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1.
新生代以来印度-欧亚板块持续碰撞汇聚形成号称世界第三极的青藏高原。青藏高原的扩展生长和构造变形系统形成的动力学过程是地球科学研究的重大科学问题。青藏高原东北缘新生代以来构造演化过程及其与印度-欧亚板块碰撞汇聚的动力学耦合关系研究对于揭示青藏高原扩展生长过程具有重要地质意义。尽管前人已经开展了大量研究探索,提出各种构造-隆升模型,但青藏高原东北缘何时卷入印度-欧亚碰撞汇聚的青藏高原构造系统尚未达成共识。作为青藏高原东北缘组成部分的西秦岭北缘构造带漳县地区不仅新生代地层记录齐全,而且断裂构造发育,构造变形现象丰富,是研究青藏高原东北缘新生代构造演化及印度-欧亚碰撞汇聚远程构造响应的良好区域。通过对西秦岭北缘构造带漳县地区新生代沉积盆地地层构造格架、沉积地层序列和沉积旋回等详细野外观测研究,结合区域断裂带几何学-运动学及变形历史分析,取得如下认识:(1)西秦岭北缘漳县地区新生代沉积地层主要由为不整合分隔的两套构造性质完全不同的构造地层单元组成,即渐新世—中新世伸展断陷盆地沉积和上新世再生前陆磨拉石盆地沉积;(2)渐新世—中新世时期的地壳伸展拉张构造环境与印度-欧亚碰撞汇聚的挤压环境相悖,指示了西秦岭北缘在渐新世—中新世尚未卷入现今的印度-欧亚碰撞汇聚构造系统;(3)上新世磨拉石盆地的发育标志着西秦岭北缘构造带从伸展到挤压的构造体制转换,可能指示了印度-欧亚碰撞汇聚的挤压构造作用这时才波及西秦岭北缘;(4)上新世粗砾岩、西秦岭造山带地层和中生代沉积地层共同经历了抬升剥蚀作用,形成了西秦岭北缘广泛发育的夷平面。第四纪以来夷平面的抬升和解体、现代河流侵蚀系统和多级河流阶地的出现,指示了青藏高原东北缘整体的不均匀大规模抬升而进入现今青藏高原构造系统。 相似文献
2.
印度大陆板块北向碰撞及俯冲导致的青藏高原快速隆升,使得青藏高原内部的物质组成及构造演化更为复杂,其中之一高原内部的低速层分布特征及其构造成因尚不明确.藏北高原中部的班公湖—怒江缝合带两侧宽频带地震观测程度较高,为调查班公湖—怒江缝合带两侧低速层分布特征提供了良好的客观条件.本文选取了INDEPTH-III项目布置在班公怒江缝合带两侧的宽频带地震台站记录的远震数据,开展接收函数分析,通过时频域相位滤波提高信噪比,并利用接收函数复谱比非线性反演方法得到了台站下方一维S波速度结构.反演结果表明班公湖—怒江缝合带两侧地壳中低速层广泛分布,且横向不连续,埋深在20~40 km之间,部分地区在0~15 km的上地壳也出现低速层.上地壳内的低速层分布特征主要与地表区域构造及沉积层分布相关;中下地壳内的低速层分布不仅受到了地体边界的约束,且可能与后期青藏高原整体隆升相关. 相似文献
3.
利用背景噪声反演鄂尔多斯块体及其南缘地区地壳速度结构 总被引:1,自引:0,他引:1
文中利用分布在鄂尔多斯块体及其南部周缘地区的53 个宽频带地震固定台站的连续波形记录,采用双台互相关计算
方法由背景噪声提取瑞利波格林函数,经时频分析获得相速度和群速度频散曲线,并分别计算了汾渭地堑、秦岭北缘、鄂
尔多斯块体内部和六盘山地区4 个不同构造区的平均频散曲线,进而反演了各构造区的地壳上地幔一维横波速度结构。结
果显示:地壳厚度在汾渭地堑为34 km,在秦岭北缘地区和鄂尔多斯块体均为40 km,在六盘山地区最厚,达49~50 km;相
应的上地幔顶部横波速度分别为4.20,4.2,4.30 和4.15 km/s;地壳内结构浅部特征差异最大,在地壳中部六盘山地区的速
度较低,下部地壳不同地区的波速较一致。 相似文献
4.
青藏高原东北缘是研究高原隆升和演化的理想场所,其岩石圈结构记录了高原向外扩展的岩石圈变形行为和演化过程,本研究利用一条跨青藏高原东北缘的宽频带观测剖面(红原-景泰剖面)和部分甘肃、青海区域台网的远震体波波形资料,通过S波接收函数方法获得了青藏高原东北缘的岩石圈-软流圈边界(LAB)图像。结果表明:1)松潘-甘孜地体东北部和西秦岭造山带下方的岩石圈较薄,略向北加厚,其LAB深度为110~130 km,昆仑断层下方无明显岩石圈错断,推测松潘-甘孜地块与西秦岭造山带的岩石圈可能具有亲缘性; 2)祁连地块下方的岩石圈厚度为135~150 km,其中祁连造山带东缘的LAB震相不聚焦,反映复杂的造山带型岩石圈属性; 3)阿拉善地块下方岩石圈略向南加厚, LAB深度为130~150 km,呈向祁连造山带下方汇聚的趋势,但尚未通过海原断裂带; 4)鄂尔多斯地块下方的岩石圈较厚, LAB深度为160~170 km,反映其稳定的克拉通型岩石圈属性。 相似文献
5.
6.
相位加权叠加方法在探测鄂尔多斯东南缘地壳结构中的应用 总被引:2,自引:0,他引:2
本文利用在鄂尔多斯东南缘地区宽频带流动地震台阵记录的远震数据,提取各台站的接收函数,并利用相位加权方
法进行单台多震叠加、H -κ叠加以及共转换点叠加,获得了研究区莫霍过渡带的深度及其变化趋势。研究结果显示,莫霍的
深度由鄂尔多斯块体往东南方向逐渐变浅,在不同区域莫霍具有不同的特征:鄂尔多斯的莫霍深度在42~38 km;渭河-山
西地堑的莫霍出现约3 km的上隆;熊耳-伏牛山的莫霍深度在35~33 km;河淮盆地的莫霍形态比较复杂。相位加权叠加方
法能有效地压制相关性不好的噪音,在部分受噪音及沉积层多次波干扰的台站记录中,对突出莫霍的转换波Ps震相有很大
的帮助。 相似文献
7.
《地球学报》2021,(1)
印度大陆板块北向碰撞及俯冲导致的青藏高原快速隆升,使得青藏高原内部的物质组成及构造演化更为复杂,其中之一高原内部的低速层分布特征及其构造成因尚不明确。藏北高原中部的班公湖—怒江缝合带两侧宽频带地震观测程度较高,为调查班公湖—怒江缝合带两侧低速层分布特征提供了良好的客观条件。本文选取了INDEPTH-Ⅲ项目布置在班公怒江缝合带两侧的宽频带地震台站记录的远震数据,开展接收函数分析,通过时频域相位滤波提高信噪比,并利用接收函数复谱比非线性反演方法得到了台站下方一维S波速度结构。反演结果表明班公湖—怒江缝合带两侧地壳中低速层广泛分布,且横向不连续,埋深在20~40 km之间,部分地区在0~15 km的上地壳也出现低速层。上地壳内的低速层分布特征主要与地表区域构造及沉积层分布相关;中下地壳内的低速层分布不仅受到了地体边界的约束,且可能与后期青藏高原整体隆升相关。 相似文献
8.
南北构造带北段位于青藏高原东北缘及其向北东方向扩展的区域,其岩石圈变形特征对于探讨青藏高原东北缘变形机制及其扩展范围具有非常关键的意义。地震波各向异性能很好地反映上地幔的变形特征。因此,本文对布设在南北构造带北段的流动地震台站记录的远震波形资料进行S波分裂研究,获得了研究区上地幔各向异性图像以及该区岩石圈地幔的变形特征信息。S波分裂研究结果表明,研究区地震波各向异性来自于上地幔,区内不同构造单元上地幔各向异性方向不尽相同。快波方向分布显示,青藏高原东北缘,鄂尔多斯西缘以及贺兰构造带北段的快波方向主要表现为NW-SE向,与前人在银川地堑和贺兰构造带中、北部得到的NW-SE向的上地幔各向异性方向一致,显示这些地区岩石圈地幔变形一致,该结果表明青藏高原东北缘向北东方向扩展的影响范围已到达贺兰构造带北段。阿拉善地块内部快波方向显示为NE-SW向,与阿拉善地块北部存在的北东向展布的晚古生代岩浆岩方向一致,表明该NE-SW向的快波方向可能代表地是“化石”各向异性,是晚古生代阿拉善地块受到古亚洲洋闭合作用的结果。此外,鄂尔多斯地块内也存在NE-SW向的各向异性方向,与区内中-晚侏罗世存在的NE-SW向逆冲推覆构造方向一致,因此该各向异性方向也代表了“化石”各向异性,是鄂尔多斯地块受到古特提斯构造域的块体碰撞、古太平洋板块北西向俯冲以及西伯利亚板块向南俯冲共同作用的结果。 相似文献
9.
中国地区地面观测积雪深度和遥感雪深资料的对比分析 总被引:4,自引:1,他引:3
比较了气象台站观测和卫星遥感(SMMR、 SSM/I、 AMSR-E)的积雪深度两种资料在空间分布、 年际变化及其与中国夏季降水之间关系的异同性.结果表明: 两种资料在积雪稳定区的分布比较一致, 积雪深度的大值区位于东北地区、 新疆北部和青藏高原地区; 对于季节性积雪区且积雪深度不大的区域而言, 二者之间存在着较大的差异, 尤其在江淮流域及长江中下游地区, 台站观测的积雪深度大于遥感得到的积雪深度; 平均而言, 两种资料获得的积雪深度在各地区基本一致.在新疆北部和高原南部, 二种资料的年际变化存在着差异, 在新疆北部, 台站观测大于遥感得到的积雪深度, 而在高原东南部遥感大于台站观测积雪.近30 a来, 两种资料获得的积雪深度在新疆北部和青藏高原的年际变化趋势基本一致, 新疆北部为增加趋势, 青藏高原有减少的趋势.值得注意的是, 在东北地区, 近30 a来两种类型资料的年际变化趋势呈相反变化.两种资料在新疆北部的相关最强; 东北、 青藏高原其次; 而高原东南部最差, 在使用时应加注意.青藏高原地区的两种积雪资料与中国夏季降水的相关"信号"基本一致.青藏高原地区积雪与东北西部地区和长江中下游夏季降水之间的相关最为显著.资料间的差异性并不影响高原地区积雪对中国夏季降水"信号"的应用. 相似文献
10.
中国东部地区深部结构的层析成像 总被引:3,自引:0,他引:3
利用中国国家台网60个宽频带地震台站和国际地震中心(ISC)592个台站分别记录的1996—2007和1990—2004的震相报告,从中提取出可供反演使用的远震事件9806个,共12078个高质量的P波初至走时数据,对中国东部地区进行了远震P波层析成像研究。结果显示,在五大连池火山区和大同火山区有明显的低速异常,大同火山源区较深。另外几个明显的低速区分别分布在广东地区、渤海湾地区和长江中下游地区。四川盆地的高速特征和扬子板块的低速特征在纵剖面图像上也较为明显。中国东南部的软流圈中存在大面积的地幔上涌,认为是由板块之间的碰撞俯冲、引起大尺度地幔横向流动造成的,而太平洋板块的作用局限于其俯冲的"远程效应",为大范围的软流圈物质上涌提供了东侧的深部动力条件。 相似文献
11.
A. A. Lyubushin 《Natural Hazards》2014,70(1):471-483
A new method of dynamic estimate of seismic danger is presented which is based on estimating multifractal properties of low-frequency seismic noise. The efficiency of the method is illustrated by the analysis of seismic noise from broadband seismic network F-net in Japan. The analysis of multifractal properties of low-frequency seismic noise from Japan seismic network F-net since the beginning of 1997 allowed a hypothesis about approaching Japan Islands to a future seismic catastrophe to be formulated at the middle of 2008. The base for such a hypothesis was statistically significant decreasing of multi-fractal singularity spectrum support width mean value. The peculiarities of correlation coefficient estimate within 1 year time window between median values of singularity spectra support width and generalized Hurst exponent allowed to make a decision that starting from July 2010, Japan come to the state of waiting strong earthquake. This prediction of Tohoku mega-earthquake, initially with estimate of lower magnitude as 8.3 only (at the middle of 2008) and further on with estimate of the time beginning of waiting earthquake (from the middle of 2010), was published in advance in a number of scientific articles and abstracts on international conferences. The analysis of seismic noise data after Tohoku mega-earthquake indicates increasing probability of the 2nd strong earthquake within the region where the north part of Philippine Sea plate is approaching island Honshu (Nankai Trough). This region is characterized by relatively low values of singularity spectrum support width which is an indicator of seismic danger. In one paper (Sobolev in Izv Phys Solid Earth 47:1034–1044, 2011), the low-frequency seismic noise at the same range of periods was investigated retrospectively using data from the stations of broadband network IRIS which are located around the epicenter of Tohoku mega-earthquake with a distance up to 1,200 km. It was shown that the variance of the noise and the number of high-amplitude asymmetric impulses were grown dramatically before the event for stations which are located within the radius up to 500 km from the epicenter. 相似文献
12.
时频峰值滤波信号增强方法在实际地震资料处理中的应用 总被引:1,自引:0,他引:1
在不损失有效信号能量的基础上从低信噪比地震资料中恢复出有效信息是地震资料处理的关键问题之一。针对这一问题利用基于伪Wigner-Ville分布的时频峰值滤波技术处理共炮点地震记录。基于伪Wigner-Ville分布的时频峰值滤波技术可以保证得到复杂地震记录的无偏估计,增强地震资料中的有效信息,去除随机噪声,有效地恢复同相轴。采用实际共炮点地震资料,比较时频峰值滤波前后的地震记录可以看出:地震资料中的有效信息明显增强,同相轴连续性得到改善。 相似文献
13.
V. V. Adushkin D. I. Bobrov I. O. Kitov M. V. Rozhkov I. A. Sanina 《Doklady Earth Sciences》2017,473(1):303-307
A weak seismic event with body wave magnitude 2.1 was detected near the epicenter of an underground explosion conducted by the Democratic People’s Republic of Korea (DPRK) on September 9, 2016. The event occurred approximately two days after the test. Using the method of waveform cross-correlation, two array stations of the International Monitoring System (IMS), USRK and KSRS, recorded the arrival of P n waves. At the same time, this event was not recorded during the standard automatic processing at the International Data Center. The location and other characteristics of this weak event indicate that it is likely to have been an aftershock of the preceding explosion. Based on the successful automatic detection and construction of the event, we conducted an extended investigation, which consisted in searching for secondary seismic phases at the nearest stations that do not belong to the International Monitoring System. The final solution, which is based on waveform cross-correlation, includes stations MDJ (China) and SEHB (Republic of Korea), the aftershock epicenter is located at ~2 km northwest of the epicenter of the DPRK test. 相似文献
14.
We developed a new method to invert source mechanisms of seismic events observed from a single (vertical or near vertical) array of receivers. This method was tested on a synthetic dataset and applied to a seismic dataset acquired during hydraulic fracturing of a sedimentary formation. We show that a crack-opening seismic event recorded on a single vertical array can be inverted as a pure shear seismic event, indicating that the best fitting shear mechanisms inverted from seismic data acquired along a vertical borehole provide misleading information. We found that the majority of the analyzed source mechanisms of the induced events are not consistent with pure shear faulting as previously thought. The non-shear source mechanisms are required even when seismic noise, location uncertainty, and uncertainty in the attenuation structural model are considered. 相似文献
15.
Improving the level of seismic hazard parameters in Saudi Arabia using earthquake location 总被引:1,自引:0,他引:1
Abdullah M. Al-Amri Arthur J. Rodgers Tariq A. Al-Khalifah 《Arabian Journal of Geosciences》2008,1(1):1-15
Saudi Arabia is characterized as largely aseismic; however, the tectonic plate boundaries that surround it are very active.
To improve characterization of seismicity and ground motion hazard, the Saudi Arabian Digital Seismic Network (SANDSN) was
installed in 1998 and continues to be operated by the Saudi Geological Survey (SGS) and King Abdulaziz City for Science and
Technology (KACST). This article describes research performed to improve seismic hazard parameters using earthquake location
and magnitude calibration of the high-quality SANDSN data. The SANDSN consists of 38 seismic stations, 27 broadband, and 11
short period. All data are telemetered in real time to a central facility at KACST in Riyadh. The SANDSN stations show low
background noise levels and have good signal detection capabilities; however, some stations show cultural noise at frequencies
above 1.0 Hz. We assessed the SANDSN event location capabilities by comparing KACST locations with well-determined locations
derived from ground truth or global observations. While a clear location bias exists when using the global average iasp91 earth model, the locations can be improved by using regional models optimized for different tectonic source regions. The
article presents detailed analysis of some events and Dead Sea explosions where we found gross errors in estimated locations.
New velocity models we calculated that should improve estimated locations of regional events in three specific regions include
(1) Gulf of Aqabah—Dead Sea region, (2) Arabian Shield, and (3) Arabian Platform. Recently, these models were applied to the
SANDSN to improve local and teleseismic event locations and to develop an accurate magnitude scale for Saudi Arabia. The Zagros
Thrust presents the most seismic hazard to eastern Saudi Arabia because of the frequent occurrence of earthquakes. Although
these events are 200 km or further from the Arabian coast, wave propagation through sedimentary structure of the Gulf causes
long-duration ground motions for periods between 3 and 10 s. Such ground motions could excite response in large engineered
structures (e.g., tall buildings and long bridges) such as was experienced after the November 22, 2005 Qeshm Island earthquake
off the southern coast of Iran. 相似文献
16.
Crustal structure of the Kaapvaal craton and its significance for early crustal evolution 总被引:1,自引:0,他引:1
High-quality seismic data obtained from a dense broadband array near Kimberley, South Africa, exhibit crustal reverberations of remarkable clarity that provide well-resolved constraints on the structure of the lowermost crust and Moho. Receiver function analysis of Moho conversions and crustal multiples beneath the Kimberley array shows that the crust is 35 km thick with an average Poisson's ratio of 0.25. The density contrast across the Moho is 15%, indicating a crustal density about 2.86 gm/cc just above the Moho, appropriate for felsic to intermediate rock compositions. Analysis of waveform broadening of the crustal reverberation phases suggests that the Moho transition can be no more than 0.5 km thick and the total variation in crustal thickness over the 2400 km2 footprint of the array no more than 1 km. Waveform and travel time analysis of a large earthquake triggered by deep gold mining operations (the Welkom mine event) some 200 km away from the array yield an average crustal thickness of 35 km along the propagation path between the Kimberley array and the event. P- and S-wave velocities for the lowermost crust are modeled to be 6.75 and 3.90 km/s, respectively, with uppermost mantle velocities of 8.2 and 4.79 km/s, respectively. Seismograms from the Welkom event exhibit theoretically predicted but rarely observed crustal reverberation phases that involve reflection or conversion at the Moho. Correlation between observed and synthetic waveforms and phase amplitudes of the Moho reverberations suggests that the crust along the propagation path between source and receiver is highly uniform in both thickness and average seismic velocity and that the Moho transition zone is everywhere less than about 2 km thick. While the extremely flat Moho, sharp transition zone and low crustal densities beneath the region of study may date from the time of crustal formation, a more geologically plausible interpretation involves extensive crustal melting and ductile flow during the major craton-wide Ventersdorp tectonomagmatic event near the end of Archean time. 相似文献
17.
In this paper, we consider the problem of estimating the apparent slowness vector p of a plane P wave caused by a regional seismic event and recorded by a small-aperture seismic array. The case is considered when strong non-stationary and non-Gaussian random interferences act on the array sensors. In this case, the well-known estimate of wideband frequency-wave-number analysis (WFK) becomes ineffective due to large estimation errors. We have proposed three new algorithms for estimating the vector p that are robust i.e. resistant to changes in the statistical properties of the random interferences. They mainly use information about the slowness vector contained in the phases of the spectra of seismograms recorded by the array sensors. An intensive Monte Carlo simulation was carried out to compare the accuracy of the proposed phase-based estimates with the accuracy of WFK-estimate in the case when non-stationary and non-Gaussian anthropogenic interferences act on the array sensors. In the simulation we used synthetic mixtures of signals caused by a seismic event and anthropogenic seismic interferences. These signals and interferences were recorded by real small-aperture seismic arrays. It was shown that the proposed phase-based estimates of the vector p provide significantly better accuracy than traditional WFK-estimate in the case of strong anthropogenic interferences, and have approximately the same accuracy in the case of white Gaussian noise.
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20.
Manfred Koch 《Tectonophysics》1982,90(1-2)
A study of the shallow and intermediate depth seismicity of the Romanian Vrancea region in the period 1964–1981 has been performed. The seismic events have been relocated by a standard location procedure using a regional velocity model. From the temporal and spatial distribution of the seismic activity, aspects of the seismicity before the large March 4, 1977 earthquake are treated, in particular the seismic gap in space and time prior to this event, found by Mârze (1979), which is critically discussed and revised. The concept of the precursor time/magnitude relationships of different authors is applied and its validity to the Vrancea region assessed. The hypocentral distribution shows that the intermediate depth seismic activity is confined to a small volume with dimensions of only some tens of kilometers. The results are interpreted in terms of the tectonics of the region. From an analysis of the travel-time residuals at different local stations, evidence for lateral velocity heterogeneities beneath the region is obtained e.g. a high velocity zone southeastwards of the Carpathian chain. Finally mean
ratios, (i.e. Poisson's ratios), for various stations are calculated from P- and S-wave travel times. They show azimuthal variations of up to 6% for stations within the area where the intermediate seismic activity occurs in comparison with the station Focsani, situated eastwards in the Carpathian foredeeps. All these results are compatible with the plate tectonic concept for the Vrancea region, that is the subduction of an oceanic lithospheric slab under the Carpathian mountain arc, giving rise to such a highly active seismic zone. 相似文献