Structural Features and Proto-Type Basin Reconstructions of the Bay of Bengal Basin:A Remnant Ocean Basin Model

Remnant ocean basin is a key to understand the plate suturing and subsequent uplift and erosion of orogen. The Bay of Bengal Basin （BOBB） provides a typical example to analyze the remnant ocean basin structures, evolution, and relationships between depositional filling and uplifting of the Himalayan Orogen. Thirty-nine seismic profiles as well as interval velocities of well BODC3 were used to compile isopach maps of the basin. Among the seismic data, 26 seismic profiles were applied to estab- lish 8 cross sections. The cross sections suggest the basin is asymmetric, bounded to the west by the eastern continental margin of India （ECMI） with graben-horst and to the east by the Sunda conver- gence margin dominated by trench-arc system. The BOBB is characterized by a prominent down flex- ure structures caused by huge amount of Bengal fan turbidite sediments accumulation. Our isopach maps and chronology data collected from adjacent regions reveal the initial development and fast southward growth of the Bengal fan were related to the early and major stage uplift and erosion of the Himalayan Orogen, respectively. The BOBB has experienced a critical transition from an ocean basin to a remnant ocean basin at Late Oligocene. Such basin structures and evolution features indicate the BOBB provides whole records of oblique convergence of the India and Asia plates, and the early and major stage evolution of the Himalayan Orogen.

准噶尔多旋回叠合盆地的形成与演化

准噶尔盆地是在拼合增生的微陆块和古生代岛弧带基底上发展起来的大型复合叠合盆地,受控于古亚洲洋和周边造山带的演化,显生宙以来盆地经历了五大构造演化旋回,即寒武纪—中志留世的北准噶尔洋伸展—消减旋回、晚志留世—早石炭世的克拉美丽有限洋盆拉张聚敛旋回、晚石炭世—三叠纪的古亚洲洋全面消亡、早侏罗世—古近纪的陆内断坳旋回和新近纪—第四纪的压扭强挤压聚敛造山旋回。伸展期原盆的稳定地层层序往往发育良好的烃源岩,聚敛期原盆受到改造,成为构造圈闭发育或油气聚集的时期;此外,通过恢复盆地的演化过程指出泥盆—石炭系是未来准噶尔盆地寻找油气勘探大场面的新领域。

残余洋盆的大地构造演化及其油气意义

残余洋盆是板块拼合碰撞过程中残留的、未彻底闭合的洋盆,为碰撞陆块之间最晚闭合的区域。它们在走向上与蛇绿岩缝合带渐变过渡,普遍具有不规则的几何形态(三角形、贝壳形、凹四边形)和复杂的构造边界。盆地内充填大面积的巨厚三角洲-浊流相(海底扇)沉积,物源来自于周边造山带的隆升剥蚀。残余洋盆的构造背景、几何形态、鉴别标志及其最终消亡过程,正成为大陆动力学需要深入研究的重大科学问题。由于欧亚大陆内各个陆块尺度较小和陆块数目较多,拼合的陆块边缘形态不完全匹配,古生代末以来,在古亚洲洋盆及特提斯洋盆聚合边界上广泛发育残余洋盆。已发现的残余洋盆实例有:孟加拉湾、黑海、南里海、南沙海槽、东地中海、准噶尔、松潘—甘孜等盆地。它们普遍具有海相沉积巨厚、盆地深度较大、快速而持续的沉降等特点。陆块几何形态不规则、陆块拼合的随机性、板块远大于陆块尺度,均是形成残余洋盆的重要原因。随着板块碰撞及陆块调整,残余洋盆主要发生被动式的消亡,包括巨厚的沉积充填(弧前增生楔及海底浊积扇)及多期构造变形。残余洋盆普遍具有重要的油气价值和勘探前景。

山东灵山岛晚中生代滑塌沉积层的发现及区域构造意义初探

灵山岛位于青岛胶南市东南黄海近岸海域中,为中国北方第一高岛,构造上属于苏鲁造山带,但岛上很多重要的地质现象尚未在地质文献中披露过。本文作者对灵山岛进行了初步地质考察,在被看做早白垩世莱阳期的地层中发现远源浊积岩及其内部大量的滑塌沉积层,孢粉鉴定初步结果显示该地层的时代很可能为侏罗纪。滑塌构造以同沉积滑塌褶皱为主,而在滑塌体内部还发现有很多同沉积变形构造,如:同沉积布丁构造、同沉积拉伸线理、同沉积双重构造等。同沉积滑塌褶皱体的排列方向揭示了其物源来自南东方向,韵律层中弱粒序层单元颗粒为细砂到粉砂,反映出远源浊积岩的特征。根据滑塌体运移方向判断盆地的古地理特征为东南侧水体变浅而西北侧水体变深。滑塌沉积发育时,盆地为介于扬子板块和华北板块之间的残余洋盆。发育于砂质单元中的早期平面X剪节理指示了该套浊积岩在褶皱之前受到了SE—NW向的动态挤压,而后期的不对称褶皱构造记录了扬子板块自南东向北西侧的华北板块俯冲的历史。灵山岛中生代滑塌沉积层的发现不仅揭示了中国东部存在着晚中生代海相沉积,更为扬子板块与华北板块在郯庐断裂以东碰撞缝合的演化历史研究提供了珍贵的实际材料。

西准噶尔晚古生代残余洋盆消亡时间与构造背景研究

准噶尔西北缘克拉玛依蛇绿岩套及其上覆陆相火山-沉积岩系的研究表明,西准噶尔晚古生代残余洋盆是继承早古生代洋盆发生的,沉积作用基本连续,但同位素年代学研究表现出明显的早古生代和晚古生代两个阶段。残余洋盆的消亡是一个"软碰撞"过程,残余洋盆整体隆升消亡后,经历了329～320Ma、310～295Ma及290Ma三次构造-岩浆事件,爆发三期陆相火山喷发,形成巴塔玛依内山组、哈尔加吾组、卡拉岗组三个陆相火山-沉积岩系,准噶尔西北缘的佳木河组是跨越石炭-早二叠世包括多期火山-沉积作用的产物。晚古生代侵入岩经历了由小型浅成闪长岩、石英闪长岩、花岗闪长岩系列向大型深成富碱花岗岩系列的转化,可能是花岗闪长质过渡型地壳向花岗质成熟大陆壳转化的深部作用过程的反映。

新一轮岩相古地理编图对华南重大地质问题的反映——早古生代晚期“华南统一板块”演化

以板块级别的小比例尺岩相古地理编图为手段,重塑和反映构造—盆地演化过程,可为探讨重大地学问题提供线索依据。从华南大区古地理重建的角度,对构造学者提出的"华南统一板块"和加里东晚期"陆内造山"模式给予验证。研究表明:以往认为属不同构造单元的扬子陆块和华夏地块之间,沉积相配置为连续过渡、符合瓦尔特相律,没有分隔盆地的重大构造界线,指示华南残留洋盆并不存在。早古生代晚期的古地理演化并未反映出洋盆消减、被动大陆边缘向前陆盆地转换,而是板内挤压的造山、造陆过程,可分为板内地壳调整(中奥陶世至早志留世鲁丹期)和板块整体抬升(早志留世埃隆期至志留纪末)两个阶段。其实质是在构造转型背景下,华南板块从松散到紧合的"再克拉通化"过程。

青藏高原东北缘宗务隆构造带天峻南山早古生代残余洋盆的识别和地质意义

宗务隆构造带夹于中央造山带原特提斯构造域内,发育与古特提斯洋演化相关的天峻南山蛇绿岩,是研究原特提斯向古特提斯转换的关键地质体。该蛇绿岩由超基性岩(蛇纹岩)、辉绿岩、玄武岩和硅质岩组成。蛇纹岩中尖晶石具高Mg#(58.6~64.5)和低Cr#(38.9~43.9)的特征。玄武岩和辉绿岩属于拉斑玄武岩系列,轻稀土元素左倾和重稀土元素平坦,富集Th而亏损Ti,总体上与弧后扩张脊熔岩具有一致的球粒陨石标准化稀土元素以及N-MORB标准化微量元素配分模式,同时这些基性岩具较高的Th/Yb值和εNd(t)值(+7.5~+9.6),显示岩浆来自受洋壳沉积物混染的亏损地幔源区。这些特征均与弧后盆地蛇绿岩类似。最新LA-ICP-MS锆石U-Pb测年结果显示辉绿岩形成于509±4Ma。结合野外接触关系表明,部分天峻南山蛇绿岩形成于寒武纪,早于不整合其上的石炭纪复理石和晚奥陶世花岗岩脉(444.9±4.7Ma)。天峻南山寒武纪蛇绿岩作为早古生代残余洋盆被石炭纪复理石不整合覆盖,并在三叠纪洋盆闭合过程中通过构造方式就位于上覆石炭纪地层中。上述结果表明宗务隆构造带并非一个晚古生代-早中生代构造带,而是原特提斯洋和古特提斯洋相继闭合形成的早古生代-早中生代复合构造带。

巴颜喀拉残留洋盆的沉积特征

巴颜喀拉盆地垂向沉积序列表明:盆地于早古生代被动陆缘的浅海基础上裂陷、拉开,泥盆纪贯通,早石炭世洋盆扩展为成熟大洋,晚石炭世洋盆北部开始消减、南部继续扩张,晚二叠世—中三叠世进入残留洋阶段,晚三叠世转化为周缘前陆盆地,三叠纪末完全闭合,盆地自形成到消亡为一个连续的沉积和地质构造演化过程。其主体由早中三叠世深海沉积、典型浊积岩复理石和晚三叠世浅海复理石、风暴岩沉积、海相磨拉石构成,北部零星出露了中二叠世海山型沉积,昆南结合带以北有早中三叠世岛弧沉积。以盆地为中心具有向南北两侧陆块双向相背俯冲的极性特点,东西两端的碰撞造山不迟于晚二叠世。总体反映了古特提斯晚二叠世—中三叠世的残留洋盆性质和主洋域之所在。

Silurian Sedimentation in the South Qilian Belt: Arc-Continent Collision-related Deposition in the NE Tibet Plateau?

The South Qilian belt mainly comprises an early Paleozoic arc-ophiolite complex, accretionary prism, microcontinental block, and foreland basin. These elements represent accretion-collision during Cambrian to Silurian time in response to closure of the Proto-Tethyan Ocean in the NE of the present-day Tibet Plateau. Closure of the Proto-Tethyan Ocean between the Central Qilian block and the Oulongbuluke block and the associated collision took place from NE to SW in a zipper-like style. Sediment would have been dispersed longitudinally SW-ward with a progressive facies migration from marginal alluvial sediments toward slope deep-water and deep-sea turbidites. This migration path indicates an ocean basin that shrank toward the SW. The Balonggongga'er Formation in the western South Qilian belt represents the fill of a latest Ordovician-Silurian remnant ocean basin that separated the Oulongbuluke block from the Central Qilian block, and records Silurian closure of the Proto-Tethyan Ocean and subduction beneath the Central Qilian block. However, alluvial deposits in the Lajishan area were accumulated in a retro-foreland basin, indicating that continent-continent collision in the eastern South Qilian belt occurred at c. 450–440 Ma. These results demonstrate that the Proto-Tethyan Ocean closed diachronously during early Paleozoic time.

孟加拉残留洋盆地形成过程与构造单元划分

孟加拉盆地位于印度板块东北部,处于印度板块、欧亚板块和缅甸微板块汇聚区,其东临印缅造山带,西接印度古地盾,北隔西隆高地与喜马拉造山带前渊相望,向南进入孟加拉湾。孟加拉盆地西部和北部发育在印度古陆上,其余大部分地区分布在白垩系残留洋壳上,属于残留洋盆地。本文结合区域构造和剖面演化特征,还原了孟加拉盆地的形成过程,并据此将孟加拉盆地划分为:前裂谷-同裂谷期、大陆漂移期、软碰撞期和硬碰撞期共四个构造演化阶段。结合构造演化过程和盆地现今构造沉积特征,将孟加拉盆地划分为:西部陆架、陆架斜坡带、南部坳陷、中部隆起带、北部坳陷和东部褶皱带共六个次级构造单元。演化过程研究表明,孟加拉盆地残留洋部分形成于古新世,并自始新世开始范围不断减小;至上新世,盆地东部残留洋消失,残留洋局限于盆地南部地区。孟加拉盆地残留洋部分控制了盆地沉积中心的分布和迁移,决定了盆地油气的分布。

孟加拉盆地油气分布特征及主控因素

孟加拉盆地是发育在印度次大陆东北角比较典型的残留洋盆地,其经历了裂陷期、裂后期和前渊期。在残留洋盆地形成阶段发育了最重要的生储盖组合,主要烃源岩是渐新统Jenam组和中新统Bhuban组页岩;主要储集层是中新统Surma群Bhuban组和Boka Bil组陆架到潮控三角洲砂岩;盖层主要为中新统—上新统的海相页岩,分布广泛;圈闭类型以背斜为主。孟加拉盆地以天然气为主,绝大部分气田平面上分布在Surma坳陷、Tangail凸起、Hatia坳陷和东部褶皱带。天然气富集层位主要位于中新统Bhuban组和Boka Bil组。气田的分布与残留洋盆地的形成密切相关,盆地演化控制了含气层系的发育,盆地结构控制了天然气的平面分布。今后勘探的重点为盆地东部Surma坳陷及周缘、Hatia坳陷和东部褶皱带,处于压力过渡带的Surma群砂岩储层应是油气勘探的重点层系。通过对孟加拉盆地演化、石油地质条件和油气分布特征以及天然气成藏规律和主控因素的研究,可为残留洋盆地油气勘探提供借鉴和参考。

蛇绿混杂岩就位机制及其大地构造意义新解:基于残余洋盆型蛇绿混杂岩构造解析的启示

蛇绿岩代表了古洋壳的残余,通常被作为识别古汇聚板块边界的重要标志之一.但是,通过对西准噶尔造山带和松潘-甘孜造山带内出露的蛇绿混杂岩的大比例尺填图和构造解析,揭示出并非所有的蛇绿混杂岩带都具有缝合带的大地构造意义.综合前人研究结果,将蛇绿混杂岩划分为缝合带型和非缝合带型2种类型.非缝合带型蛇绿混杂岩带的分布与残余洋盆在闭合过程中的构造过程密切相关.在残余洋盆被巨厚层的碎屑岩填充之后,作为残余盆地基底的大洋岩石圈物质在区域挤压应力作用下,可通过多种形式构造就位于上覆碎屑沉积地层之中,形成具有弥散性分布特点的残余洋盆型蛇绿混杂岩系统.而缝合带型蛇绿混杂岩的就位过程可划分为3种方式,分别是俯冲就位、仰冲就位和碰撞就位.这些不同类型的蛇绿混杂岩带在板块汇聚后的再造山过程中,早期的构造变形会被叠加改造甚至导致蛇绿混杂岩的重新就位,使其分布形式复杂化.因此,正确识别和厘定不同构造过程形成的蛇绿混杂岩带及其对应的大地构造背景,对研究洋陆转换过程和造山带的演化至关重要.

西准噶尔地区石炭纪残余洋盆充填演化的地层学记录

准噶尔盆地位于古亚洲洋构造域南部,是中亚造山带的重要组成部分。早石炭世,该盆地继承了晚泥盆世多洋岛的古地理格局,沉积了一套巨厚海相沉积物。随着古准噶尔洋持续收缩,海水逐渐退去,区内形成多个残余洋盆,并最后被充填及消亡。太勒古拉组、包古图组和希贝库拉斯组为西准噶尔地区从下到上的石炭纪沉积序列,完整记录了西准噶尔残余洋盆充填消亡的全过程。根据上述三组地层岩性及其组合特征、沉积构造特征,将残余洋盆收缩充填过程分为3个阶段:太勒古拉组以暗色硅质岩、硅质泥岩夹粉砂岩为主,代表着洋盆沉积记录,即盆地阶段;包古图组以硅质岩、粉—细砂岩和含砾砂岩为主,毫米—厘米级鲍马序列极为发育,代表洋盆缓慢收缩充填的开始,即缓慢充填阶段;希贝库拉斯组以含砾砂岩、砾岩、角砾岩夹砂岩和泥岩为主,浊流沉积和风暴沉积较为发育,水体较浅,残余洋盆进入快速充填—消亡阶段。

Timing and setting of Guan-jiagou conglomerate in South Qinling and their tectonic im-plications

Located in the southern Qinling Mountains of central China, the Guanjiagou Formation has been a con-troversial issue with regard to its depositional age and tec-tonic implications. Being comprised of an approximately 2050 m thick succession of texturally and compositionally immature, presumed marine turbiditic sandstones and con-glomerate, the Guanjiagou Formation consists of an overall prograding- and coarsening-upward megasequence. Al-though bounded by faults on both its northern and southern margins, it is weakly metamorphosed and deformed. To the north is the Devonian Sanhekou Group and to the south is the Neoproterozoic Hengdan Group. The lower portion of the sequence contains granitic and volcanic clasts (Guanjiagou conglomerate). The feldspars from these clasts were dated using the 40Ar/39Ar method. Two cooling ages of 219.690.49 and 216.460.59 Ma, for K-feldspar from a granitic clast and plagioclase from a volcanic clast, respectively, were obtained. These ages are identical to the time of regional igneous ac-tivities (ca. 240—220 Ma) and are interpreted as the prod-ucts of magmatism associated with collision in the Qinling orogenic belt in the Early Mesozoic, suggesting that the Guanjiagou Formation was deposited in the Norian of the Late Triassic, ca. 220 Ma. Therefore, 40Ar/39Ar and sedimen-tary analyses suggest that the Guanjiagou Formation con-tains sediments that may have filled in a remnant ocean ba-sin, which might be part of the Anyemaqen-Mianle ocean, or Tethys on the southern side of Central Orogenic Belt in China during the Late Paleozoic to Early Mesozoic.