藏东吉塘复式花岗岩成因——来自锆石U-Pb年龄和地球化学的证据

吉塘复式花岗岩位于澜沧江岩浆岩带北段,是研究澜沧江结合带演化过程的重要窗口。对澜沧江北段卡贡地区吉塘复式花岗岩中的黑云母二长花岗岩和花岗闪长岩开展了LA-ICP-MS锆石U-Pb年代学、岩石地球化学研究。研究结果表明,所选锆石样品均具有明显的生长环带,Th/U值普遍大于0.4,为典型的岩浆锆石,分别获得锆石~(206)Pb/~(238)U年龄加权平均值为222.8±1.5Ma(MSWD=1.60,n=16)、213.6±1.1Ma(MSWD=0.98,n=20)和221.1±1.5Ma(MSWD=1.30,n=15),时代均属于晚三叠世。岩石地球化学特征表明,吉塘黑云母二长花岗岩和花岗闪长岩具有较一致的主量、微量元素含量,其变化特征也具有一致性,反映这2类岩石可能为同一期岩浆演化而来;吉塘复式花岗岩属于过铝质S型花岗岩,与临沧花岗岩、纽多花岗岩具有一致的岩石地球化学性质,为澜沧江花岗岩带的重要组成部分,具有统一的构造岩浆活动模式;吉塘复式花岗岩的成因与碰撞造山导致地壳加厚增温及与岩石圈剪切、伸展期有关的深熔作用有关,澜沧江洋的闭合时间可能为273Ma左右。     

新疆小热泉子铜矿区构造特征及成矿模式

新疆小热泉子铜矿区总体为一NW-SE走向的不协调短轴复背斜,后期有SN向次级褶皱叠加。区内NW向断裂发育,均为EW向大断裂之分支断裂,规模小,无推覆性质,主要矿床(Ⅰ号矿床)呈较为典型的立交桥式双层成矿模式。矿床成因类型为中温热液充填-交代型铜(锌)矿床。      

塔西南甫沙地区被动顶板双重构造和乌泊尔地区背驮盆地的数值模拟

塔里木盆地西南缘前陆褶皱冲断带发育被动顶板双重构造(甫沙地区)和背驮盆地(乌泊尔地区)两种明显不同的构造类型。为了探讨它们的不同成因,利用有限差分软件FLAC开展了一系列二维数值模拟研究。采用遵循平面应变的黏弹塑性本构模型,设置两个滑脱层和三个能干层。同时考虑基底沉降、同构造剥蚀和沉积,缩短速率为8mm/a,剥蚀速率为每年侵蚀基准面以上高程的3×10-7(相当于每1000m每年剥蚀0.3mm)。在基底水平的情况下,采用均一的沉降速率1.6mm/a并以填平补齐的方式进行沉积时,3.5 Ma后发育成与甫沙地区相似的被动顶板双重构造。而当模型采用中部小两端大的拱形沉降速度以及填平补齐的沉积时最终发育成背驮盆地,和乌泊尔地区地质原型接近。模拟结果表明,同构造沉积地层对褶皱冲断带的影响巨大,当沉积物大量堆积在褶皱冲断带前缘时有利于被动顶板双重构造的形成,而沉积物大量堆积在逆冲楔顶与斜坡时则更有利于背驮盆地的发生。模拟结果认为甫沙地区和乌泊尔地区都接受了填平补齐的沉积方式,但基底沉降差异造成了两者的构造样式明显不同。在小范围内(后陆至前陆小于80km),甫沙地区基底以水平方式发生沉降,褶皱冲断带前缘接受了大量沉积;而乌泊尔地区基底在挤压下发生弯曲,使得后陆发生了更大的沉降从而接受了更多的沉积。     

燕山板内造山带中段近东西向中生代右行走滑构造系统

阐述了分布燕山板内造山带中段的近东西向中生代右行走滑构造系统的几何学与运动学特征，指出该右行走滑断裂系统由古北口－平泉断裂和密云－喜峰口－锦西断裂两条主干断裂，以及夹于其间的北西向张性断层和张裂脉，北东向压性断层和褶皱等共同组成，近东西向主干断裂具有右行右列“P破裂”结构形式，北西向的张性断层和张裂脉则具有“T破裂”性质，主干断裂与北东向压性断裂和褶皱构成了一幅右行走滑双重构造（strike-slip duplexs)格局，而不是不同期次变形的产物。该走滑断裂系统形成于侏罗纪末一早白垩世初（147－132Ma)，由于它恰好构成了位于辽西的走向北东，向南东逆冲的逆冲推覆构造系统与冀北，冀西北地区北东走向，上盘向北西逆冲的推覆构造的转换和调节部位，所以本文提出了一个右行走滑构造系统的统一构造模式，在该模式中，辽西和冀北，冀西北同时代而运动方向相反的逆冲构造系统分别构成了近东西向右行走滑系统的断盘前缘挤压逆冲构造区，认为惦记山板内造山带总体构造格局的区域构造作用方式是：在总体北西一南东向挤压的一级构造应力场作用下，造山带北部的块体相对于中生代华北地台为主体的块体做向东的右景下，燕山板内造山带可能构成了亚洲东部另一个重要的“挤出构造带”或“逃逸构造域”，这种推测需要得到北部东西向断裂系具有同期左行走滑运动的支持。     

辽西地区燕山板内造山带东段中生代逆冲推覆构造

本文厘定并阐述了辽西地区燕山中生代板内造山带东段发育的推覆构造的宏观构造格局、运动学特征、形成时代和形成过程；探讨了形成该构造体系的区域构造背景及其大地构造意义。该区的逆冲构造系统由6条主干逆冲断层组成。分布于西北和东南缘的两条最外缘逆冲断层走向为ENE，居于其间的逆冲断层呈NNE-NE，而且，向东北和南西方向这些断层具有汇合的趋势。在东北端收敛于凌源-东官营子断裂（“内蒙地轴”南缘断裂）上，而在西南端则汇拢于大屯-锦州断裂及其西延的密云-喜峰口断裂。总体上构成一个类似于双重构造（duplex)的巨型逆冲系统。该区逆冲作用始于中侏罗世之前，于株罗纪末达到高峰并基本形成了本区的推覆构造格局。本区逆冲断层系统，总体逆冲方向指向南东，与燕山板内造山带中段、西段以向北、北西逆冲为主的逆冲推覆构造明显不同。结合燕山中段发现的近东西向右行走滑断裂系统及其与本区逆冲推覆构造体系的时-空关系分析，指出本区逆冲推覆构造的形成，是没燕山东西向构造带右行走滑作用因构造方向的改变发生构造转换的结果。     

徐州——宿州弧形双冲——叠瓦扇逆冲断层系统

郯庐断裂西徐州－－宿州地区存在丰一个向西突出的弧形构造,其东侧后缘为倾向腹地的双冲构造,前缘为背驭式的叠瓦扇。东西向的不老河断层和宿北断层将其分为具有不同发育特征的三段。这是华北板块与扬子板块斜冲对接过程中,由于双沟推覆体向ＮＷ的反向推力,由东向西间歇式跳跃发展而形成的。该构造后期还被前缘的反向断层,前渊的重力滑动构造和腹地的指状断陷盆地所复杂经。这是不同于Ｂｏｙｅｒ和Ｅｌｌｉｏｔｔ简单模式的一种     

Influence of antecedent soil moisture on hydraulic conductivity in a series of texture‐contrast soils

Antecedent soil moisture significantly influenced the hydraulic conductivity of the A1, A2e and B21 horizons in a series of strong texture‐contrast soils. Tension infiltration at six supply potentials demonstrated that in the A1 horizon, hydraulic conductivity was significantly lower in the ‘wet’ treatment than in the ‘dry’ treatment. However in the A2e horizon, micropore and mesopore hydraulic conductivity was lower in the ‘dry’ treatment than the ‘wet’ treatment, which was attributed to the precipitation of soluble amorphous silica. In the B21 horizon, desiccation of vertic clays resulted in the formation of shrinkage cracks which significantly increased near‐saturated hydraulic conductivity and prevented the development of subsurface lateral flow in the ‘dry’ treatment. In the ‘wet’ treatment, the difference between the hydraulic conductivity of the A1 and B21 horizons was reduced; however, lateral flow still occurred in the A1 horizon due to difficulty displacing existing soil water further down the soil profile. Results demonstrate the need to account for temporal variation in soil porosity and hydraulic conductivity in soil‐water model conceptualisation and parameterisation. Copyright © 2011 John Wiley & Sons, Ltd.     

南安集海-南玛纳斯背斜的构造分析及其横向转换研究

南安集海背斜和南玛纳斯背斜属于准噶尔南缘山前中西段第一排构造带,构造变形异常强烈,呈典型的堆跺式双重构造.通过应用断层相关褶皱的构造几何分析方法,用计算机对南安集海-南玛纳斯背斜带内的基干地震剖面进行了构造解析,南玛纳斯背斜是在霍-玛-吐断裂上叠加一堆跺式双重构造组成,向西南玛纳斯背斜上的堆跺式双重构造逐渐消失,同时霍-玛-吐断裂位移量逐渐转换成反向逆冲断层,形成南安集海背斜的复合型构造三角楔.通过构造解析,弄清了它们在三维空间中的过渡转换关系,对后继的南缘山前构造带的勘探开发具有参考意义.     

Duplex architecture and late‐orogenic backthrusting in Foredeep Units of the Northern Apennines (Italy)

The Northern Apennines of Italy is a fold and thrust belt that resulted from the NE‐ward progressive overthrusting of a Mesoalpine stacking (the ocean‐derived Ligurian Units) onto the detached sedimentary cover of the Adria plate continental margin (Foredeep Units). The Futa Pass area represents a key sector for the reconstruction of the deformation history of two Foredeep Units (Acquerino and Carigiola Units). The tectonic evolution of this sector is characterized by the superposition of three main deformation stages, with a constant NNE–SSW compression direction. The oldest structure is represented by the NNE‐verging Acquerino Unit duplex structure, the roof thrust of which is represented by the Ligurian stacking basal thrust. The interpretation of this structure as a large‐scale duplex is supported by the presence in the outer sectors of the Northern Apennines belt of Ligurian Units directly overthrust on younger Foredeep Units. In the second deformation stage the NNE‐verging Tavaiano Thrust developed. This regionally significant tectonic surface juxtaposes the Acquerino Unit (already developed as a duplex) and the overlying Ligurian Units, onto the Carigiola Unit. During this stage the fault pattern of the Carigiola Unit was also developed, characterized by two conjugate fault systems, coherent with a NNE–SSW maximum compression direction. During the last deformation stage, a backthrusting with a top‐to‐the SSW sense of movement (the Marcoiano Backthrust) brings the Carigiola Unit and its tectonic cover over the Acquerino and Ligurian Units, with the development of a large footwall syncline. The deformation history presented here differs from previous studies, and so provides a contribution to the debate on Northern Apennines tectonic evolution. Copyright © 2008 John Wiley & Sons, Ltd.     

The Romagna Apennines,Italy: an eroded duplex

The study of clast composition carried out on the alluvial gravels of the Romagna Apennines of northern Italy has provided evidence for an extensive covering of allochthonous units (Ligurian nappe and Epiligurian succession) above the Miocene foredeep deposits (Marnoso‐Arenacea Formation), which has been subsequently eroded during the Late Miocene–Pleistocene uplift. This result is confirmed by the burial history outlined in the Marnoso‐Arenacea Formation through vitrinite reflectance and apatite fission‐track analyses. The Romagna Apennines represent, therefore, a regional tectonic window where the thrust system that displaced the Marnoso‐Arenacea Formation crops out. The geometric relations between this thrust system and the basal thrust of the Ligurian nappe, exposed at the boundaries of the Romagna Apennines (Sillaro Zone and Val Marecchia klippe), are consistent with a duplex structure. Thus, the Romagna Apennines thrust system is an eroded duplex. The duplex roof‐thrust corresponds to the surface of the synsedimentary overthrust of the Ligurian nappe on the Marnoso‐Arenacea Formation; the floor‐thrust is located in the pelagic pre‐foredeep deposits (Schlier Formation). Copyright © 2001 John Wiley & Sons, Ltd.