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1.
2017年8月8日四川九寨沟发生MS7.0地震,该地震发生在巴颜喀喇块体的东北边界,震中区域构造条件复杂,是巴颜喀喇块体北侧左旋走滑环境向东侧逆冲挤压环境过渡的位置,附近地区历史强震较多。九寨沟地震是一次主-余型地震,余震活动水平较弱,主震发生后短时间内ML≥4.0余震的“等待时间”存在异常,震后较长时间余震活动恢复到正常状态,序列h值、余震视应力等符合主-余型序列特征。序列b值为0.84,G-R关系推测序列最大余震的震级约为ML5.4(MS5.0),8月9日发生的MS4.8地震是目前该序列的最强余震。通过与1970年以来附近地区7级左右地震序列的对比认为,九寨沟地震与1976年松潘-平武2次7.2级地震序列在余震空间位置、发震构造和震源机制等方面存在较大差异,因此,不具备发育为震群型序列的条件。九寨沟地震主震视应力为0.36~0.38MPa,属于应力下调模型,序列余震的平均视应力水平接近龙门山断裂带附近中小地震的平均背景水平。 相似文献
2.
2018年9月4日新疆伽师发生MS5.5地震,震中处于塔里木地块西北缘,位于1997~1998年伽师强震群震区内。此次伽师地震前发生了MS4.7前震,截至9月30日最大余震震级为MS4.6(ML5.0),初步判定为前-主-余型地震序列。序列精定位结果显示,余震沿近NE向展布,主震震源深度与1997~1998年伽师强震主震基本一致,发震断层陡立。本文从区域的构造环境、地震震源机制解和余震分布特征等方面分析认为,地震发生在伽师隐伏断裂东南端部,为1997~1998年伽师强震群震区的一次新的构造活动。序列参数、视应力等计算结果显示,伽师MS5.5地震的预测最大余震震级与最大余震震级MS4.6接近,表明序列最大余震已经发生。 相似文献
3.
2022年1月8日青海省海北州门源县发生MS6.9地震,震中距离2016年1月21日门源MS6.4地震震中约33km,两次门源地震均发生在冷龙岭断裂附近,但在震源机制、主发震断层破裂过程及地震序列余震活动等方面显著不同。针对两次门源地震序列的比较分析,对研究冷龙岭断裂及其附近区域强震序列和余震衰减特征等具有重要研究意义。通过对比分析2022年门源MS6.9地震和2016年门源MS6.4地震余震的时空演化特征,发现二者在震源过程和断层破裂尺度上存在明显差异,前者发震断层破裂充分,震后能量释放充分,余震丰富且震级偏高;而后者发震断层未破裂至地表,余震震级水平偏低。综合分析两次门源地震序列表现出来的差异性,认为其可能与地震发震断层的破裂过程密切相关,且同时受到区域构造环境的影响。 相似文献
4.
2017年8月9日新疆博尔塔拉州精河县发生MS6.6地震,震中44.3°N、82.9°E,震源深度11km,精河地震发生在库松木契克山前断裂附近,基于远震波形记录反演的震源机制为逆冲型,地质调查结果显示主震破裂未出露地表。利用地震精定位研究余震的空间分布,结果显示,余震展布与库松木契克山前断裂的走向基本吻合,且余震主要分布在主震西侧,单侧破裂特征明显,余震的深度集中在5~15km。基于M-t图分析序列的衰减特征发现,截至2017年8月20日,序列中ML2.0、ML3.0余震相对丰富,衰减基本正常。G-R关系给出的b值为0.54,外推最大余震震级为MS5.6,h值为2.17,均显示该序列为主-余型。MS≥4.0余震的等待时间与发生时间较好地满足双对数线性关系,同样为主-余型地震的特征。断层面上静态滑动量分布相对单一且集中,最大滑动位于沿倾向10km处附近,与地质调查主震断层未出露地表的结果一致,同时也表明主震破裂较充分。基于数字波形资料计算出的余震视应力与震级间很好地符合指数关系,扣除震级变化影响后的序列视应力未出现显著高值,也表明此次破裂的能量释放比较充分。 相似文献
5.
本文选取2013年芦山地震和2017年九寨沟地震波形,重新量取垂直向振幅,计算宽频带面波震级MS(BB),分析各台站实测震级出现方向性差异的原因。其中,通过572个宽频带台站实测芦山地震震级MS(BB)7.1,通过603个宽频带台站实测九寨沟地震震级MS(BB)6.9。芦山地震实测震级大于MS(BB)7.3的台站呈现WN-ES向分布,与断层倾向一致;实测震级小于MS(BB)7.0的台站呈现NE-WS向分布,与其所在断层走向一致。九寨沟地震实测震级大于MS(BB)7.0的台站分布呈现NE向分布,与断层倾向一致;实测震级小于MS(BB)6.8的台站总体分布较为离散,大体呈现NW-SE向分布,与树正断裂走向一致。实测震级偏大的台站方向性分布与多普勒效应和P波辐射花样联系不明显。对比分析芦山地震和九寨沟地震,去除场地响应和仪器自身影响,台站实测震级差异性仍然存在,因此,台站实测震级差异性是由于受到了多普勒效应、辐射花样、仪器和场地响应之外的因素影响。综合考虑地震震级涉及的影响因素,芦山地震和九寨沟地震的台站实测震级差异性可能与地震波的传播路径有关。 相似文献
6.
7.
针对2012年5月28日唐山ML5.2地震发生在老震区5级地震平静17年的背景,且其震级与唐山大地震序列强度衰减趋势相比明显偏高这一现象,采用双差层析成像方法,以2年为时间间隔对唐山地区2010年5月~2016年5月的地震数据进行反演,获得该区2012年唐山ML5.2地震前后地壳的三维地震P波和S波速度的空间分布,结合此次地震的精定位震源参数,对比分析地震前后震源区地下介质波速的变化特征。研究结果发现此次地震发生前,震中处在高低速过渡带的位置,震后震中附近的波速出现一定程度的降低。 相似文献
8.
利用内蒙古地区测震台网记录到的地震波形数据,基于地震预警参数阈值(特征周期τc和位移幅值Pd)开展评估内蒙古地区中强地震潜在破坏区范围的研究。按照一定的筛选条件进行筛选后,拟合出适合内蒙古地区的τc与震级ML、Pd与τc和震源距R的统计关系式;根据现有地震事件的最大震级,得到仪器烈度为Ⅳ度、震级ML=5.0时对应的参数阈值为Pd=0.1075cm和τc=0.686s。最后对近年来内蒙古境内2次中强地震开展线下模拟,结果表明该方法需要台网具有一定密度,如能均匀分布,效果更好,否则会出现结果仅由经验关系式决定、而实际观测值没有发挥作用的问题。 相似文献
9.
基于新疆区域数字地震台网震相观测报告,采用HypoDD方法精确定位了精河MS6.6地震序列ML≥1.0地震的震源位置,综合分析了此次地震序列的空间分布特征和可能的发震构造。结果显示,主震震中为44.2639°N、82.8294°E,震源初始破裂深度为17.6km;地震序列总体沿近EW(273°)向单侧扩展,展布长度约20km;震源深度优势分布范围为7~17km;沿余震走向的深度剖面显示,主震向西10km范围内,余震震源有逐渐变浅的趋势,余震序列中尾端向SW方向偏转的地震震源较深;垂直于地震序列的深度剖面显示,地震序列自北向南呈现逐渐加深的变化特征,表明发震断层面倾向为S倾。综合考虑中国地震局地球物理研究所给定的震源机制解以及震源区地质构造情况推测,精河MS6.6地震发震构造可能为库松木契克山前断裂东段。 相似文献
10.
针对九寨沟MS7.0地震之后不同时间段的余震序列目录,利用推定最大余震震级,给出了实际最大余震震级的估计值。结果表明,推定最大余震震级随主震后时间尺度的延长而趋于稳定,且该值与实际发生的最大余震的震级一致。需要强调的是,就九寨沟地震序列而言,当余震数据较为完备时,采用主震后较短时间段内(1~2天)的余震目录就可以较准确地估算出主震区域内可能发生的最大余震震级。实际上,主震后12h(0.5天)的余震数据已完全可以给出最大余震震级的有效下限。此外,计算中我们采用了里氏震级ML和面波震级MS的余震目录,结果显示,2种震级类型目录的估算结果完全一致,表明利用推定最大余震震级估算实际最大余震震级的方法不受震级类型的影响。据此,该最大余震震级快速评估方法可进一步推广应用于我国大陆地区中强震后强余震灾害分析评估中。目前的拟合技术也显示出随着测震技术的不断进步以及余震识别能力的提高,快速评估方法可以在主震后短时间(<1天)内准确地预测可能发生的最大余震震级。 相似文献
11.
The compression wavefield is efficiently converted to shear-wave energy at post-critical angles in areas of high impedance contrast at the sea floor. We have analysed mode-converted shear waves in a data set acquired with a hybrid marine/land geometry in Isfjorden, Svalbard. Through a kinematic 2D ray-tracing modellingV
p/Vs ratios for part of the uppermost 5km of the crust are obtained. Low values (V
p
/V
s
=1.65) are tentatively associated with the section of Devonian sandstones which appears to attain a minimum thickness of 1.5km below 3 km depth about 10km west of Kapp Thorden. 相似文献
12.
In this paper, we give a brief introduction to the proposal and development history of the earthquake magnitude concept. Moment magnitude MW is the best physical quantity for measuring earthquakes. Compared with other magnitude scales used traditionally, moment magnitude is not saturated for all earthquakes, regardless of big and small earthquakes, deep and shallow earthquakes, far field and near field seismic data, geodetic and geological data, moment magnitude can be measured, and can be connected with well-known magnitude scales such as surface wave magnitude MS. Moment magnitude is a uniform magnitude scale, which is suitable for statistics with wide magnitude range. Moment magnitude is the preferred magnitude selected by the International Seismological community, and it is preferred by the departments responsible for publishing seismic information to the public.Moment magnitude is a uniform magnitude scale, which is suitable for statistics with wide magnitude range. Moment magnitude is a preferred magnitude for international seismology, it is preferred by the agency responsible for providing information about earthquakes to the public. We provide all formulas used in the calculation of moment magnitude, and the calculation steps in detail. We also analyzed some problems and rules to solve these problems by using different formulas and numerical value calculation steps. 相似文献
13.
The New Magnitude National Standard of General Rules for Earthquake Magnitude( GB17740-2017) is the state mandatory standard. It was released on May 12,2017,by the General Administration of Quality Supervision,Inspection and Quarantine of the Peoples Republic of China and the Standardization Administration of the Peoples Republic of China. This paper introduces the necessity of revising the national standard of magnitude,and the main contents,technical points and primary features of the new national standard of magnitude,so that it can be applied better in practice. 相似文献
14.
以青海、新疆、西藏地区为研究区域,系统研究总结了该区域2010—2020年5.0级以上地震前Wq值的时空演化特征,并以2020年新疆于田6.4级和西藏尼玛6.6级地震为实例进行阐述。得出以下三点认识:①地震一般发生在Wq值异常扩展时段或扩展—减小时段,6.0级以上Wq值异常的震例中,约81%发生于异常出现后的9个月内;②地震一般位于Wq值异常面积扩展区或扩展—减小恢复区附近,近70%的震例发生在Wq值异常区内;③建立了震级与Wq值异常区面积间的正相关统计模型,二者的相关系数(R)为0.85,为预测青海、新疆和西藏地区地震的强度提供了定量关系。青海、新疆和西藏地区Wq值方法对6.0~6.9级地震的预测效果(Wq值异常的地震报准率为61%)优于5.0~5.9级地震(Wq值异常的地震报准率为26%),为我国地球物理观测程度较低地区开展强震中短期(1年内)预测提供了参考依据。 相似文献
15.
内蒙古地震台网近震震级与面波震级间转换关系研究 总被引:2,自引:0,他引:2
利用内蒙古及周边2008~2015年11月116次M_L≥3.8地震资料,重新测定近震震级M_L、面波震级M_S,基于1范数线性回归(SR1和SR2)和2范数正交回归(OR)方法建立M_L与M_S间的转换关系。同时,对每个点采用高斯随机扰动后发现,高斯扰动前后近震震级与面波震级间的转换关系变化不大。结果显示,正交回归方法(OR)得到的曲线,均方根误差最小,为最佳拟合曲线,转换关系式为M_(S,内蒙)=0.96M_L-0.10。郭履灿震级转换关系M_S=1.13M_L-1.08与本文得到的转换关系存在明显系统偏差,这可能是由于区域构造特征差异所致。M_(S,内蒙)值明显大于M_(S,经验)值,平均差值为0.23,建议使用重新矫正的M_L与M_S转换关系式,M_(S,经验)与M_(S,内蒙)差值数量分布情况显示,差值为0.2~0.3的地震数量最多。 相似文献
16.
Attenuation of Coda Waves at the Changbaishan Tianchi Volcanic Area in Northeast China 总被引:2,自引:0,他引:2
21 earthquakes recorded by a temporary seismic network in the Changbaishan Tianchi volcanic area in Northeast China operated
during the summer of 2002 and 2003 were analyzed to estimate the S coda attenuation. The attenuation quality factor Qc was estimated using the single scattering attenuation model of Sato (1977) in the frequency band from 4 to 24 Hz. All the
events studied in this paper occurred at depths from 2 to 6 km with ML of 1.4–2.8. The epicentral distances are less than
25 km. For all events which occurred near the Tianchi Lake (caldera), the Qc patterns obtained at the stations near the lake are similar, and the Qc values are relatively small. At the stations located about 15 km east of the Tianchi Lake, however, the average Qc is significantly higher. For an event which occurred 25km from the lake to the west, Qc patterns derived at the stations near the lake are quite similar to the above mentioned Qc for stations located in the east. Further study shows that Qc value in the north and central areas of the volcano is relatively lower than that in the surrounding area. Compared to other
volcanic areas in the world, the average Qc of the Changbaishan Tianchi volcanic area is obviously lower. The deep seismic sounding and teleseismic receiver function
studies indicated more than one lower velocity layer in the crust. The MT studies suggested the presence of high conductive
bodies beneath the area. We interpret the strong attenuation of coda waves near the Changbaishan Tianchi volcano as being
possibly related to high temperature medium caused by shallow magma chambers. 相似文献
17.
Using 116 earthquakes over M_L3.8 in the Inner Mongolia region from 2008 to 2015, the local earthquake magnitude M_L and surface wave magnitude M_S are remeasured. Based on norm linear regression(SR1 and SR2) and norm(OR) orthogonal regression method, we established the conversion relationship between M_L and M_S. The results were tested with Gaussian disturbance. The result shows that the orthogonal regression method(OR) result has the best fitting curve, and the conversion relation is M_S=0.96 M_L-0.10. The difference between our result and Guo Lücan's(M_S=1.13 M_L-1.08) may be caused by regional tectonic characteristics. M_(S Inner Mongolia) value is significantly higher than the M_(S empirical) value, with an average difference of 0.23, the difference distribution of empirical relation and the rectified relation is in the range of 0.2-0.3. 相似文献
18.
12002年12月14日玉门MS5.9地震发震时间:21∶27′27″;经纬度:39.8°N,97.3°E;深度:33km;震级:MS5.9。收集了全省及邻近省份共同31个台站初动后作出震源机制解(表1,图1)。表1 玉门MS5.9地震震源参数节面A节面BP轴T轴N轴矛盾比/%走向倾角滑动角走向倾角滑动角方位角仰角方位角仰角方位角仰角147°26°35°24°75°111°277°27°140°55°18°21°0.09722003年10月25日民乐-山丹MS6.1地震发震时间:20∶41′36.4″;经纬度:38.33°N,100.95°E;深度:12km;震级:MS6.1。收集了全省21个台站初动后作出震源机制解(表2,图2)。表2 民乐-山… 相似文献
19.
A tomographic study of the V
p and V
p/V
s structures in the crust and upper mantle beneath the Taiwan region of China is conducted by simultaneous inversion of P and
S arrival times. Compared with the previous tomographic results, the spherical finite difference technique is suitable for
the strong heterogeneous velocity structure, and may improve the accuracy in the travel time and three-dimensional ray tracing
calculations. The V
p and V
p/V
s structures derived from joint inversion and the relocated earthquakes can provide better constraints for analyzing the lateral
heterogeneity and deep tectonic characters in the crust and upper mantle. Our tomographic results reveal significant relations
between the seismic wavespeed structure and the tectonic characters. In the shallow depth, sedimentary basins and orogen show
distinct wavespeed anomalies, with low V
p, high V
p/V
s in basins and high V
p, low V
p/V
s in orogen. As the suture zone of Eurasian Plate and Philippine Sea Plate, Longitudinal Valley is characterized by a significant
high V
p/V
s anomaly extending to the middle-lower crust and upper mantle, which reflects the impact of rock cracking, partial melting,
and the presence of fluids. In the northeast Taiwan, the V
p, V
p/V
s anomalies and relocated earthquakes depict the subducting Philippine Sea Plate under the Eurasian Plate. The high V
p of oceanic plate and the low V
p, high V
p/V
s atop the subducted oceanic plate extend to 80 km depth. Along the east-west profiles, the thickness of crust reaches 60 km
at the east of Central Range with eastward dipping trend, which reveals the eastward subduction of the thickened and deformed
crust of the Eurasian continental plate.
Supported by Knowledge Innovation Program of the Chinese Academy of Sciences (Grant No. KZCX3-SW-234-2), National Basic Research
Program of China (Grant No. 2007CB411701), National High Technology Research and Development Program of China (Grant No. 2006AA09A101-0201)
and National Natural Science Foundation of China (Grant Nos. 40804016, 40704013) 相似文献