庐山变质核杂岩东侧的伸展拆离及构造意义

庐山变质核杂岩东侧的星子牛屎墩地区出露与西侧拆离带相似的伸展拆离滑脱、韧性流变的构造现象, 岩层整体呈现上盘向南东滑脱的正断层性质, 推测庐山变质核杂岩东侧的拆离带就在此处, 而并非五里正断层。东侧拆离带内岩石以糜棱岩、糜棱状岩石及混合岩为主, 并发育大量的长英质脉体, 形成温压较高, 埋深较大, 其糜棱岩带、构造片岩带保留完好。运动学涡度分析得到涡度W_k>0.75, 表明该拆离系为以单剪为主的一般剪切带。根据糜棱岩中长石的变形特征估算东侧拆离带的形成温度为650 ℃~700 ℃, 与西侧拆离带近于一致。锆石U-Pb年龄测定得到东侧拆离带的伸展年龄为140~135 Ma, 也代表了庐山变质核杂岩的形成时间。     

庐山变质核杂岩基底拆离的变形特征及形成条件

庐山变质核杂岩具有典型的3层结构。拆离带是核部隆升过程中盖层滑脱、剪切变形而形成的,该拆离面是在北东向褶皱基础上叠加杂岩核部隆升作用而形成的波状起伏面。拆离带在核部以西发育倾向西向、南西向、北西向的面理和矿物生长线理,显示向西滑脱形成剪切拉伸变形的特征。拆离带岩石以糜棱岩和构造片岩为主,辅以碎裂岩和构造角砾岩。岩石变形特征表明其既具有韧性变形,也具有脆-韧性变形及脆性变形的特点。核部隆升引起的拆离变形作用,不仅形成了拆离带,还影响了拆离带以上盖层岩石,形成一个由拆离带向上由强变弱的变形域。这种规律性递变现象使庐山变质核杂岩具有垂向变形分层、水平变形分带的特点。拆离带中角闪石-斜长石矿物对计算得出的变质温度为653 ℃～694 ℃,压力为0.56～0.67 GPa。     

庐山变质核杂岩东侧拆离带两期构造性质转换:锆石U-Pb年代学证据

庐山变质核杂岩东侧的星子牛屎墩地区广泛岀露伸展拆离、韧性流变的构造现象,拆离方位为南东方向。该区还岀露一期NNE向左行走滑韧性剪切构造,推测是与郯庐断裂同期变形的构造产物,为郯庐断裂系的一部分。这两期构造运动反映了中生代太平洋构造体制下挤压应力向伸展应力的转换,对伸展滑脱层内同构造的伟晶岩脉及长英质脉的锆石U-Pb年代学测试,结合野外构造现象,以探究该区两期构造性质的转换时限和构造背景。新生变质流体结晶的锆石得到135~140Ma的庐山变质核杂岩拆离带的伸展年龄,内部受热液溶蚀作用的残余锆石得到150.5Ma和153.9Ma的左行剪切变形的年龄。受太平洋构造体制控制,晚侏罗世,该区受板块俯冲作用而处于挤压应力的构造背景,表现为左行剪切构造;早白垩世,在区域性的伸展、减薄作用下,挤压应力向伸展应力转换,庐山变质核杂岩得以形成,其伸展拆离构造是在早期左行剪切构造上的改造与叠加。     

庐山变质核杂岩的变质变形及构造意义

庐山出露的变质核杂岩的构造层次具有典型的三层结构,即最上面的未变质沉积盖层、中间韧性流变层、核部的变质基底,其间分别以上剥离断层和拆离断层为分界线。上部沉积盖层以脆性变形为主,中间韧性流变层变形程度不一,但远离拆离带变质变形逐渐减弱,而核部的变质基底以强塑性变形为特征。对变质核杂岩南北两条地质剖面的分析,得到三个构造层次的岩石变质变形及岩性变化特征。区域动力学分析反映变质核杂岩东部原拆离带在五里正断层附近。拆离带中多硅白云母压力计得出的变质压力为0.6~1.1 GPa;锆石U-Pb年龄测试得到变质核杂岩的隆升时代为早白垩世。     

新疆若羌县赤石山变质核杂岩研究

新疆北山裂谷带西缘若羌县赤石山地区存在大型变质核杂岩构造，其下拆离盘为古元古界结晶基底杂岩，上拆离盘为中元古界白湖群变质岩系，滑脱拆离带为已变形的大型韧性正断层，核杂岩南，北侧发育上叠盆地，北侧形成“年轻”正断层及同构造期岩浆岩，变质核杂岩的形成与晚古生代北山陆内裂谷区域伸展有直接联系，该区变质核杂岩的首次厘定，对深化北山裂谷的研究具有重要意义。     

扬子板块西北缘碧口地块变形变质作用序列——松潘—甘孜造山带伸展垮塌事件的意义

碧口地块位于秦岭—大别、松潘—甘孜造山带与扬子板块的交汇部位。根据碧口地区各套地层构造变形样式的不同,将地层自下而上划分为三个构造地层单元:①新元古界基底杂岩,主要由新元古界碧口群火山岩系和横丹群浊积岩系组成,杂岩体核部变形较弱,边部发育韧性剪切变形,并以一条由超糜棱岩带组成的基底拆离断层为顶界,与上覆地层分隔。基底杂岩经历了蓝片岩相到硬柱石-钠长石-绿泥石相的变质作用。②古生界中间韧性流变层,由志留系—泥盆系的糜棱岩或千糜岩组成,岩层中发育多期构造面理(S1、S2、S3)和典型的固态流变构造,变质程度普遍达中绿片岩相。③中生界沉积盖层,包括碧口地块以北的三叠系关家沟组和小面积出露的侏罗系—白垩系,以脆性破碎带和小型脆性断层构造为主。拆离断层与各套构造地层中的韧性剪切和流变构造一同反映了区域性上盘向SSE剪切的几何学和运动学特征,证实了碧口地区中生代206~154Ma伸展垮塌事件的存在,从而建立了碧口地块的隆升模式。研究结果表明,松潘—甘孜在中生代造山作用后的区域伸展作用下形成了拆离断层和中地壳韧性流变层,造成了地层缺失和地壳减薄,基底杂岩在造山带的腹陆隆升并露出地表。     

楼子店变质核杂岩韧性变形作用的40Ar/39Ar年代学约束

楼子店变质核杂岩以拆离系中韧性剪切与脆性拆离运动学不一致,有别于北美科迪勒拉变质核杂岩。构造分析表明,核杂岩两侧拆离系中韧性剪切具有统一的上盘向北东的剪切特征。采自核杂岩两侧韧性剪切带中的3个黑云母单矿物^40Ar／^39Ar年龄介于126～128Ma之间,西侧韧性剪切带中1个角闪石单矿物^40Ar／^39Ar年龄为134Ma,4个样品的坪年龄与对应的等时线年龄一致。角闪石和黑云母坪年龄记录的韧性剪切作用的时限为126～134Ma,并且显示出韧性伸展的特点。研究表明楼子店变质核杂岩两侧的韧性剪切带形成时间一致并具有相同的运动学,韧性剪切作用是核杂岩形成演化的一个重要阶段,这为核杂岩形成的韧性伸展阶段的约束提供了年代学证据。     

庐山岩浆核杂岩隆起-快速伸展变形特征和时代

华南板块中东部晚中生代广泛发育伸展构造变形事件,不仅发育沉积红盆、伸展穹窿、变质核杂岩、韧性拆离断层带等,也发育大规模的同构造岩浆和成矿作用,但是快速伸展时限仍然存在争议。选取庐山岩浆核杂岩,针对岩浆核杂岩两侧的晚中生代韧性剪切带及周缘开展野外地质调查及同构造变形分析。构造变形的运动学解析结果表明,庐山岩浆核杂岩拆离正断层的伸展方向为NW—SE向,同构造⁴⁰Ar-³⁹Ar测年获得白云母主坪视年龄为105.20±0.23 Ma和黑云母主坪视年龄95.84±0.09 Ma,限定了庐山岩浆核杂岩隆升-快速伸展时限集中于95～105 Ma。庐山岩浆核杂岩本期伸展构造变形特征及形成时代与华南板块区域性的隆升-伸展变形特征一致,代表了华南板块晚中生代以来快速的伸展构造变形事件,形成机制可能与古太平洋板块向华南板块俯冲后的板块弯转后撤有关。     

房山变质核杂岩基底拆离断层韧性剪切变形构造及环境分析

在房山岩体南北缘出露有太古代(基底) 官地杂岩, 官地杂岩与上覆盖层不同地层之间发育一条基底韧性拆离断层.宏观及微观尺度上拆离断层运动学标志均指示SE; 剪切带内发育区域动力变质作用下的矿物组合角闪石-斜长石及硅值较高的白云母, 对其进行电子探针分析, 计算出拆离断层韧性剪切变形的温压条件为: 温度492~555 ℃, 压力0.33 Gpa左右, 达到低角闪岩相.按正常的静岩压力计算, 该韧性剪切作用发生于地表以下12.9 km左右, 代表了中地壳韧性流变的变形环境.野外观察发现房山侵入体与官地杂岩及该韧性剪切带间均呈明显的侵入接触关系, 在侵入岩体南北边缘有大量的片麻岩等捕虏体, 沿杂岩的片麻理或韧性构造面理, 发育大量的石英二长闪长岩脉, 岩脉成分与房山岩体一致, 因此该韧性剪切带的形成应早于房山岩体侵位.如对房山岩体的侵入和改造进行复原和恢复, 该韧性剪切带代表了早期的伸展作用, 可能与房山伸展穹隆体的韧性变形同期.      

辽西医巫闾山变质核杂岩的形成过程与晚侏罗世伸展事件

根据野外详细调查,本文系统分析了医巫闾山地区的伸展构造,认为区内瓦子峪伸展韧性剪切带发育之前就出现了变质核杂岩.该核杂岩具有典型的三层结构,其拆离韧性剪切带出现在变质基底内,但西侧被晚期早白垩世瓦子峪韧性剪切带切割,呈不完整的长环形带状展布.露头构造、显微构造及石英C组构皆指示核杂岩的下盘、拆离韧性剪切带及上盘底部具有...     

Unity of the national and the international in the socio-cultural development of the peoples of the USSR

International unity is becoming ever stronger in this country owing to an increasing similarity in the development of the cultural environment. This comprises the provision of all the country's republics with a sufficient number of schools, theatres, and other institutions and cultural information media in accordance with the needs of the population. An important part is played by the rise in ‘the general educational level, as well as the level of professional qualifications and skills. Among all the Soviet nations and nationalities, this rise being more rapid among formerly backward peoples. Prominent among the factors of internationalization is the progressive development of the nationalities’ cultural resources, while professional culture is being increasingly brought within the reach of the masses.The implementation of the nationalities policy promotes the all-round development of all Soviet nations and nationalities, their drawing together, the upsurge of the individual capabilities of every Soviet citizen.     

Deviation of the major axis of the inertia ellipsoid of the Moon from the direction toward the Earth

It is known from observations that the center of mass of the Moon does not coincide with the geometric center of its figure, and the line connecting these two centers is not aligned with the direction toward the center of the Earth, instead deviating toward the Southeast. This stationary deviation of the axis of the inertia ellipsoid of the Moon to the South of the direction toward the Earth is analyzed. A system of five linear differential equations describing the physical libration of the Moon in latitude is considered, and these equations are derived using a new vector method taking into account perturbations from the Earth and partly from the Sun. The characteristic equation of this system is obtained, and all five oscillation frequencies are found. Special attention is paid to the fifth (zero) frequency, for which the solution of the latitude libration equations are stationary and represents a previously unknown additional motion of the rotational axis of theMoon in a cone with a small opening angle. In contrast to the astronomical precession of the Earth, the rotation of the angular-velocity vector is in the positive direction (counter-clockwise), with the period T ₃ = 27.32 days. On this basis, this phenomenon has been named “quasi-precession.” This quasi-precession leads to a stationary inclination of the major axis of the inertia ellipsoid of theMoon to the South (for an observer on Earth), making it possible to explain one component of the observed deviation of the center of mass of the Moon from the direction toward the Earth. The opening angle of the quasiprecession cone is approximately 0.834″.     

Global repeating events in the history of the Earth and the motion of the Sun in the Galaxy

Chronological analyses of correlations between certain global repeating events (mass extinctions of marine organisms, meteorite impacts, and flashes in the frequency of geomagnetic reversals) during the Phanerozoic Eon and the motion of the solar system in the Galaxy are presented for five rotationally symmetrical models for the regular Galactic gravitational field. Thirteen of sixteen mass-extinction events can be described by a repetition interval of 183±3 million years. This is in agreement with the anomalistic period (interval between two subsequent passages of the Sun through the apocenter of its Galactic orbit) in the model of Allen and Martos. The positions of the minima and maxima in Gaussian functions approximating the frequency distribution for geomagnetic reversals also agree with the times of passage of the Sun through the apocenter and pericenter, respectively, of its Galactic orbit in this model. The maximum in the distribution of the deviations of the dates of mass extinctions from the nearest dates of impacts of large, crater-forming bodies is close to zero, providing evidence that many such events are correlated. As a rule, extinctions follow impact events. The impacts of large bodies have occurred most often when the solar system passes through the Galactic plane, while mass extinctions occur more often at some distance from the Galactic plane (about 40 pc). As a rule, intervals of increases in the frequency of geomagnetic reversals coincide with dates of impacts of large bodies. At the same time, these intervals do not show a clear correlation with the dates of mass extinctions. The intensity of mass extinctions, like the energy released by impacts, is consistently higher in periods when the Sun is moving from the apocenter toward the pericenter of its orbit, than when it is moving from the pericenter toward the apocenter. Thus, there is evidence for a variety of relationships between repeating global events in the Phanerozoic and the motion of the Sun in the Galaxy. Long-period variations in the frequency of geomagnetic reversals are correlated with the orbital motion of the Sun, and increases in the frequency of geomagnetic reversals are correlated with impacts. Mass extinctions are correlated with the impacts of large bodies, whose motions may have been perturbed by clouds of interstellar material concentrated toward the Galactic plane and by the shock front associated with the Perseus spiral arm, through which the solar system passes. The velocity of the Sun relative to the spiral pattern is estimated.     

摩擦桩基桩土间极限摩阻力取值问题探讨

通过对广珠东线高速公路横沥大桥的试桩及土体的工程地质条件分析,总结出影响摩擦桩基桩土间极限摩阻力取值的一般问题以及解决问题的方法和措施。     

从榴辉岩与围岩的关系论苏鲁榴辉岩的形成与折返

位于华北和扬子两板块碰撞带中的苏鲁榴辉岩形成的温压条件不但是超高压，而且是高温。榴辉岩的PTt轨迹表明其为陆-陆磁撞俯冲带的产物。榴辉岩的区域性围岩花岗质片麻岩为新元古代同碰撞期花岗岩，榴辉岩及其他直接围岩皆呈包体存在于其中，并见新元古代花岗岩呈脉状侵入榴辉岩包体中。区域性围岩新元古代花岗岩的锆石中发现有柯石英、绿辉石等包裹体，表明新元古代花岗岩的组成物质也经受过超高压变质作用，且榴辉岩与围岩新元古代花岗岩的锆石U-Pb体系同位素年龄基本相同。但新元古代花岗岩所记录的变质作用和变形作用期次（或阶段）却少于榴辉岩。椐上述可得如下推断：超高压榴辉岩与新元古代花岗岩岩浆是同时在碰撞带底部（俯冲板块前部）形成的；榴辉岩的第一折返阶段是由新元古代花岗岩岩浆携带上升的，其第二折返阶段是和新元古代花岗岩一起由逆冲及区域性隆起而上升，遭受剥蚀。     

某高速公路下伏煤矿采空区稳定性分析

在论述某高速公路下伏砦脖煤矿采空区地质、采矿和工程地质特征的基础上, 进行了稳定性数值模拟分析, 定性与定量地分析与评价了该煤矿采空区的地表变形特征及稳定性。研究结果表明: 该煤矿采空区的变形尚未完成, 对拟建的高速公路将产生很大的危害, 必须采取相应的工程治理措施。      

The Importance of the Precipitation and the Susceptibility of the Slopes for the Triggering of Landslides Along the Roads

In order to characterise the influence of the heavyrains on the observed landslides during the 1996–1997hydrological cycle, rainfall records for the last 100years are analysed from 104 stations in easternAndalusia. Regarding the amounts of rain recordedbetween October 1996 and March 1997 in the 104stations studied, 31 presented new all-time records;15 presented values that were 80–100% of thepre-1995 record; 49 stations, 80–50%; and 9stations, < 50%. A map has been devised of thesusceptibility of the materials through which thesouth-eastern Andalusian road network crosses,together with an inventory of the damage caused byinstability phenomena on banks and cuttings of theroad network during the winter of 1996–1997. Therelationships between the rainfall during the studyperiod, the damage caused to the road network and thesusceptibility of the materials affected are analysed.The results indicate that there is a clearcorrespondence between the rainfall recorded and thesusceptibility of the materials with the inventorieddamage. It is concluded that the widespread seriousdamage caused in early 1997 to the roads andsurrounding areas in the Alpujarra region and thecoast of the Province of Granada was mainly caused bythe extraordinarily heavy rains. However, considerablyless damage was observed where the susceptibility ofthe terrain is low, thus highlighting the extremeusefulness of terrain-susceptibility maps for riskprevention and territorial planning.     

On the consistency of proposed models for the Pyrenees with the structure of the eastern parts of the belt

The structure of the eastern Pyrenees consists mainly of south-directed thrusts involving basement and cover rocks. An antiformal stack developed by the piling up of basement thrust sheets which outcrop in the Axial zone. These structures account for a thin-skinned thrust model rather than a vertical fault model in which the Axial zone would be essentially autochthonous, and the North-Pyrenean fault the axial plane of a fan thrust system. New data from the Eastern Pyrenees and the thin-skinned model suggest that(1) the structure east of the Pedraforca nappe is similar to that of the Central Pyrenees; (2) the cover rocks of the South-Pyrenean units and of the Axial zone-after restoration—built up a northwards-thickening prism consistent with the existence of a unique Pyrenean sedimentary basin during Mesozoic time; (3) the Axial zone is only a complex antiformal stack developed as a part of South-Pyrenean system related to the Paleogene thrusting-tectonics. The Axial zone palaeogeographic area had no special meaning during Mesozoic time.