共查询到20条相似文献,搜索用时 31 毫秒
1.
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
2.
3.
B. Papazachos A. Kiratzi B. Karacostas D. Panagiotopoulos E. Scordilis D. M. Mountrakis 《Pure and Applied Geophysics》1988,126(1):55-68
A shallow earthquake ofM
S=6.2 occurred in the southern part of the Peloponnesus, 12 km north of the port of the city of Kalamata, which caused considerable damage. The fault plane solution of the main shock, geological data and field observations, as well as the distribution of foci of aftershocks, indicate that the seismic fault is a listric normal one trending NNE-SSW and dipping to WNW. The surface ruptures caused by the earthquake coincide with the trace of a neotectonic fault, which is located 2–3 km east of the city of Kalamata and which is related to the formation of Messiniakos gulf during the Pliocene-Quaternary tectonics. Field observations indicate that the earthquake is due to the reactivation of the same fault.A three-days aftershock study in the area, with portable seismographs, recorded many aftershocks of which 39 withM
S1.7 were very well located. The distribution of aftershocks forms two clusters, one near the epicenter of the main shock in the northern part of the seismogenic volume, and the other near the epicenter of the largest aftershock (M
S=5.4) in the southern part of this volume. The central part of the area lacks aftershocks, which probably indicates that this is the part of the fault which slipped smoothly during the earthquake. 相似文献
4.
精确识别和定位中强地震序列中的微震事件对于准确判定发震构造具有重要的意义。文章对2022年1月8日发生在青藏高原东北缘的青海门源MS6.9地震序列进行精定位及微震检测研究。首先运用双差定位法对2022年1月8—16日由中国地震台网中心记录的1 010个门源地震序列原始目录进行重定位,得到404个精定位地震目录。分别采用原始地震目录(CENC)和双差重定位目录(HypoDD),对震源区150 km范围内9个台站的连续波形数据进行微震检测。结果表明,基于CENC目录识别的余震个数是原始目录地震数量的3.0倍,基于HypoDD目录识别的地震个数是原始目录的2.1倍,是HypoDD目录的5.8倍;两种地震目录的微震检测均使得ML震级完备性从1.7级降低至1.1级。新的地震目录空间位置显示,主震发生后余震主要沿托莱山断裂向西侧扩展,8分钟以后,在托莱山断裂和冷龙岭断裂均发生破裂。根据本研究获取的更高空间分辨率的地震序列,同时结合震源机制解,认为2022年门源MS6.9地震初始破裂位于近E-W向的托莱山断裂,并触发了NW-SE向的冷... 相似文献
5.
The 2018,Songyuan,Jilin M_S5. 7 earthquake occurred at the intersection of the FuyuZhaodong fault and the Second Songhua River fault. The moment magnitude of this earthquake is M_W5. 3,the centroid depth by the waveform fitting is 12 km,and it is a strike-slip type event. In this paper,with the seismic phase data provided by the China Earthquake Network, the double-difference location method is used to relocate the earthquake sequence,finally the relocation results of 60 earthquakes are obtained. The results show that the aftershock zone is about 4. 3km long and 3. 1km wide,which is distributed in the NE direction. The depth distribution of the seismic sequence is 9km-10 km. 1-2 days after the main shock,the aftershocks were scattered throughout the aftershock zone,and the largest aftershock occurred in the northeastern part of the aftershock zone. After 3-8 days,the aftershocks mainly occurred in the southwestern part of the aftershock zone. The profile distribution of the earthquake sequence shows that the fault plane dips to the southeast with the dip angle of about 75°. Combined with the regional tectonic setting,focal mechanism solution and intensity distribution,we conclude that the concealed fault of the Fuyu-Zhaodong fault is the seismogenic fault of the Songyuan M_S5. 7 earthquake. This paper also relocates the earthquake sequence of the previous magnitude 5. 0 earthquake in 2017. Combined with the results of the focal mechanism solution,we believe that the two earthquakes have the same seismogenic structure,and the earthquake sequence generally develops to the southwest. The historical seismic activity since 2009 shows that after the magnitude 5. 0 earthquake in 2017,the frequency and intensity of earthquakes in the earthquake zone are obviously enhanced,and attention should be paid to the development of seismic activity in the southwest direction of the earthquake zone. 相似文献
6.
2021年5月22日青海省果洛州玛多县发生M_S7.4地震。为探究本次地震的发震构造及余震分布特征,选取2021年5月1日—6月3日青海测震台网观测到的33°~36°N,97°~99.5°E空间范围内的地震观测报告,利用双差精定位方法进行双差精定位处理。重定位后整体残差平均减小了0.23,深度在5~25 km间随机分布。根据地震迁移方向和震区地质构造,认为本次地震的发震构造为昆仑山口—江错断裂,玛多—甘德东段受主震触发影响爆发一系列小震,两条断裂之间可能因为本次地震产生一定联系。本次地震产生新的断裂,突破了两条断裂之前的空区,连接到玛多—甘德断层,使两条断层交叉相连,形成新的断层构造。 相似文献
7.
归纳总结了2012年甘肃金塔Ms5.4地震的基本参数,烈度分布、震害特征和发震构造背景等基本特征。此次地震发生在甘肃北山地区,新构造活动不明显,属构造稳定的地区。地貌上为戈壁丘陵区,震区无居民点,没有造成明显破坏。通过野外地质调查,发现了许多基岩崩塌现象,有些作为路标或导航用的石堆被震倒,其排列方向为NW向。利用震源机制解、余震分布方向和断层活动性调查资料综合分析,认为2012年金塔5.4级地震,是马山南东断层和神螺山一野马井断层共同作用的结果,其发震断层可能为神螺山-野马井断层。 相似文献
8.
9.
10.
2016年8月24日意大利中部发生MW6.0地震,2个月之后,震中附近相继发生MW5.5、MW5.9、MW6.5地震。研究这几次较大地震间的相互触发作用及机制十分必要,然而在大地震之后传统地震目录通常缺失很多余震事件,缺失的余震事件包含着早期余震时空分布和迁移规律的信息,为完善余震目录本文利用匹配滤波方法对MW6.0地震后80天内的连续数据进行余震检测,得到了数十倍于模板数量的新检测事件,检测事件与模板事件组成的新余震目录完备震级为1.0,提高了地震目录的完备性。依据新余震目录进行余震时空分布研究,结果显示MW6.0、MW5.9、MW6.5地震的早期余震迁移规律不同。MW6.0地震的早期余震沿着断裂走向同时朝两侧迁移;而MW5.9、MW6.5地震的早期余震向南、北迁移表示出不对称的特征。通过拟合余震迁移前端发现,MW6.0、MW5.5地震的早期余震朝着随后较大地震的方向迁移,且较符合lgt的特征,表明余震迁移可能与慢滑动有关。 相似文献
11.
K. Nishigami 《Pure and Applied Geophysics》2006,163(2-3):601-616
The 2004 Mid Niigata Prefecture earthquake (MJMA 6.8) and its aftershock sequences generated complicated, i.e., several conjugate fault planes in their source region. In
order to understand the generating process of these earthquakes, we estimated a 3-D distribution of relative scattering coefficients
in the source region. The large slip area during the main shock rupture seems to be bounded by strong heterogeneous zones
with larger scattering coefficients. Hypocenters of the main shock and major large aftershocks with M 5-6 classes tend to be located close to stronger scattering areas. We found that one of these strong heterogeneities already
existed before the occurrence of the M 5.9 aftershock on November 8. We suppose that heterogeneous structures in the source region of this earthquake sequence affected
the initiation and growth of ruptures of the main shock and major large aftershocks. 相似文献
12.
采用双差定位方法,利用中国地震台网的数据对2017年8月9日精河6.6级地震的余震序列进行了重新定位。截至2017年8月14日16时,共获得209个余震的重新定位结果。结果显示,余震主要呈近EW向或NWW向分布,余震区长约50km,宽约17km。余震分布在主震的西侧,推断此次地震单侧破裂。余震震源深度为1~25km,其中,震级较大余震深度为8~17km。精河地震序列的余震活动随时间呈起伏状衰减,震后2天内比较活跃,此后出现较快衰减。随时间推移,余震区呈现中西部衰减慢、东部衰减快的特点。此次地震震中距2011年精河5.0级地震震中21km,相比2011年精河地震,其震源更深,震级更大,但震源机制解相近,均为逆冲型。结合区域构造背景分析认为,库松木契克山前断裂为此次地震发震构造的可能性较大。 相似文献
13.
14.
The Doroud segment of the Main Recent Fault (“MRF”) is studied by installing a local seismic network of 35 short-period stations
for a period of 13 weeks from 21 June 2007 to 19 September 2007 in the Silakhur region of the Zagros continental collision
zone, close to the epicenter of the 31 March 2006 Silakhur earthquake (M
w
∼ 6.1). Our seismic network also covers the Qale-Hatam and Vanaei segments of the MRF and part of the Nahavand fault. We
investigate the geometry and mechanism of the causative fault(s) of the 2006 Silakhur earthquake using aftershocks recorded
by the dense local network. Most of the aftershocks in this region are located at a depth of 4–11 km, shallower depth than
usual for other seismic zones in the Zagros. The distribution of the aftershocks along the course of the river indicates that
older faults in the Silakhur region have been activated during the 2006 earthquake and only a few aftershocks have occurred
on the Doroud fault. Tensional and compressional components in the northern part of the Doroud fault are interpreted as a
pull-apart basin which has been activated by the right-lateral strike-slip movement of the Doroud fault. 相似文献
15.
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
16.
In this study,data from the Xinjiang regional network and IRIS shared global stations are used to relocate the Akto M_S6. 7 earthquake sequence on November 25,2016 by using double difference location method. Three earthquakes of M_S4. 8,M_S6. 7 and M_S5. 0 are inverted by using the g CAP method,and the focal mechanism solutions are obtained.According to the results of relocating,the location of the main shock is 39. 22°N,73. 98°E,the distribution of the earthquake sequence is about 70 km in length,and the focal depth is mainly within the range of 5-20 km. The plane and depth profiles of the earthquake sequence show that aftershocks extended in SEE direction after the main shock and the dip angle of fault plane is steep. Focal mechanism results show that the three earthquakes are characterized by strike-slip movement. Based on the results of field geological investigation,it is inferred that the seismogenic fault of the Akto earthquake is Muji fault,which is located at the northernmost end of the Kongur extensional system.The possible cause of this earthquake is that the Indian Plate continues to push northward,and during this compression process,the Indian Plate is affected by the clockwise rotation of the Tarim basin,which causes the accumulation of right-lateral action of the Muji fault,resulting in this earthquake. 相似文献
17.
Following the theory and definition of the Corioli force in physics, the Corioli force at the site of the M=8.1 Kunlun Mountain Pass earthquake on November 14, 2001, is examined in this paper on the basis of a statistical research on relationship between the Corioli force effect and the maximum attershock magnitude of 20 earth-quakes with M≥7.5 in Chinese mainland, and then the variation tendency of attershock activity of the M=8.1 earthquake is discussed. The result shows: a) Analyzing the Corioli force effect is an effective method to predict maximum attershock magnitude of large earthquakes in Chinese mainland. For the sinistral slip fault and the reverse fault with its hanging wall moving toward the right side oftbe cross-focus meridian plane, their Corioli force pulls the two fault walls apart, decreasing frictional resistance on fault plane during the fault movement and releasing elastic energy of the mainshock fully, so the maximum magnitude of aftershocks would be low. For the dextral slip fault, its Corioli force presses the two walls against each other and increases the frictional resistance on fault plane, prohibiting energy release of the mainshock, so the maximum magnitude of attershocks would be high.b) The fault of the M--8. l Kunlun Mountain earthquake on Nov. 14, 2001 is essentially a sinistral strike-slip fault,and the Corioli force pulled the two fault walls apart. Magnitude of the induced stress is about 0.06 MPa. Alter a comparison analysis, we suggest that the attershock activity level will not be high in the late period of this earth-quake sequence, and the maximum magnitude of the whole aftershocks sequence is estimated to be about 6.0. 相似文献
18.
Sliding-window cross-correlation method is firstly adopted to identify sPn phase, and to constrain focal depth from regional
seismograms, by measuring the time separation between sPn and Pn phases. We present the focal depths of the 17 moderate-sized
aftershocks (M
S⩾5.0) of the Wenchuan M
S8.0 earthquake, using the data recorded by the regional seismic broadband networks of Shaanxi, Qinghai, Gansu, Yunnan and
Sichuan. Our results show focal depths of aftershocks range from 8 to 20 km, and tend to cluster at two average depths, separate
at 32.5°N, i.e., 11 km to the south and 17 km to the north, indicating that these aftershocks are origin of upper-to-middle
crust. Combined with other results, we suggest that the Longmenshan fault is not a through-going crustal fault and the Pingwu-Qingchuan
fault may be not the northward extension of the Longmenshan thrust fault.
Supported by the National Natural Science Foundation of China (Grant Nos. 40604009 and 40574040) and Special Project for the
Fundamental R & D of Institute of Geophysics, China Earthquake Administration (Grant No.DQJB08B20) 相似文献
19.
C. Chiarabba P. De Gori L. Chiaraluce P. Bordoni M. Cattaneo M. De Martin A. Frepoli A. Michelini A. Monachesi M. Moretti G. P. Augliera E. D'Alema M. Frapiccini A. Gassi S. Marzorati P. Di Bartolomeo S. Gentile A. Govoni L. Lovisa M. Romanelli G. Ferretti M. Pasta D. Spallarossa E. Zunino 《Journal of Seismology》2005,9(4):487-494
In October and November 2002, the Molise region (southern Italy) was struck by two moderate magnitude earthquakes within 24
hours followed by an one month long aftershocks sequence. Soon after the first mainshock (October 31st, 10.32 UTC, Mw 5.7), we deployed a temporary network of 35 three-component seismic stations. At the time of occurrence of the second main
event (November 1st, 15.08 UTC, Mw 5.7) the eight local stations already installed allowed us to well constrain the hypocentral parameters. We present the location
of the two mainshocks and 1929 aftershocks with 2 < ML < 4.2. Earthquake distribution reveals a E-trending 15 km long fault system composed by two main segments ruptured by the
two mainshocks. Aftershocks define two sub-vertical dextral strike-slip fault segments in agreement with the mainshock fault
plane solutions. P- and T-axes retrieved from 170 aftershocks focal mechanisms show a coherent kinematics: with a sub-horizontal NW and NE-trending
P and T-axes, respectively. For a small percentage of focal mechanisms (∼ 10%) a rotation of T axes is observed, resulting in thrust
solutions. The Apenninic active normal fault belt is located about 80 km westward of the 2002 epicentral area and significant
seismicity occurs only 20-50 km to the east, in the Gargano promontory. Seismic hazard was thought to be small for this region
because neither historical earthquake are reported in the Italian seismic catalogue or active faults were previously identified.
In this context, the 2002 seismic sequence highlights the existence of trans-pressional active tectonics in between the extensional
Apenninic belt and the Apulian foreland. 相似文献
20.
2019年12月26日湖北应城发生M4.9有感地震,其震感波及武汉大部分地区。为了分析该地震的发震构造及余震活动性,本文利用波形拟合方法测定了不同速度模型下该地震的震源机制解和矩心深度,并用Bootstrapping抽样反演技术评价反演结果;此外,利用模板匹配技术匹配主震和目录余震波形,获取了更为完整的余震目录。结果显示,应城地震以走滑为主,矩心深度7.5km左右,矩震级MW4.67;应城地震有1个前震和17个余震,余震序列缺少M2~4事件,表明应城地震为孤立型地震,M2以下地震的b值为0.8。 相似文献