滇西地区地壳浅部基底速度细结构的研究   总被引：14，自引：1，他引：14  

胡鸿翔  高世玉 《中国地震》1993,9(4):356-363

本文论述滇西地区思茅－中甸剖面基底导速度细结构的研究结果。基底层项部Ｐｇ界面深度为０－３．５ｋｍ，而底部Ｐ１＾０界面深度为１１．０－１７．０ｋｍ。基底层速度在金河－洱海断裂以南为５．７０－６．３０ｋｍ／ｓ，断裂以北增至６．３０－６．５０ｋｍ／ｓ，其过渡带位于剑川附近，剖面上断裂附近，除界面深度变化外，Ｐｇ面速度横向变化也较明显。速度等值线较为稀疏的景云桥炮南侧、大仓炮附近与支梯炮南侧地区，估计发生  相似文献   

The fine velocity structure of sediment-basement layer in the Three-Gorges Region of the Changjiang River (Yangtze River)     

Hong-Xiang Hu  Yin-Ju Bian  Shi-Yu Gao 《地震科学（英文版）》1996,9(3):411-418

In this paper, the study on the fine velocity structure of sedimental and basement layers along 4 deep seismic sounding profiles in the Three Gorges Region of the Changjiang River (Yangtze River) are presented. The velocity of sedimental cover is larger in hills of western Hubei in the western profiles, the total thickness is about 0–0.3 km. However, it becomes thick in southern part of Zigui basin and Zushui river valley, about 5.0 km and 4.0 km thick respectively. The sedimental cover is very thick in Jianghan plains in the eastern profiles, about 5–8 km, and the velocity is lower. The velocity of basemental plane is greater than 6.0 km/s over the whole region. An interface can be divided within the sedimental layer, it is about 3–4 km deep in Jianghan plains, while it approximates to surface in other regions. The profiles are cut by faults in many positions. Where the faults pass, the velocity isopleth varies sharply, and the velocity is obviously low. The basement layer is characterized by high velocity and low gradient, there exist 3 high-velocity anomalous zones within the layer, which are located at the west, south and east of Huangling Anticlinorium respectively. They are the upwelling materials of basalt magma with high velocity from deep crust. Perhaps, this process took place before formation of Huangling Anticlinorium. Its action produces the significant variation of basement plane depth and the correspondent development and action of faults.  相似文献   

上海地区地壳精细结构的综合地球物理探测研究   总被引：13，自引：5，他引：13       下载免费PDF全文

姚保华  章振铨  王家林  火恩杰  张先康  刘保金  吴健生  王夫运  于鹏  毛雅萍 《地球物理学报》2007,50(2):482-491

通过在上海地区开展深、浅地震反射、地震宽角反射/折射、高分辨地震折射和大地电磁测深等联合剖面探测, 获得了该地区近地表至Moho面的精细速度结构、电性结构和深浅构造关系.结果表明, 该地区地壳可划分为上、中、下三个组成部分.其中，上地壳厚为12～14 km，波速为57～59 km/s；中地壳厚度约为10 km，波速为59～62 km/s；下地壳厚为10～11 km, 波速为62～63 km/s，Moho面深度约为32 km.剖面浅部地质构造复杂，共解释出12条特征明显的断裂.其中，除3条断裂错断结晶基底（G界面）并向下延伸至上地壳底界面外，其他断裂均在深度3～5 km以上终止或收敛于G界面之上.此外，仅在剖面西侧基底下部约13～15 km埋深处发现一厚度在2 km左右的壳内高导层.所以，在综合各方面资料后分析认为，在剖面经过地区不存在发生大地震的深部构造条件，近地表所存在的活动断层是未来产生对该区有影响地震的震源区.  相似文献   

The preliminary interpretation of deep seismic sounding in western Yunnan   总被引：2，自引：0，他引：2  

Zhong-Yang Lin  Hong-Xiang Hu  Wen-Bin Zhang  Hui-Fen Zhang  Zheng-Qin He  Zhen-Ming Lin  Tao-Xing Qiu 《地震学报(英文版)》1993,6(4):867-881

The preliminary interpretation of Project western Yunnan 86–87 is presented here. It shows that there obviously exists lateral velocity heterogeneity from south to north in western Yunnan. The depth of Moho increases from 38 km in the southern end of the profile to 58 km in its northern end. The mean crustal velocity is low in the south, and high in the north, about 6.17–6.45 km/s. The consolidated crust is a 3-layer structure respectively, the upper, middle and lower layer. P ₁ ⁰ is a weak interface the upper crust, P ₂ ⁰ and P ₃ ⁰ are the interfaces of middle-upper crust and middle-lower crust respectively. Another weak interface P ₃ ^0′ can be locally traced in the interior of the lower crust. Interface Pg is 0–6 km deep, interface P ₁ ⁰ 9.2–16.5 km deep, and interfaces P ₂ ⁰ and P ₃ ⁰ respectively 17.0–26.5 km, 25.0–38.0 km deep. The velocity of the upper crust gradually increases from the south to the north, and reaches its maxmium between Nangaozhai and Zhiti, where the velocity of basement plane reaches 6.25–6.35 km/s, then it becomes small northward. The velocity of the middle crust varies little, the middle crust is a low velocity layer with the velocity of 6.30 km/s from Jinhe-Erhai fault to the north. The lower crust is a strong gradient layer. There exists respectively a low velocity layer in the upper mantle between Jinggu and Jingyunqiao, and between Wuliangshan and Lancangjiang fault, the velocity of Pn is only 7.70–7.80 km/s, it is also low to the north of Honghe fault, about 7.80 km/s. Interface P_6/0 can be traced on the top of the upper mantle, its depth is 65 km in the southern end of the profile, and 85 km in the northern end. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,15, 427–440, 1993.  相似文献   

川滇活动地块东南边界基底结构——盐源-西昌-昭觉-马湖深地震测深剖面结果   总被引：3，自引：1，他引：2       下载免费PDF全文

杨卓欣  王夫运  段永红  张成科  赵金仁  张建狮  刘宝峰 《地震学报》2011,33(4):431-443

在川滇活动地块东南边界区域完成了盐源-西昌-昭觉-马湖深地震宽角反射/折射探测剖面.利用该剖面获得的Pg初至折射波走时,采用走时特征分析、有限差分反演、时间项反演等方法,获得了沿剖面的基底P波速度结构和基底界面构造图像.结果表明,研究区基底结构呈现强烈的非均匀性,不同构造区显示出不同的地壳变形特征.盐源盆地盖层表现为推...  相似文献   

Fine upper crustal structure of Jiashi strong earthquake swarm region in Xinjiang inferred from high resolution seismic refraction profile data     

徐朝繁张先康  段永红杨卓欣酆少英  胡修奇 《地震学报(英文版)》2006,19(1):62-71

Introduction Jiashi-Artux area in southwest Xinjiang is one of the most active earthquake provinces at pre-sent in Chinese mainland. In the last century, about 3/4 strong earthquakes in Chinese mainland hit this area, and especially from January 21 to April 16 in 1997, 7 earthquakes with the magnituderanging from 6.0 to 6.9 occurred in a very small area of 9 km×18 km near Jiashi (ZHU et al, 1998). It has never taken place before in Chinese mainland that a series of strong earthquakes shoo…  相似文献   

The　fine　velocity　structure　of　sediment－base－ment　layer　in　the　Three－GorgesRegionoftheChangjiangRiver（YangtzeRiver）     

胡鸿翔  边银菊  高世玉 《地震学报(英文版)》1996,9(3):411-418

Ｔｈｅｆｉｎｅｖｅｌｏｃｉｔｙｓｔｒｕｃｔｕｒｅｏｆｓｅｄｉｍｅｎｔ┐ｂａｓｅ┐ｍｅｎｔｌａｙｅｒｉｎｔｈｅＴｈｒｅｅ┐ＧｏｒｇｅｓＲｅｇｉｏｎｏｆｔｈｅＣｈａｎｇｊｉａｎｇＲｉｖｅｒ（ＹａｎｇｔｚｅＲｉｖｅｒ）ＨＯＮＧ－ＸＩＡＮＧＨＵ（胡鸿翔），...  相似文献   

漳州盆地及其邻区地壳深部结构的探测与研究   总被引：5，自引：0，他引：5  

朱金芳  方盛明  张先康  曲国胜  黄宗林  张成科  赵金仁 《中国地震》2006,22(4):405-417

漳州盆地及其邻区地处我国大陆东南沿海地震带中段。通过该地区高分辨率折射及宽角反射，折射地震探测剖面，获得了该区地壳几何结构与速度结构、地壳深浅部断裂的几何形态和构造关系等。结果表明，该区地壳分为上地壳和下地壳。上地壳的厚度为16．5～18．8km，下地壳厚度为12．0～13．0km。上地壳分为上下两部分。在上地壳下部有一个低速层，速度约为6．00km／s，低速层顶面深度为12．0km左右，厚度约为5．0km。下地壳也分为上下两部分。Moho界面的深度为29．0～31．8km。该区6条地壳浅部正断层大部分向地下延伸深度不超过4km，最大延伸深度达5km左右。据推测，浅部正断层下方有一条高倾角地壳深断裂带，该断裂带向下断至Moho面，向上断至上地壳下部低速层中。深浅部断裂构造不相连接。漳州盆地深浅部构造组合特征表明，九龙江断裂带是该区内一条特征明显、具有复杂深浅构造背景的深断裂带。这一深地震探测成果的获得，使得该地区深部资料解释的可靠性和探测精度比以往显著提高；对深浅部构造的组合可作统一解释，地壳的分层和结构特征更为确切和精细；首次发现上地壳的拉张性构造及铲式正断层组合特征，不仅有助于对漳州及其邻区地震危险性的综合判定，而且对深化东南沿海地震带深部动力学过程的认识具有重要意义。  相似文献   

长白山天池火山研究区地壳三维界面与速度分布联合成像     

杨卓欣  张先康  赵金仁  王夫运  张成科 《CT理论与应用研究》2000,9(Z1):68-69

迅速发展并得到广泛应用的空间深地震测深技术通过采用三维数据采集的观测系统,利用三维层析技术,以求获得区域地壳三维分层结构和三维速度分布图像。它与传统的二维宽角反射－折射剖面技术相结合,可以有效地研究区域性地壳结构,特别是壳内深断裂和低速层的空间展布特征。Kanasewich等(1985)给出了利用空间深地震测深资料重建地壳三维界面的方法,我们在其方法的基础之上,进一步提出地壳三维界面和速度分布联合反演的方法。正问题的计算是在Chander(1977)关于三维平界面的快速两点追踪算法上的改进,在获得界面三维反演结果的基础之上,利用剩余走时残差,采用模型不分块反演技术(Tarantola,Nercession 1986)重建地壳三维速度图像。 1998年国家地震局地球物理勘探中心在长白山火山区实施了三维深地震测深观测,目的是研究天池火山的岩浆系统。利用本次实验所获得的780余个PmP波走时数据,采用上述的方法重建了研究区莫霍界面和地壳三维速度分布图像。研究结果表明,本区莫霍界面由北东方向向南逐渐加深,在天池火山口下达最深,并且被一些可能存在的地壳厚度陡变带(或深断裂)所切割。在东西方向莫霍面由西向东缓缓加深,其变化较南北方向缓和。特别值得注意的是,存在着一条近北东方向的莫霍面深度陡变带(或深断裂带)从天池火山口西部穿过,相应位置与马鞍山—三道白河地堑型断裂相一致,该断裂带可能对天山火山喷发时岩浆的运移起到重要作用。深度为15km和25km的P波速度图像表明,在天池火山口下分布着近南北走向明显的低P波速度分布,其南北方向延伸的范围约为80－90公里左右。比较这两个深度上的低P波速度体的分布特点,可以看出这个低P波速度体尺度随深度逐渐变小,但在25km深度处仍清晰可见,这表明该区岩浆自上地幔侵入地壳的“痕迹”,这也意味着,长白山天池火山的岩浆系统极有可能延伸到上地幔或更深一些。  相似文献   

云南扬子准地台区地壳浅部速度构造特征          下载免费PDF全文

胡鸿翔  冯永革 《地震工程学报》1998,20(4):12-17

描述了云南扬子准地台洱源－江川深地震测深部面初至波的详细分析解释结果,所用方法为改进的射线追踪法。结果表明,在剖面中段沉积盖层巨厚,基底面下陷最深可达１０ｋｍ以上,并且中新生代沉积也比别处厚。  相似文献   

Velocity structure and active fault of Yanyuan-Mabian seismic zone―The result of high-resolution seismic refraction experiment     

《中国科学D辑(英文版)》2008,(9)

The authors processed the seismic refraction Pg-wave travel time data with finite difference tomography method and revealed velocity structure of the upper crust on active block boundaries and deep features of the active faults in western Sichuan Province. The following are the results of our investigation. The upper crust of Yanyuan basin and the Houlong Mountains consists of the superficial low-velocity layer and the deep uniform high-velocity layer, and between the two layers, there is a distinct, and gently west-dipping structural plane. Between model coordinates 180-240 km, P-wave velocity distribution features steeply inclined strip-like structure with strongly non-uniform high and low velocities alternately. Xichang Mesozoic basin between 240 and 300 km consists of a thick low-velocity upper layer and a high-velocity lower layer, where lateral and vertical velocity variations are very strong and the interface between the two layers fluctuates a lot. The Daliang Mountains to the east of the 300 km coordinate is a non-uniform high-velocity zone, with a superficial velocity of approximately 5 km/s. From 130 to 150 km and from 280 to 310 km, there are extremely distinct deep anomalous high-velocity bodies, which are supposed to be related with Permian magmatic activity. The Yanyuan nappe structure is composed of the superficial low-velocity nappe, the gently west-dipping detachment surface and the deep high-velocity basement, with Jinhe-Qinghe fault zone as the nappe front. Mopanshan fault is a west-dipping low-velocity zone, which extends to the top surface of the basement. Anninghe fault and Zemuhe fault are east-dipping, tabular-like, and low-velocity zones, which extend deep into the base-ment. At a great depth, Daliangshan fault separates into two segments, which are represented by drastic variation of velocity structures in a narrow strip: the west segment dips westward and the east segment dips eastward, both stretching into the basement. The east margin fault of Xichang Mesozoic basin features a strong velocity gradient zone, dipping southwestward and stretching to the top surface of the basement. The west-dipping, tabular-like, and low-velocity zone at the easternmost segment of the profile is a branch of Mabian fault, but the reliability of the supposition still needs to be confirmed by further study. Anninghe, Zemuhe and Daliangshan faults are large active faults stretching deep into the basement, which dominate strong seismic activities of the area.  相似文献   

鲁西地区的地壳结构及壳内近直立高速异常体的发现   总被引：2，自引：2，他引：2       下载免费PDF全文

王光杰  滕吉文  张先康 《地球物理学报》2007,50(5):1480-1487

长320 km横跨鲁西地区的聊城－连云港宽角反射地震剖面揭示了鲁西地区的地壳结构，上地壳为二层结构，总厚18～20 km，速度5.4～6.2 km/s；下地壳也分为二层结构，总厚度13～15 km，速度6.4～6.7 km/s.Moho深度33～35 km.Pn 速度为7.9 km/s.地壳速度分布在横向上有较大变化，且平均速度为6.2～6.5 km/s，较正常值偏高.研究结果发现地壳内有两个近直立的高速体.从下地壳延伸到上地壳并直达沉积盆地的底部.可能是幔源岩浆大量侵入地壳，使得地壳的局部平均速度增高.近直立的高速体可能是幔源岩桨上涌的通道.鲁西地壳结构的研究对于探讨古地台的裂解与沉陷机制具有一定的意义.  相似文献   

长白山天池火山区及邻近地区壳幔结构探测研究   总被引：10，自引：2，他引：10       下载免费PDF全文

张成科  张先康  赵金仁  刘宝峰  张建狮  杨卓欣  海燕  孙国伟 《地球物理学报》2002,45(6):812-820

对长白-敦化深地震测深剖面资料利用二维射线追踪程序包进行走时拟合及地震图计算,得到了长白山天池火山区及邻近地区地壳上地幔速度结构和深部构造. 结果表明,以C2界面为标志,研究区地壳可分为上部地壳和下部地壳. 上部地壳厚1-23km,P波速度为6.00-6.25km/s;下部地壳厚12-17km,它是由一个较均匀的速度层和一个厚6-km的壳幔过渡层构成. 地壳厚度由敦化一带31-33km向东南逐渐增厚,至天池火山区最深达3km. 在天池火山区地壳存在低速体,其速度较周围介质低约为0.15km/s. 利用地震剖面探测、地震CT和大地电磁测深等结果显示,在天池火山区地壳内存在低速、低密度及低阻异常体,该异常体可能表明壳内岩浆囊的存在.  相似文献   

Deep seismic sounding investigation into the deep structure of the magma system in Changbaishan-Tianchi volcanic region   总被引：6，自引：0，他引：6  

张先康  张成科  赵金仁  杨卓欣  李松林  张建狮  刘宝峰  成双喜  孙国伟  潘素珍 《地震学报(英文版)》2002,15(2):143-151

IntroductionThe Changbaishan-Tianchi volcano, located in Jilin Province, northeast of China, is one of the well-known active volcanoes in China. In the year 1 215(15, the volcano underwent an eruption that is believed to be one of the greatest explosive eruptions on earth in the past 2000 years with regard to its scale and violence. The eruption amounted to over 100 km3, and the eruption cylinder reached a height of more than 30 km, the volcanic ashes floated and fell south of Hokkaido, Jap…  相似文献   

云南数字地震台站下方的S波速度结构研究   总被引：36，自引：13，他引：36       下载免费PDF全文

吴建平  明跃红  王椿镛 《地球物理学报》2001,44(2):228-237

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   

Velocity structure and active fault of Yanyuan-Mabian seismic zone—The result of high-resolution seismic refraction experiment   总被引：3，自引：0，他引：3  

FuYun Wang  YongHong Duan  ZhuoXin Yang  ChengKe Zhang  JinRen Zhao  JianShi Zhang  XianKang Zhang  QiYuan Liu  AiLan Zhu  XiWei Xu  BaoFeng Liu 《中国科学D辑(英文版)》2008,51(9):1284-1296

The authors processed the seismic refraction Pg-wave travel time data with finite difference tomography method and revealed velocity structure of the upper crust on active block boundaries and deep features of the active faults in western Sichuan Province. The following are the results of our investigation. The upper crust of Yanyuan basin and the Houlong Mountains consists of the superficial low-velocity layer and the deep uniform high-velocity layer, and between the two layers, there is a distinct, and gently west-dipping structural plane. Between model coordinates 180–240 km, P-wave velocity distribution features steeply inclined strip-like structure with strongly non-uniform high and low velocities alternately. Xichang Mesozoic basin between 240 and 300 km consists of a thick low-velocity upper layer and a high-velocity lower layer, where lateral and vertical velocity variations are very strong and the interface between the two layers fluctuates a lot. The Daliang Mountains to the east of the 300 km coordinate is a non-uniform high-velocity zone, with a superficial velocity of approximately 5 km/s. From 130 to 150 km and from 280 to 310 km, there are extremely distinct deep anomalous high-velocity bodies, which are supposed to be related with Permian magmatic activity. The Yanyuan nappe structure is composed of the superficial low-velocity nappe, the gently west-dipping detachment surface and the deep high-velocity basement, with Jinhe-Qinghe fault zone as the nappe front. Mopanshan fault is a west-dipping low-velocity zone, which extends to the top surface of the basement. Anninghe fault and Zemuhe fault are east-dipping, tabular-like, and low-velocity zones, which extend deep into the basement. At a great depth, Daliangshan fault separates into two segments, which are represented by drastic variation of velocity structures in a narrow strip: the west segment dips westward and the east segment dips eastward, both stretching into the basement. The east margin fault of Xichang Mesozoic basin features a strong velocity gradient zone, dipping southwestward and stretching to the top surface of the basement. The west-dipping, tabular-like, and low-velocity zone at the easternmost segment of the profile is a branch of Mabian fault, but the reliability of the supposition still needs to be confirmed by further study. Anninghe, Zemuhe and Daliangshan faults are large active faults stretching deep into the basement, which dominate strong seismic activities of the area. Supported by the National Basic Research Program of China (Grant No. 2004CB428400)  相似文献   

云南西部地壳深部结构特征   总被引：10，自引：3，他引：7       下载免费PDF全文

张恩会  楼海  嘉世旭  李永华 《地球物理学报》2013,56(6):1915-1927

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   

长白山天池火山区三维地壳结构层析成像   总被引：20，自引：7，他引：13       下载免费PDF全文

杨卓欣  张先康  赵金仁  杨健  段玉玲  王帅军 《地球物理学报》2005,48(1):107-115

利用长白山天池火山区三维空间深地震测观测系统所采集的反射P波走时资料,采用层析成像技术,重建了该区地壳界面构造形态和速度分析图像。界面成像结果表明：研究区地壳界面总体上显示了由北西向东南加深的趋势;马鞍山—三道白河断裂和富尔河—红旗河断裂是本区两条主要的深部构造,尤其是马鞍山—三道白河断裂,北北东向穿越天池火山口,其两侧的地壳界面存在明显的错断,预示了该处地壳厚度陡变或深大断裂带的存在,速度成像结果显示在10km深度,明显的P波低速异常分布在天池周围;15km深度上它表现为一个近南北向的P波低速异常条带,其延展尺度南北向为80~90km,东西向30~40km;随着深度的增加,P波低速异常分布在天池西侧,其尺度有明显的缩小,分布范围更加集中,而且低速扰动幅度更大。这种P波速度异常的变化图像在一定程度上反映了天池火山口下方壳内岩浆系统的空间分状况。  相似文献   

腾冲火山区地壳结构的人工地震探测   总被引：12，自引：3，他引：9  

王椿镛  皇甫岗  万登堡  刘祖荫  秦嘉政  楼海  吴建平 《地震研究》2000,23(2):148-156

介绍在腾冲地区完成的由一条近南北方向纵测线和两条近东西向的非纵测线组成的人工地震测深工程以及对纵测线资料解释的初步结果。上地壳的平均速度为５．９ｋｍ／ｓ,顶界面深度为２３ｋｍ左右;中地壳可分为２层,平均速度为６．１７ｋｍ／ｓ;纵线的平均地壳厚度为４０ｋｍ。在团田至腾冲之间的基底速度相当低（５．８０ｋｍ／ｓ）。在腾冲与固东之间的中地壳界面有局部上拱现象。局部地区的地壳速度偏低以及壳低界面上拱可能与岩  相似文献   

The heterogeneous characteristics of crust-mantle structures and the seismic activities in the northwest Beijing region     

赵金仁  张先康  张成科  张建狮  刘宝峰  任青芳  潘素珍  海燕 《地震学报(英文版)》2005,18(2):125-134

Introduction Zhangjiakou-Bohai seismic zone is a major active seismic zone that passes through the north-ern part of North China. Zhangjiakou-Beijing area, the northwest part of North China, is located at the intersection position of Yanshan, Taihangshan uplift, and Shanxi down-faulted zone, and the geological structures in this area are extremely complicated. Many researchers in the geoscience circle always pay close attention to this region because Yanqing-Huailai region is located in th…  相似文献