中建海底峡谷地貌及沉积特征的分段性          下载免费PDF全文

田洁  宋军  马本俊  吴时国  吕福亮 《地球科学》2021,46(2):708-718

中建海底峡谷具有分段性,但分段的关键地貌特征、各段沉积充填及其控制因素缺乏精细描述和系统论证.综合利用高分辨率二维和三维地震资料,结合水深地貌数据,对中建海底峡谷地貌及沉积特征进行了详细分析,总结了其南北段沉积过程的主控因素.中建海底峡谷呈NW向顺直展布于广乐隆起与西沙隆起之间,以华光礁附近的地貌高点为拐点被分为南北两段.中建海底峡谷北段沉积体系包括重力流沉积（水道、席状沉积、滑塌体）和底流沉积（漂积体、环槽、谷槽）,南段以重力流水道和海底扇为主.北段沉积体系受底流和重力流交互作用控制,底流自中中新世开始出现,改造重力流水道,使其出现侧向迁移或翼部不对称现象,上新世以后重力流作用减弱,底流作用增强,沉积物波和漂积体广泛发育;峡谷南段水道表现出侵蚀-沉积-废弃的沉积旋回,未见底流沉积现象.相对海平面变化导致碳酸盐生产率变化影响物源供应,从而控制水道沉积演化,碳酸盐台地的“高位溢流”作用决定水道在高水位时发育.   相似文献   

南海北部珠江口外峡谷体系沉积特征、演化及其控制因素          下载免费PDF全文

杜文波  聂鑫  杨楚鹏  胡小三  高红芳 《地球科学》2022,47(11):4046-4059

深水海底峡谷内部的粗粒碎屑沉积物不仅可以作为良好的油气储层,也可以较为完整地记录海洋地质环境变迁的相关信息,是目前海洋地质领域研究的热点.为揭示南海北部珠江口外峡谷体系沉积演化过程及其控制因素,利用多波束测深和高分辨率二维多道地震数据,对珠江口外峡谷体系地形特征、沉积充填特征、形成发育过程和控制因素进行研究.研究发现珠江口外峡谷呈三段式发育:上段为NW-SE走向,宽度超过30 km,侵蚀强度不大,横截面为不规则形态;中段为E-W走向,宽度开始变窄（25~30 km）,横截面呈U型;下段为NW-SE走向,宽度达到最大（25~45 km）,横截面呈U型,中段和下段以沉积作用为主.珠江口外峡谷体系沉积演化主要分为3个阶段:早期阶段（23~15.5 Ma）,水道?海底扇阶段（15.5~11.6 Ma）和峡谷?海底扇/块体流阶段（11.6~0 Ma）.揭示了该峡谷珠江口外峡谷体系的发育和演化主要受构造运动、海平面变化和沉积物供给的控制作用,通过以上分析,将对南海北部海洋灾害地质、深水沉积体系研究及油气资源勘探有重要的指导意义.   相似文献   

南海海盆盆西峡谷的形态与结构及形成演化          下载免费PDF全文

罗伟东  周娇  李学杰  姚永坚  王哲 《地球科学》2018,43(6):2172-2183

盆西峡谷是南海中建南盆地中东部的一条大型峡谷,整体呈NW向,水深介于2 850~4 300 m,全长约188 km,宽为1.5~14.5 km,起始于中建南盆地,延伸到西南次海盆,对其进行形态、结构和形成演化的研究,为后续西南次海盆浊积扇的研究奠定了基础,对深入了解浊流沉积物的搬运模式提供科学依据.利用高分辨率多波束测深、单道和多道地震的最新资料,研究盆西峡谷的形态特征和结构及形成演化,结果表明盆西峡谷具有"分段性"特征,剖面形态从WN向ES依次表现为上段U型、中上段V型、中下段下V上U型和下段U型4段形态;上段以沉积作用为主,发育多期下切河道充填沉积,厚度可达1 200 m;中上段以侵蚀-沉积过渡作用为主,发育浊积水道砂体;中下段以冲刷作用为主,发育内堤岸和块体流沉积;下段发育块体流和滑塌体沉积.研究表明,盆西峡谷的形成受古地貌条件、侵蚀-沉积作用、海平面变化、构造运动和岩浆活动等多方面的影响,其中侵蚀-沉积作用、断裂活动和海平面变化为主控因素.揭示出盆西峡谷沉积演化可分为3个演化阶段:中中新世的峡谷蕴育阶段、晚中新世的峡谷侵蚀-充填阶段和上新世-第四纪的峡谷"回春"阶段.   相似文献   

琼东南盆地中央峡谷西段莺歌海组沉积演化及储层预测   总被引：2，自引：0，他引：2  

黄卫  解习农  何云龙  吴景富  赵志刚  王西杰 《沉积学报》2015,33(4):809-816

发育于琼东南盆地乐东凹陷、陵水凹陷、松南低凸起的中央峡谷西段,早期充填了厚达700 m的深海重力流沉积.基于两口钻井和两块三维地震资料,对研究区内中央峡谷早期的沉积演化进行了研究.通过分析地震剖面波组特征和对比井震资料,将峡谷充填划分为5个沉积期次;在井震对比的基础上,结合反射特征、地震切片及属性分析,识别出四种主要的沉积类型:水道复合体、水道-天然堤、浊积席状砂、块体流.沉积期次1主要为水道复合体,沉积期次2和3主要为水道-天然堤,沉积期次4主要为块体流和水道-天然堤,沉积期次5主要为块体流和浊积席状砂.峡谷DS1~DS3主要受轴向物源控制,以浊流沉积为主,富砂;DS4~DS5逐渐受北部陆坡物源控制,以块体流沉积为主,富泥.浊流沉积是峡谷内优良的储集体,普遍发育于峡谷充填下部,与上部块体流沉积可以形成良好的储盖组合,具有较好的油气勘探潜力.  相似文献   

孟加拉盆地东部褶皱带差异构造变形及成因     

唐鹏程  丁梁波  马宏霞  王雪峰  邵大力 《海相油气地质》2017,22(2)

基于野外地质调查和地震资料分析,证实了孟加拉盆地东部褶皱带发育底部和中部两套滑脱层。底部滑脱层在整个褶皱带均发育,而中部滑脱层仅发育于北段—中段的陆上和陆架区,在中段的陆坡-洋盆区及南段则不发育。中部滑脱层的发育受古陆坡富泥沉积控制。北段—中段主要发育滑脱褶皱及被断层突破的滑脱褶皱,而南段主要发育泥底辟和泥火山构造。孟加拉盆地东部褶皱带滑脱层系及构造样式的差异变形特征主要受区域挤压作用、沉积作用以及地层流体超压等方面存在着差异的共同影响。  相似文献   

台湾东部海域台东峡谷沉积特征及其成因          下载免费PDF全文

孙美静  高红芳  李学杰 《地球科学》2018,43(10):3709-3718

台湾东部峡谷的研究程度较低,对其沉积特征及成因缺乏系统的论述.利用近年来在台湾东部海域获得的地震剖面,对台东峡谷的形态特征、沉积充填以及成因进行了详细的分析.台东峡谷主体位于花东海盆,该部分水深在4 000~5 500 m范围内,以NE方向为主,长度约为160 km,宽度为0.2~14 km.根据峡谷的平面延伸特征,可以将台东峡谷分为3个区段:上游段为NE-NEE走向段、中游段为NE-NNW走向段、下游段为NE走向段直到峡谷嘴部;下切谷剖面形态从上游段的"V"型、中游段的复合形态（"UV"并行）逐渐过渡到下游段的"U"型.台东峡谷上游段-中游段滑塌构造发育,峡谷转弯处的侧翼可见波状沉积,其下游段则以沉积充填为主.台东峡谷的成因与构造作用、地形特征和深水沉积作用关系密切.受西南高东北低的地形特征及基底隐伏断裂控制,峡谷总体呈现NE向延伸;重力流作用为峡谷的下切侵蚀和充填提供了动力与物质来源,峡谷从上游段到下游段下切侵蚀能力减弱,谷底充填增厚;峡谷中游段受海山的阻挡,发生转向;峡谷下游段因多条峡谷携带的沉积物汇入和"喇叭状"地形的影响,输送的沉积物在出加瓜脊末端后,形成了大型深水扇.   相似文献   

南海西北陆缘深水沉积体系内部构成特征          下载免费PDF全文

解习农  陈志宏  孙志鹏  姜涛  何云龙 《地球科学》2012,37(4):627-634

深水沉积是近年来我国海域油气勘探重点之一,利用高精度二维和三维地震剖面的精细解剖,揭示了南海西北陆缘区深水沉积体系类型及其内部构成特征.这些深水地区除堆积正常深海-半深海泥岩外,还发育大量深水重力流沉积,包括块体流沉积、深水峡谷、沉积物波等大型沉积体.研究表明,南海西北陆缘区发育4类陆坡, 即进积型、滑塌型、水道化型、宽缓渐变型陆坡.不同陆坡类型具有不同地貌形态,发育不同的沉积体类型.大型块体流沉积主要发育于滑塌型和水道化型陆坡,沉积物波主要发育于宽缓渐变型陆坡下部及深海中央峡谷长昌段的周缘地区.由于南海西北陆缘自晚中新世以来形成向东开口的喇叭形变深的地貌形态,导致在盆地中央形成了独特的与陆坡走向一致的深海峡谷体系——中央峡谷.该峡谷的沉积充填不仅包括来自于西部峡谷头部的浊积水道沉积,还包括来自于北部陆坡的块体流沉积,特别是来自于滑塌型陆坡的块体流沉积.中央峡谷体系构成了西北陆缘区多源汇聚的深水沉积物输送系统,同时也是南海西北陆缘深水区重要的油气储层发育层系.   相似文献   

南大西洋西非岸盆地群构造、沉积演化对比          下载免费PDF全文

洛怡  李江海  杨梦莲 《中国地质》2021,48(1):120-128

非洲西部海岸盆地群经历了裂谷期、同裂谷期和漂移期构造演化阶段,构造演化和沉积充填有一定的相似性,但是由于后期局部构造和差异沉积的影响,现今盆地发育的构造样式和沉积建造有一定区别,导致勘探效果有较大的差异。本文通过对比南大西洋赤道段转换型、中段含泥型、中段含盐型和南段火山型盆地的综合柱状图,加上对尼日尔三角洲盆地和下刚果盆地进行平衡剖面恢复,探讨西非岸三段四类盆地的特征,以求对盆地的勘探工作有所帮助。赤道段转换型盆地在阿普特期和阿尔比期的裂谷阶段完成了湖泊、河流等陆相沉积到浅海碳酸盐岩沉积的转换,未发育盐岩。中段含泥盆地巨厚的新生代阿卡塔组泥岩为滑脱层,在差异负载作用下,泥岩层发生变形。中段含盐盆地在阿普特期,由陆相沉积过渡为浅海碳酸盐岩沉积。阿普特期盐岩层在差异负载和重力滑脱作用下流动变形,形成了伸展、底辟和挤压构造带。南段火山型盆地以裂谷期发育的溢流相玄武岩和凝灰岩为特征,发育典型的向海倾斜反射体。  相似文献   

南海北部东沙海底峡谷沉积演化过程及其地质意义          下载免费PDF全文

王星星  蔡峰  孙治雷  李清  李昂  闫桂京  孙运宝  骆迪  董刚 《地球科学》2021,46(3):1023-1037

为揭示南海北部东沙海底峡谷沉积演化及其资源效应,利用高分辨率二维多道地震与多波束测深数据,对该峡谷中-上游段的沉积层序、地貌特征及沉积构型展开剖析.东沙海底峡谷上游段表现为6个分支峡谷,中游段则汇聚为2条主峡谷,峡谷头部广泛发育分支水道.峡谷中游段于早中新世晚期开始发育,处于岩浆岩体和构造凸起之间;上游段分支峡谷形成于晚中新世以来,其与峡谷头部分支水道的形成分别受断裂体系和底流作用影响较大.东沙海底峡谷演化分为3个阶段:(1)早中新世晚期-中中新世,峡谷初始发育阶段;(2)晚中新世,峡谷拓展阶段;(3)上新世以来,现代峡谷发育阶段.东沙海底峡谷向马尼拉海沟提供了充足的富有机质沉积物,构成了马尼拉海沟增生楔天然气水合物形成的重要物质基础.   相似文献   

北美东部被动大陆边缘盆地的分段性与油气勘探          下载免费PDF全文

聂国权李小盼  何登发 《地质科学》2021,56(1):321-339

北美东部被动大陆边缘是世界上最古老的完整被动大陆边缘之一,是研究被动大陆边缘发育演化的天然实验室。本文在大量国外研究成果的基础上,应用盆地构造解析方法,深入研究了北美东部被动大陆边缘盆地群的地质结构和构造演化特征,并揭示了盆地群的油气地质规律。研究认为,北美东部盆地群沉积充填和不整合面发育具有明显的分段性和差异性。以区域不整合面为界,不同段盆地可划分为不同的构造层:南段盆地可划分为两套构造层;中段南部盆地可划分为3套构造层;中段北部盆地可划分为4套构造层;而北段盆地可划分为5套构造层。盆地群整体经历了陆内裂谷—陆间裂谷—被动大陆边缘的演化过程,但不同段盆地的构造演化具有明显的分段性和迁移性:晚三叠世沉降中心位于南段盆地;早侏罗世初期迁移至中段盆地,南段大陆开始裂解;中侏罗世逐渐迁移至北段盆地,中段大陆开始裂解;早白垩世晚期,北段大陆开始裂解。受持续的抬升剥蚀及大西洋岩浆活动省的联合作用,南段盆地和中段大多数盆地缺乏油气保存条件;斯科舍盆地和大浅滩盆地是主要的含油气盆地,以上侏罗统烃源岩为主,主要发育断层—背斜圈闭和盐体刺穿圈闭,整体表现为“自生自储”和“下生上储”的特征。  相似文献   

南海西沙海域东岛北峡谷体系形态、演化及其成因机制     

孙美静  陈泓君  杨楚鹏  胡小三  刘杰 《地质学报》2023,97(10):3225-3236

海底峡谷是全球大陆边缘分布较广泛的地貌单元,是地形地貌、深水沉积和海洋地质灾害领域研究的重要内容。本研究基于高分辨率多波束测深和二维地震资料,以南海西沙东部海域为研究区,深入剖析了东岛北海底峡谷体系。东岛北海底峡谷分布在水深1000～3150 m范围,长度137 km,下切深度70～400 m,表现出西高东低的地形特征,总体由一条主峡谷和4条分支峡谷构成。峡谷上游有东岛西北部Ⅰ区和永兴海台东部Ⅱ区的沉积物供给,峡谷中游加入了东岛东北部Ⅲ区供给的沉积物。3个物源区的沉积物供应以线状的峡谷、水道和面状的块体流沉积类型为主。主峡谷北坡周缘分布有大量的海底麻坑,侧壁呈阶梯状不断后撤垮塌,因重力驱动作用和水流侵蚀,使峡谷壁外缘发育呈不规则小型“枝杈”状水道;主峡谷南岸因浊流作用,发育沉积物波。NE走向主断裂,控制着主干峡谷NE方向延伸,而峡谷南岸分布海山和海丘地形、岩浆底辟,影响主峡谷各分段的转向;同时峡谷和周缘下部地层发育的断层,控制峡谷侧壁向谷底呈阶梯状下降。  相似文献   

Sediment dispersal system in the Taiwan–South China Sea collision zone along a convergent margin: A comparison with the Papua New Guinea collision zone of the western Solomon Sea     

《Journal of Asian Earth Sciences》2013

Through a large-scale examination of the morpho-sedimentary features on sea floors in the Taiwan–Luzon convergent margin, we determined the main sediment dispersal system which stretches from 23°N to 20°N and displays as an aligned linear sediment pathway, consisting of the Penghu Canyon, the deep-sea Penghu Channel and northern Manila Trench. The seafloor of South China Sea north of 21°N are underlain by a triangle-shaped collision marine basin, resulting from oblique collision between the Luzon Arc and Chinese margin, and are mainly occupied by two juxtaposed slopes, the South China Sea and Kaoping Slopes, and a southward tilting basin axis located along the Penghu Canyon. Two major tributary canyons of the Formosa and Kaoping and small channels and gullies on both slopes join into the axial Penghu Canyon and form a dendritic canyon drainage system in this collision marine basin. The canyon drainage system is characteristic of lateral sediment supply from flank slopes and axial sediment transport down-canyon following the tilting basin axis. The significance of the collision marine basin in term of source to sink is that sediments derived from nearby orogen and continental margins are transported to and accumulated in the collision basin, serving as a temporary sediment sink and major marine transport route along the basin axis. The comparison of the Taiwan–South China Sea collision zone with the Papua New Guinea collision zone of the western Solomon Sea reveals remarkable similarities in tectonic settings and sedimentary processes that have resulted in similar sediment dispersal systems consisting of (1) a canyon drainage network mainly in the collision basin and (2) a longitudinal sediment transport system comprising a linear connection of submarine canyon, deep-sea channel and oceanic trench beyond the collision marine basin.  相似文献   

南海北部神狐海域新近系以来沉积相及水合物成藏模式     

匡增桂  郭依群 《地球科学》2011,36(5):914-920

广州海洋地质调查局自2000年以来在南海北部陆坡区相继开展了多个航次的天然气水合物资源的调查及研究工作, 取得了非常丰富的地震资料.在对这些地震资料精细解释的基础上, 识别出了6种典型的地震相: 透镜状前积相、丘状前积相、V字型充填相、席状平行相、底辟—气烟囱状杂乱相、丘状杂乱相; 并由此分析出3种类型的沉积相: 深水浊积相、滑塌相、峡谷水道相.结合似海底反射(BSR) 在研究区范围内的分布, 研究BSR与各沉积相之间的空间位置关系, 由此分析出了3种水合物成藏模式: 断层沟通浊积扇体成藏模式、断层沟通峡谷水道成藏模式、断层沟通峡谷水道及滑塌扇体成藏模式.   相似文献   

Late Proterozoic Patsy Springs Canyon,Adelaide Geosyncline: submarine or subaerial origin?     

C. C. von der  BORCH  A. E. GRADY  K. H. EICKHOFF  P. DIBONA  N. CHRISTIEBLICK 《Sedimentology》1989,36(5):777-792

A significant aspect of Late Proterozoic sedimentation in the Adelaide Geosyncline, South Australia, is the presence of kilometre-deep erosional incisions which have been termed canyons. These structures were formerly described to be of submarine origin, cut and filled in an inferred basin-slope setting by subaqueous processes. Subsequent detailed research, particularly on a specific incision known as Patsy Springs Canyon, indicates that sedimentary structures within some of the canyon-filling sediments are indicative of deposition above fair weather wave base. In addition, an unusual carbonate unit, which is observed to veneer upper portions of canyon shoulders and to contribute to carbonate breccias interbedded with canyon-fill, has a stable isotope signature which may imply a non-marine origin. The presence of the carbonate veneer, where it is in situ, suggests that at least upper portions of the canyons could have been emergent during the canyon-filling phase. Considering these observations, and combining them with regional stratigraphical relationships, an alternative model for canyon genesis is proposed involving subaerial erosion and subsequent filling by coastal onlap. Such a model requires base-level changes of the order of 1 km, in order to account for observed canyon cutting and filling. Vertical movements associated with halokinesis, or thermally-induced uplift of the order of 1 km, could have resulted in the observed erosional events. Alternatively, a Messinian-style evaporitic lowering of base-level is currently receiving serious attention. With present knowledge this mechanism most satisfactorily explains all observations.  相似文献   

Submarine origin for the Neoproterozoic Wonoka canyons,South Australia     

J.A. Giddings  M.W. Wallace  P.W. Haines  K. Mornane 《Sedimentary Geology》2010,223(1-2):35-50

An examination of the deeply incised Ediacaran Wonoka canyons in the Adelaide Geosyncline (most recently interpreted as subaerial valleys) demonstrates their submarine origin, and confirms them as some of the best examples of ancient outcropping submarine canyons in the world. The entire canyon-fill succession is interpreted to be of deep-water (below wave base) origin, consisting of calcareous shale and siltstone together with a variety of mass-flow deposits including turbidites, grain flows and debris flows. The canyon fill lacks definitive shallow-water structures (e.g. mud cracks, fenestral fabrics or wave ripples) at all stratigraphic levels. Canyon-lining carbonate crusts that have previously been interpreted as non-marine calcretes or tufas (and used to suggest a non-marine origin for the canyons) are argued to be of deep-water, marine, microbial origin. Extremely negative carbon isotope values from the canyon-fill and canyon-lining crusts have a primary marine origin. Previously interpreted deepening upward trends in the canyon fill (used as evidence of a subaerial erosion episode followed by drowning) are suggested to be fining upward trends, caused by the transition from canyon cutting to canyon filling, with the majority of the fill being of deep-water slope origin. The basal conglomeratic canyon-fill sediments represent the last vestiges of the high-energy, deep-water, canyon-erosion environment in which the incisions formed. A deep-water origin for the canyons is consistent with all previous stratigraphic observations of the Wonoka canyons, including the conspicuous lack of regional unconformities in the lower Wonoka Formation, and their emanation from the deep-water facies of the Wonoka Formation. A submarine canyon origin also removes the need for extreme (~ 1 km) relative sea level fluctuation and associated problems (i.e. an enclosed basin with Messinian-style evaporative drawdown or thermal uplift above a migrating mantle plume) required by the subaerial valley hypotheses.  相似文献   

南海西北次海盆构造演化的沉积响应     

钱星  张莉  吴时国  易海  林珍  杨振 《大地构造与成矿学》2017,41(2)

通过对南海西北次海盆新获得的地震资料进行综合解释和层序地层分析,揭示了海盆中的沉积对构造演化阶段的响应。始新世-早渐新世陆缘裂陷期,盆地以对称裂谷形式,发育地堑裂谷层序,沉积以近物源为特征,相变大,发育了冲积扇-扇三角洲-湖相沉积,沉积体系的配置受同沉积断裂控制明显,快速沉降和充分的物源供给决定了沉积体系的构成特征。晚渐新世海底扩张期,岩石圈破裂,陆缘进一步拉开并开始海底扩张,出现海相沉积,来自陆坡的陆架边缘三角洲越过陆坡进入海盆,在海盆内沉积了一套向海盆中部逐渐减薄的楔状地层,并伴有大量的火山碎屑沉积物。早-中新世以来热沉降期,随着构造沉降增大,相对海平面总体不断上升,进入深水盆地,形成陆架陆坡体系,大量的碎屑物质以重力流、深水底流等深水作用方式进入海盆;沉降晚期陆架-陆坡物源供应减弱,琼东南中央峡谷成为其主要的物质供应来源通道,在此期间二次海平面下降、回升的综合作用下,海盆内发育了多期以下切水道为特征的低水位域沉积体系。  相似文献   

Seismic stratigraphy and development of Avon canyon in Benin (Dahomey) basin, southwestern Nigeria   总被引：2，自引：0，他引：2  

S.O. Olabode  J.A. Adekoya   《Journal of African Earth Sciences》2008,50(5):286-304

Interpretation of a grid of high resolution seismic profiles from the offshore eastern part of the Benin (Dahomey) basin in southwestern Nigeria area permitted the identification of cyclic events of cut and fill associated with the Avon canyon. Seismic stratigraphic analysis was carried out to evaluate the canyon morphology, origin and evolution. At least three generations of ancient submarine canyons and a newly formed submarine canyon have been identified. Seismic reflection parameters of the ancient canyons are characterized by transparent to slightly transparent, continuous to slightly discontinuous, high to moderate amplitude and parallel to sub-parallel reflections. Locally, high amplitude and chaotic reflections were observed. The reflection configurations consist of regular oblique, chaotic oblique, progradational and parallel to sub-parallel types. These seismic reflection characteristics are probably due to variable sedimentation processes within the canyons, which were affected by mass wasting. Canyon morphological features include step-wise and spoon-shaped wall development, deep valley incision, a V-shaped valley, similar orientation in the southeast direction, and simple to complex erosion features in the axial floor. The canyons have a composite origin, caused partly by lowering of the sea level probably associated with the formation of the Antarctic Ice Sheet about 30 Ma ago and partly by complex sedimentary processes. Regional correlation with geological ages using the reflectors show that the canyons cut through the Cretaceous and lower Tertiary sediments while the sedimentary infill of the canyon is predominantly Miocene and younger. Gravity-driven depositional processes, downward excavation by down slope sediment flows, mass wasting from the canyon walls and variation in terrigenous sediment supply have played significant roles in maintaining the canyons. These canyons were probably conduits for sediment transport to deep-waters in the Gulf of Guinea during their period of formation.  相似文献   

琼东南盆地中央峡谷沉积充填特征及油气地质意义   总被引：6，自引：0，他引：6  

许怀智  蔡东升  孙志鹏  黄安敏  陈嵘  李春雷  何丽娟 《地质学报》2012,86(4):641-650

综合利用地震、测井、岩芯、岩屑分析化验资料及古生物资料,研究了琼东南盆地中央峡谷形态、沉积充填特征及其油气地质意义。结果表明,位于琼东南盆地中央坳陷带的中央峡谷,西起始莺歌海盆地东部陆坡,东终止南海西北次海盆,整体呈SW—NE走向,平面上呈"S"形,剖面上呈对称或不对称"V"和"U"型,峡谷长、底宽、顶宽和谷深分别约为580km、1～3km、6～15km、400～600m;峡谷以溯源堆积方式充填了相互叠置的多期砂岩和泥岩,中、下部以近基浊积岩充填为主,向上逐渐过渡为远基浊积岩和深海相泥岩;峡谷沉积体系划分为峡谷中心、边缘和漫溢3个微相;峡谷不仅是碎屑物质的通道,也是碎屑物质卸载堆积和油气运移、富集的重要场所,发育隐蔽岩性和构造-岩性复合油气藏。  相似文献