排序方式: 共有9条查询结果,搜索用时 15 毫秒
1
1.
张风雪 吴庆举 李永华 高孟潭 Ulziibat Munkhuu Sukhbaatar Usnikh Demberel Sodnomsambuu 《地球物理学报》2014,57(9):2790-2801
利用中蒙国际科技合作专项项目在蒙古中南部地区布设的69个宽频带地震仪在2011年8月-2013年7月所记录的远震波形数据,采用波形相关方法在0.02~0.1 Hz的频段内拾取了18551个有效的P震相相对走时残差数据,进一步采用有限频走时层析成像的方法,反演获取了蒙古中南部下方深达800 km的P波速度结构.结果显示:肯特山下方的低速异常极有可能是推测中的肯特山地幔柱的反映;呼斯坦瑙鲁和曼达尔戈壁西边的低速异常可能与杭爱山高原下的地幔柱或地幔对流有关联;戈壁滩的低速异常带可能和达里甘嘎火山有相同的热来源,可能是该区火成岩存在的深部原因,也可能是戈壁滩及其周边地区地幔柱或下地幔热物质上涌的表现. 相似文献
2.
2011年8月至2013年7月中国地震局地球物理研究所与蒙古科学院天文与地球物理研究中心在蒙古中南部区域布设了宽频带流动地震台阵,这为开展远东地区深部结构的精细探测提供了有利的数据基础.利用台阵记录的远震地震事件,采用P波接收函数的H-κ叠加分析和共转换点(CCP)叠加方法获得了台站下方的地壳厚度及平均波速比.结果显示研究区的地壳厚度介于39 km至45 km之间.整体上Moho面埋深从西北往东南方向逐渐变浅.在蒙古主线性构造两侧地壳厚度呈现区域性变化特征,东南部地区地壳厚度较薄,约为39 km,而西北部地区地壳较厚,达45 km,为此推测蒙古主构造线可能是地壳的一个陡变带.此外,研究地区地壳的平均波速比值(VP/VS)在1.70到1.79之间,均值为1.75,低于全球大陆的平均值1.78,这可能暗示着该区其地壳是缺少铁镁质的.研究还发现测线的西北与东南地区其地壳波速比值较高,推测是古生代铁镁质地壳的残留或是新生代岩浆底侵的反映. 相似文献
3.
V. V. Mordvinova A. Deschamps T. Dugarmaa J. Deverchére M. Ulziibat V. A. Sankov A. A. Artem’ev J. Perrot 《Izvestiya Physics of the Solid Earth》2007,43(2):119-129
The S wave velocity distribution in the Earth’s crust and the first two hundred kilometers of the upper mantle is inferred from data of a seismological linear network including 18 broadband stations installed in the framework of the international teleseismic experiment carried out in 2003 in the south of Siberia and in Mongolia. Models were constructed by using P-to-S received function inversion beneath each station. Vertical cross sections of S wave velocities from the surface to depths of 65 and 270 km covering the entire 1000-km profile are constructed by the linear spline interpolation of individual velocity models. The vertical sections are also represented as anomalies relative to the standard velocity model. The most intense low velocity anomalies (from ?3 to ?6%) in the crust and upper mantle are identified beneath the Sayan, Khamar-Daban, and Khangai highlands and the Djida fold zone and agree both with other geophysical data and with the distribution of Late Cenozoic volcanic fields. The results of this work suggest that the activation of Mongolian-Siberian highlands is largely connected with uplift of the asthenosphere to the base of the crust. 相似文献
4.
本文采用小波变换频时分析技术提取了1893条蒙古中南部地区双台间基阶Rayleigh波相速度频散曲线,通过对提取到的相速度频散进行二维反演,首次重构了蒙古高原中南部10~80s周期内分辨率为0.5°×0.5°的相速度分布图.结果表明,短周期相速度频散(10~20s)明显受地表地形控制,表现为杭爱—肯特山盆地为相对高速异常,而南部的戈壁带表现为相对低速异常;在30s到60s周期内,南部的戈壁带和北部的杭爱—肯特山盆地都显示出稳定的高速异常,而中部戈壁带则表现为低速异常.该低速异常区与新生代火山岩出露位置的一致性,暗示该低速异常可能与新生代火山活动有关.穿过蒙古高原中部的两条主要断裂带与研究区内的地震波速度分布具有很好的一致性,可能暗示两条断裂带一直延伸到整个岩石圈.此外,蒙古中南部地区的壳幔速度低于全球平均大陆值,且其相速度频散曲线与遭受破坏的克拉通,尤其大陆裂谷很相似,可能暗示着研究区具有薄的、活跃的岩石圈构造. 相似文献
5.
S. Demberel V. S. Imaev E. A. Rogozhin O. P. Smekalin M. Ulziibat A. V. Chipizubov 《Seismic Instruments》2014,50(2):85-96
The recent geological, geophysical, and paleoseismic research of the Hustai, Emeelt, and Gunjiin active seismogenic faults in the vicinity of Ulaanbaatar provided evidence of prehistoric seismic events there. In particular, dislocations of two fault-forming paleo-earthquakes were revealed in the Gunjiin tectonic zone. The shocks occurred in the Late Pleistocene-Early Holocene. The presence of ruptures, initially identified by morphological characteristics, was proven by trenching studies and materials of geophysical profiles. The magnitudes of the ancient earthquakes are estimated to be 6.5–7.0. The obtained results provide grounds for reassessment of the possible level of seismic hazards for the territory of Ulaanbaatar to at least 8. 相似文献
6.
Anna A. Dobrynina Vladimir A. Sankov Larisa R. Tcydypova Victor I. German Vladimir V. Chechelnitsky Munkhuu Ulzibat 《Journal of Seismology》2018,22(2):377-389
A moderate shallow earthquake occurred on 5 December 2014 (M W = 4.9) in the north of Lake Hovsgol (northern Mongolia). The infrasonic signal with duration 140 s was recorded for this earthquake by the “Tory” infrasound array (Institute of Solar-Terrestrial Physics of the Siberian Branch of the Russian Academy of Science, Russia). Source parameters of the earthquake (seismic moment, geometrical sizes, displacement amplitudes in the focus) were determined using spectral analysis of direct body P and S waves. The spectral analysis of seismograms and amplitude variations of the surface waves allows to determine the effect of the propagation of the rupture in the earthquake focus, the azimuth of the rupture propagation direction and the velocity of displacement in the earthquake focus. The results of modelling of the surface displacements caused by the Hovsgol earthquake and high effective velocity of propagation of infrasound signal (~ 625 m/s) indicate that its occurrence is not caused by the downward movement of the Earth’s surface in the epicentral region but by the effect of the secondary source. The position of the secondary source of infrasound signal is defined on the northern slopes of the Khamar-Daban ridge according to the data on the azimuth and time of arrival of acoustic wave at the Tory station. The interaction of surface waves with the regional topography is proposed as the most probable mechanism of formation of the infrasound signal. 相似文献
7.
利用蒙古中南部地区布设的69套宽频带数字地震仪2011年8月—2013年7月记录的远震事件,使用时间域反褶积方法提取接收函数,并挑选高质量Pms震相,通过改进的剪切波分裂方法对研究区地壳各向异性参数进行了研究,最终获取了1473对各向异性参数.经过统计分析,有48个台站可以归纳出两个方向的各向异性,11台站得到单个方向的各向异性,而剩余10个台站各向异性方向比较发散.结果显示,各向异性在蒙古中南部地壳中呈不均匀分布,有54个台站得到了NE-SW向各向异性,快波偏振方向平均值为N58°E±16°,与最大水平主应力σHmax方向和区域内主要断层走向一致,说明这部分地壳各向异性的主要成因存在于上地壳,可能与流体填充的微裂隙有关.而NW-SE向各向异性在53个台站被观测到,各向异性方向变化范围平均N132°E±16°,与研究区大部分SKS分裂快波方向具有较好的一致性,说明下地壳成岩矿物晶体定向排列是各向异性的主要成因.研究区地壳各向异性的分层特征总体上支持岩石圈受到NE-SW向挤压的动力学模型. 相似文献
8.
A.I. Miroshnichenko N.A. Radziminovich A.V. Lukhnev F.L. Zuev S. Demberel D. Erdenezul M. Ulziibat 《Russian Geology and Geophysics》2018,59(8):1049-1059
First results of the analysis of GPS measurement data obtained from 18 sites of two local networks in the vicinity of Ulaanbaatar (Mongolia) for the period 2010–2015 have been presented. Horizontal velocity vectors are consistent with each other in the ITRF2014 system and with the velocities of the IGS permanent station ULAB. The sites move in the E–SE direction at a rate of 25–30 mm/yr, with the displacement azimuth averaging 105°. With respect to Eurasia, the vectors for most of the sites are slighly turned to the south, but they are still of SE orientation with the azimuth range of 130°–150° and magnitude values of 2–4 mm/yr. Relative horizontal velocities tend to decrease towards southeast that determines a zonal distribution of different type of relative strain patterns. The western part of the Ulaanbaatar network is characterized by the W–E oriented extension with the elongation rate ε1 = 12–16 × 10–8 yr–1. The shortening NW–SE trending strain with calculated value ε2 = 22.4 × 10–8 yr–1 characterizes the network’s eastern part. The highest values of the maximum shear strains (εmax = 10–14 × 10–8 yr–1) form an extended area in the center of the testing ground, which is elongated in the northeastern direction, conformably with the strike of the major geologic structures. The strain distribution pattern of the Emeelt network located within the eponymous seismogenic structures is characterized by the crustal elongation (5 × 10–6 yr–1) trending SE–NW and less pronounced shortening in the SW–SE directions.The axial part of the fault crossing the network in the NW direction exhibits maximum deformations. 相似文献
9.
依托中蒙国际合作项目"远东地区地磁场、重力场及深部构造观测与模型研究",我们首次获取了蒙古中南部地区密集的地震台阵观测资料.本研究收集了69套宽频带台站2011年8月至2013年7月间的垂直向连续记录,利用噪声互相关方法计算了台站间的经验格林函数,并采用基于连续小波变换的频时分析方法,提取了1478条周期6~30s的瑞雷波的相速度频散曲线.利用DitmarYanovskaya方法,我们构建了研究区6~30s瑞雷波的高分辨率(0.5°×0.5°)相速度分布图.结果表明,蒙古中南部地区的地壳上地幔速度结构存在横向非均匀性,但并不显著(相对变化~±2%).短周期(如6s)的相速度分布与地表地质构造具有明显的相关性,具体来说,北部山盆显示为高速,南部盆地、戈壁滩均显示为低速;随着周期的增大(如15s,20s),地形的控制作用相对减弱.较长周期(30s)的相速度分布图上,南部的高速区进一步扩大,与南部地壳厚度较薄有关.蒙古主构造线南北两侧相速度分布有明显差异,暗示它不仅是地表地形和构造的分界线,而且还是地壳结构的分界线.从6~30s中戈壁一直显示为低速,可能与该区新生代火山活动有关;研究区北部杭爱山—肯特盆地一直显示为相对的高速,与该区具有较老、稳定的地层有关. 相似文献
1