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本文从震源机制、地应力测量、地震等震线长轴统计,形变场、构造分析等几方面求得本区区域应力场在北纬30°以北为81°,30°以南为133°。空间分布上主压应力轴大致与海岸轮廓线垂直,反映力源主要来自太平洋板块对中国大陆的挤压。在这样的应力场背景下,本区北东向断裂将作右旋正走滑活动;北西向,特别是北北西向新断裂将作左旋逆走滑活动;北东东至近东西向断层将作张性倾滑活动。由于本区地震大多座落在不同方向断裂的交汇复合部位,地震的孕育、发生、发展与两断裂的共轭活动关系密切,但具体到某一次地震的破裂方式则以单侧破裂与双侧破裂居多。 相似文献
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丽江地震区应力场研究 总被引:3,自引:0,他引:3
通过现场调查工作,研究了丽江地区主要活动断裂的特征及现代活动性,分析了该地区构造应力场演化历史及现今构造应力场特征,探讨了丽江地震产生的机制,然后用离散元方法对该地区现今应力场进行了二维模拟,并进而深化了对丽江地震区应力场的认识。丽江地区处于川滇菱形断块的西南部,巨甸-九子海断块二级断块中的玉龙雪山-九子海三级断块上,该断块介于近南北向的楚波-白汉场断裂、北东走向丽江-小金河断裂和北西向中甸-永胜断裂之间,平面上成一顶角向东的三角形。在近南北向现今应力场的作用下,北东向的丽江-小金河断裂左旋走滑,北西向的中甸一永胜断裂右旋走滑,使两者所夹持的巨甸-九子海断块的主体部分发生向西的位移,在两者的复合部位,即断块的尖端附近,形成了局部的近东西向的拉张应力环境,从而使处于该部位的南北向玉龙雪山东麓断裂于1996年2月3日因发生了正断错动而导致了7.0级地震的发生。该地震后第三天,在其震中的正南方又发生了一次6.0级余震,其地震破裂是由北向南的一种撕裂,进而说明,本次地震的发生是由于玉龙雪山东麓断裂与中甸一永胜断裂复合部位拉张应力的强烈集中造成的。 相似文献
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一、台址地质构造状况 1989年10月18日大同-阳高6.1级地震发生在阴山纬向带的南沿,与北北西向大同-南京断裂带的交汇部位。昌平地震台位于阴山巨型纬向构造带的南沿、北东向南口山前活动断裂和北西向南口-孙河活动性断裂交叉部位东侧7.5km处,和震中区同处于一个构造体系中,距大同-阳高6.1级地震震中区210km。二、昌平台仪器观测概况昌平台现有TJ-1A型体积式应变仪、RDJ-1A型多道压容应变仪、YRY-2型压容应变仪、AHY-832型压阻应变仪、ZX型振弦应变仪和Φ110型压磁应力仪。其中除压磁应力仪外,均属第二代高精度钻孔应变仪,能清晰地记录应变固体潮。这些仪器都能自 相似文献
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2010年4月14日07时49分在青海省玉树县发生了7.1级地震,震中位于 33.2°N,96.6°E,自玉树县城至隆宝镇造成了大量房屋倒塌和人员伤亡.地震发生在NW向的玉树-甘孜断裂西段的玉树-治多断裂上,自隆宝镇东至玉树县城,地震引起了长约50km的地震地表破裂带,主要分布在第三纪红砂岩、高漫滩及河床中,致使公路错断、桥梁位错,并引发大量滑坡和崩滑.震中附近的调查表明,地表破裂带主要沿NW向的玉树-治多断裂展布,总体走向NW320°,分为两组,一组为NW向,另一组为NE向,NW向的破裂为左旋走滑,发育一系列小的类拉分盆地,NE向的破裂表现为正断性质.由震源机制解和断裂特征判定,NW向的玉树-治多断裂为此次地震的发震构造. 相似文献
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玉树地震序列重新定位及其地震构造研究 总被引:3,自引:0,他引:3
对玉树地震序列自2010年4月11日至9月15日由台网记录到的1 832个地震采用双差地震定位法进行重新定位,获得了1 670个地震重新定位的震源参数。重新定位后的震源深度主要分布在15 km以内。重新定位后的Ms 7.1级主震发生在无地表破裂段,余震活动向两侧破裂扩展。余震沿地表破裂带基本呈线性分布,剖面上显示为近垂直的结构面,在北西端无地表破裂出露处,出现近垂直于断裂方向较宽的北东向地震密集带。震源机制解显示的主压应力方向斜交地表破裂带,地表破裂与震源破裂都表现为纯左旋走滑的错动性质,而在北西端主压应力方向偏转为近垂直于断裂带的方向,此处较宽的北东向地震密集带可能由近东西与南北两个方向的共轭破裂所组成。余震的后期活动与发展并不局限于主震形成的破裂带内,更多的受局部应力调整被触发而产生新的破裂。 相似文献
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首都圈地区小震重新定位及其在地震构造研究中的应用 总被引:15,自引:0,他引:15
使用双差地震定位法对首都圈地区39°~4 1°N,115°~118°E范围内1980~2 0 0 0年的2 0 98个小震进行了重新定位,定位均方根残差从重新定位前的1.4 s降到0 .32 s。重新定位后,地震活动多集中分布于北东与北西向断裂的交汇处,或密集成北东与北西向线性分布,与已知活动断裂具有密切的关系。在顺义与延怀盆地一带揭示出几条高角度北西向隐伏活动断裂,长度在10~2 0 km间。小震活动显示的构造信息表明,北西向构造是重要的发震构造,在现今构造变形和地震孕育、发生中,与北东向构造起着同样重要的作用。同时,重定位震源深度分布在东西方向上显示出明显的不均匀性,推测是地壳变形和构造活动强弱在横向变化的一种反映。 相似文献
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采用两次溧阳地震的余震序列等研究溧阳地震破裂类型、震源体形态,结合深部构造资料研究溧阳地震的震源构造要素和震源断裂。5.5级地震的震源断裂是以NNE向占优势的Y型断裂,其倾向NWW,倾角50°;6.0级地震震源断裂呈NNE向,倾向SEE,倾角85°。据震源机制结果,5.5级地震属于右旋走滑断裂,6.0级地震属于右旋陡斜滑断裂,两者是一对新生共轭右旋走—陡斜滑断裂。从两次地震序列时间分布的连续性、平面断裂连贯性、空间破裂共轭性和岩石力学实验结果,论证两次溧阳地震是相互联系的同一地震事件的两次破裂。 相似文献
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本文针对九寨沟7.0级地震的发震构造及震源破裂的构造动力学问题,从地质调查、测试与震源构造动力学理论分析相结合的角度阐明:此次地震发生在处于高法向应力左旋剪切受力状态的岷山隆起带北端与西秦岭地槽褶皱带之南缘文县-玛沁断裂相交汇部位;沿"九寨天堂"-震中-五花海以及上四寨村-中查-比芒一线发育的两条具有构造破裂特征的NW向地裂缝带,是"隐伏状"地震断裂错动造成的地表同震破裂,前者是本次地震的控震构造,后者是NW向断层的次级同震复活及扩展;此次地震的震源断层错动过程受NW331°走向的陡倾角(∠87°)断层节面控制的走滑型剪切破裂,断裂两端的剪切破裂表现出持续扩展趋势;震源构造动力学过程实质上是地壳深部沿NW方向左旋剪断"凸出体";地震断裂带两端破裂扩展的持续发展,将导致地壳"凸出体"逐步剪断贯通。 相似文献
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N.A. Belyaevsky A.A. Borisov V.V. Fedynsky E.E. Fotiadi S.I. Subbotin I.S. Volvovsky 《Tectonophysics》1973,20(1-4):35-45
The compilation of statistical data for 269 seismic crustal sections (total length: 81,000 km) which are available in the U.S.S.R. has shown that the preliminary conclusions drawn on relations between the elevation of the surface relief and Bouguer anomalies on one hand and crustal thickness (depth to the M-discontinuity) on the other hand are not fulfilled for the continental part of the U.S.S.R. The level of isostatic compensation has been found to be much deeper than the base of the earth's crust due to density inhomogeneities of the crust and upper mantle down to a depth of 150 km.
The results of seismic investigations have revealed a great diversity of relations between shallow geological and deep crustal structures:
Changes in the relief of the M-discontinuity have been found within the ancient platforms which are conformable with the Precambrian structures and which can exceed 20 km. In the North Caspian syneclise, extended areas devoid of the “granitic” layer have been discovered for the first time in continents. The crust was found to be thicker in the syneclises and anteclises of the Turanian EpiHercynian plate. In the West Siberian platforms these relations are reversed to a great extent.
Substantial differences in crustal structure and thickness were found in the crust of the Palaeo zoides and Mesozoides. Regions of substantial neotectonic activity in the Tien-Shan Palaeozoides do not greatly differ in crustal thickness if compared to the Kazakhstan Palaeozoides which were little active in Cenozoic time. The same is true for the South Siberian Palaeozoides.
The Alpides of the southern areas in the U.S.S.R. display a sharply differing surface relief and a strongly varying crustal structure. Mountains with roots (Greater Caucasus, Crimea) and without roots (Kopet-Dagh, Lesser Caucasus) were found there.
The Cenozoides of the Far East are characterized by a rugged topography of the M-discontinuity, a thinner crust and a less-pronounced “granitic” layer. A relatively small thickness of the crust was discovered in the Baikal rift zone.
The effective thickness of the magnetized domains of the crust as well as other calculations show that the temperature at the depth of the M-discontinuity (i.e., at depths of 40–50 km) is not higher than 300–400° C for most parts of the U.S.S.R. 相似文献
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《International Geology Review》2012,54(9):1629-1639
The deinocephalian pelvic girdle, of general pelycosaurian structure, is useful in systematic diagnosis. In primitive Russian deinocephalians, two contrasting pelvic patterns are recognized, one light, thin-walled, narrow, and of V-shaped cross-section, and the other massive, thick-walled, wide, and of U-shaped cross-section. The former is characteristic of two families of lightly- built, mobile land carnivores, the Eotitanosuchidae and the Brithopodidae. The Eotitanosuchidae are more primitive and pelycosaur-like, while the Brithopodidae show more variation, and specializations of large size, shallower acetabulum (related to mobility?), and re-enforcement of a weak pubic symphysis by additional processes. The massive type of pelvis characterizes large, heavily built herbivorous animals of the family Estemmenosuchidae. In general pelvic structure, the Estemmenosuchidae resemble the South African anteosaurs and tapinocephalians and the Russian tapinocephalians. In detail, however, they show a more primitive stage of evolution, overlaid by characteristic specializations which relate them more closely to the advanced Russian forms than to those of South Africa. Three new genera are erected, Biarmosaurus, fam. Eotitanosuchidae; Chthomaloporus, fam. Brithopodidae; and Molybdopygus, fam. Estemmenosuchidae. One specimen formerly referred to Deuterosaurus Yefremov 1954, and five formerly included in the type of Brithopus Yefremov 1954 are referred to Molybdopygus. The more primitive deinocephalians are from Yezhovo in the Ocher District, Perm Province, while more advanced forms are from Isheyevo, in Tataria, where-therocephalians and other South African elements are also found. It is therefore concluded that the Ochersk beds are older than those of Isheyevo and must be dated to zone I of Yefremov's system. — N. Hotton III. 相似文献
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V.G. Klikushin 《Cretaceous Research》1983,4(1):101-106
A list of all Upper Cretaceous sea-lilies known from the U.S.S.R. is given. Their stratigraphic and geographic distributions are discussed. Three paleogeographic subprovinces, the south-eastern, the northern and the south-western, can be distinguished in the Mediterranean paleobiogeographic province of the U.S.S.R. based on the development and distribution of the Upper Cretaceous crinoids. 相似文献
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E.M. Lazko V.P. Kiriluk V.I. Lashmanov A.M. Lyssak A.A. Sivoronov G.M. Jatsenko 《Precambrian Research》1978,6(2):223-233
Soviet geologists consider the Precambrian to be divided into two groups — Archaean and Proterozoic; but such a division is unsatisfactory. A major unconformity separates Proterozoic volcanic and sedimentary formations from an underlying sequence that contains two supergroups of supercrustal formations. The oldest of these is unanimously considered to be Archaean. Rocks of that supergroup play an essential part in the composition of the Baltic, Ukrainian, Aldan and Anabar Shields and of the ancient fold belts of the East-European and Siberian platforms.Distinctive features in the composition, tectonic structure, metamorphism and metallogeny of Archaean complexes lead to the conclusion that they were formed in specifically mobile areas, different from geosynclinal areas.The other supergroup of high-grade metamorphic rocks has no clear place in the accepted two-fold stratigraphic scheme of the Precambrian, and it is considered sometimes to be Archaean and sometimes to be Early Proterozoic. We propose restoring the forgotten name “Eozoic” for that supergroup. Eozoic complexes are characterized by peculiarities of composition and inner structure, which signify changes in the tectonic regime of the earth at the lower and upper boundaries of the Eozoic Supergroup. These peculiarities give grounds for distinguishing the Eozoic Supergroup as an independent stratigraphic division.The Stanovoy Complex of the southern part of the Aldan Shield is a stratotype for the Eozoic Supergroup. Many well-known stratigraphic subdivisions of the Siberian Platform (e.g., the Eniseiskaya, the Birusinskaya series and others), the Taratash Complex of the Urals, the Goranskaya and Shahdarinskaya series of the South-West Pamir, the Tikitch complex and Aulskaya series of the Ukrainian Shield, and in part the Belomorsky Complex of the Baltic Shield, as well as some others, are also Eozoic.The Eozoic complexes are characterized by the following specific features: only some supercrustal formations are typical for them; the small number of rock types which have a total thickness about 5–6 km; relatively monotonous mineral composition of the rocks; variable quantitative ratios of rocks; absence of contrasting marker beds; regional metamorphism and ultrametamorphism in the amphibolite facies; wide development of ultrametamorphic granitoids and migmatites; distinct tectonic differentiations of the basin of sedimentation.Dates determined by isotopic analyses, which mostly reflect the metamorphism of the deposits, fall predominantly in the range 2600–3100 Ma. 相似文献
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G.A. Privalovskaya 《Geoforum》1984,15(1):39-48
The recent experience of the rising cost of exploiting new material resources in the U.S.S.R. has led to exploration of alternative methods, particularly greater intensification of exploitation. The regional variations in the balance between intensive and extensive methods is considerable and is consequently an important aspect of Soviet geographical research. This paper discusses the criteria and methodology for this crucial economic/resource regionalization of the U.S.S.R. 相似文献
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《International Geology Review》2012,54(9):1534-1542
This short section of Skarlato's monograph, Bivalve Mollusks of the Far Eastern Seas of the U. S. S. R. (Order Dysodonta), discusses the genus Arvella Bartsch, 1940 ms. The genus includes the species formerly assigned to Crenella. Diagnostic features of the species included in genus Arvella Bartsch are given. Vilasina Bartsch, 1940 ms is discussed, also The author states that the hinges of Vilasina clearly assign the species to the genus Crenella. The form and position of the umbo relate the species closely to the genus Arvella, though. The almost entirely smooth laminated surface distinguishes Vilasina from both genera, as does the finely serrated ventral edge of the shell. The last section discusses the genus Modiolus Lamarck, 1799. — A. W. Bellais. 相似文献
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Mercury inhomogeneity was found between bottles of the same standard for each of the six U.S.G.S. rock standards tested. Variations between bottles amounted to at least a factor of 2 for four of the six standards. Caution is suggested when using these standards as mercury accuracy checks and as estimators of mercury geochemical abundances or cycles. 相似文献