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1.
《中国科学:地球科学》2017,(6)
华北克拉通是中国大陆东部的一个重要的大地构造单元.20世纪60~70年代,华北地区发生了一系列强烈地震.近半个世纪以来,中国地震学家对华北地区地壳上地幔结构开展了大量的探测和研究,在地壳上地幔结构以及与强烈地震相关的深部构造环境等重大地球科学问题上取得了显著的进展.华北大震区的深地震剖面探测显示了地壳上部铲式正断层和低角度的滑脱构造与震源下方贯通下地壳直至莫霍面的高角度深断裂共存的复杂构造图像.地震层析成像揭示,华北大震大多都发生在高速与低速区的过渡带上,而唐山地震区中-下地壳存在明显的低速异常.震源区下方的低速异常带,地壳深浅构造不一致,高角度超壳深断裂,上地幔顶部速度偏低,以及莫霍界面局部隆起等,是华北伸展构造区深部孕震环境的共同特征,表明华北岩石圈结构具有高度不均匀性.华北克拉通现今的强烈地震活动性以及偏低的下地壳速度,显著区别于世界上其他稳定克拉通.所有这些都是华北克拉通破坏的重要证据.尽管深地震探测和地震层析成像研究大大丰富了深部构造和孕震环境的知识,一些深层次的问题需要进一步的研究. 相似文献
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应用云南地区地壳上地幔速度结构、电性结构和热结构等深部地球物理探测研究结果,讨论了云南地区大地震发生的深部地球介质构造背景.结果表明,上地壳高速区、壳内低速区或高导层、上地幔局部上隆、高热活动、深大断裂等深部介质构造背景的存在,与云南地区大地震的发生有着密切的联系.6,7级大震不是在任何地方都会发生,而是发生在一些具有某种深部介质构造背景的地区.5级及其以下地震的活动无显著的介质构造背景存在,其发生具有很大的随机性. 相似文献
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邢台地震区深部构造背景的地震转换波探测和研究 总被引:14,自引:5,他引:14
1982-1986年期间,在东汪、隆尧和百尺口邢台地区的强震震源区完成了3条近NW向地震转换波测深剖面。利用转换波数据处理新方法,实现了转换震相的相位对比追踪,得出了震源区较详细的深部构造剖面图和速度结构模型。发现强震震源区深部构造的特点为:上地壳强烈褶皱变形;中地壳急剧减薄;下地壳和上地幔局部上隆;存在一组深部超壳断裂;低速层急剧增厚,波速比增大以及上地幔波速偏低。表明研究区的下地壳和上地幔的温度可能偏高,其地震活动可能与上地幔物质的侵入作用有关。 相似文献
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华北强烈地震深部构造环境的探测与研究 总被引:6,自引:1,他引:5
20世纪六七十年代以来, 华北地区发生了一系列强烈地震. 强烈地震的孕育、 发生和发展与深部构造密切相关. 近50年来, 我国地震科学领域在强烈地震的地震构造和深部环境方面开展了大量的研究. 深部地球物理探测和地震层析成像结果揭示了华北地区地壳结构的基本特征, 并在强烈地震发生的深部构造环境等问题上取得了重要进展. 本文在回顾华北地区地壳上地幔结构探测的基础上, 对1966年邢台MS7.2, 1976年唐山MS7.8, 1975年海城MS7.3和1679年三河—平谷M8.0地震的地震构造和深部构造环境进行评述. 深部地球物理数据的综合分析表明, 震源下方的低速异常带, 高角度超壳深断裂, 地壳深浅构造的不一致, 偏低的上地幔顶部速度和局部隆起的莫霍界面, 是华北伸展构造区深部孕震环境的共同特征. 相似文献
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本文根据我国境内及邻近地区地壳结构的分布特征,特别是近年来我国发生的几个大地震所处的深部地壳构造背景,讨论了地震孕育与发生的可能构造模式。结果表明,近代地震活动地带均为地壳厚度急剧变化的地带和地壳构造的转折交汇部位。在深部构造上又为上地幔顶部局部的隆起地区及邻近隆起地带的边缘或斜坡上。此外,地震发生的深部部位与重力场、磁力场的高梯度变化以及地壳中的低电阻层、低速层和高速层的分布密切相关。这种与地震有关的深部构造背景与地球物理场特征,是今后地震预报和地震成因研究必须十分重视的。 相似文献
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华北及邻区地壳上地幔三维速度结构的地震走时层析成像 总被引:5,自引:2,他引:3
利用华北及邻区475个地震台站的区域地震走时资料,反演了该地区的地壳上地幔三维P波和S波速度结构。地震走时的计算用近似弯曲射线追踪方法,三维速度模型的反演用LSQR算法。用检测板方法对走时数据进行成像分辨率分析,结果表明反演模型在水平方向上以0.5°×0.5°的节点分布,垂直方向上以1km、10km、25km、42km、60km为节点作网格划分是合理的。研究区域内,秦岭—大别造山带两侧的华北块体与扬子块体有不同的速度异常特征:华北块体地壳速度结构复杂,而扬子块体则相对简单。华北块体地壳内存在较明显的低速异常,而扬子块体则正常或高速异常。自中新生代以来华北块体地壳经历挤压到伸展的强烈变形,而扬子块体相对稳定。华北块体的构造活动依然强烈,表现为频繁的地震活动。华北地块地壳速度结构的主要特征是:①主要构造带(如燕山构造带、太行山山前构造带、汾渭构造带、郯庐断裂带以及秦岭-大别构造带)位于地壳上地幔的低速或高低速过渡区内;②在唐山及附近地区25 km、42 km和60 km深处连续的低速异常,可能意味着上地幔热的物质上涌,到达上地壳的下部后停止上升过程。 相似文献
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浙皖地区地壳-上地幔结构和华南与扬子块体边界 总被引:12,自引:0,他引:12
基于屯溪-温州剖面宽角反射地震资料,拟合反演了地壳浅层和深部结构,并利用非纵剖面记录构制了上幔顶部结构图象。结果表明,江绍断裂带是本区最明显的构造分界,其西北一侧的扬子块体和东南侧的华南块体地壳和上地幔顶部结构以及地球物理特征明显不同。金(华)衢(州)盆地下方地幔上隆,上地幔岩石层中有低速体,可能是一个复杂的岩浆房构造。地幔岩石层呈现出由SE至NW向仰冲的叠瓦式片状构造,提示该区明显受水剂压应力控制。 相似文献
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本文通过面波层析成像得到了中国东部海域及邻近地区的地壳上地幔S波速度图像,给出了主要构造单元的区划及其结构特征,并讨论了速度结构与现今构造活动及构造演化历史的关系.研究区内中下地壳的平均速度与地震活动存在比较显著的关系,强震基本都发生在低速区内或高低速过渡区.太行山以东地壳内存在几条北西向低速带,其中张家口—渤海地震带下方的低速带最为显著.东部海域划分成北黄海、南黄海、东海、和冲绳海槽等4个构造块体.北黄海具有较薄较高速的岩石圈,与南华北盆地类似,推测是中生代特提斯洋向北俯冲造成岩石圈减薄的遗迹.北华北地区具有低速的地壳和较厚的岩石圈,岩石圈地幔速度偏低且上下比较均匀,可能反映中生代沿北方缝合带持续碰撞作用的特点.南黄海具有相对较厚的岩石圈,较多地保存了下扬子克拉通的特征.在下扬子与华北地块的拼合过程中,洋壳俯冲可能是北黄海和苏皖地区上地幔低速特征的成因.在125°E以东的朝鲜半岛地区未发现这一拼合过程的遗迹.有可能整个朝鲜半岛都是华北地块的一部分;但也有可能是太平洋俯冲和日本海张开的作用完全改造了朝鲜半岛的岩石圈上地幔,抹去了以往构造运动的痕迹.东海地区的地壳厚度,特别是岩石圈厚度向冲绳海槽方向减小,反映出菲律宾海板块俯冲在弧后广大地区都有影响.冲绳海槽地区可见俯冲的菲律宾海板片以及板片上方显著低速的地壳和上地幔,为冲绳海槽的弧后扩张机制提供了证据. 相似文献
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大同—阳高震区深部构造背景 总被引:6,自引:0,他引:6
利用通过本区的宽角反射/折射剖面资料对大同-阳高震区及邻区地壳上地幔速度结构与构造进行了详细的研究,结果表明,地壳上地幔速度结构与构造在纵向和横向上具有明显的不均一性,浅部基底断裂发育,对应其深部,根据波组特征,壳内界面及速度等值线起伏变化和低速异常体的边界等推测了地壳深断裂带,区内最明显的上地壳低速体位于大同-阳原附近,其南界存在地壳断裂,大同-阳高地震群与该低速异常体和深断裂有关。 相似文献
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利用2002~2003年中国地震局地质研究所台阵实验室以唐山大震区为中心布设的40个流动宽频带地震台站和首都圈数字台网的33个宽频带台站的远震数据,采用接收函数非线性反演方法得到其中72个宽频带台站下方60 km深度范围内的S波速度结构.根据得到的各台站下方地壳上地幔的S波速度结构,并综合刘启元等(1997)用接收函数非线性反演方法得到的延怀盆地15个宽频带流动台站下方的地壳上地幔S波速度结构模型,给出了39°N~41°N,114°E~119.5°E区域内沿不同走向、不同深度S波速度分布.由于综合了利用首都圈数字地震台网的宽频带台站以及流动地震台阵的观测数据,本文给出了较前人同类研究空间分辨率更好的结果.结果表明: (1)研究区的速度结构,特别是怀来以东的速度结构十分复杂.在10~20 km深度范围内,研究区地壳具有高速和低速异常块体的交错结构.研究区中上地壳速度结构主要被与张渤地震带大体重合的NW向高速条带和穿越唐山大震区的NE向高速条带所控制,而其中下地壳的速度结构主要为延怀—三河—唐山地区上地幔隆起所控制.(2)研究区内存在若干壳内S波低速体,它们主要分布在唐山,三河及延怀盆地等地区.在这些地区,壳内低速体伴随着壳幔界面的隆起和上地幔顶部速度结构的横向变化.(3)地表断层分布与地壳速度结构分区有较好的相关性,表明断层对不同块体有明显的控制作用.其中,宝坻断裂,香河断裂和唐山断裂均为超壳断裂.(4)首都圈内大地震的分布与壳内低速体及上地幔顶部的速度结构有密切关系.对于唐山大地震的成因,仅考虑板块作用引起的水平应力场是不够的,有必要充分重视由于上地幔变形引起的地壳垂直变形和上地幔物质侵入造成的热效应. 相似文献
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渤海海峡是连接中国东部山东半岛和辽东半岛的重要途径,其跨海通道的地壳稳定性研究受到高度关注.本文利用地震层析成像方法重建三维P波速度模型,揭示了渤海海峡及周边区域地壳和上地幔的构造特征.结果表明,渤海海峡的速度结构存在明显的非均匀性,海峡北部地壳速度较高,结构较为完整,断层活动不明显,与现今较弱的地震活动相吻合,但是地壳底部存在低速薄层,它有可能成为地壳和上地幔之间的滑脱带,需要开展进一步的研究加以确认.相比之下,海峡南部地壳速度偏低,附近区域地震活动频繁,与张家口—蓬莱断裂带通过于此有着密切的联系,该断裂持续不断的地震活动对海峡南部的地壳结构产生了较大的影响.在渤海南部,郯庐断裂带东、西两侧的地壳结构明显不同,西侧速度偏高,东侧至渤海海峡速度偏低,这一特征可能与此地区广泛发育的断层和地震活动有关.另外,受华北克拉通破坏及地幔上涌的影响,渤海地区地壳深部和上地幔速度偏低,郯庐断裂带及渤海海峡附近显示出深部热流的活动迹象,反映了岩石圈减薄和软流圈的局部抬升. 相似文献
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JOINT INVERSION OF AMBIENT NOISE AND SURFACE WAVE FOR S-WAVE VELOCITY OF THE CRUST AND UPPERMOST MANTLE BENEATH WEIHE BASIN AND ITS ADJACENT AREA 
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下载免费PDF全文 The Weihe Basin is the main component of the extrusion and escape shear zone between the ancient North China craton block in Ordos and the ancient Yangtze platform in Sichuan Basin, and carries the dynamic transmission from the main power source of the Qinghai-Tibet Block in the west to the North China and South China regions in the east. The basin itself plays multi roles in the east-west and north-south tectonic movement, and is an excellent site for studying the structural interlacing, dynamic transformation and transmission. At the same time, Weihe Basin is also a famous strong earthquake zone in China. Historically, there was a strong earthquake of magnitude 8 1/4 occurring in Huaxian County in 1556, causing huge casualties and property losses. In view of the special geological structures and the characteristics of modern seismicity activities in the Weihe fault-depression zone, it is necessary to carry out fine three-dimensional velocity structure detection in the deep part of Weihe Basin and its adjacent areas, so as to study the relationship between velocity structure and geological structural units and their evolution process, as well as the deep medium environment where earth ̄quakes develop and occur.
We investigate the S-wave velocity structure beneath Weihe Basin and its adjacent regions based on continuous background noise data and teleseismic data recorded by 257 broadband stations in Shaanxi Province and its adjacent regions and China Seismological Science Array Exploration Project, and by adopting seismic surface wave inter-station method and background noise cross-correlation method, a total of 10 049 fundamental-mode Rayleigh surface wave phase velocity dispersion curves in the periods of 5~70s are obtained. Firstly, using the average dispersion curve in this study area, we obtain the one-dimensional average S-wave velocity structure model of the study area, and then we apply the ray-tracing surface-wave-dispersion direct inversion method to obtain the S-wave velocity structure of the crust and uppermost mantle (3~80km) beneath Weihe Basin and its adjacent regions. The test results of a 1°×1° grid checker board show that the recovery is good, except for the areas east of 111° and south of 32° of the study area, where there is almost no resolution. The imaging results show that the velocity structure beneath each tectonic unit in the study area has a certain distribution rule, and there is a good correlation between surface geological structure and deep velocity structure.
Based on the analysis of velocity slices at different depths and S-wave velocity structures of three profiles, and combined with existing geological structures, geophysics and other deep exploration research results, we obtain the following knowledge and conclusions:1)The thick sedimentary layer covering the top of Weihe Basin is the cause of low velocity anomaly in its shallow crust, the middle and upper crust of the basin are of low velocity structure, and the low-velocity zone extends about 25km, the Moho interface uplifts abruptly relative to both the Ordos Block and the Qinling orogenic belt on opposite sides, and high-speed materials from the upper mantle intrude into the lower crust, which may be related to the underplating of mafic-ultramafic materials from the upper mantle in Mesozoic-Cenozoic period; 2)The south Ordos Block is not a homogeneous whole, the low-velocity structure of the shallow crust in southern Ordos Block is thin in east and thick in west, which may be related to the overall tilting of the Ordos Basin since the Phanerozoic, as well as the differential uplift and strong and uneven denudation of the Ordos Block since the Late Cretaceous. The crustal structure of the south Ordos Block is relatively simple and homogeneous. There is no significant low-velocity structure in the curst of the block, which shows that the low-velocity structure in the crust does not penetrate the whole Ordos block. We speculate that the southern Ordos Block still maintains the stable craton property, and has not been reformed significantly so far; 3)The variation characteristics of deep structure of the Qinling orogenic belt reflect the deep crustal structure and tectonic deformation characteristics of the orogenic belt which are strongly reformed by land-land collision and suture between North China plate and Yangtze plate, intracontinental orogeny, uplift of Qinghai-Tibet Plateau and its northeastern expansion since the Late Hercynian-Indosinian period. The deep structure beneath the eastern and western Qinling orogenic belt is different and has the characteristics of segmentation. The low-velocity anomaly at the bottom of the lower crust of the orogenic belt may be affected by tectonic activities such as uplift and outward extension of the NE Tibetan plateau, and the analysis considers that there is little possibility of the existence of lower crustal circulation channel for the eastward flowing of Tibetan plateau materials in the Qinling orogenic belt. However, since the maximum depth from the inversion of this paper is 80km, which is located at the top of the upper mantle, our results cannot prove that there exists a mantle flow channel for the eastward flow of Tibetan plateau material beneath the Qinling orogenic belt. 相似文献
14.
基于ChinArray三期项目布设于华北克拉通中部的流动台阵观测数据,利用背景噪声互相关和地震面波层析成像获取了研究区内6—140 s周期的瑞雷面波频散,使用蒙特卡罗非线性反演方法获得了华北克拉通中部岩石圈的高分辨率三维S波速度结构。结果显示华北克拉通不同地块的岩石圈速度结构存在显著的横向差异:其中鄂尔多斯盆地腹地整体表现为高速特征,延伸至200 km以下,但其东南缘存在小范围的低速异常;东部的华北盆地整体表现为低速特征,具有较薄的地壳和岩石圈厚度;中部造山带南北两端以及南北重力梯度线下方存在相连接的低速区域,在深处延伸至华北盆地下方;在下地壳和上地幔顶部,大同火山群区域的低速体逐渐向西偏移至鄂尔多斯盆地东北角下方;而在上地幔中,该区域的低速异常随深度增加而逐渐减弱,低速体延伸至东南方向的华北盆地下方。基于本研究获得的S波速度模型,我们认为:鄂尔多斯盆地腹地保持了克拉通特性,但其东南缘存在局部的岩石圈改造作用;华北盆地发生了强烈的岩石圈破坏减薄和地壳伸展变形;中部造山带南北端以及南北重力梯度线下方的岩石圈发生了局部的改造减薄,其机制可能都来源于华北盆地下方地幔热物质的上涌;大同火山群下方上涌的热物质从鄂尔多斯盆地东北角下方侵入下地壳,在地壳内上升过程中受到上地壳的阻挡,向东流动至大同火山群下方,形成了大同火山群的岩浆活动,其深部来源可能与西向俯冲的太平洋停滞板块有关。 相似文献
15.
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
16.
针对张渤地震带深部孕震构造环境和地幔岩浆对地壳底侵作用的问题,本文充分收集了华北地区区域数字地震台网176个固定台站记录到的观测数据,应用近震体波层析成像方法,获得了华北地区地壳的P波三维速度结构和VP/VS波速比.依据VP/VS波速比能反映岩石物理性质和流变学特征的特性,并结合人工地震测深剖面、大地电磁测深、地球化学等成果,讨论了张渤地震带的孕震环境和动力学机制等问题.研究结果显示:张渤地震带强震位于高低速异常分界线附近或偏向高速体一侧,震源体下方均存在广泛的低速异常分布,据此推测这些低速异常的存在可能与流体有关,同时也揭示出张渤地震带地震主要分布在上地壳,从震源深度分布及地壳物性结构分析上地壳具有发震的构造背景,也有发震的物性基础,是一个易震层和多震层.张渤地震带地壳内部在20 km下方存在偏高的波速比特征,这些可能反映了在该区域内中、上地壳幔源物质的侵入和热状态的岩体在横向上的变化,可能是地幔岩浆长期底侵作用的结果.由于深部幔源物质的侵入,使得地壳深部流体的供给量增加,在地壳发震层下长期存在的流体会影响断裂带的结构,降低断裂带的强度,使区域应力场发生变化从而导致断裂带上应力的集中,进而引发地震发生. 相似文献
17.
本研究拾取了中国数字测震台网固定台站记录的2008-2016年2级以上地震事件中的27233条高质量Pn到时资料,反演得到了郯庐断裂带及其邻区上地幔顶部Pn波速度和各向异性结构模型.结果显示,研究区上地幔顶部Pn波速度结构存在强烈的横向不均匀性,速度异常形态与区域地质构造较为吻合.太行山造山带、鲁西隆起、大别造山带、苏鲁褶皱带、胶辽隆起和华北盆地南端等隆起区表现为低波速异常,而黄海北、南部盆地、渤海湾和华北盆地北部等凹陷区均为高波速异常.壳内强震主要发生在Pn低波速异常和高低波速异常的横向过渡地带,说明强震的发生与上地幔结构的横向变化之间存在有一定关联.郯庐断裂带两侧Pn波速度以郯城地震为界其东北侧和西南侧分别分布有与断裂带近平行的低波速异常条带,而西北侧和东南侧分别分布有高波速异常条带,各向异性快波方向近乎沿断裂带走向,可能由于上地幔热物质沿郯庐断裂带上涌形成低速异常后断裂带发生左旋平移运动所致.华北盆地内上地幔顶部Pn波速度结构和各向异性的明显变化,反映华北克拉通破坏过程中经历了地幔热物质上涌、莫霍面隆升以及岩石圈拆沉等复杂构造变形. 相似文献
18.
漳州盆地与相邻地带的地质构造复杂,水热活动强烈,且伴随着小地震的频频发生.为厘定该盆地深部是否存在潜在的干热岩体,则必须对其壳、幔精细结构和介质物理属性进行探查、研究与探讨.基于漳州盆地壳幔速度结构的格局发现:(1)"灵霄—漳州—安溪"地带的深处存在一低速层,且在漳浦—长泰之间呈现出一"扁豆状"低速体;(2)该低速体北侧为一伸抵上地幔顶部、且向北倾的深大断裂带,若该"扁豆状"低速体为潜在的干热岩,则该深大断裂带可能为深部热液物质上涌与热源补给的通道. 相似文献
19.
《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