The phase velocities of Rayleigh waves and the lateral variation of lithospheric structure in Tibetan Plateau   总被引：1，自引：0，他引：1  

Guo-Ying Chen  Rong-Sheng Zeng  Francis T. Wu  Xiao-Lan Su 《地震学报(英文版)》1993,6(2):289-297

According to a Sino-U. S. joint project, eleven broadband digital PASSCAL seismometers had been deployed inside the Tibetan Plateau, of which 7 stations were on the profile from Lhasa to Golmud and other 4 stations situated at Maxin, Yushu, Xigatze and Linzhi. Dispersions and phase velocities of the Rayleigh surface waves (10s–120s) were obtained on five paths distributed in the different blocks of Tibetan Plateau. Inversions of the S-wave velocity structures in Songpan-Ganzi block, Qiang-Tang block, Lhasa block and the faulted rift zone were obtained from the dispersion data. The results show that significant lateral variation of the S-wave velocity structures among the different blocks exists. The path from Wenquan to Xigatze (abbreviated as Wndo-Xiga) passes through the rift-zone of Yadong-Anduo. The phase velocities of Rayleigh waves from 10s to 100s on this path are significantly higher than that on other paths. The calculated mean crustal velocity on this path is 3.8 km/s, much greater than that on other paths, where mean crustal velocities of 3.4–3.5 km/s are usually observed. Low velocity zones with different thicknesses and velocities are observed in the middle-lower crust for different paths. Songpan-Ganzi block, located in the northern part of Tibetan Plateau is characterized by a thinner crust of 65 km thick and a prominent low velocity zone in the upper mantle. The low velocity zone with a velocity of 4.2 km/s is located at a depth form 115 km to 175 km. While in other blocks, no low velocity zone in the upper mantle is observed. The value of Sn in Songpan-Ganzi is calculated to be 4.5 km/s, while those in Qiang-Tang and Lhasa blocks are about 4.6 km/s. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, Supp., 566–573, 1992.  相似文献   

Preliminary study of crust-upper mantle structure of the Tibetan Plateau by using broadband teleseismic body waveforms   总被引：2，自引：0，他引：2  

Lu-Pei Zhu  Rong-Sheng Zeng  Francis T. Wu  Thomas J. Owens  George E. Randall 《地震学报(英文版)》1993,6(2):305-316

As part of a joint Sino-U.S. research project to study the deep structure of the Tibetan Plateau, 11 broadband digital seismic recorders were deployed on the Plateau for one year of passive seismic recording. In this report we use teleseimic P waveforms to study the seismic velocity structure of crust and upper mantle under three stations by receiver function inversion. The receiver function is obtained by first rotating two horizontal components of seismic records into radial and tangential components and then deconvolving the vertical component from them. The receiver function depends only on the structure near the station because the source and path effects have been removed by the deconvolution. To suppress noise, receiver functions calculated from events clustered in a small range of back-azimuths and epicentral distances are stacked. Using a matrix formalism describing the propagation of elastic waves in laterally homogeneous stratified medium, a synthetic receiver function and differential receiver functions for the parameters in each layer can be calculated to establish a linearized inversion for one-dimensional velocity structure. Preliminary results of three stations, Wen-quan, Golmud and Xigatze (Coded as WNDO, TUNL and XIGA), located in central, northern and southern Plateau are given in this paper. The receiver functions of all three stations show clear P-S converted phases. The time delays of these converted phases relative to direct P arrivals are: WNDO 7.9s (for NE direction) and 8.3s (for SE direction), TUNL 8.2s, XIGA 9.0s. Such long time delays indicate the great thickness of crust under the Plateau. The differences between receiver function of these three station shows the tectonic difference between southern and north-central Plateau. The waveforms of the receiver functions for WNDO and TUNL are very simple, while the receiver function of XIGA has an additional midcrustal converted phase. The S wave velocity structures at these three stations are estimated from inversions of the receiver function. The crustal shear wave velocities at WNDO and TUNL are vertically homogeneous, with value between 3.5–3.6 km/s down to Moho. This value in the lower crust is lower than the normal value for the lower crust of continents, which is consistent with the observed strong Sn attenuation in this region. The velocity structure at XIGA shows a velocity discontinuity at depth of 20 km and high velocity value of 4.0 km/s in the midcrust between 20–30 km depth. Similar results are obtained from a DSS profile in southern Tibet. The velocity under XIGA decreases below a depth of 30 km, reaching the lowest value of 3.2 km/s between 50–55 km. depth. This may imply that the Indian crust underthrusts the low part of Tibetan crust in the southern Plateau, forming a “double crust”. The crustal thickness at each of these sites is: WNDO, 68 km; TUNL, 70 km; XI-GA, 80 km. The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, Supp., 581–592, 1992.  相似文献   

Surface complexation at hydrous fluorapatite     

Willis Forsling  Liuming Wu 《Aquatic Sciences - Research Across Boundaries》1993,55(4):336-346

The adsorption of H⁺, OH^– and ARS (Alizarin Red S) onto hydrous fluorapatite surfaces and Ca²⁺—ARS complexation in solution were studied by means of combined potentiometric and spectrophotometric titrations, as well as zeta potential and FT-IR measurements. Corresponding equilibrium constants of surface and solution reactions are determined. The application in flotation processes is discussed.  相似文献   

油气地化指标得分和方法在油气化探异常评价中的应用     

吴锡生  李景朝 《吉林大学学报(地球科学版)》1993,(3)

以我国华北某油区油气勘探为例,介绍了油气地球化学异常评价标志及依据,并利用这些评价标志——异常形态、异常组合、异常规模(N4P)、变异系数、构造圈闭等在油气地化异常评价中的作用,给出不同的分值,按评分标准对圈定的异常求出累积得分和,据此对油气化探异常所圈定的远景区进行排序,为进一步的油气勘查提供地球化学依据,并取得了较好的效果。  相似文献   

攀钢,攀矿场地边坡地震稳定性研究     

马声浩  雷建成 《四川地震》1993,(2):1-11

本文在总结分析攀钢、攀矿昔格达层滑坡基本特征的基础上,对区内滑坡进行了地震稳定性计算,给出了经不同方法治理后的滑坡的地震稳定系数;同时采用“因子迭加”方法对究研区进行边坡稳定性区划,划分出相对的稳定区、欠稳定区和不稳定区,为抗震减灾和土地的开发利用提供了科学依据。  相似文献   

1614年平遥—榆社间61／2级地震的讨论     

武烈 《山西地震》1993,(3):30-34

通过对1614年平遥榆社间6(1/2)级地震的进一步研究,认为前人确定这次地震时所用的史料疑点较多,所确定的基本参数也问题较大.得出是两次地震事件的结论:一次是1614年10月15日(万历四十二年九月十三日),地点武乡,震级约为5(1/2)级;一次是1614年10月23日(万历四十二年九月二十一日),地点榆社,震级约5(3/4)级.  相似文献   

塘古坳陷构造—沉积演化及其油气勘探方向     

苏 洲邬光辉  张艳秋周 波曹颖辉  张慧芳吴梅莲 《地质科学》1958,55(1):43-56

塔里木盆地塘古坳陷历经20余年勘探而成效甚微,在新的地震与钻井资料基础上,通过地层沉积对比、构造解析重新认识塘古坳陷的形成与演化,及其对勘探方向的指示研究,结果表明：1）塘古地区存在基底古隆起,寒武系自塔中向南逐渐减薄;2）本区钻揭中-下奥陶统碳酸盐岩地层连续,不存在寒武系—中奥陶统的台槽;3）上奥陶统良里塔格组沉积期在东西两侧发育巨厚的台地边缘相带,而坳陷区相变为盆地泥岩相;4）北东向冲断构造具有分层变形特点,断裂活动始于晚奥陶世早期,冲断推覆作用主要形成于奥陶纪末。结果揭示塘古坳陷经历4期构造关键演化期：1）寒武—中奥陶世与塔中连为一体的碳酸盐岩台地发育期;2）上奥陶统良里塔格组沉积期受控东南板缘俯冲与碰撞作用的台盆形成期;3）奥陶纪末强烈沉降的挤压挠曲盆地定型期;4）志留纪—泥盆纪的构造改造期。该结果为盆地构造古地理研究与深层油气评价提供了基础,并提出了勘探新方向。  相似文献   

塔里木盆地哈拉哈塘地区走滑断裂带油气分布与油藏模式     

张银涛邓兴梁  邬光辉谢 舟万效国  杨天一 《地质科学》1958,55(2):382-391

塔里木盆地哈拉哈塘地区石油勘探开发进入深度高达8 000 m的坳陷区,油气主要沿走滑断裂带分布,研究超深层断控油气藏分布规律对油气勘探开发具有重要意义。通过大量勘探开发资料分析与油藏解剖表明,哈拉哈塘地区奥陶系碳酸盐岩油气沿主断裂带1.8 km范围内条带状分布,高效井主要分布在距主断裂带600 m范围内。油气沿断裂带分布具有分段性,断裂的类型、规模与性质影响油气运聚成藏,油气富集主要受控于主断裂带的规模。高效井一般距主断裂近、储层规模大、侧向封闭好,为断控缝洞型碳酸盐岩油藏。走滑断裂断控油气藏不同于礁滩体与风化壳“相控”油气藏,对复杂碳酸盐岩油气藏评价开发具有重要意义。  相似文献   

西秦岭北缘构造带新生代盆地南部边界断层带结构与构造变形演化          下载免费PDF全文

郭进京宫恩麟  赵海涛刘重庆 吴彦旺 《地质科学》1958,55(4):1073-1088

西秦岭北缘构造带是青藏高原东北缘的主要构造边界之一,北缘断层及其所控制的新生代沉积盆地是青藏高原东北缘新生代盆—山格局演化、高原扩展隆升与变形的地质记录。因此,西秦岭北缘构造带的断裂构造和断裂控制的沉积盆地研究对于理解青藏高原构造系统形成和高原隆升过程都具有重要的科学意义。本文通过对西秦岭北缘新生代盆地的南部边界断层F1断层结构分带、断层岩类型、几何学—运动学特征分析,获得如下认识：1）F1断层总体走向为290°～300°,倾向北北东,倾角60°～80°,发育近百米宽的由韧性、韧脆性和脆性断层岩等组成的结构复杂的断层带;2）构造分析揭示了F1断层至少经历了 3期构造变形事件,第一期为韧性—韧脆性伸展正断层作用,第二期为脆性高角度挤压逆冲断层作用,第三期为近直立的脆性斜向左旋走滑作用;3）该断层近百米宽的断层带内形成于不同构造层次的韧性、韧脆性、脆性等变形现象叠加交织出现在现今地壳浅表层次,说明该断层带经历了从早期较深层次韧性变形域逐渐抬升而进入晚期较浅层次的脆韧性变形域到现今的脆性变形域的韧—脆性变形机制转换;4）根据F1断层对西秦岭北缘渐新统—中新统漳县含盐红层盆地的空间构造配置、控制和改造以及新生代区域构造变形演化历史分析,认为第一期韧性—韧脆性伸展正断层作用与渐新世—中新世断陷盆地形成相匹配,活动时代为晚渐新世—晚中新世;第二期脆性高角度挤压逆冲作用与渐新世—中新世地层翘起、褶皱和底部抬升剥蚀及上新世磨拉石盆地充填相对应,活动时代应该始于中新世末期或上新世早期,持续至第四纪早期;第三期斜向左旋走滑则与西秦岭北缘断层带第四纪以来广泛发育的左旋走滑作用相对应。综上所述,西秦岭北缘新生代漳县盆地南部边界断层F1,虽然仅是北缘构造带中一条断层,但作为构造敏感带,其多期变形历史应该代表了青藏高原东北缘新生代以来的构造变形演化及构造体制转换过程。如果这一新生代沉积盆地边界断层F1在渐新世—中新世一直处于伸展正断作用,那么西秦岭北缘在这个阶段应该处于地壳伸展拉张状态,渐新世—中新世漳县盆地只能是伸展断陷盆地而不可能是挤压挠曲前陆盆地或压陷盆地。因此,我们认为印度—欧亚板块碰撞汇聚产生的构造挤压缩短和地壳隆升效应在中新世尚未波及到西秦岭北缘区域。F1断层在中新世末—上新世初的构造反转挤压冲断和上新世具有再生前陆磨拉石堆积出现才标志着西秦岭北缘卷入青藏高原挤压构造动力学系统。  相似文献   

WINDOWS95下图形编辑支撑功能的实现     

吴升 《测绘工程》1999,8(3):61-64

图形编辑工具在地图数据库系统,地理信息系统和地理信息的自动综合系统的系统构成上一直是个非常重要的部分,文中着重讨论在ＷＩＮＤＯＷＳ９５下坐标变换,窗口缩放,图形漫等图形编辑的支撑功能的实现。  相似文献