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1.
天水-礼县地区地壳速度结构 总被引:2,自引:0,他引:2
1984—1985年,利用厂坝铅锌矿工业爆破,在天水—礼县地区布设测线进行了大范围的地震测深工作。对该地区的地壳速度结构的研究结果表明,该地区沉积层平均厚度为2.5km,速度为4.0km/s(P波);地壳平均厚度为43.68km,平均速度为6.20km/s;徽县—礼县地壳速度剖面可分为5层,其中在24—29km深处有一低速层,基底深度变化较大,在礼县地壳浅部发现一断层。对天水—礼县地区还进行了P波、S波联合反演,获得了该区P波与S波速度结构,其地壳范围内的平均波速比为1.73。 相似文献
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福建沿海地区地壳S波速度结构和泊松比分布特征 总被引:4,自引:0,他引:4
本文根据福建沿海地区人工地震测深剖面的单分量地震记录,对S波信息进行开发研究,通过对地震记录重新采样,数字处理与分析,获得了该区地壳S波速度模型,结果发现:福建沿海地区的地壳与上地慢S波速度结构可分为三层,即上地壳,中地壳和下地壳;在中地壳普遍发育一层速度为3.4-3.5km/s的低速层,厚度约3-4km;MOHO面深度,泉州以北最浅,仅为28km,宁德以南最深,为32km。结合P波速度模型,我们获得了该区地壳平均泊松(Poisson)比模型,漳州盆地和福州盆地平均泊松比值表现出异常高值,而泉州、淦溪地带的平均泊松比为相对低值,结果显示:泊松比值的大小与断裂交汇区,筘辊地热异常区具有良好的对应关系。 相似文献
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利用西藏高原及其邻区150个地震,西藏台网、四川台网、世界标准台网及在西藏布设的流动台网的 P 波和 S 波观测资料,得出了该地区的地壳和上地幔的 P 波以及 S 波的速度模型:(1)地壳平均厚度70km,可分为明显的两层.上层厚16km,P 波速度5.55km/s,S 波3.25km/s;下层厚54km,P 波速度6.52km/s,S 波3.76km/s;(2)上地幔顶层 P 波速度7.97m/s,S 波4.55km/s.140km 处出现低速层,层厚约55——62km.低速层下的正速度梯度与地幔顶部盖层相差无几. 相似文献
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通过对云南数字地震台站的宽频带远震接收函数反演,获得了云南地区数字地震台站下方0-0km深度范围的S波速度结构.结果表明,云南地区地壳厚度变化剧烈,中甸、丽江等西北部地区,地壳厚度达62km左右,景洪、思茅和沧源等南部地区,地壳厚度仅为32-34km.厚地壳从西北部向东南方向伸展,厚度和范围逐渐减小,至通海一带地壳厚度减为42km,其形态和范围与小江断裂和元江断裂围成的川滇菱形块体相一致.地壳厚度较小的东、南部地区Moho面速度界面明显;在地壳厚度较大或变化剧烈的地区,Moho面大多表现为S波速度的高梯度带.云南地区S波速度结构具有很强的横向不均匀性.km深度以上,北部地区S波速度明显低于南部地区,在-20km深度范围内,北部地区的S波速度比南部地区高.地壳内部S波速度界面的连续性较差,低速层的深度和范围不一,近一半的台站下方不存在明显的低速层.受南部地区上地幔的影响,40-50km深度范围内,S波速度南部高、北部低,高速区随深度增加逐渐向北推移,低速异常区形态与川滇菱形块体的形态趋向一致.70-80km深度的上地幔速度分布与云南地区大震分布具有一定的相关性. 相似文献
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收集了1978~2003年位于渤海湾盆地及其邻近地区(大体位于东经112°~122°,北纬34°~44°之间)所记录到的的总计10534个地震或人工爆破事件的Pn、Pg以及P波到时数据,运用GT5准则,从中挑选出相对精确和可信度较高,且具有代表性的的10个地震事件,使用Messy GA算法,分别反演了这10个地震事件所对应的一维地壳P波速度模型.反演的局部地壳模型与已知结果对应较好,基本反映了震中区的地壳速度结构特征.该方法原理简单,计算方便,可用于确定局部和区域的地壳速度模型. 相似文献
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利用环渤海地区的天然地震P波到时资料,采用纬度和经度方向分别为05°×06°的网格划分,反演了该地区地壳上地幔的三维P波速度结构.初步结果表明,环渤海地区地壳上地幔的速度结构具有明显的横向不均匀性:京津唐地区地壳中上部的速度异常反映了浅表层的地质构造特征,造山带和隆起区对应于高速异常,坳陷区和沉积盆地对应于低速异常;地壳下部出现大规模的低速异常与华北地区广泛存在的高导层相对应,估计与壳内的滑脱层和局部熔融、岩浆活动有关;莫霍面附近的速度异常反映了地壳厚度的变化及壳幔边界附近热状态的差异;上地幔顶部大范围的低速异常可能是上地幔软流层热物质大规模上涌所致. 相似文献
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用接收函数方法研究上海地震台阵下地壳结构 总被引:1,自引:1,他引:0
利用上海地震台阵16个台站记录的远震资料,采用接收函数线性反演方法,对台阵下的地壳速度结构进行研究,获得了研究区域内地壳厚度和地壳速度的分布特征。研究结果表明,研究区域Moho面深度约为33±2 km,Moho面深度基本不变,地幔顶部S波速度约4.4 km/s,地壳内没有发现明显的低速层。 相似文献
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在云南西部,穿过红河、小江断裂带完成了一条长360 km、呈北东向的深地震宽角反射/折射剖面.通过对该测线的观测资料进行一维、二维模拟解释,得到了沿剖面的二维地壳速度模型.研究结果显示,沿测线Moho界面埋深横线变化大,其西南侧Moho埋深约35 km,东北侧Moho最大埋深可达43 km.沿剖面从西南到北东方向,地壳平均P波速度从5.9 km/s逐渐增加到6.13 km/s,但显著低于全球大陆平均值.结合以往的接收函数和面波联合反演结果,我们推算沿测线从西南到东北,其下方地壳泊松比介于0.23~0.25之间.剖面西南侧上地壳具有异常低的P波速度和泊松比,暗示其下方上地壳以α-相长英质组分为主;而剖面东北上地壳相对较高的P波速度和泊松比则暗示其物质组成以花岗岩-花岗闪长岩为主.研究区下地壳的P波速度和泊松比分别介于6.25~6.75 km/s和0.24~0.26 km/s之间,暗示其上部组成以花岗岩相的片麻岩为主,而下部组成则以角闪石类岩石为主.红河断裂两侧地壳速度显著不同,从浅到深其速度差异逐渐变弱,但红河断裂两侧地壳厚度变化较大.而小江断裂下方两侧地壳速度和地壳厚度变化并没有红河断裂那么明显. 相似文献
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In order to investigate crustal structure beneath the eastern Marmara region, a seismic refraction survey was conducted across
the North Anatolian Fault (NAF) zone in north west Turkey. Two reversed profiles across two strands of the NAF zone were recorded
in the Armutlu Highland where a tectonically active region was formed by different continents. We used land explosions in
boreholes and quarry blasts as seismic sources. A reliable crustal velocity and depth model is obtained from the inversion
of first arrival travel times. The velocity-depth model will improve the positioning of the earthquake activities in this
active portion of the NAF. A high velocity anomaly (5.6–5.8 km s−1) in the central highland of Armutlu block and the low velocity (4.90 km s−1) pattern north of Iznik Lake are the two dominant features. The crustal thickness is about 26 ± 2 km in the north and increases
to about 32 ± 2 km beneath the central Armutlu block in the south. P-wave velocities are about 3.95 km s−1 to 4.70 km s−1 for the depth range between about 1 km and 5 km in the upper crust. The eastern Marmara region has different units of upper
crust with velocities varying with depth to almost 8 km. The high upper crust velocities are associated with Armutlu metamorphic
rocks, while the low velocity anomalies are due to unconsolidated sedimentary sequences. The western side of Armutlu block
has complex tectonics and is well known for geothermal sources. If these sources are continuous throughout the portions of
the crust, it may be associated with a granitic intrusion and deformation along the NAF zone. That is, the geothermal sources
associated with the low velocity may be due to the occurrence of widespread shear heating, even shear melting. The presence
of shear melting may indicate the presence of crustal fluid imposed by two blocks of the NAF system. 相似文献
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针对山西测震台网缺少适合本地区地壳速度模型的现状,在前人工作成果的基础上,基于山西测震台网2009~2014年间产出的大量震相数据,采用"线性拟合"和"折合走时"法分别确定了模型参数中速度和深度的波动范围;利用Hyposat定位程序,使用46489组模型,分别批量定位76个地震事件,并选取残差最小的一组参数作为山西2015地壳速度模型;最后运用批量定位比较残差、PTD测定深度和人工爆破等3种方法对山西2015地壳速度模型进行了验证。结果表明:在山西地区进行地震定位时,山西2015地壳速度模型相较于现有的修正J-B模型残差更小,精度更高,具有更好的适用性。 相似文献
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云南地区地处青藏高原东南缘,一直是地球科学研究的热点地区.目前,一些热点问题,如云南地区是否存在中下地壳低速流及其空间分布,仍有一定的争议.通过建立云南地区精细的地壳上地幔速度与各向异性结构,可为深入认识上述问题提供重要信息.本文利用天然地震波形记录,采用双台法提取了12~60 s周期的Rayleigh和Love波相速度频散,并进一步反演获得了云南地区10~100 km的三维地壳上地幔SV和SH波速度及径向各向异性结构.结果表明:S波速度与径向各向异性结构在横向和垂向均存在显著变化.在20~30 km深度,存在两个低速条带,且条带内呈现出正径向各向异性(VSH>VSV)特征,暗示了中下地壳低速物质的水平向运动.在80~100 km深度,云南西南和东南部显示为低速异常和正径向各向异性特征,暗示了软流圈物质的水平流动.在云南北部的丽江、攀枝花和昭通地区,岩石圈地幔中则存在明显的负径向各向异性(VSH<VSV),可能反映了地幔物质的上涌痕迹.历史强震多发生在地壳低速区域或高低速过渡带,且地震附近的径向各向异性为负或者较弱.一些地震震源下方存在低速层,地壳低速层可能会促进强震发生. 相似文献
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为加强海上天然地震观测和岩石圈结构研究,我们在南海西沙群岛建立了石岛流动地震台,进行了为期一年多的观测试验.观测结果表明,虽然岛礁区的地震数据受热带气旋影响期间背景噪声较大,但仍能记录到MW 6级以上的地震.本文对具有清晰P波波形的远震记录进行了接收函数处理和计算模拟,得到台站下简单的地壳结构模型,其莫霍面深度为28 km,上地壳顶部有一层2 km厚的低速层,横波速度只有23 km/s,向下逐渐过渡到横波速度为38 km/s的下地壳.与已有的研究结果比较,发现石岛台与琼中台的地壳结构模型是西沙海槽剖面的自然延伸,西沙地块的地壳结构属减薄型陆壳,可与华南地块的正常陆壳对比. 相似文献
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Lupei Zhu Ying Tan Donald V. Helmberger Chandan K. Saikia 《Pure and Applied Geophysics》2006,163(7):1193-1213
We use the recordings from 51 earthquakes produced by a PASSCAL deployment in Tibet to develop a two-layer crustal model for
the region. Starting with their ISC locations, we iteratively fit the P-arrival times to relocate the earthquakes and estimate mantle and crustal seismic parameters. An average crustal P velocity of 6.2–6.3 km/s is obtained for a crustal thickness of 65 km while the P velocity of the uppermost mantle is 8.1 km/s. The upper layer of the model is further fine-tuned by obtaining the best synthetic
SH waveform match to an observed waveform for a well-located event. Green's functions from this model are then used to estimate
the source parameters for those events using a grid search procedure. Average event relocation relative to the ISC locations,
excluding two poorly located earthquakes, is 16 km. All but one earthquake are determined by the waveform inversion to be
at depths between 5 and 15 km. This is 15 km shallower, on average, than depths reported by the ISC. The shallow seismicity
cut-off depth and low crustal velocities suggest high temperatures in the lower crust. Thrust faulting source mechanisms dominate
at the margins of the plateau. Within the plateau, at locations with surface elevations less than 5 km, source mechanisms
are a mixture of strike-slip and thrust. Most events occurring in the high plateau where elevations are above 5 km show normal
faulting. This indicates that a large portion of the plateau is under EW extension. 相似文献
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Jianping Wu Yuehong Ming Lihua Fang Weilai Wang Institute of Geophysics China Earthquake Administration Beijing China 《地震学报(英文版)》2009,(4):409-416
The S wave velocity structure in Changbaishan volcanic region was obtained from teleseismic receiver func-tion modeling. The results show that there exist distinct low velocity layers in crust in volcano area. Beneath WQD station near to the Tianchi caldera the low velocity layer at 8 km depth is 20 km thick with the lowest S-wave velocity about 2.2 km/s. At EDO station located 50 km north of Tianchi caldera,no obvious crustal low velocity layer is detected. In the volcanic re-gion,the thickness of crustal ... 相似文献
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Effect of source parameters on forward-directivity velocity pulse for vertical strike slip fault in half space 总被引:1,自引:0,他引:1
It has been found that the large velocity pulse is one of the most important characteristics of near-fault strong ground motions. Some statistical relationships between pulse period and the moment magnitude for near-fault strong ground motions have been established by Somerville (1998); Alavi and Krawinkler (2000); and Mavroeidis and Papageorgiou (2003), where no variety of rupture velocity, fault depth, and fault distance, etc. were considered. Since near-fault ground motions are significantly influenced by the rupture process and source parameters, the effects of some source parameters on the amplitude and the period ofa forward-directivity velocity pulse in a half space are analyzed by the finite difference method combined with the kinematic source model in this paper. The study shows that the rupture velocity, fault depth, position of the initial rupture point and distribution of asperities are the most important parameters to the velocity pulse. Generally, the pulse period decreases and the pulse amplitude increases as the rupture velocity increases for shallow crustal earthquakes. In a definite region besides the fault trace, the pulse period increases as the fault depth increases. For a uniform strike slip fault, rupture initiating from one end of a fault and propagating to the other always generates a higher pulse amplitude and longer pulse period than in other cases. 相似文献