褶皱变形过程中的构造化学效应

通过扫描分析电镜（ＳＥＭ）对２个褶皱样品的主要造岩矿物化学成分进行分析，探讨了在中－深部地壳的变形环境下，褶皱变形作用导致变形岩石化学成分分异的规律以及褶皱变形的构造化学效应。     

鄂尔多斯盆地西部晚三叠世构造属性探讨

有关鄂尔多斯盆地西部晚三叠世的构造属性问题,前人的观点大多认为该时期为(类)前陆盆地,笔者对此提出置疑,主要有3个方面的依据:首先,对西缘汝箕沟、石沟驿和崆峒山地区晚三叠世延长组的3套粗碎屑沉积进行了重新认识。汝箕沟延长组确实为边缘相沉积,但其附近层位板内玄武岩的出现,表明该区晚三叠世为拉张环境下的沉积。最新研究表明,石沟驿地区延长组沉积厚度并不大,不超过1500m。崆峒山砾岩沉积可能受西南部的秦祁造山带影响所致,不能作为盆地西部沉积的代表。其次,通过编制晚三叠世延长组地层等厚图及一系列东西向地层剖面对比,发现该时期以往认为的盆地西部从南至北的巨厚沉降带并不存在。最后,通过地震剖面、平衡剖面和裂变径迹测试数据分析,指出西部现今存在的横山堡后冲构造带和马家滩大型逆冲推覆构造带并未形成于晚三叠世,其最早形成于晚侏罗世。故鄂尔多斯盆地西部晚三叠世构造属性并非为前陆盆地,而是残延克拉通内叠合盆地的组成部分。该认识对盆地西部的油气勘探具有重要意义。     

广西及邻区地台盖层和中新生代盆地地层褶皱过程

根据新测构造地质剖面资料,指出印支运动导致地台盖层和右江盆地构造层全面褶皱的主张是一大误解。印支运动的褶皱作用十分轻微,向北西减弱,至滇东南—黔南消失。地台盖层和上覆中新生代地层的同步—类同步褶皱是由多期次继承性造山运动累积叠加形成的。依据褶皱时代和过程以及优选大地构造线取向的差异,广西及邻区可分成以北西向大地构造线占优势的滨特提斯区,包括桂西和滇东南—黔南两亚区,和以北东向优选大地构造线为特点的滨太平洋区。主要褶皱时代在滨特提斯区是中晚始新世之交,在滨太平洋区是晚侏罗—晚始新世。滇东南—黔南无印支褶皱。     

广义纵弯褶皱叠加机制、类型及其应用

早期褶皱的迁移机制和迁移型叠加类型的发现扩大了对广义纵弯褶皱叠加机制和类型的认识。广义叠加机制有多种,其中包括迁移和位移,褶皱变缓和展平,岩层变陡和变缓等。广义叠加类型中除基本类型外还有限制型、展平残留型、叠加挠曲、共轴重褶等。本文将用几个地质实例予以说明。此外还将讨论叠加褶皱层应变和小构造的多成因和应用问题,其中包括斜纵弯应变和褶皱变缓展平引起的应变和小构造。     

皖南宁国一带印支期褶皱变形分析

】应用构造解析法,通过与褶皱变形有关的小构造研究,认为皖南印支期褶皱变形可分解为三期。它们的形态、方位各异,规模、强度不等,形成机制也不尽相同。它们之间相互叠加,形成了该区非常有特色的构造变形图案。     

Structural origin of large gas cavities in the Big Obsidian Flow, Newberry Volcano

Mesoscopic structures in four large cavities on the Big Obsidian Flow, OR, USA, provide evidence of links between large-scale surface folding, cavity formation, and hazardous explosive activity originating from within the flow. Stereographic analysis of flow banding, stretched bubble lineation, striations, and mesoscopic fold axes indicates that three of the cavities are near-cylindrical folds. Cavity fold axes are oriented parallel to large-scale compressional flow ridge axes, suggesting that cavities form in response to shortening during flow advance. Large surface folds develop as the upper 10 m of the cooler flow surface buckles when the flow front cools, slows, and stalls against topographic barriers. Void space is created in fold hinges as obsidian layers shear past each other and pull apart. The resultant cavities may serve as reservoirs for exsolved volatiles or surface water which may later vent explosively to form explosion craters on the flow surface.     

Interplay between tectonics and compaction in a rift‐margin,lacustrine delta system: Miocene of the Eger Graben,Czech Republic

The Early Miocene Bílina Palaeodelta consists of fluvio‐deltaic and lacustrine clastics deposited along the south‐eastern margin of the extensional Most Basin, part of the Eger Graben in north Bohemia (Czech Republic). The Bílina succession shows evidence of repeated advances of an axial deltaic system across a thick accumulation of organic material and clay in the hangingwall of an active fault. Exposures up to ca 4·5 km long in the Bílina open‐cast mine help bridge the gap between seismic scale and typical outcrop scale of observation and thus allow the relationships between small‐scale and basin‐scale stratal geometries to be evaluated. The Bílina Palaeodelta deposits include sand‐dominated, fluvial channel fills and heterolithic sheets interpreted as delta plain strata, sand‐dominated mouth‐bar wedges and heterolithic sheets of prodeltaic deposits, passing distally into lacustrine clays. The depositional environment is interpreted as a fluvial‐dominated, mixed‐load, lacustrine delta with a high degree of grain‐size segregation at the feeder‐channel mouths. On the largest temporal and spatial scales, variable tectonic subsidence controlled the overall advance and retreat of the delta system. The medium‐term transgressive‐regressive history was probably driven by episodes of increased subsidence rate. However, at this temporal scale, the architecture of the deltaic sequences (deltaic lobes and correlative lacustrine deposits) was strongly affected by: (i) compaction of underlying peat and clay which drove lateral offset stacking of medium‐term sequences; and (ii) growth of a fault‐propagation fold close to the active Bílina Fault. At the smallest scale, the geometries of individual mouth bars and groups of mouth bars (short‐term sequences) reflect the interaction among sediment loading, compaction and growth faulting that produced high‐frequency relative lake‐level fluctuations and created local accommodation at the delta front.     

人造地震动反应谱的非线性拟合

为了进一步提高人造地震动时程对目标反应谱的拟合精度和效率,本文提出了一种人造地震动反应谱非线性拟合方法.在人造地震动反应谱非线性拟合过程中,认为Fouricr幅值谱与反应谱调整项之间满足非线性(幂指数)关系.通过比例拉伸和折叠等数值技巧以促使模拟加速度向目标加速度逼近.算例分析结果表明,人造地震动反应谱非线性拟合方法具...     

塔北古隆起的三维地质结构及相关问题探讨

盆地深层构造地质学的研究可以揭示沉积盆地早期的物质记录,揭示盆地深层地质结构、构造样式及其变化特点,还原构造-古地理环境等。塔北古隆起是塔里木盆地油气最富集的构造单元之一,是研究板块内部变形的理想场所。对塔北古隆起地质结构的精细解析有利于加深对古隆起控油气理论的理解,对深层海相油气勘探具有指导意义。文中基于整个塔北地区的地震资料以及大量钻井资料,建立其三维地质结构,通过Petrel软件实现三维可视化。塔北古隆起存在12个不整合面,可划分为五大构造层:基底(AnZ)、震旦系—下古生界(Z-S)、上古生界(D3d-P)、中生界(T-K1)、新生界(E-Q)构造层。塔北古隆起的地质结构受其深层主干断裂系统控制,依据深层主干断裂发育模式的差异,可将古隆起分为4段:(Ⅰ)温宿凸起段;(Ⅱ)英买力低凸起段;(Ⅲ)哈拉哈塘凹陷与轮南低凸起段;(Ⅳ)草湖凹陷与库尔勒鼻状凸起段。哈拉哈塘凹陷-库尔勒鼻状凸起(甚至包括孔雀河斜坡)的古生界构造层保留了NE-SW向的古生代构造形迹,与近E-W向深层主干断裂系统斜交,可能指示塔北古隆起在晚古生代处于右旋压扭性或NW-SE向主应力环境,直到侏罗纪—早白垩世才发生改变。     

鄂尔多斯盆地西缘马家滩地区的构造样式与圈闭分布规律

鄂尔多斯盆地西缘冲断带是我国南北构造带的重要组成部分,是阿拉善地块与鄂尔多斯地块之间陆内构造变形的产物,研究其地质结构与构造样式是探讨陆内构造变形机制的基础,同时也是剖析地震活动与开展油气勘探的重要依据。本文基于该区近年来新的钻井、高精度二维与三维地震资料,应用构造解析方法,研究构造变形样式及圈闭分布特点。研究表明,马家滩地区地处鄂尔多斯盆地西缘冲断带中段,经历长期的伸展—聚敛旋回演化,是贺兰山—六盘山陆内造山带变形系统的一部分。马家滩地区的地质结构具有"分带、分层、分段"特征,自西向东发育后缘伸展带(银川地堑)、逆冲推覆构造带(包括韦州—苋麻湾冲断席、石沟驿向斜)、前缘过渡带和天环凹陷;前缘过渡带以石炭—二叠系煤层或泥岩为区域滑脱层分为上、下构造变形系统,下构造变形系统向西缓倾,发育低幅度背斜;上构造变形系统发育三排断层相关褶皱背斜带,向南变窄,上构造变形系统因滑脱层发育差异而南、北分段,二者之间斜向过渡转换。马家滩地区及邻区主要发育伸展-聚敛旋回制约的反转构造系统、陆内造山变形制约的扩展式前陆变形系统和后陆造山后伸展变形系统等3种构造变形系统;前缘过渡带上部构造系统经历印支晚期、燕山期和喜马拉雅期三期变形,形成不同期次、不同方向的叠加构造。马家滩地区发育断层传播褶皱、双重构造、叠瓦构造、构造楔和反冲断裂组合(冲隆构造)等构造样式,形成断背斜、断鼻及断块等油气圈闭类型,圈闭分布受断层控制呈带展布。马家滩地区构造圈闭发育,为西缘油气勘探的有利远景目标区。