共查询到20条相似文献,搜索用时 523 毫秒
1.
Possibledynamicsofnormal-faultearthquakesintheuppercrustofthesouthpartoftheQinghai-XizangPlateau张东宁,许忠淮Dong-NingZHANGandZhong... 相似文献
2.
陈伯舫 《地震学报(英文版)》1994,7(3):457-464
InvestigationsoftheseismomagneticeffectinthegeomagneticdiurnalvariationsPo-FangCHEN(陈伯舫)(DepartmentofPhysicsandDepartmentofGe... 相似文献
3.
InsearchofpotentialarthquakesourceregionsintheChinesemainlandinthelightofambient shearstressfieldPei-ShanCHEN;(陈培善)Tong-XiaBA... 相似文献
4.
GroupingoccurrencesbeingthefundamentalfeatureofthestrongearthquakesinChinesemainlandQin-ZuLI(李钦祖);Li-MinYU(于利民);Ji-YiWANG(王吉易... 相似文献
5.
ComparisonandanalysisofthestressfieldinthesourceregionofTangshanandLancangearthquakesequencesGui-LingDIAO;(刁桂苓)Li-MinYU;(于利民)... 相似文献
6.
NumericalsimulationofthedetachmentdynamicsinNorthChinaBasinDong-Ning;ZHANG(张东宁)andRong-ShengZENG(曾融生)(InstituteofGeophysics,S... 相似文献
7.
ApplicationofPPclustermethodintheearthquakeswarmanalysisShi-YongZHOU;(周仕勇)Ling-RenZHU;(朱令人)andChuan-LingDENG(邓传玲)(Seismologic... 相似文献
8.
TheapplicationofseismicdatawithdifferentprecisioninthedeterminationofseismicityparametersXue-ShenJIN(金学申);Ying-HuaDAI(戴英华);Ju... 相似文献
9.
PresentsituationoftheresearchandapplicationofengineeringmultiwaveseismicprospectinginChinaXIAO-PINGWU(吴小平),HONG-RUZHAO(赵鸿儒)(D... 相似文献
10.
郁曙君 《地震学报(英文版)》1995,8(2):249-258
StudyoftheintensityattenuationlawintheEastChinaPlainandthenorthwestofChina郁曙君Shu-JunYU(InstituteofGeophysics,StateSeismologic... 相似文献
11.
Recent crustal movements in eastern Taiwan were investigated based on geodetic and seismological data as a case study of the tectonics along a colliding plate boundary. Secular horizontal strain along the Longitudinal Valley, a probable arc-continent collision boundary between the Philippine Sea and Eurasion plates, is compressive with a large rate of 2 microstrains/year, and the maximum compression axis trends in NW-SE direction. This means that nearly two-thirds of the convergence rate between the two plates is consumed in the narrow zone along the valley and confirms the view that the valley is the plate boundary between the two. The amount of uplift in the Central Range, deduced from trigonometric leveling, reaches more than one meter during the past 60 years. Such active orogeny is caused by the high strain rate in this area. Horizontal displacement of the Coastal Range, a leading edge of the Philippine Sea plate, has a left-lateral component, suggesting that the boundary is a region of oblique collision and the range moves toward the north, producing subduction of the Philippine Sea plate off the Coast of northeastern Taiwan.An extensional strain pattern is found northeastern Taiwan near Hualien, in northern Taiwan near Ilan, and in southeastern Taiwan south Taitung. In northeastern Taiwan, the direction of the maximum extension axis is nearly parallel to the isodipth contours of deep-focus earthquakes that occurred under the southern part of the Ryukyu Trench. From a model calculation using a finite-element method, this pattern of strain is interpreted as an edge effect of the collision-subduction junction in northeastern Taiwan. The direction of the maximum extension in northern Taiwan forms high angles with the direction of the tectonic line near Ilan stretching from the Okinawa Trough. This fact is harmonious with the view that the Okinawa Trough is spreading. Extensional strain observed in southeastern Taiwan may be related to the eastward subduction since the area is situated on a transition zone, from collision to subduction. 相似文献
12.
The regional stress field and seismic dynamics along the border zone between Fujian, Guangdong and Jiangxi Provinces are studied based on the seismo-geological data, GPS measurement, and seismicity. The results show that: (1) the principal compressional stress of the stress field is oriented in NW-SE direction and the principal extensional stress is in NE-SW direction; (2) the WNW-ward compression and collision of the Philippine Sea Plate to the eastern coast of Taiwan Island are the most direct and most important dynamic source for preparation and occurrence of strong earthquakes in the Taiwan area and along the border zone between Fujian, Guangdong and Jiangxi Provinces. 相似文献
13.
Umesh Chandra 《Physics of the Earth and Planetary Interiors》1978,16(2):109-131
The historical as well as recent seismicity data and the focal mechanism solutions for 48 earthquakes determined from the observations of world-wide standardized stations network (WWSSN) records, were used to investigate the tectonics of the Himalayan mountain system and vicinity. Seismicity maps of the region showing large earthquakes (magnitude 7.0 and above, and damaging earthquakes that caused fatalities) from the earliest time through 1976, and instrumentally located earthquakes for the period January 1963–March 1974 are presented. Eleven of these earthquakes are estimated to be of magnitude 8.0 and above. The earthquake epicenters generally follow the trend of the mountains with greatest concentrations of seismic activity occurring along the Hindu Kush and Pamir mountain ranges, and near the Quetta, Kashmir and Assam syntaxes. Throughout Tibet, however, the distribution of epicenters is rather irregular and no clear trends are apparent. Two aseismic lineaments, one west of the Sulaiman Range and the other in the Assam Valley, are identified. Also, seismic activity in the vicinity of the Counter Thrust (Indus-Tsangpo suture zone) is rather small. Based on the identification of these aseismic lineaments and from a consideration of the geometry and kinematics of the continental collision model, a hypothesis for the origin of the Himalayan syntaxes is presented.Focal mechanism solutions confirm northward underthrusting of the Indian Plate along the Main Boundary Thrust and Main Central Thrust system, and eastward underthrusting along the Burmese Arc. Fault-plane solutions indicate left-lateral motion along the Kirthar-Sulaiman Range, right-lateral motion along the Karakoram Fault, left-lateral motion along the eastern extremity of the Himalayan flank of the Assam syntaxis, and right-lateral motion along the northern part of the Naga Hill flank of the syntaxis. These observations are in agreement with the expected sense of lateral (parallel to the collision boundary) mass movement for the continental collision model. Focal mechanism solutions for three earthquakes in east Afghanistan show NW-SE compression. A near-vertical orientation of the axes of tension in the solutions for two earthquakes in the Hindu Kush region is consistent with the sinking of a remnant slab of oceanic lithospere. Normal fault-plane solutions showing NW-SE extension for two events near Gatok, Tibet, and for the recent Kinnaur earthquake are interpreted to indicate a possible subsurface northern continuation of the Aravalli Range of Peninsular India, and its involvement in the tectonic framework of the region. Focal mechanism solutions of three earthquakes near the southern edge of the Shillong Plateau suggest block uplift of the plateau as a horst along the Dauki Fault. The solution for one earthquake near the Yunnan Graben shows NE-SW extension. 相似文献
14.
A present-day tectonic stress map for eastern Asia region 总被引:15,自引:1,他引:15
许忠淮 《地震学报(英文版)》2001,14(5):524-533
Introduction Tectonically the eastern Asia refers to the region bounded by the following three active tec-tonic zones: in the east the western Pacific subduction zone, including Japan trench, Ryukyu trench and Philippine trench; in the southwest the Himalaya continental collision zone and the Burma-arc-Java-trench subduction zone; in the northwest the Tianshan-Baikal continental defor-mation zone (Figure 6). In the world the eastern Asia is one of the regions with the strongest pre-sent-da… 相似文献
15.
利用中国、韩国和ISC台站的地震走时数据反演了黄海地区的地壳P波速度结构,对比重力异常和断裂体系、Pn波速度及其各向异性,分析了不同地球物理异常的相互关系以及黄海东部和西部的结构差异,为厘定黄海东部断裂暨中朝—扬子块体的拼合边界提供了新的信息.反演结果表明,北黄海和南黄海西部具有沉积盆地的地壳结构特征,P波速度明显偏低且深度较大,说明盆地内部沉积层较厚、沉降幅度较大,以北黄海、南黄海海州湾和苏北—南黄盆地最为突出.南黄海中部、胶东半岛、辽东半岛和朝鲜半岛显示出构造隆起区的地壳速度特征,其中南黄海中部的高速异常具有北东方向的伸展痕迹,与胶东地区的区域构造走向趋于一致,但是与朝鲜半岛的高速异常并不相连,其间存在明显的分界.据此推测南黄海与朝鲜半岛之间可能存在一个近南北方向的深断裂——黄海东部断裂,至于该断裂是否可以作为中朝—扬子块体在海区的拼合边界,尚需获取黄海东部及朝鲜半岛更详细的相关资料提供依据. 相似文献
16.
Double-couple point-source parameters for 11 of the largest intraplate earthquakes in the northern Indian Ocean during the last 20 y were determined from a formal inversion of long-period P and SH waveforms. Nine of the events have centroid depths at least 17 km below the seafloor, well into the upper mantle; two have centroid depths as great as 39 km. Using the source mechanisms of these earthquakes, we distinguish two major intraplate tectonic provinces in the northern Indian Ocean. To the west of the Ninetyeast Ridge, in the southern Bay of Bengal, intraplate earthquakes have thrust-faulting mechanisms with P axes oriented N-S. The centroid depths of these earthquakes range from 27 to 39 km below the seafloor. Lithospheric shortening in this region is thus accomplished by thrust faulting in the strong core of the oceanic upper mantle, while other geophysical evidence suggests that shallow sedimentary and crustal layers apparently deform predominantly by folding. In the immediate vicinity of the Ninetyeast Ridge, earthquakes display strike-slip mechanisms with left-lateral motion on planes parallel to the ridge. This type of faulting occurs from at least 10°S to the northern end of the Ninetyeast Ridge near 10°N, where the ridge meets the Sunda Arc. Seismic activity diminishes to the east of the Ninetyeast Ridge, but is also characterized by strike-slip faulting. Despite these variations in deformational style, the inferred orientation of greatest compressive stress in the northern Indian Ocean displays a consistent long-wavelength pattern over a large portion of the Indian plate, varying smoothly from nearly N-S in the Bay of Bengal to NW-SE in the northeastern Indian Ocean. This plate-wide stress pattern and the high level of intraplate seismicity in the northern Indian Ocean are likely the results of substantial resistance, along the Himalayan continental collision zone, to the continued northward motion of the western portion of the Indian plate. Oceanic intraplate earthquakes in other regions, where the level of deviatoric stress associated with the long-wavelength part of the stress field is likely to be smaller, need not be comparably reliable indicators of the plate-wide stress field. 相似文献
17.
系统研究了1918~2006年间中国大陆及其周缘发生的3115个M4.6以上中、强地震的震源机制解,得到中国大陆地壳区域应力场的压应力轴和张应力轴空间分布的统计结果.探讨了大陆应力场的结构,以及周围板块运动对中国大陆应力场影响作用范围及其界线.结果表明,中国东部的华北地区受到太平洋板块向欧亚板块俯冲挤压的同时,又受到从贝加尔湖经过大华北直至琉球海沟的广阔范围内存在的方位为170°引张应力场的控制.华北地区大地震的震源机制解反映出,该区地震发生为NEE向挤压应力和NNW向张应力的共同作用结果.印度洋板块向欧亚板块的碰撞挤压运动所产生的强烈的挤压应力,控制了喜马拉雅、青藏高原、乃至延伸到天山及其以北的广大地区.在青藏高原周缘地区和中国西部的大范围内,压应力P轴水平分量位于20°~40°,形成了近北东方向的挤压应力场,大量逆断层型强震集中发生在青藏高原的南、北和西部周缘地区以及天山等地区. 本文结果表明,正断层型地震集中发生在青藏高原中部高海拔的地区.证明了青藏高原周缘区域发生南北向强烈挤压短缩的同时,中部高海拔地区存在着明显的近东西向的扩张运动.根据本文最新结果,得到了华北、华南块体之间地壳区域应力场的控制边界线,发现该分界线与大地构造、岩石圈板块构造图等有较大差异,特别是在大别及其以东地区, 该分界线向东南偏转,在沿海的温州附近转向东,最终穿过东海直至琉球海沟.台湾纵谷断层是菲律宾海板块与欧亚板块之间碰撞挤压边界,来自北西西向运动的菲律宾海板块构造应力控制了从台湾纵谷、华南块体,直到中国南北地震带南段东部地域的应力场. 地震震源机制结果还表明,南北地震带南段西侧其P轴大约为NNE方向,与青藏高原的P轴方位一致.南北地震带南段东侧其P轴大约为NWW方向,与华南块体的P轴方位一致.因此,将中〖JP2〗国大陆分成东、西两部分的南北地震带南段是印度洋板块与菲律宾海板块在中国大陆内部影响控制范围的分界线. 相似文献
18.
Some features of the arc-continent collision zone in the Ryukyu subduction system, Taiwan Junction area 总被引:1,自引:0,他引:1
Abstract To the northeast of Taiwan, northwestward subduction of the Philippine Sea plate is occurring beneath the Eurasian plate along the Ryukyu Trench. The Ryukyu Trench, which is well defined along the northeastern part of the Ryukyu arc, cannot be easily defined west of 123° east. This is an area where the Gagua Ridge (whose origin is controversial) enters the trench from the south. On the basis of the marine geophysical survey data the following results have been obtained. The structural elements associated with the Ryukyu subduction system deform and partially disappear west of 123° east. Among other things the Ryukyu Trench terminates close to the western slope of the Gagua Ridge. The Gagua Ridge is the result of tectonic heaping and is likely to be an uplifted sliver of oceanic crust. The interaction between the Ryukyu subduction system and the Taiwan collision zone encompasses a wide region from Taiwan to the longitude 124.5° east. The Gagua Ridge is a boundary between the active deformation zone related to the collision in Taiwan and the West Philippine Basin. It is proposed that there is a tectonic zone that can be traced from the Okinawa Trough on the north to the southern termination of the Gagua Ridge on the south. 相似文献
19.
Parameters of the focal mechanisms of earthquakes, as well as their relations to the characteristics of seismicity and geological
structure are analyzed in the regions of the Komandorskie Islands in the west of the Aleutian arc, the Fox Islands, and the
Alaska Peninsula coast in the east of the arc. Different types of ruptures are revealed in the western and eastern parts of
the Aleutian arc. The leading type of ruptures at the southern slope of the Komandorskie Islands is steep reverse faults crossing
the arc at azimuths from submeridional to northeastern. A similar type of rupture occurs in abundance on the Rat Islands and
is predominant on the Near Islands. Steep strike-slips with small components of the normal or reverse fault manifest themselves
at the northern side of the block uplift of the Komandorskie Islands. Seismogenic ruptures in the region of the Komandorskie
Islands do not contradict geological data on the rupture tectonics on Medny and Bering islands. At the southern slope of the
Fox Islands, as well as in the Andreanof Islands, steep reverse faults striking longitudinally (along the arc) with the dip
toward the deep-sea trench are the predominant type of seismogenic ruptures. This type of seismogenic ruptures is the leading
type for the structures of island arcs with present-day volcanism; an example is the Kurile-Kamchatka island. Different types
of predominant seismogenic ruptures in the western and eastern parts of the Aleutian island arc probably reflect different
stages of the tectonic development of these regions of the arc. Possible positions and sizes of sources of the largest historical
earthquakes in the eastern part of the Aleutian island arc are considered 相似文献
20.
藏东南及周边地区地震活动特征研究 总被引:1,自引:0,他引:1
藏东南及周边地区是印度板块与欧亚板块动力碰撞的影响区, 该区历史地震活动强烈, 曾发生过1950年墨脱—察隅8.6级和1951年当雄8.0级地震。 本文首先介绍藏东南及周边地区的地质构造背景, 其次通过考察该地区强震活动情况和活动地块边界带相关段落的加卸载响应比(LURR)时序特征, 分析了研究区的强震活动状态。 从历史地震活动看, 安达曼弧地区与喜马拉雅东构造结地区强震活动存在一定的动力关联, 当前研究区域的周边动力环境表现为安达曼弧地区地震活动强烈和东构造结地区的持续平静。 从地震活动图像看, 1980年以来6级以上地震在藏东南及周边地区已经形成空区, 表现类似于1950年墨脱—察隅地震前的空间分布特征。 从活动地块边界带相关段落LURR时序特征看, 喜马拉雅带东段现处于高应力状态, 其次为澜沧江带与三江带。 相似文献