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1.
为探究北天山中段主要发震构造,进一步明确重点监视区域。利用双差定位法对2010年6月至2021年12月期间在北天山中段发生的MS≥1.5的1 439个地震事件进行重定位。得到结果:(1)走时残差均值由-0.22 s变为0.006 6 s,震源位置测定误差在东西向上平均为1.1 km,在南北向上平均为1.4 km,在垂直深度上平均为2.0 km。(2)地震主要分布在乌鲁木齐山前坳陷及南部区域,并未向准噶尔盆地延伸;局部地震震中向构造带趋近,呈现出一条走向近280°、一条近300°的地震活动带,分别与准噶尔南缘断裂带、亚马特断裂带走向基本一致。(3)由深度剖面显示,震源深度分散程度增加,0~50 km均有分布。以乌鲁木齐为界,东西两侧地震震源深度存在明显的差异,呈现出东深西浅的现象。通过对该区域精定位研究,初步探明准噶尔南缘断裂带、亚马特断裂带为该区域主要发震构造,盆山结合部地震较为活跃,因此准噶尔南缘断裂带及乌鲁木齐山前坳陷区将作为今后震情跟踪工作的重点监视区域。 相似文献
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本文搜集了1952-1971年发生在我国境内及边境地区266次地震的观测资料,得到国内外五百多个地震台的 P 和 S 震相到时约二万条;根据我国地区大爆炸观测及其他地壳结构的研究成果,结合上述地震观测资料,提出了中国地区双层平均地壳速度模型,以便由深度走时校正把各种震源深度上的走时折算为表面震源走时,并进行剥壳处理.用迭代法校正震中和发震时刻.采用1970年寇蒂斯(curtis)所述的立方样条函数平滑数据的方法,得到表面震源 P 波和 S 波的走时表.运用海格劳兹-维谢尔特-贝特曼(Herglotz-Wiechert-Bateman)速度反演的方法求得中国地区地幔中,P 波和 S 波速度随深度的分布.算出震中距离=0-104,各种震源深度的一整套 P 波和 S 波走时表.经过试用的实践表明,用它来测定震中参数比用国外的走时表具有较高的精确度. 相似文献
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秦自耕 李子轩 庹先国 李怀良 杜小龙 QINZi-geng LIZi-xuan TUOXian-guo LIHuai-liang DUXiao-long 《地球物理学进展》2015,(2):769-775
地震走时层析建模技术是解决复杂近地表模型速度建模问题的重要技术.该方法是一种迭代反演方法,在地震反演过程中需反复计算地震射线走时.本文采用交互初至拾取方法,通过层析反演出近地表模型,对比分析了走时层析反演表层模型与野外表层模型差别,从而引入了控制点成果约束的层析反演综合建模技术.最终将野外调查成果同走时层析反演建模结合起来,运用非线性走时层析反演技术,通过可视图片、数据、曲线的比较,得出如下结论:在速度纵横向变化大的复杂地区,通过野外资料与室内处理信息交互约束,可以为建立符合实际情况的近地表模型奠定基础,进一步为地震采集资料静校正处理方法的确定和叠加剖面品质提高创造了条件. 相似文献
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地震层析成像是研究地球内部结构的主要方法.文章利用首都圈区域内3231个地震挑选出来的29839条直达P波走时和29972条直达S波走时数据,首次使用拟波形层析成像方法对首都圈地区地壳的P波和S波速度,以及泊松比进行反演成像,获得了该区域三维高分辨率VP、VS以及泊松比结构.成像结果表明,首都圈地壳结构非均匀性强烈,地表地质构造特征与浅层的速度异常具有明显的一致性.中地壳康拉德面深度附近广泛存在的相对低速异常层可能是多期构造运动叠加的结果.该区域地震多发生于高低速及泊松比异常交界区域.唐山地震和历史上的三河-平谷地震震源下方都存在明显的相对低速异常,可能与流体的存在有关.深部速度结构异常的一致性可能暗示唐山地震和三河-平谷地震的深部发震构造具有一定的相似性.高分辨率精细速度结构的获得,为深入认识首都圈地区地壳结构的精细非均匀性和动力学机制提供了重要的科学依据. 相似文献
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《地球物理学进展》2016,(1)
CT技术已经广泛应用到科学和工程领域,特别是在地球物理学和土木工程质量无损检测方面.本文用精密可控的地震波雷达在芦山震中区持续300 s向地壳主动发射低能量的线性调频弹性波,通过高灵敏度的地震仪器接收信号,实现对上地壳剖面波速结构进行无破坏性探测.用短时傅里叶变换分析记录到的线性调频信号的时间和频率特征,并用能量累积法提取信号的走时形成走时曲线图,识别震相后用射线追踪方法进行P波走时反演,得到了芦山地震震中区上地壳剖面二维波速结构.分析结果表明地震波雷达发出的信号符合控制要求,重复性高达99.7%;用能量累积法得到的地震波走时曲线易于识别震相.从芦山地震震中区上地壳剖面二维波速结构中可以看出,在芦山震中区附近有明显的波速差异,并且出现了向上凸起、向下急剧下降,再缓慢上升,呈"铲形"特征,存在低速层,分析出芦山地震是一次逆冲型地震,并且距震中区近的检测点波速比偏低,距震中区远的检测点波速比偏高.通过与其他方法研究结果对比,证明了用地震波雷达信号走时反演地壳波速结构是可行的. 相似文献
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本文根据中国地区地震P波和S波走时表与地壳和地幔中地震波的速度分布,计算和编制中国地区深度震相pP,sS,pS;sP的走时表以及地面反射波、转换波PP,SS,PS,SP震相的走时表。自1940年Jeffreys和Bullen计算了全球平均的走时表之后,除Herrin等人重新算过pP走时表外,对于sS,sP,pS震相走时一直没有人再行算过。提出中国地区符合实际情况的深度震相走时表,对于远震记录的分析处理,提高测定震源深度的精度,揭示在某些深度和震中距离上深度震相在中国地区的特征将有一定的价值,并与中国地区地震P波和S波走时表相匹配,使之自成一个体系。我们将进一步采用一系列最新数据处理方法计算《深度震相和地面反射波、转换波走时》的软件亦可供其他地区计算走时表的参考。 相似文献
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利用中美合作Hi-Climb项目北段吉隆-鲁谷剖面的天然地震探测数据,拾取2004~2005年期间5级以上地震事件的P波与4级以上地震的Pn波震相的走时,通过多震相层析成像反演获得青藏高原腹地的地下500 km以上的P波速度扰动结构.结果表明雅江地区为北向倾斜的低速扰动,班公-怒江断裂下方存在向南俯冲并被印度板块俯冲挤压而回折的高速体,建立了印度板块在冈底斯地块下方拆沉并被雅江低速体穿越的构造样式.说明印度板块俯冲在到达班公-怒江缝合带之前已经开始消减,与拆沉位置对比发现,印度板块的前锋深部呈现多期多级次特征,并受到地幔热循环作用的影响. 相似文献
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地震属性分析技术在地球物理勘探领域的广泛应用,启发研究人员将其应用于人工源宽角反射/折射深地震测深剖面的资料预处理和震相识别。采用札达-泉水沟深地震测深资料,提取振幅、信噪比、主频、瞬时带宽、瞬时高频能量等地震属性参数,分析不同参数的物理含义,挑选其中对界面变化敏感的参数,对深地震测深资料进行预处理,并利用P波和S波的联合扫描,提高震相识别的准确性。走时互换结果显示,采用地震属性参数可有效提高震相拾取的准确性,进而提高后续地壳速度结构反演结果的精度。 相似文献
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利用2014年完成的穿过银川盆地人工源宽角反射与折射剖面的3炮长观测距资料,采用基于地震波走时反演方法的Rayinvr算法得到了研究区地壳和上地幔的速度结构.结果表明:研究区地壳厚度为42—48 km,莫霍面沿剖面展布形态呈现出东西两侧浅、中部较深的特征,莫霍面最深的区段位于贺兰山下方. P波速度沿剖面随着深度的增加呈正梯度增大,然而在深度约为90—103 km的岩石圈地幔中,识别出两组较明显的反射界面,两组界面之间并未发现P波速度随深度而显著增加,表明研究区下方存在与地球平均模型中速度随深度增加而增大不相符的速度结构,推测银川盆地下方岩石圈与软流圈之间可能存在速度过渡带. 相似文献
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本文利用中国数字地震台网记录到的中国青海和缅甸弧发生的两次浅源地震的区域波形资料,在以Crust2.0改进AK135模型所构建的参考模型C2AK的基础上,通过三重震相波形拟合的方法,获得了青藏高原东部下方从莫霍面至上地幔顶部180 km深度范围内的P波和S波最佳拟合模型。最佳模型显示:松潘—甘孜地块(A和B剖面)下方的P波速度比C2AK模型高5%,而川滇地块(C剖面)下方上地幔顶部的P波速度要比参考模型低5%,且随深度逐渐增加,直至120 km处与C2AK模型值相同;松潘—甘孜地块下方的S波速度较C2AK模型要高3%。上述区域性速度结构差异表明,相对于松潘—甘孜地块,川滇地区的岩石圈地幔存在着更明显的挤出效应。 相似文献
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A. S. N. Murty B. Rajendra Prasad P. Koteswara Rao S. Raju T. Sateesh 《Pure and Applied Geophysics》2010,167(3):233-251
2-D shallow velocity structure is derived by travel-time inversion of the first arrival seismic refraction and wide-angle reflection data along the E–W trending Narayanpur–Nandurbar and N–S Kothar–Sakri profiles, located in the Narmada–Tapti region of the Deccan syneclise. Deccan volcanic (Trap) rocks are exposed along the two profiles. Inversion of seismic data reveals two layered velocity structures above the basement along the two profiles. The first layer with a P-wave velocity of 5.15–5.25 km s?1 and thickness varying from 0.7–1.5 km represents the Deccan Trap formation along the Narayanpur–Nandurbar profile. The Trap layer velocity ranges from 4.5 to 5.20 km s?1 and the thickness varies from 0.95 to 1.5 km along the Kothar–Sakri profile. The second layer represents the low velocity Mesozoic sediments with a P-wave velocity of 3.5 km s?1 and thickness ranging from about 0.70 to 1.6 km and 0.55 to 1.1 km along the E–W and N–S profiles, respectively. Presence of a low-velocity zone (LVZ) below the volcanic rocks in the study area is inferred from the travel-time ‘skip’ and amplitude decay of the first arrival refraction data together with the prominent wide-angle reflection phase immediately after the first arrivals from the Deccan Trap formation. The basement with a P-wave velocity of 5.8–6.05 km s?1 lies at a depth ranging from 1.5 to 2.45 km along the profiles. The velocity models of the profiles are similar to each other at the intersection point. The results indicate the existence of a Mesozoic basin in the Narmada–Tapti region of the Deccan syneclise. 相似文献
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This paper describes a travel—time analysis performed for the Italian seismic stations, in particular those operating in southern Italy, in order to study the crust and upper mantle properties in the region. Average P-wave residuals of teleseisms in the distance range 30°–95° with respect to Jeffreys-Bullen tables, at thirteen permanent and temporary stations of southern Italy, are coherent with a high velocity zone beneath Calabria and northern Sicily and low velocity material in the mantle beneath the Eolian Islands. Travel—time residuals from Tyrrhenian intermediate earthquakes show a high velocity structure which extends in a NW direction from a depth of at least 200 km down to 450 km.A damped least-squares inversion applied to DSS data confirms the existence of low velocity zones in the crust beneath the Eolian Islands, at 8–12 km depth, that agrees with previous results and with the lack of S waves from local earthquakes.Publication No. 193, Progetto Finalizzato Geodinamica, CNR-Roma. 相似文献
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Yang Lei Liu Hongbing Zhao Junmeng Institute of Tibetan Plateau Research Chinese Academic of Sciences Beijing China Graduate University of Chinese Academic of Sciences China 《地震学报(英文版)》2009,(4):373-377
The method of 2-D travel time inversion,which can be applied to determining 2-D velocity structure and in-terfaces simultaneously,is used in this paper to reprocess the data of Paiku Co-Pumoyingcuo seismic profile across the Ny-ima-Tingri rift and Shenzha-Dinggye rift. P-wave velocity structure and interfaces beneath the profile are obtained. The in-terfaces in the crust near Tingri and Dinggye which are located on rifts have a tendency to uplift,and velocities of middle and lower crusts are high. Low veloc... 相似文献
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Constraining the anisotropy structure of the crust by joint inversion of seismic reflection travel times and wave polarizations 总被引:2,自引:0,他引:2
In the context of wide-angle seismic profiling, the determination of the physical properties of the Earth crust, such as the
elastic layer depth and seismic velocity, is often performed by inversion of P- and/or S-phases propagation data supplying
the geometry of the medium (reflector depths) or any other structural parameter (P- or S-wave velocity, density...). Moreover,
the inversion for velocity structure and interfaces is commonly performed using only seismic reflection travel times and/or
crustal phase amplitudes in isotropic media. But it is very important to utilize more available information to constrain the
non-uniqueness of the solution. In this paper, we present a simultaneous inversion method of seismic reflection travel times
and polarizations data of transient elastic waves in stratified media to reconstruct not only layer depth and vertical P-wave
velocity but also the anisotropy feature of the crust based on the estimation of the Thomsen’s parameters. We carry out
a checking with synthetic data, comparing the inversion results obtained by anisotropic travel-time inversion to the results
derived by joint inversion of seismic reflection travel times and polarizations data. The comparison proves that the first
procedure leads to biased anisotropic models, while the second one fits nearly the real model. This makes the joint inversion
method feasible. Finally, we investigate the geometry, P-wave velocity structure and anisotropy of the crust beneath Southeastern
China by applying the proposed inversion method to previously acquired wide-angle seismic data. In this case, the anisotropy
signature provides clear evidence that the Jiangshan-Shaoxing fault is the natural boundary between the Yangtze and Cathaysia
blocks. 相似文献
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本文利用重力和地震P波到时数据反演得到了中国东北地区地壳上地幔三维密度结构.与单一的重力或地震反演相比,重震反演一方面有效地克服了重力反演结果垂向分辨率低的问题,另一方面也提高了地震反演结果的可靠性.结果显示:中国东北地区的地壳及上地幔剩余密度异常分布与构造单元具有明显的相关性,造山带对应低密度异常,盆地对应高密度异常;区域内火山下方有明显的低密度体存在,可能是由于太平洋板块俯冲进入上地幔并部分滞留,在滞留板块深部脱水和软流圈热物质共同作用下产生了上涌岩浆,喷发后形成了火山. 相似文献
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本文利用华北遥测地震台网和首都圈数字地震台网112个台站记录到的1993~2004年发生在首都圈地区3983次地震的P波绝对到时资料和相对到时资料,采用双差地震层析成像方法联合反演了京津唐地区地壳三维P波速度结构和震源参数.京津唐地区的三维P波速度结构图像在浅层上很好地反映了地表地质、地形的特征.在平原和凹陷的盆地处呈现P波低速速度异常,而在隆起的山区或基岩出露区显示为P波高速速度异常.在研究区域内震级M≥6.0历史地震和经过重新定位后的震级ML≥3.0的地震的震源位置在10 km深度和15 km深度处的P波相对速度扰动图上的投影都显示出相似的特点,即:绝大部分的地震的震源位置在P波相对速度扰动图上的投影分布在低、高速异常的交界地带,且偏高速体一侧,只有极少数的地震分布在P波速度异常体内部. 相似文献
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Kuju Volcano lies near Aso Caldera at the center of Kyushu Island, western Japan. After a few hundred years of dormancy,
a phreatic explosion accompanied by a small ash eruption occurred on 11 October 1995. This study was undertaken to determine
the subsurface seismic velocity structure associated with the active magmatic regime in the Kuju volcanic region. The three-dimensional,
upper crustal, P-wave velocity structure beneath Kuju Volcano was determined using methods for the simultaneous inversion
of P-wave arrival times from local earthquakes in and around the Kuju volcanic region for velocities and hypocentral parameters.
Results reveal two shallower low-velocity anomalies located in the northern and southern parts of Kuju Volcano, consistent
with the presence of significant negative Bouguer gravity anomalies. In addition, a high-velocity anomaly is located approximately
5 km northwest of Mt. Kuju, one of the domes in Kuju Volcano. Beneath this high-velocity anomaly, a low-velocity anomaly is
present. This velocity structure suggests a magmatic regime that has a lid consisting of cooled solid material overlying a
chamber of partially molten material.
Received: 23 September 1997 / Accepted: 20 June 1998 相似文献
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Introduction The Tengchong volcanic-geothermal area is located on the northeast edge of the collision zone between Indian and Eurasian plates, and belongs to Eurasian volcanic zone (the MediterraneanHimalayanSoutheast Asia volcanic zone). In Tengchong area, the Quaternary volcanic, geothermal and seismic activities are all intensive. These phenomena have been drawing the attention of many geoscientists in the world. Their studies are concerned with geology, geophysics, geochemistry, and cr… 相似文献