地震引发欧洲最大的活火山—意大利埃特纳火山

20 0 2年 1 1月 2 4日 ,欧洲最大的活火山———意大利埃特纳火山在连续遭遇 5次地震后开始喷发 ,喷出的熔岩在火山自然风景保护区内流淌 ,虽然没有造成人员伤亡和建筑物毁坏 ,但为了以防万一 ,当地政府已在周围地区展开疏散工作。救援人员在各游览景点用推土机筑起 1 5ｍ高的土墙以防熔岩流侵入 ,但山坡高处一些滑雪设施已被熔岩淹没。据报道 ,这几次地震震级在里氏 2 5～3 7之间。在第 5次地震发生后 ,埃特纳火山剧烈摇晃 ,随后开始喷发。埃特纳火山区是一个滑雪和旅游胜地。埃特纳火山耸立在意大利西西里岛东岸 ,海拔 3 3 40ｍ ,是欧洲…     

火山与地震的共性特征及有关问题讨论

对火山与地震及其伴随现象进行了对比分析,发现二者除外在形式不同外,在分布范围、深部构造及其它方面具有明显的共性特征．讨论了火山与地震具有共性特征的原因,认为它们都与岩浆活动有关．因此,内陆地震的发生有可能是地壳内岩浆上涌的直接结果     

第26章：夏威夷冒纳罗亚火山与基拉韦亚火山的地壳三维P波速度成像

火山地震监测的主要目的和成果之一就是追踪震源、识别和解释那些可以预测未来火山喷发的火山地震活动（Koyanagi et al，1988；Harlow et al，1996）。建造传统的火山监测网是为了准确确定与岩浆运移有关的震群。在构造活动区域内地震监测网的运行，一项基本要求是具有准确记录和测量地震波初动的能力。     

京津唐地区地壳三维P波速度结构与地震活动性分析

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.     

用地震走时反演长白山天池火山地区的二维地壳结构

应用一种同时获得地壳上地幔二维速度结构和界面形态的地震走时反演算法,对在长白山天池火山区L1剖面获得的人工地震折射和宽角反射走时数据进行反演,得到了该剖面的地壳上地幔二维速度结构和构造．结果表明：长白山天池火山口下方中下地壳存在一倒三角状的低速体,壳内反射界面和莫霍面一致呈下凹形态,幅度2～6km不等,形成一个地壳根,推测是长白山天池火山系统．最后将所得结果与SEIS83正演试错模拟结果进行了比较．     

青藏高原地震波三维速度结构的研究

根据青藏高原及其邻区的模拟地震台站和宽频带数字地震记录资料,采用区域体波层析成你和瑞利面波层析成像,反演得到了青藏高原地区的三维地震波速度结构。两种层析成像方法得到的地壳上地幔P波和S波速度结构的结果非常相似,它们显示,青藏高原南部的拉萨块体的上地壳存在明显的低速区,青藏高原北部的羌塘地区的下地壳和上地幔顶部相对速度较低。这些结果与青藏高原南、北部处于碰撞过程中的不同阶段有关。     

用地震资料测定岩石层的三维速度结构

本文发展了一种利用远震P波资料反演岩石层三维速度结构的新模型与方法;并将射线追踪方法引进上述模型与方法中。这种模型和方法同样可用于利用近震资料同时反演介质结构与震源参数。 数值实验结果表明,上述模型和方法是可行的。     

门源地区地壳三维体波速度结构及地震重定位研究

本文使用甘肃、青海数字地震台网及中国地震科学探测台阵记录到的门源地区地震的P波和S波到时资料,应用双差层析成像方法联合反演了该地区的地壳三维速度结构和震源位置参数.结合地质构造背景,研究了门源M_S6.4地震孕育发生的深部介质环境及该地区速度结构与地震活动性之间的关系.结果表明：反演之后地震的走时残差均方根显著降低,重定位后的地震在垂直方向上呈现出与断层位置有关的条带状分布.门源地区地壳速度结构存在明显的不均匀性,浅层P波和S波速度结构与地表地质构造及地形特征密切相关.研究区内地震活动性与地壳速度结构具有很强的对应关系,地震主要分布在高速异常区域及其边缘.门源M_S6.4地震震中附近的P波和S波速度结构表现出明显的高速异常,且在震源区下方存在P波低速层,这种特殊的构造条件可能是导致此次地震发生的重要原因.

     

用地震资料测定岩石层的三维速度结构

本文发展了一种利用远震P波资料反演岩石层三维速度结构的新模型与方法;并将射线追踪方法引进上述模型与方法中。这种模型和方法同样可用于利用近震资料同时反演介质结构与震源参数。 数值实验结果表明,上述模型和方法是可行的。     

Three-dimensional velocity structure and seismicity of Mt. Etna Volcano, Italy

A new set of three-dimensional velocity models beneath Mt. Etna volcano is derived in the present work. We have used P- and S-wave arrivals from local earthquakes recorded at permanent and temporary seismic networks installed since 1980. A set of 1249 earthquakes recorded at more than four seismic stations was selected for traveltime inversion. The velocity models obtained by using different data selection criteria and parametrization display similar basic features, showing a high P-wave velocity at shallow depth in the SE quadrant, in close connection with a high gravimetric Bouguer anomaly. This area shares a low V_p/V_s ratio. High P-wave velocities and high V_p/V_s ratios are obtained along the central conduits, suggesting the presence of dense, intrusive magmatic bodies extending to a depth of about 20 km. The central intrusive core is surrounded by lower P-wave velocities. The relocated earthquake hypocenters also display the presence of an outward dipping brittle region, away from the central conduits, surrounding a ductile zone spatially related to the high P-wave velocity anomalies located in proximity to the central craters.     

Three-dimensional P-wave velocity structure in the upper crust beneath Kuju Volcano, central Kyushu, Japan

 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     

Analysis of sustained long-period activity at Etna Volcano, Italy

Following the installation of a broadband network on Mt. Etna, sustained Long-Period (LP) activity was recorded accompanying a period of total quiescence and the subsequent onset of the 2004–2005 effusive episode. From about 56000 events detected by an automatic classification procedure, we analyse a subset of about 3000 signals spanning the December 17th, 2003–September 25th, 2004, time interval. LP spectra are characterised by several, unevenly-spaced narrow peaks spanning the 0.5–10 Hz frequency band. These peaks are common to all the recording sites of the network, and different from those associated with tremor signals. Throughout the analysed time interval, LP spectra and waveforms maintain significant similarity, thus indicating the involvement of a non-destructive source process that we interpret in terms of the resonance of a fluid-filled buried cavity. Polarisation analysis indicates radiation from a non-isotropic source involving large amounts of shear. Concurrently with LP signals, recordings from the summit station also depict Very-Long-Period (VLP) pulses whose rectilinear motion points to a region located beneath the summit craters at depths ranging between 800 and 1100 m beneath the surface. Based on a refined repicking of similar waveforms, we obtain robust locations for a selected subset of the most energetic LP events from probabilistic inversion of travel-times calculated for a 3D heterogenous structure. LP sources cluster in a narrow volume located beneath the summit craters, and extending to a maximum depth of ≈ 800 m beneath the surface. No causal relationships are observed between LP, VLP and tremor activities and the onset of the 2004–2005 lava effusions, thus indicating that magmatic overpressure played a limited role in triggering this eruption. These data represent the very first observation of LP and VLP activity at Etna during non-eruptive periods, and open the way to the quantitative modelling of the geometry and dynamics of the shallow plumbing system.     

四川地区一维地壳速度模型研究

本文以四川地震台网2009~2014年的编目报告为基础,选择定位精度为1且记录台站数大于30的地震,筛选去除其中因定位深度误差或者空隙角偏大而造成的异常结果,验证了数据的合理性和稳定性;优选出47个地震,对其重新判读,结合折合走时调整以及Hyposat批处理方法,得到了适应四川地区地震的平均速度模型;并利用人工爆破事件、PTD方法的地震定位结果进行对比,分析使用不同模型时的结果差异。     

3-D density model of Mt. Etna Volcano (Southern Italy)

A detailed density model of Mt. Etna and its surrounding areas has been evaluated using a 3-D inversion of the gravimetric data acquired in the 1980's. Several high-density and low-density bodies are found, penetrating from shallow depths as far down as 12 km bsl. A positive correlation (in terms of location, extent, density, and velocity) is established between several anomalies of the density model and features identified in previously published seismic tomographies. A prominent high-density body extending down to 7 km bsl is recognized in the southern part of the Valle del Bove, and interpreted as a solidified magmatic intrusion. On the western boundary of this anomaly, a low-density body is interpreted as a bubble and liquid magma mixture. Outside the central area, three other high-density anomalies are imaged and attributed to the earliest phases of volcanic activity in the area. Several interesting low-density anomalies are also identified and correlated with known fault lines and other structural features of the region.     

复杂性颌面外伤的三维CT诊断

本文用３Ｄ９８软件对２２例复杂性颌面外伤常规ＣＴ扫描数据进行三维ＣＴ重建，讨论了三维ＣＴ诊断颌面外伤的优越性，提出尽管三维ＣＴ在骨折探测方面不及二维ＣＴ，但三维ＣＴ在评价骨折的形态，范围，骨折块移位及骨折所致的面部畸形方面优于常规ＣＴ，它是对二维ＣＴ的重要     

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

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。     

Shear-wave Velocity Structure around Teide Volcano: Results Using Microtremors with the SPAC Method and Implications for Interpretation of Geodetic Results

Deformation analysis and simulation of volcanic edifices require the construction of models of elastic properties of those structures. In this paper we present an analysis of microtremor measurements recorded during the performance tests of two temporary seismic arrays installed in the eastern portion of the Teide caldera in 1994. We take advantage of recent developments of the SPAC method and use spatial cross-correlation computations to estimate phase velocity dispersion of Rayleigh waves at the location of the arrays. We show that the extension of the standard SPAC method is valid in the case of our data, justifying its use and supporting the generalization of the SPAC method to single station pairs. The phase velocity dispersion curve obtained was inverted to recover the shear-wave profile at the site of the arrays. Our results indicate that the subsoil structure of the caldera is laterally homogeneous at the scale of a few km about the location of the arrays. We obtained about 315 m of volcanic sediments overlying rocks with a shear-wave velocity of 2 km/s. These results are robust and are a starting point to further modelling of deformation, permanent or transient, at this volcanic edifice, which can be useful in the interpretation of different observed fields. In fact, the computation of deformations and gravity changes due to possible volcanic intrusions in two models; one considering the volcanic sediments and the other without considering them, provided different results in the near field.     

Path-specific Velocity Structure of Western China from Surface-wave Dispersion

We develop one-dimensional (1-D) path-specific velocity models in western China using new Rayleigh and Love wave group and phase velocity dispersion measurements for 20 events in the region. The earthquakes were grouped into three geographic clusters from which we compute the average phase and group velocity dispersion. We invert the average dispersion curves simultaneously for 1-D shear-velocity models appropriate for the three central Asian paths, using three previous shear-velocity models as initial models. The models are validated by forward modeling waveforms of recent events. The crustal thickness beneath western China in the vicinity of the Lop Nor test site is 50–60 km and our velocity models are consistent with major geologic features (e.g., basins and mountain ranges) and previous structural models for this region.