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1.
利用中国数字地震台网(CDSN)兰州台短周期数字地震仪的记录资料,研究了1995年甘肃永登MS5.8地震前后,发生在永登地区小地震的S波波谱参数,获得以下结果:(1)在永登地震前2年左右,该地区小地震的SC波波谱拐角频率fC逐渐下降,由原来的2.4Hz下降到1.8Hz.(2)直达波Sg和地壳内中间层反射波SC的波谱高频衰减斜率比值γ则先逐渐上升,在临震前16个月逐渐下降,在下降过程中发生了永登地震,以后又逐渐恢复.(3)用直达横波Sg的谱参数求出的介质品质因数QSg在永登地震前后有较明显的异常变化 相似文献
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晋冀蒙交界地区地震活动性特征分析 总被引:1,自引:0,他引:1
采用较为完整的地震资料,分析晋冀蒙交界地区地震活动性特征,结果表明,公元1929年以后,研究区的6.0级以上地震主要分布在河套地震带和张家口-渤海地震带上,在北纬40°线及附近区域形成优势分布区域,1970年以来的中等以上地震主要分布在内蒙古和林格尔-山西大同-河北张北形成的三角形区域内。研究区2005年9月以来中等地震持续1 304天的平静现象被2009年3月山西原平4.2级地震打破,岱海断陷1997年11月以来至今中等地震持续平静,统计结果显示,研究区和岱海断陷中等地震显著平静对研究区特别是河套地震带中强地震具有明显的指示意义,为显著的震兆标志,多种迹象表明,晋冀蒙交界三角形区域和呼和浩特-包头断陷为有利发震区域,发震强度或为6.0级左右。 相似文献
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为着重探讨郯庐断裂带鲁苏皖段的分段特征及其深部结构特征,本研究搜集增加了研究区内近几年的Pn震相数据.经挑选后采用了由2163个地震和301个台站构成的9156条射线,重新反演构建了郯庐断裂带鲁苏皖段及邻区上地幔顶部Pn波速度及方位各向异性分布.尔后,将速度反演结果与地形地貌、大地热流、强震活动及地壳厚度等进行了综合对比和分析;此外,还将Pn波各向异性与地震各向异性其他观测手段的结果展开了对比和讨论.反演结果的可靠性和分辨能力较前文有所提高,研究区上地幔顶部的非均匀性特征揭露得更为清楚,尤其是由Pn波速度揭露的郯庐断裂带分段特征与地质构造特征吻合得更佳.结果表明:(1)Pn波高、低速的分布与地形地貌呈负相关的关系,即山地隆起区呈低速分布,而平原地区表现为高速异常.(2)Pn波速度沿郯庐断裂带的分布具有明显的分段特征,本文的研究结果支持郯庐断裂带在研究范围内的上地幔顶部可细分为4个亚段.由上地幔顶部Pn波速度揭示的郯庐带分段特征与前人根据郯庐断裂带各段的地表地质构造特征给出的分段结果吻合,深、浅耦合的现象表明郯庐断裂带是一条贯穿地壳、深抵Moho面的幔源深大断裂带.(3)Pn波速度与大地热流呈负相关的关系.(4)Pn波速度的分布与强震的发生具有一定的关联性,强震大部分发生在Pn波高、低速过渡地带或者低速区域的地壳内.(5)在南黄海海域新发现一条NNE-SSW向展布的弱高波速异常带,该异常带被强震震中清晰地勾勒了出来,据此推测其下方存在一条切割Moho界面的幔源深大断裂.(6)Pn波各向异性的强弱与地质构造的活动性相关,活动性越强则各向异性强度越大.(7)由地震台站的时间延迟分布可以看出,研究区地壳厚度总体上自SE往NW逐渐增厚;最大厚度位于渤海湾盆地的北西部和西部. 相似文献
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应用中国地震台网229个台站在2008至2017年期间记录的9826个地震事件体波走时数据,采用地震双差定位方法反演了中国东南沿海地区的地震位置。结果显示,东南沿海地区构造活动对地震活动有控制作用。在现今活动较强的块体边缘,地震活动集中呈条带状线性分布,优势方向与构造带方向一致;在现今活动性较弱的块体内部,地震分布离散或稀疏,无成带分布现象。在广东南澳岛北部出现两处线性分布的地震,长度分别约200和40 km,走向均为北偏东70°。其位置与前人根据重力资料推测的断裂位置一致,由于无已知断裂构造与其对应,此处可能是尚未发现的隐伏断裂。在南澳岛南部海域巴士断裂与滨海断裂交汇处,地震沿断裂大量聚集,剖面显示滨海断裂倾向为东南且倾角大。新丰江水库地震深度均在12 km内,较构造地震的深度浅。 相似文献
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Based on analysis of background of geological tectonic movement and strong earthquake activity, we first obtained the focal mechanism solutions using amplitude ratio and CAP method, then determined the characteristic of average stress field of the study area by inversion of the stress field. On this basis, we selected the source mechanism consistency parameter as the inspection index to obtain the latest changes of stress field in Hetao seismic zone based on its temporal and spatial analysis. Two methods were used in the stress field inversion for comparison and analysis, which are average stress axis tensor and LSIB(Linear stress inversion bootstrap, LSIB). According to the geological tectonic movement and focal mechanism solutions of MS≥4.0 earthquakes from 1970, we judge that the stress field evolution process of Hetao seismic belt is controlled jointly by vertical difference movement and horizontal shear movement, resulting in that the normal fault and strike-slip fault mechanisms are dominating.Taking into account the station layout of the study area, and in order to ensure the accuracy of calculation, we calculated 224 earthquakes focal mechanism solutions by using amplitude ratio and CAP method, including 164 earthquakes with 2.8≤ML<3.5, 42 earthquakes with 3.5≤ML<4.0, and 18 earthquakes with ML≥4.0; The statistical results on type of focal mechanisms show that, there are 142 strike-slip earthquakes(63.4%), 50 normal fault earthquakes(22.3%)and 32 thrust fault earthquakes(14.3%). In this study period(from 2001 to 2012), most earthquakes had a strike-slip mechanism in Hetao seismic belt, this is one of the inherent characteristics of the stress field.The result of average stress axis tensor and LSIB shows that, the azimuth of maximum compressional stress is 47°~52°, direction is NE-SW; The azimuth of minimum compressional stress is 313°~322°, direction is NW-SE; This indicates that, the stress field characteristics of Hetao seismic belt and its sub-block are not completely consistent. Linhe Basin exhibits coordinated stress field characteristics with Hetao seismic belt, but Hubao Basin exhibits regional differences, direction of compressive stress has clockwise deflection in Baotou area, and the compressive stress direction is NEE. This heteropical character of stress field is also confirmed by horizontal projection distribution of stress axis of historical strong earthquakes and recent moderate and small earthquakes. Since 2003, the temporal sequence curve of consistency parameter of Hetao seismic belt had a downward trend, this change was caused by focal mechanism consistency parameter of Linhe to Wuhai area, which indicates that this structural position is possible to be a priority area for stress accumulation and accelerated release in future. 相似文献
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Zhang Guomin Geng Lumin and Shi YaolinCenter for Analysis Prediction Beijing China 'Graduate School Academia Sinica Beijing China 《中国地震研究》1995,(1)
Based on the study of activity of earthquakes with M**********>7.0 in mainland China,we have found a dynamic pattern,i.e.,the cyclic characteristics in time and migration from one seismic zone to another in space.In order to understand the physical mechanism of this pattern,we use a nonlinear dynamic model to simulate the seismic activity in fault zones under a unified tectonic stress field.The basic elements in our model consist of a Maxwell body and a rigid sliding block.Basic elements in a column represent a fault,and coupling elements connecting different columns simulate the interaction among faults and fault segments.The results provide insights to the cyclic activity of strong earthquakes and to the feature of mutual influence between strong earthquakes in groups in the climax of seismic activity. 相似文献
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断裂构造的活动是地震的成因之一。断裂构造上的小震速度结构分布为人们准确提供了地下壳质结构模型,为断裂的活动性分析提供了依据。文中结合太行山南端的地震台网监测资料,利用小震P波走时数据,通过震源和速度结构的联合反演,确定了太行山断裂构造南端的三维速度结构模型。结果表明: 太行山山前断裂带的西侧存在NNE向断层,速度结构平面分布显示低速区沿断裂带呈条带状分布,太行山隆起区沉积层厚度由8km左右逐渐减薄为2km左右,同时受西侧作用力的影响地壳厚度逐渐增厚。 相似文献
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作为强震长期预测基础的地震带、潜在震源区的划分,仍然依据地震构造类比和地震活动重复两原则。现有的强震长期预测方法在构造“稳定”区,即没有活动构造、没有历史地震(包括古地震)资料的条件下,无能为力。通过张北地震资料的分析,高精度地震定位并结合波形数据反演震源机制的结果表明:在稳定而统一的构造应力场的作用下,沿其最大剪切应力方向上的小地震集中成带,并且持续活动、震源机制的优势取向与应力场吻合,小震带便可以看作属于现今活动的震源断层,在地震长期预测工作中可以作为划分潜在震源区的依据。构造“稳定”区发生的强震属于新破裂。 相似文献
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Javier Rodriguez Jens Havskov Mathilde Bøttger Sørensen Luis Fernando Santos 《Journal of Seismology》2018,22(4):883-896
The Dominican Republic has a high level of seismic activity, and a new seismic network has been installed to improve the detection of earthquakes. The network has been operated by Instituto Politécnico Loyola since 2012. It uses six new stations of its own, as well as 17 other stations publically available. In this study, we investigate in particular the south-west of the country where no seismic stations have been operating before. We find an area, SE of the Enriquillo Plantain Garden fault (responsible for the 2010 Haiti M7.0 earthquake), with a high seismic activity (M?=?2–4) compared to the surrounding area. This shallow seismicity (except two events around 40 km depth) is not seen in any global catalogs, and it does not seem to be associated with any known faults. However, the region has been under rapid recent uplift since margins between hills and valleys are filled with massive alluvial fans. We made 24 new fault plane solutions using P-polarities and S/P amplitude ratios. The solutions show mainly reverse mechanisms and the P-axis directions are mainly NNE oriented, which is in agreement with a published strain direction from GPS measurements. We conclude that the main cause of the seismicity in our study area is the push of the Beata Ridge against Enriquillo basin and the rest of the Gonave microplate, reflected in the mainly reverse focal mechanisms. 相似文献
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SIMULATION OF SEISMIC RISK IN THE DALIANGSHAN SUB-BLOCK AND ADJACENT AREAS USING THE NONLINEAR FRICTION FEM METHOD 
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下载免费PDF全文 Most earthquakes result from fault activity under heterogeneous loading and complex physical properties, also affected by fault structure and interaction between faults. Such a complicated mechanism makes often failures of the "seismic gap" theory in the effort of medium-and long-term earthquake prediction. This study attempts to address this issue using the finite element method(FEM).The friction behavior of faults can be used to simulate the non-uniformity of rupture processes of the seismogenic structure. So we use the FEM containing non-linear friction to simulate fault ruptures in the Daliangshan sub-block and adjacent areas, and compare the results with time-space evolution of historical MS ≥ 7 earthquakes since 1840 in this region. In the simulation, the sequence of large-batch fault contact nodes change from "stick state" to "slip state" in short time, which mimics the sudden fault slip and the occurrence of major earthquakes. The results show that the fault breaking lengths from simulation are largely consistent with the magnitudes of historical earthquakes in the study area, such as the 1850 Puge-Xichang MS7.5, and 1887 Shiping MS7.0 earthquakes. The simulation also shows the development of seismic gaps and "gap breaks" by major earthquakes on the Xianshuihe fault, such as 1955 Kangding MS7.5 earthquake. Especially, the results illustrated the very long time of the seismogenic process of the 2008 Wenchuan MS8.0 earthquake, and the corresponding sudden big rupture along the Longmenshan Fault, which is very similar to the observed surface rupture and very long incubation time and sudden co-seismic process. Then, this simulation is further applied to long-term earthquake prediction for the study area by calculation on a much longer time. The simulation results suggest that the Xiaojiang fault and the Zemuhe fault have relatively higher seismic risk, while moderate-sized earthquakes might occur on the Daliangshan fault and the Aninghe fault, and major earthquakes might rupture the northern segment of the Xianshuihe fault in a much longer time. 相似文献
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龙陵—澜沧新生地震断裂带位于地震活动强烈的滇西南地区, 该地区历史上曾发生多次MS≥7.0大地震, 已知的历史地震破裂几乎覆盖了整条断裂带. 本文首先对滇西南地区主要断裂的最新构造活动特征进行分析; 然后通过该区域地震活动b值图像的空间扫描计算, 圈定出高应力集中区, 并结合历史地震和现今小震的分布情况以及晚第四纪以来断裂的活动强度、 古地震最晚离逝时间等定量参数, 综合分析龙陵—澜沧断裂带的未来大震危险性; 最后基于地震空区理论, 识别该断裂带存在的地震空区. 研究结果表明, 龙陵—澜沧断裂带内的龙陵、 永德、 沧源、 澜沧及孟连断裂中东段在未来10年内均存在发生中强以上地震的危险性, 应引起关注. 相似文献
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Cvetan Sinadinovski Lazo Pekevski Dragi Dojcinovski Dragana Cernih 《Journal of Seismology》2018,22(6):1451-1467
During the months of June–July 2017, the Lake Ohrid area in the southwestern Macedonia experienced a series of small to intermediate earthquakes. More than a thousand earthquakes occurred in that period, all in the epicentral area about 10 km east-northeast from Ohrid city center. The earthquakes showed characteristics of a swarm with 50 of them having magnitudes of 3 or greater and the strongest reaching magnitude M5.0. The earthquakes caused concern among the people in Ohrid and neighboring cities and villages and prompted the installation of two networks of temporary stations. One network was deployed in the epicentral area to determine in more detail the earthquakes’ depth and source parameters. The other urban network of instruments was installed to monitor the influence of the ground on the amplification of shaking and the dynamics of structures in the city of Ohrid. In this study, a selection of the urban network strong motion (SM) records was analyzed for the first time. Accelerograph records from a magnitude M3.1 earthquake recorded at eight places in the city and from the two earthquakes with magnitudes M4.2 and M5.0 recorded at the permanent seismological station Ohrid (code OHR) were used. The results of the behavior of the instrumented building were also compared with the findings of previous experiments. The differences in the spectral values on the SM records from the stations were investigated in respect to the ground conditions and location where the instruments were installed, i.e., bedrock and sediments at the sites. The power spectra and the H/V ratio of the earthquake records from the 2017 seismic sequence in the Ohrid area were also viewed in respect to the Eurocode-8. In addition to being used as part of standard engineering practice, this information about the local soil conditions can be of interest to geophysicists in seismic and geotechnical investigations, as well as in seismic risk-assessment applications. 相似文献
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THE RELATIONSHIP BETWEEN REGIONAL SEISMIC ENERGY RELEASE AND RELATIVE MOTION BETWEEN BLOCKS ON BOTH SIDES OF YISHU FAULT ZONE 下载免费PDF全文
下载免费PDF全文 Following the 11 March 2011 Japan MW9.0 earthquake, frequent moderate and small events occurred on the Yishu fault zone and its either side. Using continuous GPS data and a sliding block model, this work studies the relationship between the energy release of these shocks and the block relative motion of either side of the Yishu fault zone. The results show that(1)the equivalent magnitude M from released energy and the two blocks' relative motion are well correlated when earthquakes are selected in a retrieval circle(whose center is the midpoint of the Yishu fault zone)with a radius of 250~500km and using a sliding time window of 3~10 months. The best correlation coefficient between M and the two blocks' relative motion is 0.74 and the T test shows a significant linear correlation between them.(2)Spatial distribution of the correlation coefficients shows that the relative motion of the blocks on both sides affects the energy release in the area from the north part of Yishu fault zone to the Jiaodong Peninsula area and southwest Shandong-Henan border area obviously.(3)Since June 2014, the relative motion of the two blocks on both sides of the Yishu fault zone presents a wave of change, which may be an expression of the accumulation of seismic strain energy in the Yishu fault zone and its two sides. The linear relationship between the equivalent magnitude M from released energy and two blocks' relative motion V can be fitted by linear equation M=0.51*V+3.9, showing that strain energy accumulation could be released by the moderate and small earthquakes in a timely manner, which may favorable to delay the seismic risk in the study area. It also shows, on the other hand, that earthquake energy was not released so completely in the study area since the end of 2015 to 2016, which is likely associated with the Changdao earthquake swarm in 2017. 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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利用山东数字地震台网记录到的胶东半岛及附近地区2010年以来的地震波形资料,采用Brune模型,并结合遗传算法反演了本区134次2.0级以上地震的震源波谱参数.结果表明胶东半岛地区中小地震的地震矩在9.76×1011~5.9×1014N·M之间;应力降范围在0.017~25MPa之间,均值是0.97MPa;视应力范围在0.06~10.2MPa,平均应力水平在0.396MPa.地震矩、应力降和视应力都与震级呈正相关关系,拐角频率与震级的关系不是很明显;地震矩和拐角频率成负相关关系.根据本区震源参数和震级的定量统计关系,去除震级影响,通过应力降和视应力随时间的变化得到目前正处于应力的释放时期. 相似文献
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利用云南和四川数字地震观测台网记录的数字化地震资料,开展了川滇地区不同频率的QLg层析成像研究,反演结果的空间分辨率小于100 km.反演结果表明,川滇地区介质的横向不均匀性强烈,QLg高低值差异显著.川滇地区显著的高衰减区有川滇菱形块体的东南边界(即沿鲜水河至安宁河以及思茅—澜沧—普洱区),滇西北地区、龙门山断裂以西松潘—茂文地区、巴塘及理塘强震区等,Lg波高衰减区的分布与构造活动强烈、强震活动或大震破裂造成介质破碎区、低速区等相关,表明构造活动强烈或大震破裂造成的介质破碎、热物质沿活动断裂上涌等可能是川滇地区低QLg的主要成因.显著的低衰减区有川东盆地、滇东南地区以及金沙江、怒江断裂的中段区域,滇中块体内部也呈现出相对的低衰减特征.Lg波低衰减区与地震活动性弱、速度正异常等相关,表明川滇地区Lg波的低衰减区与地壳变形、地震活动性及水热活动弱、块体稳定等有关. 相似文献
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An ML4.7 earthquake occurred on February 2,2012 in Liaoning Gaizhou (40.56°N,122.36°E),since then,small earthquakes are frequent in this area,and until now the seismic activity does not stop,several earthquakes with magnitude larger than 4.0 have occurred.As of October 30,2014,1223 earthquakes have happened in the Gaizhou area,including 934 earthquakes with the magnitude ML1.0~1.9,247 with the magnitude ML2.0~2.9 and 45 with the magnitude ML3.0~3.9.Meanwhile,earthquakes are continuously active in Haicheng area where the MS7.3 earthquake happened in 1975,and there are over 1100 earthquakes (ML ≥ 1.0) having occurred since the Gaizhou earthquake swarm activity.Because the polarization direction of the fast shear wave is very sensitive to the variation of the principal stress environment,the shear wave splitting parameter can reflect the regional stress state and the local structural features,especially effective for the analysis of small-scale stress environment characteristics.So based on the seismic activities of the two earthquake clusters,this study analyzes the characteristics of shear-wave splitting in Gaizhou-Haicheng area.Preliminary results show that predominant polarization direction of fast shear-waves in the old earthquake region of Haicheng is stable,consistent with the direction of regional stress field.Due to presence of active fault below the Gaixian station (GAX),the predominant polarization direction of fast shear-waves is more complicated.There are two predominant polarizations,consistent respectively with Jinzhou Fault strike which is below the station and the maximum principal stress direction in this area.In addition,Gaizhou earthquake swarm activity increased after December 22,2013,and after the time node,the predominant polarization direction of fast shear-waves in Gaixian station is SEE,which is close to the predominant polarization direction of fast shear-waves in Yingkou station,at the same time consistent with the maximum principal stress direction of this region.Thus it can be inferred,the enhanced activity of Gaizhou earthquake swarm since December 22,2014 may be related to local enhancement of regional stress.In addition,the average time-delays of slow waves in station YKO and GAX show that there are no obvious changes before and after the time point of December 22,2013,which is different greatly with the previous related researches on the variation of slow wave time-delays,and there is no possibility that the Gaizhou earthquake swarm evolved into foreshock sequences from current preliminary results.We should do more work to study the details of the time delay variation of shear wave splitting parameter. 相似文献
20.
Relocation of hypocenters from DOMERAPI and BMKG networks: a preliminary result from DOMERAPI project 下载免费PDF全文
下载免费PDF全文 Mohamad Ramdhan Sri Widiyantoro Andri Dian Nugraha Jean-Philippe Métaxian Asep Saepuloh Said Kristyawan Andry Syaly Sembiring Agus Budi Santoso Antoine Laurin Ahmad Ali Fahmi 《地震科学(英文版)》2017,30(2):67-79
Merapi volcano located in central Java, Indonesia, is one of the most active stratovolcanoes in the world. Many Earth scientists have conducted studies on this volcano using various methods. The geological features around Merapi are very attractive to be investigated because they have been formed by a complex tectonic process and volcanic activities since tens of millions of years ago. The southern mountain range, Kendeng basin and Opak active fault located around the study area resulted from these processes. DOMERAPI project was conducted to understand deep magma sources of the Merapi volcano comprehensively. The DOMERAPI network was running from October 2013 to mid-April 2015 by deploying 46 broad-band seismometers around the volcano. Several steps, i.e., earthquake event identification, arrival time picking of P and S waves, hypocenter determination and hypocenter relocation, were carried out in this study. We used Geiger’s method (Geiger 1912) for hypocenter determination and double-difference method for hypocenter relocation. The relocation result will be used to carry out seismic tomographic imaging of structures beneath the Merapi volcano and its surroundings. For the hypocenter determination, the DOMERAPI data were processed simultaneously with those from the Agency for Meteorology, Climatology and Geophysics (BMKG) seismic network in order to minimize the azimuthal gap. We found that the majority of earthquakes occurred outside the DOMERAPI network. There are 464 and 399 earthquakes obtained before and after hypocenter relocation, respectively. The hypocenter relocation result successfully detects some tectonic features, such as a nearly vertical cluster of events indicating a subduction-related backthrust to the south of central Java and a cluster of events to the east of Opak fault suggesting that the fault has an eastward dip. 相似文献