靠的地震学证据,也为康定新城的地震危险性评价和制定抗震防灾规划提供了可靠的基础资料。 相似文献
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DEFORMATION CHARACTERISTICS AND KINEMATIC PARAMETERS INVERSION OF HAIYUAN FAULT ZONE BASED ON TIME SERIES INSAR 
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下载免费PDF全文 Located at the bend of the northeastern margin of Qinghai-Tibet Plateau, the Haiyuan fault zone is a boundary fault of the stable Alashan block, the stable Ordos block and the active Tibet block, and is the most significant fault zone for the tectonic deformation and strong earthquake activity. In 1920, a M8.5 earthquake occurred in the eastern segment of the fault, causing a surface rupture zone of about 240km. After that, the segment has been in a state of calmness in seismic activity, and no destructive earthquakes of magnitude 6 or above have occurred. Determining the current activity of the Haiyuan fault zone is very important and necessary for the analysis and assessment of its future seismic hazard.
To study activity of the Haiyuan fault zone, the degree of fault coupling and the future seismic hazard, domestic and foreign scholars have carried out a lot of research using geology methods and GPS geodetic techniques, but these methods have certain limitations. The geology method is a traditional classical method of fault activity research, but dislocation measurement can only be performed on a local good fault outcrop. There are a limited number of field measurement points and the observation results are not equally limited depending on the sampling location and sampling method. The distribution of GPS stations is sparse, especially in the near-fault area, there is almost no GPS data. Therefore, the spatial resolution of the deformation field features obtained by GPS is low, and there are certain limitations in the kinematic parameter inversion using this method.
In this study, we obtain the average InSAR line-of-sight deformation field from the Maomaoshan section to the mid-1920s earthquake rupture segment of the Haiyuan earthquake in the period from 2003 to 2010 based on the PSInSAR technique. The results show that there are obvious differences between the slip rates of the two walls of the fault in the north and the south, which are consistent with the motion characteristics of left-lateral strike-slip in the Haiyuan fault zone. Through the analysis of the high-density cross-fault deformation rate profile of the Laohushan segment, it is determined that the creep length is about 19km. Based on the two-dimensional arctangent model, the fault depth and deep slip rate of different locations in the Haiyuan fault zone are obtained. The results show that the slip rate and the locking depth of the LHS segment change significantly from west to east, and the slip rate decreases from west to east, decreasing from 7.6mm/a in the west to 4.5mm/a in the easternmost. The western part of the LHS segment and the middle part are in a locked state. The western part has a locking depth of 4.2~4.4km, and the middle part has a deeper locking depth of 6.9km, while the eastern part is less than 1km, that is, the shallow surface is creeping, and the creep rate is 4.5~4.8mm/a. On the whole, the 1920 earthquake's rupture segment of the Haiyuan fault zone is in a locked state, and both the slip rate and the locking depth are gradually increased from west to east. The slip rate is increased from 3.2mm/a in the western segment to 5.4mm/a in the eastern segment, and the locking depth is increased from 4.8km in the western segment to 7.5km in the eastern segment. The results of this study refine the understanding of the slip rate and the locking depth of the different segments of the Haiyuan fault zone, and provide reference information for the investigation of the strain accumulation state and regional seismic hazard assessment of different sections of the fault zone. 相似文献
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应用浅层地震勘探法对宁夏吴忠地区北部的浅部地壳结构和隐伏活动断裂进行研究。结果表明,该区存在2条隐伏断裂,分别为银川主断层南段和新华桥断层。推测银川主断层南段为近SN走向的W倾正断层,断层下盘地层界面一般呈近水平状展布,而在断层上盘,T_Q及其以下的地层界面向断面方向倾伏并显示出逆牵引现象,断层向上错断了第四系内部。钻孔联合地质剖面及浅层地震探测结果共同揭示新华桥断层为一条走向NE,倾向SW的正断层,深、浅地震测线控制的新华桥断层延伸长度9 km左右,向上错断了第四系内部的T_(02)界面。 相似文献
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We calculated the Coulomb failure stress change generated by the 1976 Tangshan earthquake that is projected onto the fault planes and slip directions of large subsequent aftershocks.Results of previous studies on the seismic fail-ure distribution,crustal velocity and viscosity structures of the Tangshan earthquake are used as model constraints.Effects of the local pore fluid pressure and impact of soft medium near the fault are also considered.Our result shows that the subsequent Luanxian and Ninghe earthquakes occurred in the regions with a positive Coulomb fail-ure stress produced by the Tangshan earthquake.To study the triggering effect of the Tangshan,Luanxian,and Ninghe earthquakes on the follow-up small earthquakes,we first evaluate the possible focal mechanisms of small earthquakes according to the regional stress field and co-seismic slip distributions derived from previous studies,assuming the amplitude of regional tectonic stress as 10 MPa.By projecting the stress changes generated by the above three earthquakes onto the possible fault planes and slip directions of small earthquakes,we find that the "butterfly" distribution pattern of increased Coulomb failure stress is consistent with the spatial distribution of follow-up earthquakes,and 95% of the aftershocks occurred in regions where Coulomb failure stresses increase,indicating that the former large earthquakes modulated occurrences of follow-up earthquakes in the Tangshan earthquake sequence.This result has some significance in rapid assessment of aftershock hazard after a large earthquake.If detailed failure distribution,seismogenic fault in the focal area and their slip features can be rapidly determined after a large earthquake,our algorithm can be used to predict the locations of large aftershocks. 相似文献
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川滇地区是我国地震危险性较高的地区之一.本文基于对特大强震的风险性考虑,使用全球地震模型OpenQuake软件,建立了川滇地区地震危险性预测新模型.首先根据构造特征划分多个震源分区,并整理出这些震源分区内断层活动特征与滑动速率;基于震源分区和断层模型,使用GPS应变率转换成的锥形古登堡-里克特关系作为整个区域的地震积累率,并允许超过历史最大震级的特大地震的出现,结合活动断层滑动速率所积累的地震发生率,给出震源分区内断层地震源和背景地震源的地震发生率的比率分配关系;在活动断层分段上,保留了大型断裂或其主要部分,没有根据小的阶区来对断层进行详细分段,以便分配特大地震发生率;并使用地震率平滑方法分配背景地震发生率.最后在OpenQuake中加入地震动预测方程,计算出了川滇地区的PGA分布图,为区域地震危险性提供科学依据. 相似文献
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利用山东及邻区数字地震台网2001- 2012 年的地震观测报告及波形资料分析了沂沭断裂带及周缘地区的地震活动并利用识别出的重复地震估算了断层深部滑动速率。重新定位后的地震图像清晰展示了沂沭断裂带南北两段及东西两侧地震活动的显著差异,在研究时段内,60%以上的地震发生在沂沭带东侧的两条断裂上,震源深度分布与研究区的深部构造吻合。根据波形意义上相似地震(cc≥0.8)的定义,识别出了沂沭断裂带及其周缘相似地震共50例,组成相似地震对和多重相似地震对共19组,相似地震对的复发间隔较为随机,从数小时到数百天不等。通过对相似地震对震源位置- -致性的强约束后,基于1组重复地震估算出安丘-莒县断裂在地表以下5.9km处的滑动速率估计值为2.19mm/a,与GPS和地质等浅表观测的滑动速率值基本一致。 相似文献
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K. W. Campbell P. C. Thenhaus T. P. Barnhard D. B. Hampson 《Soil Dynamics and Earthquake Engineering》2002,22(9-12):743-754
We developed a seismic hazard model for Taiwan that integrates all available tectonic, seismicity, and seismic hazard information in the region to provide risk managers and engineers with a model they can use to estimate earthquake losses and manage seismic risk in Taiwan. The seismic hazard model is composed of two major components: a seismotectonic model and a ground-shaking model. The seismotectonic model incorporates earthquakes that are expected to occur on the Ryukyu and Manila subduction zones, on the intermediate-depth Wadati-Benioff seismicity zones, on the active crustal faults, and within seismotectonic provinces. The active crustal faults include the Chelungpu fault zone, the source of the damaging MW 7.6 Chi-Chi earthquake, and the Huangchi-Hsiaoyukeng fault zone that forms the western boundary of the Taipei Basin. The ground-shaking model uses both US, worldwide, and Taiwanese attenuation relations to provide robust estimates of peak ground acceleration and response spectral acceleration on a reference site condition for shallow crustal and subduction zone earthquakes. The ground shaking for other site conditions is obtained by applying a nonlinear soil-amplification factor defined in terms of the average shear-wave velocity in the top 30 m of the soil profile, consistent with the methodology used in the current US and proposed Taiwan building codes. 相似文献
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分析矿震破裂机制及微震的时空分布能够为矿区灾害评估提供更多的有效信息.本研究基于密集台阵观测对2019年11月12日辽宁抚顺2.4级矿震开展震源参数研究,震源机制解显示地震破裂包含明显的非双力偶分量,表现为体积压缩的塌陷机制,且震源深度较浅,最佳拟合矩心深度为0.6 km.同时,对11月3日—25日记录的连续地震波形开展微震扫描,新检测出324个微震事件(-0.5~2.0级),定位结果显示在M 2.4矿震发生前M>1.0级事件显著增多,且在矿震位置存在近南北向的微震条带分布,微震序列随时间向深部迁移(约1.5 km),暗示存在断层活化迹象.结合震源破裂机制,我们认为此次事件与矿区塌陷破裂密切相关,同时伴随先存断裂的剪切滑动.本研究表明,基于密集台阵观测的地震矩张量反演和微震检测研究,对判定矿震类型及防范矿区灾害具有重要的研究意义. 相似文献
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Rupture model of the 2013 M_W 6.6 Lushan (China) earthquake constrained by a new GPS data set and its effects on potential seismic hazard 下载免费PDF全文
下载免费PDF全文 Vertical records are critically important when determining the rupture model of an earthquake, especially a thrust earthquake. Due to the relatively low fitness level of near-field vertical displacements, the precision of previous rupture models is relatively low, and the seismic hazard evaluated thereafter should be further updated. In this study, we applied three-component displacement records from GPS stations in and around the source region of the 2013 MW6.6 Lushan earthquake to re-investigate the rupture model.To improve the resolution of the rupture model, records from both continuous and campaign GPS stations were gathered, and secular deformations of the GPS movements were removed from the records of the campaign stations to ensure their reliability. The rupture model was derived by the steepest descent method(SDM), which is based on a layered velocity structure. The peak slip value was about 0.75 m, with a seismic moment release of 9.89 × 10~(18) N·m, which was equivalent to an M_W6.6 event. The inferred fault geometry coincided well with the aftershock distribution of the Lushan earthquake. Unlike previous rupture models, a secondary slip asperity existed at a shallow depth and even touched the ground surface. Based on the distribution of the co-seismic ruptures of the Lushan and Wenchuan earthquakes, post-seismic relaxation of the Wenchuan earthquake, and tectonic loading process, we proposed that the seismic hazard is quite high and still needs special attention in the seismic gap between the two earthquakes. 相似文献
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采用远场地震波资料和有限断层反演方法获得2021年7月29日6时15分(UTC)美国阿拉斯加州以南海域MW8.2地震的震源破裂过程模型,探讨此次地震发生的动力学背景。破裂过程反演的结果显示这次地震的滑动量分布比较集中,破裂长度约为160km,地震主体破裂发生在20~40km深度范围内,破裂由深部向浅部发展,表明此次地震释放了俯冲带浅部的应变能,破裂持续时间近120s,破裂面上最大滑移量达5m。此外,主震破裂区域中的余震分布较小,大部分余震发生在主震南部,出现这种现象表明震源区的破裂较为彻底并触发了俯冲带浅部位置的地震,本次地震的有限断层反演结果和余震分布均显示破裂向东发展,但未破裂至震中以西的舒马金空区,表明舒马金空区东部的地震危险性仍然存在。 相似文献
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在2008年5月12日汶川MS8.0地震和2013年4月20日芦山MS7.0地震中,龙门山中央断裂南段的盐井—五龙断裂均未发现地表破裂现象,加之该断裂浅层地球物理资料极度匮乏,在一定程度上限制了对龙门山断裂带南段地震危险性的评价和发震能力的评估。针对龙门山中央断裂南段的盐井-五龙断裂经过区段的主要乡(镇)所在地多为宽度不大于300m的山间峡谷地区,且探测场区存在交通条件不便、场地工作面狭窄等问题,在浅层地震反射波法探测工作中采用小道间距、小偏移距、多道短排列接收和共反射点多次覆盖观测的地震数据采集方式,并经数据处理后获得地震反射剖面图像。浅层地震探测定位结果结合高密度电阻率成像断面、探槽开挖和钻孔联合剖面资料,共同揭示了NE向的盐井—五龙断裂在宝兴县五龙乡东风村一带精确的空间展布位置、产状规模和近地表构造形态。探测结果表明盐井—五龙断裂于五龙乡北东风村西河两岸的T1阶地处隐伏通过,性质为倾向NW的逆冲断裂,近地表倾角50°~60°,上断点埋深19m。该断裂断错宝兴西河T2、T3阶地,西河右岸T1阶地断裂通过处两侧基岩的断距6~8 m,其破碎带及其影响带宽度约30m。本文浅层地球物理探测成果可对判定盐井—五龙断裂的近地表构造活动提供可靠的地震学证据,也为地震重灾区(宝兴县城)的灾后工程选址重建、地震危险性评价和制定抗震防灾规划提供了科学的基础资料。 相似文献
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根据龙门山断裂带地区的主要构造特征,建立该地区的有限元模型,同时考虑地下深处的黏弹性蠕动和不同部位间的接触关系,模拟计算了研究区在强震轮回活动中的时间演化历程.模拟结果表明:龙门山断裂带深处的滑动速率比浅表的滑动速率大,龙门山断裂带周围是相对容易发生应变积累的地区,其5~19km深度也是高应力聚集成核区,随时间推移的应力集中程度加剧而引发强震.本模拟分析证实了重复地震观测所揭示的龙门山断裂带存在深浅活动速率差异的现象,这在一定程度上可以解释出乎预料的汶川MW7.9地震的孕育机理.综合分析研究提出:应充分利用重复地震这一天然的"地下蠕变计(subsurface creepmeter)"来探测深部构造变形的活动,为强震危险性分析提供必要的"原位(in situ)观测"约束信息. 相似文献
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针对夏垫断裂开展了MW≥7.5地震动预测研究。首先基于全破裂模式设定震源(使其尽可能涵盖夏垫断裂的未知信息)模拟得到夏垫断裂发生MW≥7.5地震时研究区域内的地面地震动场,进而依据分位数筛选出各场点的地震动空间分布,讨论了包含不确定震源下的加速度峰值和速度峰值的分布特征,结果显示当夏垫断裂发生MW7.9地震时,通州城区、北京中心城区均会发生强烈的运动。之后对比讨论了仿真震源下MW7.5地震所引起的地面运动场的空间变化,结果显示对于同等震级而言,两种震源的模拟结果可以相互印证。 相似文献
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城市活断层探测中的浅层地震勘探方法 总被引:7,自引:0,他引:7
对大量地震灾害的研究表明,地震发生时,位于地表活动断层上的房屋或构筑物的破坏最严重,尤其是20世纪90年代后期美国北岭地震,日本阪神地震和中国台湾集集大地震等的发生后,世界许多国家的政府和地震科学家都清楚地认识到城市活断层探测与研究的重要性和急迫性,城市活断层的探测对于城市规划,抗震设防,减轻地震对城市设施的破坏都具有重要的现实意义,浅层高分辨地震勘探是城市活断层探测手段中最有效,最可靠的方法之一,可以在地表探测到地下活断层的位置,埋深,产状和空间展布情况,但由于城市环境的强干扰背景和场地条件的复杂性,必须针对实际情况,在观测系统,震源,数据采集环境的强干扰背景和场地条件的复杂性,必须针对实际 情况,在观测系统,震源,数据采集和处理方法等环节中,采用一系列提高分辨率, 提高信噪比的有效方法,才能取得可靠的探测成果,本文对城市活断层探测中的浅层地震勘探方法的技术难点和相应的解决方法进行了讨论,并结合我们近几年来在城市开展浅层地震勘探的一些经验,介绍一些实用性的浅层地震勘探工作方法。 相似文献
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本文研究了兴都库什及帕米尔地区地震的空间分布.发现h<70km的地震分布广泛,h≥100km的地震形成-S形的倾斜中源地震带.在71.5°E以西,中源地震带倾向接近正北,倾角随深度变化,在深部接近垂直,且倾角自西向东逐渐变陡,在71.5°E以东,倾向逐渐由东南变为正南. 分析了121个mb≥5.0地震的机制解.浅源地震机制解的P轴大多位于NS和NNW-SSE方向,且多近水平,反映此区受到NS或NNW-SSE方向挤压.各剖面应力轴分布规律性强,在150km以下,总的趋势是机制解的T轴接近于倾斜的中源地震带的下倾方向,而P轴倾角较小且垂直于倾斜的中源地震带的走向. 相似文献
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Long aftershock sequences in North China and Central US: implications for hazard assessment in mid-continents 下载免费PDF全文
下载免费PDF全文 Because seismic activity within mid-continents is usually much lower than that along plate boundary zones, even small earthquakes can cause widespread concerns, especially when these events occur in the source regions of previous large earthquakes. However, these small earthquakes may be just aftershocks that continue for decades or even longer. The recent seismicity in the Tangshan region in North China is likely aftershocks of the 1976 Great Tangshan earthquake. The current earthquake sequence in the New Madrid seismic zone in central United States, which includes a cluster of M ~ 7.0 events in 1811–1812 and a number of similar events in the past millennium, is believed to result from recent fault reactivation that releases pre-stored strain energy in the crust. If so, this earthquake sequence is similar to aftershocks in that the rates of energy release should decay with time and the sequence of earthquakes will eventually end. We use simple physical analysis and numerical simulations to show that the current sequence of large earthquakes in the New Madrid fault zone is likely ending or has ended. Recognizing that mid-continental earthquakes have long aftershock sequences and complex spatiotemporal occurrences are critical to improve hazard assessments. 相似文献
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—We classified tsunamigenic earthquakes in subduction zones into three types earth quakes at the plate interface (typical interplate events), earthquakes at the outer rise, within the subducting slab or overlying crust (intraplate events), and "tsunami earthquakes" that generate considerably larger tsunamis than expected from seismic waves. The depth range of a typical interplate earthquake source is 10–40km, controlled by temperature and other geological parameters. The slip distribution varies both with depth and along-strike. Recent examples show very different temporal change of slip distribution in the Aleutians and the Japan trench. The tsunamigenic coseismic slip of the 1957 Aleutian earthquake was concentrated on an asperity located in the western half of an aftershock zone 1200km long. This asperity ruptured again in the 1986 Andreanof Islands and 1996 Delarof Islands earthquakes. By contrast, the source of the 1994 Sanriku-oki earthquake corresponds to the low slip region of the previous interplate event, the 1968 Tokachi-oki earthquake. Tsunamis from intraplate earthquakes within the subducting slab can be at least as large as those from interplate earthquakes; tsunami hazard assessments must include such events. Similarity in macroseismic data from two southern Kuril earthquakes illustrates difficulty in distinguishing interplate and slab events on the basis of historical data such as felt reports and tsunami heights. Most moment release of tsunami earthquakes occurs in a narrow region near the trench, and the concentrated slip is responsible for the large tsunami. Numerical modeling of the 1996 Peru earthquake confirms this model, which has been proposed for other tsunami earthquakes, including 1896 Sanriku, 1946 Aleutian and 1992 Nicaragua. 相似文献
19.
Dense strong motion observation networks provided us with valuable data for studying strong motion generation from large earthquakes. From kinematic waveform inversion of seismic data, the slip distribution on the fault surface of large earthquakes is known to be spatially heterogeneous. Because heterogeneities in the slip and stress drop distributions control the generation of near-source ground motion, it is important to characterize these heterogeneities for past earthquakes in constructing a source model for reliable prediction of strong ground motion. The stress changes during large earthquakes on the faults recently occurring in Japan are estimated from the detailed slip models obtained by the kinematic waveform inversion. The stress drops on and off asperities are summarized on the basis of the stress change distributions obtained here. In this paper, we define the asperity to be a rectangular area whose slip is 1.5 or more times larger than the average slip over the fault according to the previous study for inland crustal earthquakes. The average static stress drops on the asperities of the earthquakes studied here are in the range 6?C23?MPa, whereas those off the asperities are below 3?MPa. We compiled the stress drop on the asperities together with a data set from previous studies of other inland earthquakes in Japan and elsewhere. The static stress drop on the asperity depends on its depth, and we obtained an empirical relationship between the static stress drop and the asperity??s depth. Moreover, surface-breaking asperities seemed to have smaller stress drops than buried asperities. Simple ground motion simulations using the characterized asperity source models reveal that deep asperities generate larger ground motion than shallow asperities, because of the different stress drops of the asperities. These characteristics can be used for advanced source modeling in strong ground motion prediction for inland crustal earthquakes. 相似文献