南海北部陆缘结构及构造-岩浆演化          下载免费PDF全文

张翠梅  孙珍  赵明辉  庞雄  ManatschalGianreto 《地球科学》2022,47(7):2337-2353

南海北部陆缘发育独特的远端带结构,以“裂谷宽、基底厚和地貌起伏”为主要特点,显著有别于经典贫岩浆型和富岩浆型张裂陆缘.为了解释陆缘结构的成因,综合已有研究进展和国际大洋发现计划（IODP）的钻探成果,对南海北部陆缘基底性质进行了调研,探讨了拆离断层和岩浆作用的特点以及两者间的相互作用.结果表明,在38 Ma之前南海北部大范围发育核杂岩构造,并伴随大量岩浆侵入到中下地壳;岩浆作用一方面加剧了地壳的韧性变形,导致应变无法集中而在多个地方同时发育大型拆离,另一方面对拆离面和减薄的基底进行了强烈改造.最终提出同张裂期就位的岩浆作用和中下地壳的韧性流动是形成南海北部宽裂谷陆缘的关键,深化了对陆缘结构、变形过程和岩石圈减薄机制的理解.   相似文献   

被动大陆边缘张-破裂过程与岩浆活动:南海的归属          下载免费PDF全文

孙珍  李付成  林间  孙龙涛  庞雄  郑金云 《地球科学》2021,46(3):770-789

岩浆在被动大陆边缘的张-破裂过程中起到决定性作用.南海东北部陆缘发育厚度达10 km的下地壳高速体,其成因机制长期存在争议,影响了对南海东北部陆缘构造归属的界定.为了分析南海共轭陆缘的张破裂机制,本文调研了国内外最新研究进展,系统分析了南海南北陆缘的地壳结构和岩浆活动特点,提出:南海陆缘和海盆中发育有大量岩浆活动,但东西陆缘存在较大差异,底侵高速体东厚西薄,推测为同张裂成因.根据地壳结构与底侵岩浆的量,将被动陆缘划分为5个子类,南海陆缘东侧为多岩浆型,向西变为少岩浆型.东西差异除与伸展速率有关,可能还与东侧陆缘发生了板缘破裂,而西侧陆缘发生了板内破裂有关.   相似文献   

大洋板块运动方向反转控制活动陆缘岩石圈张裂过程数值模拟          下载免费PDF全文

李付成  孙珍  张江阳 《地球科学》2018,43(10):3762-3777

为了更好的探究大洋板块运动方向反转与大陆岩石圈张裂之间的动力学关系,以数值模拟为手段来正演大洋板块的反向俯冲,同时考虑光滑洋壳、海山链、海底高原、薄弱带等构造单元加入先期俯冲时对大陆岩石圈张裂的影响.结果显示:大陆岩石圈在大洋板块反向俯冲的过程中会被拉伸减薄,并出现局部岩石圈的颈缩直至张裂、同时伴随有软流圈地幔的上涌和减压熔融等现象.此外,含有不同构造单元的洋壳参与先期俯冲会对陆缘造成不同程度的破坏,从而影响拖曳过程中大陆岩石圈的应变集中,并导致大陆岩石圈在不同时间、不同位置出现张裂.模拟结果可用于对比南海陆缘在新生代张裂中表现的穿时等特征,亦可为其他被动陆缘张裂的动力学研究提供借鉴.   相似文献   

南海北部陆缘盆地形成的构造动力学背景   总被引：2，自引：0，他引：2  

陈建军  马艳萍  陈建中  孙贵宾 《地学前缘》2015,22(3):38-47

摘要：南海北部陆缘盆地处于印度板块与太平洋及菲律宾海板块之间,但三大板块对南海北部陆缘盆地的影响是不同的。通过对三大板块及古南海演化的研究,可知南海北部陆缘地区应力环境于晚白垩世发生改变。早白垩世处于挤压环境,晚白垩世以来转变为伸展环境并且不同时期的成因不同。晚白垩世-始新世,华南陆缘早期造山带的应力松弛、古南海向南俯冲及太平洋俯冲板块的滚动后退导致其处于张应力环境。始新世时南海北部陆缘裂陷盆地开始产生,伸展环境没有变,但因其是由太平洋板块向西俯冲速率的持续降低及古南海向南俯冲引起的,南海北部陆缘盆地继续裂陷。渐新世-早中新世,地幔物质向南运动及古南海向南俯冲导致南海北部陆缘地区处于持续的张应力环境;渐新世早期南海海底扩张;中中新世开始,三大板块开始共同影响着南海北部陆缘盆地的发展演化。  相似文献   

南海北部陆缘磁静区及与全球大洋磁静区对比的研究评述   总被引：3，自引：1，他引：2  

高金耀  吴招才  王健  杨春国  张涛 《地球科学进展》2009,24(6):577-588

磁静区与磁异常条带不同,具有宽缓的低幅值磁异常特征,但可能同样包含了从陆壳张裂到海底扩张早期的构造活动和演化信息.为了加深认识南海北部陆缘磁静区,归纳了全球深海和边缘两大类型磁静区的物理、化学及构造三大成因,主要包括大西洋和西太平洋侏罗纪磁静区,以及北太平洋、印度洋和南大洋白垩纪磁静区,强调磁静区与不同程度地幔柱活动、斜交扩张初始产生的小型错断磁源体及隐含弱磁条带关系的重要性.总结了南海北部陆缘磁静区的研究现状,并从区域综合地球物理和地幔热活动作用两方面探讨了南海北部陆缘磁静区的可能成因机制,最后阐述了需要关注的研究重点及其研究意义.  相似文献   

南海北部陆缘东、西部新生代沉积盆地基底特征对比分析     

高红芳 《南海地质研究》2008,(1):23-34

本文通过对南海北部大陆边缘东、西部新生代沉积盆地基底岩性特征、基底构造格局、地壳结构和基底沉降结构等方面的论述,分析了北部陆缘东西部的地质差异,探讨了这些差异产生的原因。认为南海北部陆缘东西部新生代沉积盆地发育于不同的构造单元上,在形成演化过程中,基底具有不同的沉降结构和构造活动性,而地壳结构的明显差异,揭示了东、西部沉积盆地形成内因的差异,东部盆地发育于拉张减薄的陆壳之上,并伴有地幔隆起与地壳的上拱作用,西部盆地则主要以地壳的裂陷作用为主。  相似文献   

“海南陆缘弧”体系的构建与“特提斯南海”的识别:一个关于“古南海”演化新模式的探讨     

《地学前缘》2016,(6):107-119

应用近期在琼南、广东、湘南和越南芽庄、大叻等地的研究成果,综合区域地质资料,从岩浆岩性质、组合与地化特征、沉积序列特征和碎屑岩组分、年代学和地层学等方面进行分析,构建起以海南岛中南部的岩浆-沉积组合为典型标志、以东西向延伸为基本特征、演化过程与浙闽活动陆缘带明显有别的海南陆缘弧体系。该陆缘弧晚中生代处于华南大陆的南端,在构造地理格局上从属于特提斯域。笔者主张向北俯冲于海南陆缘弧下的"古南海"应正名为"特提斯南海",它是特提斯多岛洋北部的边缘海,西段可能与缅、马等地的海域沟通,东段则与太平洋域相接。海南陆缘弧具有广阔的弧后区,各弧后盆地的演化进程可以对比。该弧最初似发育于晚侏罗世,早白垩世晚期和晚白垩世初期岩浆弧与俯冲造山活动达到高峰,晚白垩世发生弧后拉张,但近弧地带挤压条件下的岩浆-沉积作用一直延续至晚白垩世后期(约70 Ma)。海南陆缘弧的活动时间表实际上是特提斯南海消减过程的真实反映。由于消减过程及随后发生的中南半岛在早新生代的挤出逃逸运动和现代南海的扩张作用,特提斯南海的地质记录受到极其严重的破坏,恢复特提斯南海的原貌仍是一项有待开展的艰巨工作。  相似文献   

南海海底地震仪三维深地震探测的进展及挑战          下载免费PDF全文

赵明辉  杜峰  王强  丘学林  韩冰  孙龙涛  张洁  夏少红  范朝焰 《地球科学》2018,43(10):3749-3761

获取深部速度结构是认识南海形成演化模式的基础.海底地震仪（OBS）二维与三维深地震探测技术是获取深部速度结构最成功的方法之一.OBS三维探测结果揭示:西南次海盆横跨残留扩张脊两侧洋壳不对称增生的速度结构特征;东部次海盆具有4种不同洋壳类型的速度结构;珍贝-黄岩海山链是在海盆停止扩张后6~10 Ma岩浆活动形成的;东沙隆起区显示了张裂期后的岩浆活动及其上涌通道;南海东北部马尼拉俯冲带前缘是受到张裂期后岩浆活动影响的减薄陆壳.IODP367-368钻探区实施的OBS三维探测将以建立南海洋陆转换带（COT）张裂-破裂机制模型为科学目标.OBS三维探测方法在南海各向异性、岩浆活动、形成演化等方面将继续发挥着不可替代的作用.   相似文献   

南海北部洋-陆过渡带深部结构与岩石圈破裂过程          下载免费PDF全文

彭希  李春峰  宋陶然  宛晓莉  侯文爱  温永林  李亚清  刘宇涛  唐福贵 《地球科学》2022,47(11):4245-4255

洋-陆过渡带是理解大陆岩石圈破裂和海底初始扩张的关键位置,但是在南海北部地区仍然存在关于相关地质过程的诸多疑问.通过近年开展的国际大洋发现计划航次以及深部地质地球物理探测,取得以下4个方面的认识.（1）南海北部的洋-陆边界一般与自由空间重力异常的正-负值过渡位置对应,而更加准确地限定需要结合反射、折射地震资料.稳定大洋岩石圈生成与大陆岩石圈最终破裂之间的洋-陆过渡边界的位置比以往认为的还应往深海盆方向移动.（2）洋-陆过渡带代表了远端带构造作用减弱和岩浆作用逐渐增强的区域.陆坡地壳发育扩张后岩浆底侵、洋-陆过渡带发育同破裂期岩浆喷出结构和侵入反射体.（3）在中生代的古俯冲带弧前区域,新生代的断裂沿着早期的构造开始活动,岩石圈多处发生强烈的共轭韧性剪切作用.随着大陆岩石圈的进一步拉伸减薄,部分靠陆一侧的裂谷中心停止张裂,成为夭折裂谷,以台西南盆地南部凹陷、白云凹陷、西沙海槽为代表,而南海陆缘异常伸展和最终破裂的地方集中在南侧裂谷中心.夭折裂谷下亦发现地幔蛇纹石化,进一步反映了较弱的同破裂岩浆活动.（4）南海初始洋壳的增生沿着大陆边缘走向具有显著的变化,南海东北部洋-陆过渡带下伏地幔明显抬升和部分蛇纹石化,地震纵、横波速度以及折射波衰减特征都支持此观点,反映南海东北部是一个贫岩浆型大陆边缘.未来,南海北部洋-陆过渡带有望成为南海“莫霍钻”的理想备选钻探区.   相似文献   

被动大陆边缘：从大陆张裂到海底扩张   总被引：4，自引：0，他引：4  

曹洁冰  周祖翼 《地球科学进展》2003,18(5):730-736

被动边缘是研究大陆张裂、破裂到海底扩张的关键。ODP103、149、173航次对伊比利亚-纽芬兰非火山型共轭边缘的研究,证实了洋陆过渡带和低角度拆离断层的存在,其中洋陆过渡带中广泛出现蛇纹岩化地幔橄榄岩,钻探结果支持不对称单剪模式。ODP104、152、163航次对挪威-格陵兰东南火山型共轭边缘的调查,揭示了典型的向海倾斜反射层（SDRS）的特征,反映了岩浆活动在边缘形成中的主导作用。为了进一步了解大陆从张裂到破裂到洋底扩张过程的一系列学术问题,需要在IODP阶段继续对共轭被动边缘以及包括冲绳海槽和南海在内的典型地区,通过钻探、采样和观测进行更深入的研究。  相似文献   

南海大陆边缘动力学:从陆缘破裂到海底扩张          下载免费PDF全文

丁巍伟 《地球科学》2021,46(3):790-800

边缘海如何形成是地球科学的基本问题.本研究通过对南海区域深反射地震数据及钻井数据的综合解释,聚焦地壳深部结构和三维全变形机制,在南海陆缘张裂-海盆扩张的构造动力学研究中取得重要进展:(1)“大陆破裂非均一”:拉张过程垂向上分层非均一,受拆离断层系统控制;裂离过程横向上高度变化,中-东侧受岩浆作用主导,西侧受构造作用主导.(2)“海盆扩张非对称”:受周期性地幔对流活动主导,扩张表现为两次洋脊南向跃迁,方向也发生多次转变,导致南海扩张的不连续-非对称性.据此提出西太俯冲背景下周缘受限型海盆高度变化-非均衡扩张模式的新认识,丰富大陆边缘动力学理论.   相似文献   

New models for evolution of magma-poor rifted margins based on a review of data and concepts from West Iberia and the Alps   总被引：3，自引：2，他引：1  

Gianreto?ManatschalEmail author 《International Journal of Earth Sciences》2004,93(3):432-466

Direct observation and extensive sampling in ancient margins exposed in the Alps, combined with drill-hole and geophysical data from the present-day Iberia margin, result in new concepts for the strain evolution and near-surface response to lithospheric rupturing at magma-poor rifted margins. This paper reviews data and tectonic concepts derived from these two margins and proposes that extension, leading to thinning and final rupturing of the continental lithosphere, is accommodated by three fault systems, each of them characterized by a specific temporal and spatial evolution during rifting of the margin, by its fault geometry, and its surface response. The data presented in this paper suggest that margin architecture and distribution of rift structures within the future margin are controlled first by inherited heterogeneities within the lithosphere leading to a contrasting behaviour of the future distal and proximal margins during an initial stage of rifting. The place of final break-up appears to be determined early in the evolution of the margin and occurs where the crust has been thinned during a first stage to less than 10 kilometres. During final break-up, the rheology of the extending lithosphere is controlled by the thermal structure related to the rise of the asthenosphere and by serpentinization and magmatic processes.Dedicated to Daniel Bernoulli who taught me to compare the geological record of oceans and orogens  相似文献   

Seismic reflectivity of detachment faults of the Iberian and Tethyan distal continental margins based on geological and petrophysical data     

Andreas B. Hlker  Klaus Holliger  Gianreto Manatschal  Flavio Anselmetti 《Tectonophysics》2002,350(2)

Low-angle detachment faults are key to our understanding of the tectonic evolution of magma-poor rifted continental margins. In seismic images of present-day rifted margins the identification and interpretation of such features is, however, notoriously difficult and ambiguous. We address this problem by studying the structure and seismic response of such faults through a synoptic interpretation of petrophysical data and geological evidence from the distal segments of the present-day West Iberian and the ancient Tethyan margins. On the basis of the geologically well-constrained remnants of the Tethyan margins, which are spectacularly preserved and exposed in the Alps of Eastern Switzerland, vertical profiles at four key geological settings of a typical magma-poor rifted margin are constructed and their synthetic seismic responses are compared to the observed seismic data from corresponding locations in the present-day Iberian margin. The seismic structure of these profiles is considered as the sum of deterministic large-scale and the stochastic small-scale components. Both components are analyzed for all pertinent lithologies. The large-scale structures are derived from laboratory measurements on samples from both, the West Iberian and Tethyan margins, whereas the small-scale fluctuations are constrained predominantly on the basis of well-log data from the Iberian margin. Different realizations of the simulated stochastic small-scale velocity fluctuations illustrate the potential variability of impedance contrasts and its impact on the seismic response from lithological interfaces and fault structures. Our results indicate that the nature of the seismic response from low-angle detachment faults is largely determined through the fracture-healing behavior of the surrounding rocks. Geological evidence from the exposed fragments of the Tethyan margins indicate that fracture-healing is generally well developed in crustal lithologies, but largely absent in mantle lithologies. It is for this reason that low-angle, intra-crustal detachment faults tend to be seismically undetectable. Conversely, crust–mantle detachments have a complex and variable seismic response, depending on the nature of the damaged zone and on the frequency content of the seismic data. These model-based inferences are consistent with the available evidence from the present-day Iberian passive margin and thus open new perspectives for the interpretation of the corresponding seismic images.  相似文献   

南海后扩张期大陆边缘闭合过程及成因机制          下载免费PDF全文

解习农  赵帅  任建业  杨允柳  姚永坚 《地球科学》2022,47(10):3524-3542

南海是西太平洋海域最大的边缘海,然而南海扩张终结后动力学过程研究仍较为薄弱.通过构造变革界面识别、褶皱冲断带沉积记录等方面的系统研究,揭示南海南部和东部陆缘在南海后扩张期的演化历程.研究表明南海南部和东部边缘经历了多个微板块从俯冲到碰撞的演变历程,形成了陆-陆碰撞、弧-陆碰撞、洋-弧俯冲等多个特征迥异的板块边界.南海南部陆缘属于古南海俯冲拖曳构造区,婆罗洲西北沙捞越-曾母地块率先碰撞,随后经历了婆罗洲东北沙巴-南沙地块碰撞、西南巴拉望-卡加延岛弧碰撞.南部多个微板块碰撞导致古南海呈剪刀式从西向东逐渐关闭和消亡,总体形成了以微地块碰撞、深海槽发育和造山带前缘巨厚沉积充填为特色的碰撞陆缘.东部陆缘属于菲律宾海俯冲-碰撞构造区,南海东部洋壳自中新世开始向菲律宾海板块俯冲,弧-陆碰撞仅局限于东部陆缘南北两端.澳洲-印度板块、菲律宾海板块与欧亚板块相互作用控制了南海边缘海闭合过程,南海正在进行的关闭过程主要集中在东缘和南缘,东缘呈现了以南海洋壳消亡为特征的闭合过程,而南缘则呈现以微陆块碰撞为特征的古南海闭合过程.显然,南部后扩张期陆缘演变可为边缘海闭合过程研究提供极佳的范例,同时对我国海洋权益保护和南海大陆边缘动力学研究具有重要意义.   相似文献   

The structure,depositional style and accumulation characteristics of continental margin with diachronous breakup in the northern South China Sea     

Yunfan Zhang  Jiangyang Zhang  Lijie Wang 《International Geology Review》2020,62(7-8):1006-1018

ABSTRACT

A typical diachronous breakup developed in the South China Sea (SCS); the breakup has been unequivocally identified, and gradually decreases in age from NE to SW. To illustrate the influence of a diachronous breakup on hydrocarbon accumulation, we used seismic profiles from CNOOC, and analysed crustal extension characteristics, sedimentary style and source rock accumulation. The main conclusions are as follows: (1) Because of the diachronous breakup in the SCS, various tectonic units developed in different positions on the northern continental margin with different degrees of extension. The Pearl River Mouth Basin (PRMB) is closer to the central sea basin of the SCS and has been affected by regional tension stress for a longer time. Tectonic units of proximal domain, necking zone, and distal margin types developed, and the crust structure thinned from the land towards the sea. The Qiongdongnan Basin (QB) is closer to the Southwest Sub-basin. There are symmetrical proximal domains on the southern and northern sides of the QB, with a necking zone in the central part. It presents as an abandoned passive continental margin. (2) The PRMB exhibited rifted cells first, followed by canyon type extensional faulting and horizontal axial transportation, and then by a longitudinal shelf-slope sedimentary style. But the QB has only rifted cells and canyon type faulting stages, no longitudinal shelf-slope sedimentary stage. The major source rocks in the northern SCS become younger from east to west, and the sedimentary facies change from lacustrine facies to marine-continental transitional facies. (3) The diachronous breakup process ultimately affecting oil and gas migration and accumulation process. The PRMB is dominated by deep-water shelf break accumulation with deep-water fan reservoir bodies. The QB is dominated by canyon type accumulation with channels.  相似文献   

Lithospheric structure of the Southwest South China Sea: implications for rifting and extension     

Miao Dong  Jian Zhang  Xing Xu  Jinwei Gao  Taoran Song 《International Geology Review》2020,62(7-8):924-937

ABSTRACT

The South China Sea (SCS) is an excellent site for studying the process of conjugate margin rifting, and the origin and evolution of oceanic basins. Compared with the well-defined northern margin of the SCS, the western and southern segments of the SCS margin have not been researched in significant detail. To investigate the regional structure of the southwestern SCS, a gravity model is constructed, along with the lithospheric thermal structure along a wide-angle seismic profile. The profile extends across the conjugate margins of the Southwest Sub-Basin (SWSB) of the SCS and is based on the latest multiple geophysical measurements (including heat flow and thermo-physical parameters). The results show that the average thicknesses of the crust and thermal lithosphere along the profile are about 15 km and 57 km, respectively. The overall amount of extension of continental crust and lithosphere is more than 200 km. Thermal structure of the lithosphere shows that the continental margins are in a warm thermal state. The southwest SCS is characterized by ultra-wide, thinned continental crust and lithosphere, high Moho heat flow, early syn-rift faulted basins, undeformed late syn-rifting, and high seismic velocities in the lower crust. These various pieces of evidence suggest that the break-up of the mantle lithosphere occurred before that of the continental crust favouring a depth-dependent extension of the southwestern SCS margin.  相似文献   

SHRIMP U–Pb zircon dating of a metagabbro and eclogites from western Dabieshan (Hong''an Block), China, and its tectonic implications     

Xiaochun Liu  Bor-ming Jahn  Dunyi Liu  Shuwen Dong  Sanzhong Li 《Tectonophysics》2004,394(3-4):171-192

The Tyrrhenian Sea is a Neogene back-arc basin formed by continental extension at the rear of the eastward migrating Apennine subduction system. Its central part, generated from Tortonian to Pliocene, includes the Sardinia rifted margin to the west, an area with large volcanoes in the deep central sector, and the Campania rifted margin to the east. A reprocessing of some 2000 km of MCS lines, a new swath bathymetric map, and a review of previous geological and geophysical data allow to analyse the nature and distribution of continental vs. oceanic crust in this area, which evolved in a short time span.The central portion of the southern Tyrrhenian Sea is characterized by MOHO at about 10 km depth. North of Magnghi and Vavilov Smts, this thinned crustal domain include a wide continent–ocean transition, with the occurrence of extensional allochthons and of serpenitinzed sub-continental mantle, recalling other well known rifted margins, as the Iberia one. Sectors floored by oceanic crust should occur, mainly in the southern part of the study area, but they do not appear related to discrete spreading ridges. The continent–ocean boundary cannot be drawn unequivocally in the area, due also to the occurrence of widespread and huge magmatic manifestations not related to oceanic spreading. These portions of the southern Tyrrhenian Sea represents therefore a complex oceanic back-arc basin surrounded by magma-rich rifted continental margins.The abundant igneous manifestations and the very high stretching rates observed in the area may be related to the fact that the present Tyrrhenian area was occupied by an orogenic domain affected by shortening until middle Miocene times, which is just before the Late Miocene onset of back-arc extension. The lithosphere in the region had then to be rheologically weak. Abundant generation and ascent of magmas, mostly of Ocean Island Basalt type, was favoured by the large lithospheric permeability induced by strong extensional deformations.  相似文献   

The final rifting evolution at deep magma-poor passive margins from Iberia-Newfoundland: a new point of view   总被引：2，自引：2，他引：0  

Gwenn Péron-Pinvidic  Gianreto Manatschal 《International Journal of Earth Sciences》2009,98(7):1581-1597

In classical rift models, deformation is either uniformly distributed leading to symmetric fault bounded basins overlying stretched ductile lower crust (e.g. pure shear McKenzie model) or asymmetric and controlled by large scale detachment faulting (simple shear Wernicke model). In both cases rifting is considered as a mono-phase process and breakup is instantaneous resulting in the juxtaposition of continental and oceanic crust. The contact between these two types of crusts is often assumed to be sharp and marked by a first magnetic anomaly; and breakup is considered to be recorded as a major, basin wide unconformity, also referred to as breakup unconformity. These classical models, are currently challenged by new data from deep rifted margins that ask for a revision of these concepts. In this paper, we review the pertinent observations made along the Iberia-Newfoundland conjugate margins, which bear the most complete data set available from deep magma-poor margins. We reevaluate and discuss the polyphase nature of continental rifting, discuss the nature and significance of the different margin domains and show how they document extreme crustal thinning, retardation of subsidence and a complex transition into seafloor spreading. Although our study is limited to the Iberia-Newfoundland margins, comparisons with other margins suggest that the described evolution is probably more common and applicable for a large number of rifted margins. These new results have major implications for plate kinematic reconstructions and invite to rethink the terminology, the processes, and the concepts that have been used to describe continental rifting and breakup of the lithosphere.  相似文献