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1.
三峡库区湖北秭归与巴东交界地区2013年以来发生5次M S4.0以上地震.本文基于湖北、重庆等省属13个测震台站宽频带波形数据,采用kiwi软件包和rapidinv12程序反演了这些地震的全矩张量解,结果显示所有地震双力偶解均为走滑兼逆断性质,两个节面走向、倾角、滑动角与P、T轴走向和倾俯角的一致性均较好,主压应力P轴NWW走向,倾角近水平,主张应力T轴NNE走向.与三峡库区现今构造应力场比较,这5次地震主压应力P轴与主张应力T轴的平均方向与其大体一致,并且节面1平均走向也与附近主要断裂:高桥断裂和周家山—牛口断裂走向大体一致,反映了这些地震受到区域现今构造应力环境的控制与影响.通过对地震矩张量的ISO+DC+CLVD分解显示,所有地震的ISO成分均低于10%,纯双力偶DC成分偏少而CLVD成分较多,主要与震源区地下浅层介质复杂的各向异性、多重剪切错动或液态下拉张错动有关.结合震源区局部特殊的岩层岩性结构和水文地质环境,分析认为库水长时期的侵蚀溶蚀与加卸荷载作用,有利于引起局部岩层强度降低,在特殊水位时段将触发岩层失稳而滑动破裂,这5次地震中CLVD成分较多正是这一复杂过程的重要体现. 相似文献
2.
Lane R. Johnson 《Pure and Applied Geophysics》2014,171(8):1641-1668
At The Geysers geothermal reservoir in northern California, evidence strongly suggests that activities associated with production of electric power cause an increase in the number of small earthquakes. First-degree dynamic moment tensors are used to investigate the relationship between induced earthquakes and injection of water into a well as part of a controlled experiment in the northwest Geysers. The estimation of dynamic moment tensors in the complex shallow crust at The Geysers is challenging, so the method is described in detail with particular attention given to the uncertainty in the results. For seismic events in the moment magnitude range of 0.9–2.8, spectral moduli of dynamic moment tensors are reliably recovered in the frequency range of 1–100 Hz, but uncertainty in the associated spectral phases limits their use to a few simple results. A number of different static moment tensors are investigated, with the preferred one obtained from parameters of a model fitted to the spectral modulus of the dynamic moment tensor. Moment tensors estimated for a group of 20 earthquakes exhibit a range of source mechanisms, with over half having significant isotropic parts of either positive or negative sign. Corner frequencies of the isotropic part of the moment tensor are about 40 % larger than the average of the deviatoric moment tensor. Some spatial patterns are present in source mechanisms, with earthquakes closely related in space tending to have similar mechanisms, but at the same time, some nearby earthquakes have very different mechanisms. Tensional axes of displacement in the source regions are primarily horizontal, while the pressure axes range from near horizontal to vertical. Injection of water into the well in the center of the study area clearly causes an increase in the number of earthquakes per day, but an effect upon source mechanisms is not evident. 相似文献
3.
Theoretical calculations are made to study the observability of isotropic components of seismic sources. In particular we consider the 1970 deep Colombian earthquake, for which a precursory isotropic component was previously reported by Gilbert and Dziewonski.We compare an ultra-long period vertical record at Pasadena of the 1970 event to synthetic seismograms calculated both for Gilbert and Dziewonski's source model and for the pure double-couple source of Furumoto and Fukao, and obtain better overall agreement for the latter. The amplitude of the long-period synthetic for the isotropic source is about 5–15 times smaller than the synthetic for the deviatoric source, suggesting that the data may be relatively insensitive to the presence of a small isotropic source. When this possibility was tested, the overall agreement was found to be almost completely insensitive to the presence of even a reasonably large isotropic component.However, the isotropic source was derived from multi-station moment tensor inversion, rather than from single-station studies. A numerical experiment on the effect of lateral heterogeneity of eigenfrequencies and of Q on the inversion for the moment tensor shows that even relatively small amounts of heterogeneity can produce spurious isotropic sources from moment tensor inversion. 相似文献
4.
5.
The moment tensor solutions of 51 small to moderate earthquakes occurred in the Capital Region in the year of 2004 are obtained by inverting the broadband waveform data. Accordingly, other source parameters, such as scalar seismic moments, moment magnitudes, double-couple (DC) components and compensated-linear-vector-dipole (CLVD) components, are determined as well as fault parameters and stress-axis parameters. The inverted results are evaluated by groups of numerical tests. 相似文献
6.
Applying genetic algorithm to inversion of seismic moment tensor solution and using the data of P waveform from digital network
and initial motion directions of P waves of Taiwan network stations, we studied the moment tensor solutions and focal parameters
of the earthquake of M=7.3 on 16 September of 1994 in Taiwan Strait and other four quakes of M
L≥5.8 in the near region (21°–26°N, 115°–120°E). Among the five earthquakes, the quake of M=7.3 on September 16, 1994 in Taiwan Strait is the strongest one in the southeastern coast area since Nan’ao earthquake of
M=7.3 in 1918. The results show that moment tensor solution of M=7.3 earthquake is mainly double-couple component, and is normal fault whose fault plane is near NW. The strike of the fault
plane resembles that of the distributive bands of earthquakes before the main event and fracture pattern shown by aftershocks.
The tension stress axis of focal mechanism is about horizontal, near in NE strike, the compressive stress axis is approximately
vertical, near in NWW strike. It seems that this quake is controlled by the force of Philippine plate’s pressing Eurasian
plate in NW direction. But from the viewpoint of P axis of near vertical and T axis of near horizontal, it is a normal fault of strong tensibility. There are relatively big difference between focal mechanism
solution of this quake and those of the four other strong quakes. The complexity of source mechanism solution of these quakes
represents the complexity of the process of the strait earthquake sequences.
Contribution No. 98A01001, Institute of Geophysics, State Seismological Bureau, China.
The subject is supported and helped by Academician Yun-Tai CHEN, Profs. Qing-Yao HONG, Zhen-Xing YAO, Tian-Yu ZHENG, Yao-Lin SHI, Ji-An XU, Bo-Shou HUANG and colleague Mei-Jian AN, Xue-Reng DING, Rui-Feng LIU. De-Chong ZHANG and Ming Li provided the digital data warm-heartedly. Lin-Ying WANG offered us the catalogue of earthquakes in southeastern coastal area in China. Xi-Li WANG and Tong-Xia BAI provided us the issued annual reports data. The authors would like to express their gratitude to all of these people.
This paper is sponsored by the National Natural Science Foundation of China and Scientific and Technological Commission of
Shantou, Guangdong Province. 相似文献
7.
The western part of the Bohemian Massif (West Bohemia/Vogtland region) is characteristic in the relatively frequent recurrence
of intraplate earthquake swarms and in other manifestations of past-to-recent geodynamic activity. In this study we derived
1D anisotropic qP-wave model of the upper crust in the seismogenic West Bohemia/Vogtland region by means of joint inversion
of two independent data sets - travel times from controlled shots and arrival times from local earthquakes extracted from
the WEBNET seismograms. We derived also simple 1-D P-wave and S-wave isotropic models. Reasons for deriving these models were:
(a) only simplified crustal velocity models, homogeneous half-space or 1D isotropic layered models of this region, have been
derived up to now and (b) a significant effective anisotropy of the upper crust in the region which was indicated recently
by S-wave splitting. Both our anisotropic qP-wave and isotropic P-and S-wave velocity models are constrained by four layers
with the constant velocity gradient. Weak anisotropy for P-waves is assumed. The isotropic model is represented by 9 parameters
and the anisotropic one is represented by 24 parameters. A new robust and effective optimization algorithm - isometric algorithm
- was used for the joint inversion. A two-step inversion algorithm was used. During the first step the isotropic P- and S-wave
velocity model was derived. In the second step, it was used as a background model and the parameters of anisotropy were sought.
Our 1D models are adequate for the upper crust in the West Bohemia/Vogtland swarm region up to a depth of 15 km. The qP-wave
velocity model shows 5% anisotropy, the minimum velocity in the horizontal direction corresponds to an azimuth of 170°. The
isotropic model indicates the VP/VS ratio variation with depth. The difference between the hypocentre locations based on the derived isotropic and anisotropic
models was found to be several hundreds of meters. 相似文献
8.
An earthquake of M
S=7.4 occurred in Mani, Xizang (Tibet), China on November 8, 1997. The moment tensor of this earthquake was inverted using
the long period body waveform data from China Digital Seismograph Network (CDSN). The apparent source time functions (ASTFs)
were retrieved from P and S waves, respectively, using the deconvolution technique in frequency domain, and the tempo-spatial
rupture process on the fault plane was imaged by inverting the azimuth dependent ASTFs from different stations. The result
of the moment tensor inversion indicates that the P and T axes of earthquake-generating stress field were nearly horizontal, with the P axis in the NNE direction (29°), the T axis in the SEE direction (122°) and that the NEE-SWW striking nodal plane and NNW-SSE striking nodal plane are mainly left-lateral
and right-lateral strike-slip, respectively; that this earthquake had a scalar seismic moment of 3.4×1020 N·m, and a moment magnitude of M
W=7.6. Taking the aftershock distribution into account, we proposed that the earthquake rupture occurred in the fault plane
with the strike of 250°, the dip of 88° and the rake of 19°. On the basis of the result of the moment tensor inversion, the
theoretical seismograms were synthesized, and then the ASTFs were retrieved by deconvoving the synthetic seismograms from
the observed seismograms. The ASTFs retrieved from the P and S waves of different stations identically suggested that this
earthquake was of a simple time history, whose ASTF can be approximated with a sine function with the half period of about
10 s. Inverting the azimuth dependent ASTFs from P and S waveforms led to the image showing the tempo-spatial distribution
of the rupture on the fault plane. From the "remembering" snap-shots, the rupture initiated at the western end of the fault,
and then propagated eastward and downward, indicating an overall unilateral rupture. However, the slip distribution is non-uniform,
being made up of three sub-areas, one in the western end, about 10 km deep ("western area"); another about 55 km away from
the western end and about 35 km deep ("eastern area"); the third about 30 km away from the western end and around 40 km deep
("central area"). The total rupture area was around 70 km long and 60 km wide. From the "forgetting" snap-shots, the rupturing
appeared quite complex, with the slip occurring in different position at different time, and the earthquake being of the characteristics
of "healing pulse". Another point we have to stress is that the locations in which the rupture initiated and terminated were
not where the main rupture took place. Eventually, the static slip distribution was calculated, and the largest slip values
of the three sub-areas were 956 cm, 743 cm and 1 060 cm, for the western, eastern and central areas, respectively. From the
slip distribution, the rupture mainly distributed in the fault about 70 km eastern to the epicenter; from the aftershock distribution,
however, the aftershocks were very sparse in the west to the epicenter while densely clustered in the east to the epicenter.
It indicated that the Mani M
S=7.9 earthquake was resulted from the nearly eastward extension of the NEE-SWW to nearly E-W striking fault in the northwestern
Tibetan plateau.
Contribution No. 99FE2016, Institute of Geophysics, China Seismological Bureau.
This work is supported by SSTCC Climb Project 95-S-05 and NSFDYS 49725410. 相似文献
9.
Moment tensor inversion of near-source broadband data 总被引:1,自引:0,他引:1
Moment tensor inversion of near-source broadband data(吴忠良)(陈运泰(倪江川)(王培德)(王鸣)Momenttensorinversionofnear-sourcebroadbanddata¥Z... 相似文献
10.
The full moment tensor is a mathematical expression of six independent variables; however, on a routine basis, it is a common practice to reduce them to five assuming that the isotropic component is zero. This constraint is valid in most tectonic regimes where slip occurs entirely at the fault surface (e.g. subduction zones); however, we found that full moment tensors are best represented in transform fault systems. Here we present a method to analyze source complexity of earthquakes of different sizes using a simple formulation that relates the elastic constants obtained from independent studies with the angle between the slip and the fault normal vector, referred to as angle \( \theta \) ; this angle is obtained from the full moment tensors. The angle \( \theta \) , the proportion of volume change \( \left( k \right) \) and the constant volume (shear) component \( \left( T \right) \) are numerical indicators of complexity of the source; earthquakes are more complex as \( \theta \) deviates from \( \pi /2 \) or as T and k deviate from zero as well. These parameters are obtained from the eigensolution of the full moment tensor. We analyzed earthquakes in the Gulf of California that exhibit a clear isotropic component and we observed that the constant volume parameter T is independent of scalar moments, suggesting that big and small earthquakes are equally complex. In addition, simple models of one single fault are not sufficient to describe physically all the combinations of \( \theta \) in a source type plot. We also found that the principal direction of the strike of the Transform Fault System in the Gulf of California is following the first order approximation of the normal surface of the full moment tensor solution, whereas for deviatoric moment tensors the principal direction does not coincide with the strike of the Transform Fault System. Our observations that small and large earthquakes are equally complex are in agreement with recent studies of strike-slip earthquakes. 相似文献
11.
2013年10月31日11时03分,在吉林省松原市前郭尔罗斯蒙古族自治县发生MS5.5级地震,11时10分,震区再发生MS5.0级地震.截止2013年11月23日,吉林前郭-乾安地区(本文统称为前郭-乾安震源区)已经发生MS5.0级以上地震5次.虽然震源区外围中强地震活跃,但在前郭-乾安震源区内,据历史地震资料记载,仅2006年3月31日在距离本次地震序列以西8 km处发生过一次乾安、前郭交界MS5.1级地震.除此之外,距离震源区90 km处,曾于公元1119年2月发生过M6.7级地震.为了更好地认识区域孕震环境,本文利用吉林、辽宁、内蒙古以及黑龙江数字地震台网的三分向宽频带波形资料,建立了适用于这些台站的分区速度结构模型,反演了2013年10月31日-11月23日前郭-乾安震源区ML≥4.5级中强地震的矩张量解.结果显示,几次中强地震均呈现逆断层兼少量走滑性质,其中NW走向的节面Ⅰ为此次中强地震序列的断层面,发震断层的优势走向集中在320°左右,优势倾角分布在38°~65°.根据矩张量反演结果,结合地震序列重新定位(郑钰,待发表)后的空间分布情况,我们推测此次地震序列的发震构造可能是震源区基底深部一条NW向隐伏逆冲断层,这条断层延伸至地表的位置可能位于震源区北侧靠近124°经度隆起带附近.此外,震源区的发震构造和浅部应力场可能是在西太平洋板块俯冲产生的挤压应力场背景下,受控于郯庐断裂带右行走滑的次级应力场. 相似文献
12.
On the retrieval of moment tensors from borehole data 总被引:5,自引:0,他引:5
Václav Vavry&#;uk 《Geophysical Prospecting》2007,55(3):381-391
The complete moment tensors of seismic sources in homogeneous or vertically inhomogeneous isotropic structures cannot be retrieved using receivers deployed in one vertical borehole. The complete moment tensors can be retrieved from amplitudes of P‐waves, provided that receivers are deployed in at least three boreholes. Using amplitudes of P‐ and S‐waves, two boreholes are, in principle, sufficient. Similar rules also apply to transversely isotropic media with a vertical axis of symmetry. In the case of limited observations, the inversion can be stabilized by imposing the zero‐trace constraint on the moment tensors. However, this constraint is valid only if applied to observations of shear faulting on planar faults in isotropic media, which produces double‐couple mechanisms. For shear faulting on non‐planar faults, for tensile faulting, and for shear faulting in anisotropic media, the zero‐trace constraint is no longer valid and can distort the retrieved moment tensor and bias the fault‐plane solution. Numerical modelling simulating the inversion of the double‐couple mechanism from real data reveals that the errors in the double‐couple and non‐double‐couple percentages of the moment tensors rapidly decrease with increase in the number of boreholes used. For noisy P‐ and S‐wave amplitudes with noise of 15% of the top amplitude at each channel and for a velocity model biased by 10%, the errors in the double‐couple percentage attain 25, 13 and 6% when inverting for the double‐couple mechanism from one, two and three boreholes. 相似文献
13.
基于江苏、安徽、山东和浙江等省区域台网共19个宽频带数字台站的地震波形,采用HypoDD双差定位方法确定了2012年7月20日江苏高邮—宝应MS4.9级地震震中位置,再利用时间域矩张量反演法TDMT_INV获得了其震源机制解和震源深度.反演结果显示:最佳双力偶解为节面Ⅰ走向290°,倾角88°,滑动角-21°;节面Ⅱ走向21°,倾角69°,滑动角-177°,地震矩震级为MW4.95,震源深度约为7~9km.利用滑动时窗相关法提取sPn震相测定震源深度为8.95km,两者一致性较好.随后不同地壳模型和不同震中定位误差对反演结果的影响试验揭示了反演结果具有稳定性.通过以下几种分析:1与利用CAP(Cut and Paste)矩张量反演法得到的结果进行对比;2P波初动投影;3正反演试验探求反演结果不稳定的影响因素等方法,验证了反演结果的可靠性.综合本文研究成果、震后科学考察结果(包括重力测量和地震烈度分布图)及现有的地质构造资料,推测此次地震的发震构造为杨汊仓—桑树头断裂,节面Ⅱ为断层面,是一个右旋走滑兼有少量正断层性质的错动. 相似文献
14.
Moment tensors of eleven major earthquakes in the Tibetan Plateau and its surrounding region from 1966 to 1980 are estimated
by generalized inverse technique. The seismic source time function and focal depth are immediately determined in the inversion.
The results show that moment tensors of some events differ significantly from double couple, the deviation increases with
decreasing plunge angle of null axis. All these events occurred in the upper crust, much shallower than those reported so
far, for example, in NEIS Bulletin. Focal mechanism solution obtained from the moment tensors are consistent with the idea
that the Indian plate collides northwards with the Eurasian plate and that an eastward spreading exists in the crust of the
Tibetan Plateau. The stress drops for earthquakes of intraplate are systematically higher than those of earthquakes in suture
zone. The source process duration becomes longer with seismic moment, but for the same seismic moment, the process duration
for earthquakes in suture zone is about 1.4 times of those for intraplate event, these results suggest that the earthquakes
near suture zone may be of a special characteristics in source process differently from those in intraplate.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 423 – 434, 1992. 相似文献
15.
基于区域地震台网观测数据,采用近震波形反演方法,确定2018年2月12日河北永清M4.3地震的最佳双力偶源震源机制解为:节面Ⅰ走向297°,倾角58°,滑动角-32°;节面Ⅱ走向45°,倾角63°,滑动角-144°;是一个略带正断分量的右旋走滑地震.结合近震转换波测定主震的震源深度在19km附近.地震序列的双差定位结果显示:永清地震序列震中呈北东向窄带展布,表明此次地震主要向北东向破裂;深度集中分布在17~19km,整体形态近于铅直,显示发震断裂具有走向北东、倾向南东、倾角陡立的特征,与节面Ⅱ的性质比较吻合,推测节面Ⅱ为发震断层面.将发震断层面参数与震源区附近断裂性质进行对比分析,形成了关于廊固凹陷附近区域地震构造的一些认识:(1)推测永清地震的发震构造不是地壳浅部发育的先存正断裂,而是震源区下方一条地壳尺度的深断裂,该深断裂为新生断裂,具有右旋走滑正断性质,倾角陡峭、近于直立、宽度较大,向上与夏垫断裂相通.(2)综合震源区附近多条深地震反射剖面探测结果,推测永清地震的发震断裂与新夏垫断裂同属一条断裂,称为:新夏垫深断裂.该断裂从夏垫向西南方向延伸至文安,并可能与霸县—束鹿—邯郸断裂带相联系,总长度超过150km.(3)基于2006年文安M5.1地震与2018年永清M4.3地震在震源机制上的相似性及震源位置上的关联性,结合区域构造条件,认为两次地震的发震构造均为新夏垫深断裂.(4)根据研究区几次显著地震的震源深度分布特征,参考区域断层构造、电性结构和流变学模型,推测活化克拉通块体新生断裂的脆韧性转换界面深度在15km附近. 相似文献
16.
采用双差定位法对山东莱州地震序列重新定位,通过CAP方法反演M4.6地震震源机制,在此基础上初步探讨莱州地震序列发震构造。结果显示:精确定位震中位置主要位于柞村—仙夼断裂的NW方向,深度剖面显示从SE方向到NW方向断层深度呈由浅逐渐变深的趋势,这均与柞村—仙夼断裂位置、走向、倾向特征较为吻合;M4.6地震震源机制解的节面Ⅰ与柞村—仙夼断裂走向、倾角较为接近。综合精确定位震中位置、剖面深度分布特征、M4.6地震震源机制解及宏观调查烈度分布等结果与柞村-仙夼断裂产状之间的关系,初步推测柞村—仙夼断裂可能为莱州地震序列的发震断层。 相似文献
17.
Fault plane parameters of Sanhe-Pinggu M8 earthquake in 1679 determined using present-day small earthquakes 
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下载免费PDF全文 Xiaoshan Wang Xiangdong Feng Xiwei Xu Guiling Diao Yongge Wan Libin Wang Guangqing Ma 《地震科学(英文版)》2014,27(6):607-614
The great Sanhe-Pinggu M8 earthquake occurred in 1679 was the largest surface rupture event recorded in history in the northern part of North China plain. This study determines the fault geometry of this earthquake by inverting seismological data of present-day moderate-small earthquakes in the focal area. We relocated those earthquakes with the double-difference method. Based on the assumption that clustered small earthquakes often occur in the vicinity of fault plane of large earthquake, and referring to the morphology of the long axis of the isoseismal line obtained by the predecessors, we selected a strip-shaped zone from the relocated earthquake catalog in the period from 1980 to 2009 to invert fault plane parameters of this earthquake. The inversion results are as follows: the strike is 38.23°, the dip angle is 82.54°, the slip angle is -156.08°, the fault length is about 80 km, the lower-boundary depth is about 23 km and the buried depth of upper boundary is about 3 km. This shows that the seismogenic fault is a NNE-trending normal dip-slip fault, southeast wall downward and northwest wall uplift, with the right-lateral strike-slip component. Moreover, the surface rupture zone, intensity distribution of the earthquake and seismic-wave velocity profile in the focal area all verified our study result. 相似文献
18.
Source parameters determination for earthquakes in Kushiro,Japan considering source time function 下载免费PDF全文
下载免费PDF全文 This paper applies a new formulation to do moment tensor inversion for earthquakes in the Kushiro area of Japan. Comparing with conventional moment tensor inversion method, the new one takes the effect of source time function into consideration. For the inversion, best solution is obtained by minimizing the difference between the observed seismograms and the synthetic ones. And the best-fitting focal depth is determined from the variance reduction. The results indicate that half duration of source time function is proportional to the magnitude of earthquakes. Large earthquakes have long half duration, whereas that of moderate-small earthquakes is comparatively shorter. The focal mechanisms of all three earthquakes are of thrust fault type, which is mainly ascribed to the collision of the North American plate with the Eurasia plate in the late Cretaceous or Paleogene. 相似文献
19.
Source inversion of small-magnitude events such as aftershocks or mine collapses requires use of relatively high frequency seismic waveforms which are strongly affected by small-scale heterogeneities in the crust. In this study, we developed a new inversion method called gCAP3D for determining general moment tensor of a seismic source using Green's functions of 3D models. It inherits the advantageous features of the “Cut-and-Paste” (CAP) method to break a full seismogram into the Pnl and surface-wave segments and to allow time shift between observed and predicted waveforms. It uses grid search for 5 source parameters (relative strengths of the isotropic and compensated-linear-vector-dipole components and the strike, dip, and rake of the double-couple component) that minimize the waveform misfit. The scalar moment is estimated using the ratio of L2 norms of the data and synthetics. Focal depth can also be determined by repeating the inversion at different depths. We applied gCAP3D to the 2013 Ms 7.0 Lushan earthquake and its aftershocks using a 3D crustal-upper mantle velocity model derived from ambient noise tomography in the region. We first relocated the events using the double-difference method. We then used the finite-differences method and reciprocity principle to calculate Green's functions of the 3D model for 20 permanent broadband seismic stations within 200 km from the source region. We obtained moment tensors of the mainshock and 74 aftershocks ranging from Mw 5.2 to 3.4. The results show that the Lushan earthquake is a reverse faulting at a depth of 13–15 km on a plane dipping 40–47° to N46° W. Most of the aftershocks occurred off the main rupture plane and have similar focal mechanisms to the mainshock's, except in the proximity of the mainshock where the aftershocks' focal mechanisms display some variations. 相似文献
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本文介绍了2019年4月7日北京海淀M2.9及4月14日北京怀柔M3.0地震的基本参数速报情况,并利用区域台网波形数据,采用全波形反演方法ISOLA获得了这两次地震的最佳双力偶解。反演结果显示:M2.9地震的节面Ⅰ走向29°,倾角70°,滑动角?149°,节面Ⅱ走向288°,倾角61°,滑动角?22°;矩心深度14 km,矩震级MW=3.4。M3.0地震的节面Ⅰ走向93°,倾角84°,滑动角?30°,节面Ⅱ走向186°,倾角60°,滑动角173°;矩心深度16 km,矩震级MW=3.4。震源机制反演结果表明,两次地震均为走滑型为主的地震,其与震源区域附近历史地震震源机制解具有相同性质。 相似文献