阿尔金-西昆仑加里东中晚期构造作用在塔里木盆地塘古兹巴斯凹陷中的响应

对塔里木盆地塘古兹巴斯凹陷志留系与奥陶系(S/O3)、上泥盆统与志留系(D3d/S)2个区域角度不整合的三层结构特征及属性进行详细研究,分析了不整合面下构造变形特征、不整合面结构类型分布、不整合面上初始沉积砾岩成分及其物源.发现加里东中期该区形成了塔里木盆地独特的不整合结构,构造不整合(S/O3)明显地受北东东-南西西走向逆冲断裂系控制,在凹陷北部逆冲断裂系上盘发育中等角度单斜不整合和褶皱不整合,沿断裂带形成了多个角度不整合带;加里东晚期不整合(D3 d/S)区域上呈现由南向北的剥蚀特征,局部受继承性再活动的断裂控制存在北东东向的中角度单斜不整合带,且构成了加里东中期及晚期的叠合不整合.两期不整合面上的初始沉积砂砾岩有明显差异,加里东中期不整合面上初始沉积以近源的沉积岩为主、物源来自被动大陆边缘;晚期不整合面上的初始沉积砾岩主要为硅质岩和变质岩,物源主要来自较远的被动大陆边缘及大陆岛弧.综合分析表明,晚奥陶世末塘古兹巴斯凹陷主要受到阿尔金、西昆仑的构造作用;中志留世-晚泥盆世主要受到西昆仑及阿尔金碰撞造山活动共同作用.在加里东构造运动中晚期,凹陷中控制不整合发育的NEE向逆冲断裂系与南阿尔金断裂在活动时限、强度、区域应力场上具有可比性.加里东中、晚期不整合的三层结构及其属性是反映阿尔金-西昆仑早古生代构造运动发生、发展、终结动态演化过程的良好证据.     

Source Rock Characterization and Petroleum Systems in North Ghadames Basin,Southern Tunisia

This paper presents geochemical analysis of drilled cutting samples from the OMZ‐2 oil well located in southern Tunisia. A total of 35 drill‐cutting samples were analyzed for Rock‐Eval pyrolysis, total organic carbon (TOC), bitumens extraction and liquid chromatography. Most of the Ordovician, Silurian and Triassic samples contained high TOC contents, ranging from 1.00 to 4.75% with an average value of 2.07%. The amount of hydrocarbon yield (pyrolysable hydrocarbon: S2b) expelled during pyrolysis indicates a good generative potential of the source rocks. The plot of TOC versus S2b, indicates a good to very good generative potential for organic matter in the Ordovician, Silurian and Lower Triassic. However, the Upper Triassic and the Lower Jurassic samples indicate fair to good generative potential. From the Vankrevelen diagram, the organic matter in the Ordovician, Silurian and Lower Triassic samples is mainly of type II kerogen and the organic matter from the Upper Triassic and the Lower Jurassic is dominantly type III kerogen with minor contributions from Type I. The thermal maturity of the organic matter in the analyzed samples is also evaluated based on the T_max of the S2b peak. The Ordovician and Lower Silurian formations are thermally matured. The Upper Silurian and Triassic deposits are early matured to matured. However, Jurassic formations are low in thermal maturity. The total bitumen extracts increase with depth from the interval 1800–3000 m. This enrichment indicates that the trapping in situ in the source rocks and relatively short distance vertical migration can be envisaged in the overlying reservoirs. During the vertical migration from source rocks to the reservoirs, these hydrocarbons are probably affected by natural choromatography and in lower proportion by biodegradation.     

扬子地台东南缘上奥陶统五峰组斑脱岩锆石U-Pb年龄及其地质意义

扬子板块东南缘思南地区上奥陶统顶部—下志留统底部地层中普遍发育一层斑脱岩。选取思南县罗湾沱上奥陶统五峰组剖面进行LA-ICP-MS锆石U-Pb测年,获得其年龄加权平均值为449±11Ma,限定了该区域奥陶系—志留系地层沉积年龄,为扬子板块东南缘思南地区奥陶系—志留系界线附近的火山喷发事件、地层年代学研究提供了较可靠的证据。449±11Ma的年龄与扬子板块北西大巴山一带的年龄数据高度吻合,但略晚于华北克拉通西南缘奥陶系顶部斑脱岩的年龄(449.0～465.8Ma)。其所代表的火山活动可能与华夏板块向扬子板块俯冲有关。晚奥陶世—早志留世晚期,多期次的火山喷发事件影响了当时的海洋化学条件、生态圈环境,造成中—晚奥陶世以来的生物灭绝事件及冰川启动。     

Tectonic Relationship between the Late Ordovician and Late Silurian palaeogeographies of southeastern Australia

The Ordovician palaeogeography of southeastern Australia was an east‐facing mafic volcanic island arc separated from the Gondwanan continent by a marginal sea, probably floored by oceanic crust. By mid‐Silurian the palaeogeography had changed to an almost wholly ensialic configuration, with meridional horsts and grabens east of the Wagga Metamorphic Belt and widespread silicic magmatism. By extending a previously postulated match between the modern Andaman Basin and parts of southeastern Australia in the Late Ordovician, the transition from the Late Ordovician to Late Silurian palaeogeography can be explained. The entire Ordovician and Silurian interval can be understood in terms of a relatively simple and constant plate geometry involving southeastern Australia in regional dextral shear.     

The Berridale Wrench fault: A major structure in the Snowy Mountains of New South Wales

One of the most significant, but poorly understood, tectonic events in the east Lachlan Fold Belt is that which caused the shift from mafic, mantle‐derived calc‐alkaline/shoshonitic volcanism in the Late Ordovician to silicic (S‐type) plutonism and volcanism in the late Early Silurian. We suggest that this chemical/isotopic shift required major changes in crustal architecture, but not tectonic setting, and simply involved ongoing subduction‐related magmatism following burial of the pre‐existing, active intraoceanic arc by overthrusting Ordovician sediments during Late Ordovician — Early Silurian (pre‐Benambran) deformation, associated with regional northeast‐southwest shortening. A review of ‘type’ Benambran deformation from the type area (central Lachlan Fold Belt) shows that it is constrained to a north‐northwest‐trending belt at ca 430 Ma (late Early Silurian), associated with high‐grade metamorphism and S‐type granite generation. Similar features were associated with ca 430 Ma deformation in east Lachlan Fold Belt, highlighted by the Cooma Complex, and formed within a separate north‐trending belt that included the S‐type Kosciuszko, Murrumbidgee, Young and Wyangala Batholiths. As Ordovician turbidites were partially melted at ca 430 Ma, they must have been buried already to ～20 km before the ‘type’ Benambran deformation. We suggest that this burial occurred during earlier northeast‐southwest shortening associated with regional oblique folds and thrusts, loosely referred to previously as latitudinal or east‐west structures. This event also caused the earliest Silurian uplift in the central Lachlan Fold Belt (Benambran highlands), which pre‐dated the ‘type’ Benambran deformation and is constrained as latest Ordovician — earliest Silurian (ca 450–440 Ma) in age. The south‐ to southwest‐verging, earliest Silurian folds and thrusts in the Tabberabbera Zone are considered to be associated with these early oblique structures, although similar deformation in that zone probably continued into the Devonian. We term these ‘pre’‐ and ‘type’‐Benambran events as ‘early’ and ‘late’ for historical reasons, although we do not consider that they are necessarily related. Heat‐flow modelling suggests that burial of ‘average’ Ordovician turbidites during early Benambran deformation at 450–440 Ma, to form a 30 km‐thick crustal pile, cannot provide sufficient heat to induce mid‐crustal melting at ca 430 Ma by internal heat generation alone. An external, mantle heat source is required, best illustrated by the mafic ca 430 Ma, Micalong Swamp Igneous Complex in the S‐type Young Batholith. Modern heat‐flow constraints also indicate that the lower crust cannot be felsic and, along with petrological evidence, appears to preclude older continental ‘basement terranes’ as sources for the S‐type granites. Restriction of the S‐type batholiths into two discrete, oblique, linear belts in the central and east Lachlan Fold Belt supports a model of separate magmatic arc/subduction zone complexes, consistent with the existence of adjacent, structurally imbricated turbidite zones with opposite tectonic vergence, inferred by other workers to be independent accretionary prisms. Arc magmas associated with this ‘double convergent’ subduction system in the east Lachlan Fold Belt were heavily contaminated by Ordovician sediment, recently buried during the early Benambran deformation, causing the shift from mafic to silicic (S‐type) magmatism. In contrast, the central Lachlan Fold Belt magmatic arc, represented by the Wagga‐Omeo Zone, only began in the Early Silurian in response to subduction associated with the early Benambran northeast‐southwest shortening. The model requires that the S‐type and subsequent I‐type (Late Silurian — Devonian) granites of the Lachlan Fold Belt were associated with ongoing, subduction‐related tectonic activity.     

试论新疆东准噶尔早古生代岩石圈板块构造演化

本文根据近年对新疆东准噶尔地层古生物、蛇绿岩和岛弧型岩浆岩等的野外调查和室内综合研究,系统阐述了该区早古生代期间岩石圈板块构造演化的前奥陶纪板内、奥陶纪至中志留世洋盆和晚志留世陆表海3个构造阶段,并把该区奥陶纪至中志留世的大地构造单元分为阿尔泰被动陆缘区、扎河坝北塔山缝合带(前身为东准噶尔洋盆)和准噶尔地块北部活动陆缘区(包括索尔巴斯他乌-纸房岛弧和库布苏弧后盆地),对各构造单元的特征及演化做了比较详细的论述。同时,对东准噶尔早古生代的大地构造背景及与邻区的关系亦进行了探讨。     

东秦岭中部奥陶系-志留系界线地层及腕足动物群

东秦岭中部晚奥陶世和早志留世地层分布较广,化石较丰富,尤其是腕足类,分为寺岗组、石燕河组、刘家坡组和张湾组。曾庆銮等(1993)根据腕足类及其群落的更替,把石燕河组和刘家坡组归於早志留世,因而引起较大争论。本文据岩性将寺岗组和石燕河组分别改称为石燕河组下段和上段,并据腕足类化石认为石燕河组和刘家坡组应归於晚奥陶世、张湾组为早志留世;另据上述地层生物群落的特征及群落的更替,认为从石燕河组到刘家坡组,以及刘家坡组至张湾组恰好反映了全球冰期引起的晚奥陶世海退和早志留世冰期结束引起的海侵,故本区奥陶系-志留系界线宜划在刘家坡组和张湾组之间。     

上扬子区下古生界层序地层格架的初步研究

上扬子区下古生界在贵州及其邻区发育较为完整。在震旦纪与寒武纪之交的台地淹没事件之后,寒武系形成一个从深水盆地相黑色页岩系到大套台地碳酸盐的沉积序列,其中下寒武统包含5个三级层序而可以进一步归为一个二级层序,中上寒武统构成一个二级层序而且可以进一步划分为7个三级层序。奥陶纪艾家山世末期的都匀运动、奥陶纪末期的与冈瓦纳大陆冰期相响应的全球海平面下降事件以及志留纪末期广西运动的共同作用,造成扬子地台大幅度的古地理变迁以及残留不全的奥陶系和志留系。详尽追踪和对比的结果可以将奥陶系划分为8个三级层序且可以进一步归为一个二级层序,在残留不全的的志留系中可以划分出7个三级层序并可以进一步归为一个二级层序。层序地层格架的建立,可以大致解读许多有趣的地质现象,如寒武纪碳酸盐台地的生长过程,奥陶纪与志留纪之交的“浅海静水”型黑色页岩系的发育特点,志留纪由北而南的海侵所造成的复杂的志留系展布特征等等;同时也意味着许多有待于进一步研究的问题,早寒武世数次快速海侵事件与生物事件的关系,奥陶系顶部特殊的“观音桥灰岩”的成因,奥陶系红花园组海绵生物礁的基本沉积模式等等。     

西藏奥陶纪和志留纪海相红层的分布与时代

本文对曾经考察过的西藏自治区主要研究剖面(即:聂拉木、定日、定结和申扎剖面)重新研究,参照国内已知的西藏奥陶纪和志留纪地层资料,对西藏地区奥陶系和志留系的海相红层进行系统研究。在西藏奥陶—志留系中,识别出11层海相红层。其中,在奥陶纪地层中识别出6层海相红层,在志留纪地层中识别出5层海相红层。已识别出的11层海相红层中,除奥陶纪青泥洞组海相红层(XORB1)属于深水大洋红层外,其它10层海相红层均属于浅水-半深水的陆棚红层。依据海相红层及其上下层位所含化石,本文初步讨论了各海相红层的大致时代,并与我国主要地区的同期海相红层进行了对比。     

扬子区奥陶纪、志留纪四射珊瑚分类、生物地层与生物古地理新认识

对扬子区中奥陶世至晚志留世四射珊瑚已发表的属种进行全面清理和厘定。现统计扬子区中奥陶世至晚志留世四射珊瑚约有117个属,其中以晚奥陶世和早志留世珊瑚属数最多。117个属中至少有30个属最早出现在扬子区中、晚奥陶世和早志留世地层。因此,扬子区被认为是奥陶纪、志留纪四射珊瑚起源中心之一。完善和修订扬子区中奥陶世至晚志留世四射珊瑚组合序列,使地层时代划分上均与国际通行标准(统、阶)接轨。尤其对扬子区早志留世Rhuddanian晚期,Aeronian早、晚期以及Telychian早、晚期四射珊瑚组合的重新建立和细分。最新资料表明晚奥陶世观音桥四射珊瑚动物群不但有更多的北欧同期的珊瑚分子,而且还产有北美标准属种Salvadorea,Brachyelasmasubregulare等说明两者也存在一定的联系。扬子区早志留世(Llandovery)的众多四射珊瑚属均为世界广布的,但也有许多地方性属(约有22个,占总数的23·4%)。就珊瑚生物古地理关系,它与同期的西伯利亚、哈萨克斯坦和澳大利亚珊瑚群较密切。     

塔中地区油气运聚特征

塔中地区主要受塔中Ⅰ号、Ⅱ号及Ⅲ号三条大断层控制 ,形成巨型复式背斜 ,隆起高部位地层遭受了强烈的风化剥蚀。背斜之上 ,断裂和局部构造发育。可划分出两个主要成藏期 :第Ⅰ成藏期为寒武系—下奥陶统烃源岩成熟生烃运移期 ,生排烃高峰为志留纪 ;第Ⅱ成藏期为中—上奥陶统烃源岩在燕山期—喜马拉雅期成熟生烃运聚。第Ⅰ成藏期形成的油藏有两个特征 :在塔中Ⅰ号断裂带、北部斜坡带油气注入奥陶系及志留系圈闭中 ,形成原生油气藏 ;构造高部位 (如中央断垒带 )的油气藏在后期构造运动中遭受破坏。第Ⅱ成藏期形成的油藏可分为两类 :对早期油藏的再次充注 ;聚集形成新油藏。塔中地区的油气运移通道主要有断裂和不整合面 ,油气的分布也主要受断裂和不整合面所控制。塔中Ⅰ号构造带和北部斜坡带是较为有利的勘探区带     

从弧后盆地到前陆盆地——北祁连造山带奥陶纪—泥盆纪的沉积盆地与构造演化

北祁连加里东期造山带是在新元古代Rodinia联合大陆(Pangea-850)基础上裂解,经由寒武纪裂谷盆地、奥陶纪初期成熟洋盆、奥陶纪中晚期北祁连活动大陆边缘、志留纪—早、中泥盆世碰撞造山而形成的。奥陶纪中、晚期,北祁连、走廊地区中、上奥陶统发育洋壳-岛弧-弧后火山岩,形成典型的沟-弧-盆体系的沉积。志留纪—早、中泥盆世是北祁连-走廊沉积盆地的转换时期。除天祝、古浪、景泰及肃南等局部地区发育下志留统钙碱性系列火山岩以外,全区志留系均以碎屑岩沉积为主。志留系底部多见一套砾岩层。下—中志留统为典型复理石相的浊流沉积。上志留统变为滨浅海相磨拉石沉积。早、中泥盆世雪山群为典型的陆相粗碎屑磨拉石沉积。从空间分布上看,志留系—泥盆系在走廊—北祁连地区也有自北向南厚度加大、粒度变粗的特征,古流以由南向北、来自造山带的古流为特征。北祁连-河西走廊奥陶纪弧后盆地火山岩—志留系复理石-海相磨拉石—中、下泥盆统陆相磨拉石的充填序列以及空间分布特点,反映为典型的弧后盆地向前陆盆地转化的沉积序列。     

塔里木盆地巴什托普构造带志留系、奥陶系油气藏预测

巴什托普构造带已经发现了石炭系的生物碎屑灰岩油藏,其烃源岩为寒武系—奥陶系海相碳酸盐岩层。推测油气运移必经之路上的志留系圈闭和奥陶系圈闭中可能存在油气藏。对巴什托普构造带石炭系以下志留系和奥陶系的分析表明,志留系下砂岩段与其上覆的红色泥岩段可以构成一个有利的储盖组合,下奥陶统石灰岩段有可能形成石灰岩岩溶并与其上覆志留系巨厚的暗色泥岩段组成一套储盖组合。在巴什托普构造带,在与油源沟通良好、构造圈闭有利的位置上,应该可以形成工业性油气藏。     

Comparison of Michigan Basin crude oils

Michigan Basin oils from the Ordovician Trenton, Silurian Niagaran, and Devonian Dundee formations have been geochemically compared by GC, GC-MS, and carbon isotope mass spectrometry. One oil from each formation was selected for detailed analysis which included measurement of individual n-alkane δ¹³C values. The Ordovician and Devonian oils are strikingly similar to one another, yet clearly different from the Silurian oil. This pattern is unexpected because Ordovician and Devonian reservoirs are physically separated by the Silurian strata. From time-temperature considerations, the Devonian oil probably was formed in older strata and has migrated to its present location. Our analyses suggest a common source for the Devonian and Ordovician oils.     

江西德安夏家铺S_1/O_1~1呈假整合剖面的发现

<正> 江西北部的奥陶系研究程度较高,但存在扬子地层区(介壳相)与江南地层区(笔石相)之过渡带的地层划分对比及与志留系的接触关系。我们在德安夏家铺于过渡带内采     

扬子克拉通南华纪-早古生代的构造-沉积旋回

根据影响克拉通盆地演化的板块活动所经历的威尔逊旋回,扬子克拉通南华纪-早古生代的构造-沉积旋回可分为5期,即南华纪-震旦纪的均衡调整期、寒武纪的扩张期、早-中奥陶世的汇聚期、中-晚奥陶世的碰撞期和志留纪新一轮的均衡调整期。发生在晚奥陶世的中加里东运动是加里东期最强烈的一次造山运动,而发生在晚志留世的晚加里东运动是一次地壳上升运动;相应的扬子古板块志留纪盆地的构造背景为造山期后的裂谷伸展环境,其原型盆地表现为周缘裂谷盆地与弱伸展的克拉通内盆地相间发育的格局。     

扬子区奥陶纪和志留纪四射珊瑚的起源、扩散及生物古地理关系

摘 要　 提出扬子区是奥陶纪、志留纪四射珊瑚的起源中心。早古生代扬子区最早出现的四射 珊瑚约有30属‚包括穿孔珊瑚类 Calostylis‚Yohophyllum‚扭心珊瑚类 Briantelasma‚Tunguse 提出扬子区是奥陶纪、志留纪四射珊瑚的起源中心。早古生代扬子区最早出现的四射 珊瑚约有30属‚包括穿孔珊瑚类 Calostylis‚Yohophyllum‚扭心珊瑚类 Briantelasma‚Tunguse- lasma‚包珊瑚类 Amplexoides‚Synamplexoides‚十字珊瑚类 Eostauria‚Ceriaster‚Stauria 以及 珊瑚约有30属‚包括穿孔珊瑚类 Calostylis‚Yohophyllum‚扭心珊瑚类 Briantelasma‚Tunguse lasma‚包珊瑚类 Amplexoides‚Synamplexoides‚十字珊瑚类 Eostauria‚Ceriaster‚Stauria 以及 泡沫珊瑚类 Rhizophyllum 等。它们在扬子区中奥陶世和早志留世地层迅速繁衍‚尔后扩散至 欧洲、北美和其他地区。扬子区晚奥陶世四射珊瑚群与北欧同期珊瑚有较高的相似性;而该 泡沫珊瑚类 Rhizophyllum 等。它们在扬子区中奥陶世和早志留世地层迅速繁衍‚尔后扩散至 欧洲、北美和其他地区。扬子区晚奥陶世四射珊瑚群与北欧同期珊瑚有较高的相似性;而该 区早志留世（包括 Wenlockian 阶）珊瑚群的生物古地理关系与西伯利亚、哈萨克斯坦有紧密联 欧洲、北美和其他地区。扬子区晚奥陶世四射珊瑚群与北欧同期珊瑚有较高的相似性;而该 区早志留世（包括 Wenlockian 阶）珊瑚群的生物古地理关系与西伯利亚、哈萨克斯坦有紧密联 系。扬子区早志留世珊瑚群与澳大利亚东部、北美东部同期珊瑚也有一定的相似性。 区早志留世（包括 Wenlockian 阶）珊瑚群的生物古地理关系与西伯利亚、哈萨克斯坦 系。扬子区早志留世珊瑚群与澳大利亚东部、北美东部同期珊瑚也有一定的相似性。     

中朝地台的志留系——纪念中、韩两国杰出的微体古生物学者安太庠和李河荣

中朝地台内部无争议的志留系只有朝鲜半岛平南盆地的谷山组和宝良里组。中朝地台北缘活动陆缘带志留系比较发育,有桃山组、西别河组(至少其大部分)等。李河荣等根据牙形刺将朝鲜半岛太白山盆地的桧洞里组划归志留系,但是从层序、岩石和安太庠修定的牙形刺化石来看,桧洞里组可能不是志留系,而是与中朝地台华北区峰峰组八陡段(或包括部分耀县组)可比的中奥陶世地层。微体古生物学家安太庠和李河荣分别为中国和韩国的牙形学及其生物地层学研究做出了重要贡献。他们的英年早逝,对东北亚地学研究是一个重大损失。     

Geologic map of lower surface of sedimentary mantle of the East European Platform

An unusual type of metasomatic dolomitization occurs in the region. Here numerous zones of dolomitization are developed in Ordovician and Silurian sediments, confined to tectonic disturbances and zones of jointing with northeasterly strike. The zones of dolomitization have been traced along fractures and are up to 10-12 km long and up to 400 wide. The dolomitization has a regional character and is apparently associated with the effects of rising magnesian waters on the Ordovician and Silurian carbonate sequence. Possible formation of the zones of dolomitization embraces the interval from the Late Silurian to the Middle Devonian, that is, these zones are of Caledonian age.—Authors.     

http://www.sciencedirect.com/science/article/pii/S1674987111001113

The Rheic Ocean was one of the most important oceans of the Paleozoic Era.It lay between Laurentia and Gondwana from the Early Ordovician and closed to produce the vast Ouachita-Alleghanian -Variscan orogen during the assembly of Pangea.Rifting began in the Cambrian as a continuation of Neoproterozoic orogenic activity and the ocean opened in the Early Ordovician with the separation of several Neoproterozoic arc terranes from the continental margin of northern Gondwana along the line of a former suture.The rapid rate of ocean opening suggests it was driven by slab pull in the outboard lapetus Ocean.The ocean reached its greatest width with the closure of lapetus and the accretion of the periGondwanan arc terranes to Laurentia in the Silurian.Ocean closure began in the Devonian and continued through the Mississippian as Gondwana sutured to Laurussia to form Pangea.The ocean consequently plays a dominant role in the Appalachian-Ouachita orogeny of North America,in the basement geology of southern Europe,and in the Paleozoic sedimentary,structural and tectonothermal record from Middle America to the Middle East.Its closure brought the Paleozoic Era to an end.