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1.
冲绳海槽西部陆坡碎屑沉积物的搬运方式:滑塌和重力流 总被引:9,自引:3,他引:6
通过对冲绳海槽2000多公里的实测单道地震资料(95和99航次)和沉积物柱状样(92航次)分析,认为滑塌和重力流是冲绳海槽西部陆坡(东海陆坡)碎屑沉积物向海槽搬运的重要方式;分析结果表明,西部陆坡这两种作用是广泛存在的。陆坡沉积物堆积速率、地形坡度和构造活动、地震、海啸等因素造成了陆坡南、北和中段之间的滑塌和重力流发育程度存在差异。海底滑塌和重力流这两种作用可以同时发生,也可以单独发生,但柱状样揭示重力流发生得更频繁。从空间分布上看,海底滑塌主要分布于上陆坡的断裂带附近,平行海槽呈带状延伸;而重力流沉积主要分布于断裂带向下一直到槽底的部位。重力流沉积主要有4种表现形式:1)沉积物重力蠕动;2)浊积平原;3)透镜状浊积体;4)沿斜坡的碎屑流沉积。上述研究表明,滑塌和重力流不仅是陆架向海槽输送物质的重要方式,也对陆坡沉积结构的塑造起了重要的作用。 相似文献
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冲绳海槽中南部不同环境表层沉积物质来源 总被引:1,自引:0,他引:1
对冲绳海槽中南部3种不同沉积环境(东海外陆架、东海陆坡和冲绳海槽)表层沉积物进行了稀土等元素地球化学分析,结果显示,冲绳海槽和陆坡表层沉积物具有与台湾物质来源类似的稀土元素配分模式,La/Sm-Gd/Yb散点图也显示海槽和陆坡沉积物主要分布在台湾物源端元区,表明冲绳海槽中南部海槽和陆坡表层沉积物主要来源于台湾,而外陆架沉积物明显的重稀土亏损与大陆河流(特别是长江、黄河)沉积物来源较为一致。为进一步判断外陆架表层沉积物来源,对外陆架沉积物重矿物进行分析鉴定,结果显示,外陆架沉积物重矿物以普通角闪石-绿帘石-石榴石-赤褐铁矿为组合特征,与长江沉积物重矿物组成特征类似,其明显缺乏台湾河流来源的典型重矿物锆石、黄河来源典型重矿物云母、浙闽沿岸来源典型重矿物磁铁矿,说明台湾、黄河和浙闽沿岸并非研究区外陆架表层沉积物主要物源。根据以往测年等研究成果,研究区外陆架沉积物年代较老,应为古长江物质经东海现代环流体系不断改造而成。 相似文献
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为了解特殊地质体与天然气水合物成藏构造特征之间的关系,作者以冲绳海槽西侧陆坡和槽底为例,利用地震资料和地球化学方法对该地区上新世和第四纪沉积物厚度、有机碳含量和断裂系统进行了分析。研究表明,在冲绳海槽西侧及槽底都发育了较厚的上新统和第四系沉积层,上新统厚度约为1000—1500m,第四系厚约为1000—3500m,其中海槽南段存在巨厚的第四系,而且冲绳海槽西侧陆坡沉积物中有机质含量高达0.75%—1.25%,并且沉积速率高达10—40cm/ka,有利于有机质的保存和转化。陆坡发育有与海槽走向一致的NE-SW向断裂系统,以及横切海槽的一系列NW-SE向水平错动扭性断裂系统,其中NE-SW向断层在海槽南段方向变为NEE-SWW,这些断裂系统为烃类气(流)体的运移创造了有利条件。因此,在冲绳海槽西侧陆坡发育的海底峡谷、滑塌体、断块隆脊、泥底辟等特殊地质体与天然气水合物的形成密切相关。 相似文献
4.
东海陆架边缘的构造特征记录了有关冲绳海槽张裂过程的关键信息,对于进一步理解海槽的形成演化以及弧后张裂与弧-陆碰撞之间的相互作用至关重要。本文基于多道地震和重磁资料,分析了东海陆架边缘的地形和构造特征,并对冲绳海槽早期张裂过程、北西向断裂带的分隔控制作用、钓鱼岛隆起带南北构造差异和冲绳海槽的向西前展等问题进行了探讨。结果表明,冲绳海槽西侧陆坡存在的分段性,各分段在地形地貌、地层展布和构造特征等方面的不同,体现了其构造演化和现今构造活动性的差异。冲绳海槽中—北段的张裂始于陆架前缘坳陷,在晚中新世向东扩展至整个海槽,晚中新世至今以分散式张裂为主。北西向断裂带对东海陆架边缘不同分段的构造特征和构造活动起到了分隔控制和转换协调作用,控制了不同类型陆坡的形成和发育。受冲绳海槽在全宽度上向西前展的影响,钓鱼岛隆起带南段的基底隆起及其支撑的陆架边缘发生了破坏和沉降,形成基底起伏较大、地形崎岖不平的陆坡。 相似文献
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通过对东海外陆架-陆坡-冲绳海槽表层沉积物粒度和黏土矿物组成的分析,探讨了3个不同沉积单元底质沉积物成因及物质来源。结果表明,东海外陆架→陆坡→冲绳海槽,沉积物粒度整体上逐渐变细。东海外陆架沉积物具有明显海滩砂或者破浪带砂的特征,为晚更新世冰消期海侵的产物,属于"残留沉积"。海槽西坡沉积物粒度参数具有重力流沉积特征,反映了沉积物由外陆架向海槽以滑塌或重力流的搬运方式。海槽槽底细颗粒沉积物悬移组分占主导的特点体现了半深海沉积特征,其主要来源于台湾和中国大陆长江、闽江等入海河流。物质来源一方面反映了黑潮对于细颗粒台湾源物质的输运的巨大作用;另一方面体现了来源于中国大陆源细颗粒物质存在以近底侧向搬运、"冬贮夏输"悬浮搬运等多种输运机制。 相似文献
7.
西沙海槽盆地处于南海北部陆坡洋陆壳过渡带,为一个分割南海北部陆架和西沙地块的新生代裂谷盆地,其沉积环境演化研究有助于进一步认识南海形成演化过程。通过南海陆坡区域地震地层对比,将西沙海槽盆地新生代以来划分出9个地层单元,采用地震线描和地震相分析方法,恢复各地层单元沉积时期的地层结构及古地貌,探讨其沉积环境演化过程。结果表明,古新世—始新世西沙海槽盆地为河流和湖泊沉积环境;渐新世—早中新世初,演变为分割南海北部陆架和西沙地块古陆、贯通琼东南盆地和西北次盆的海峡,沉积环境由滨-浅海过渡到半深海环境;中中新世以来盆地进入陆坡海槽发育阶段,晚中新世以后中央水道形成,演变为一个陆坡内深水海槽,为海流和浊流通道,整体处于半深海-深海沉积环境。 相似文献
8.
冲绳海槽轴线地质特征 总被引:10,自引:2,他引:10
冲绳海槽位于东海大陆架与琉球岛弧之间,海槽中发育着一系列平行轴向延伸的地堑型正断层。穿越海槽的地震剖面证实了海槽扩张中心的存在,扩张轴沿海槽轴线方向延伸。由于地堑构造中心的扩张速率较大,由某引起的海槽中心下陷的速率大于沉积作用的补偿速率,使海槽中心海底出现明显的下陷。在轴线的大陆坡一侧,陆源沉积占绝对优势;轴线的岛坡一侧,以火山坡碎屑、浮岩、有孔虫软泥为沉积特征。 相似文献
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对南海北部陆架坡折附近取的50个表层沉积物样品,作粒度测试,计算粒度参数。粒度分析表明研究区的沉积物主要存在4种类型:含砾砂、砾质砂、砂质砾和含砾泥质砂;沉积物组分中砾石和砂占绝对优势,基本上不含黏土。综合因子分析和聚类分析的结果把研究区划分为4类沉积区:Ⅰ类沉积区属于内陆架沉积区,Ⅱ类沉积区属于陆架坡折上部沉积区,Ⅲ类沉积区属于陆架坡折下部沉积区,Ⅳ类沉积区区属于陆架边缘沉积区,每类沉积区都代表着不同的沉积环境。研究区沉积物的粒径趋势分析结果显示,陆架坡折附近的沉积物主要向内陆架和外陆架边缘或上陆坡输运,同时存在着跨陆架输运和沿陆架坡折输运现象,这与研究区实测的底流方向相一致。本研究表明,南海北部陆架坡折附近的沉积环境和沉积物输运模式比较复杂和特殊。本研究对今后陆架和陆坡区其他相关的研究具有十分重要的指导和借鉴意义。 相似文献
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基于最新的高分辨率多波束全覆盖测深数据、单道地震和多道地震剖面数据,对南海北部陆坡一统峡谷群9条峡谷的地形地貌及沉积特征进行了分析:峡谷群自陆坡向深海盆方向呈聚敛型,横断面主要呈"V"型,谷壁对称发育,坡度较陡;研究区海底地层受多条断裂控制,呈典型阶梯状发育,海底断陷、重力滑塌面和小型滑坡体等海底不稳定地质灾害高度发育,说明峡谷群海底环境处于极不稳定状态。在研究区海底峡谷群地貌演化过程中,西沙海槽区域沉降等新生代构造运动控制着峡谷群地貌格局的形成;来自北部陆架的充足沉积碎屑物质的输入往往伴随着高密度浊流、海底滑坡、坍塌等海底灾害的发生,控制着峡谷群的进一步发育;相对海平面变化直接改变了研究区的沉积环境,为陆源碎屑物质的搬运提供了更加直接的通道,这也是诱发陆坡海底失稳、塑造峡谷群地貌特征的重要因素之一。 相似文献
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Five depositional bodies occur within the Quaternary deposits of the northwestern Alboran Sea: Guadalmedina-Guadalhorce prodelta, shelf-edge wedges, progradational packages, Guadiaro channel-levee complex, and debris flow deposits. The sedimentary structure reflects two styles of margin growth characterized: 1) by an essentially sediment-starved outer, shelf and upper slope and by divergent slope seismic facies; 2) by a prograding sediment outer shelf, and parallel slope seismic facies. Eustatic oscillations, sediment supply, and tectonic tilting have controlled the type of growth pattern, and the occurrence of the depositional bodies. Debris flows were also controlled locally by diapirism. 相似文献
12.
冲绳海槽是一个正在扩张的年轻弧后海盆。对这个海盆的研究在地层学、古海洋学、构造学、地震学及海底资源勘探等方面均具重要意义。这个海槽处在大陆地壳向大洋地壳转化的过渡性地壳域,许多人试图从冲绳海槽的研究中,获得关于洋盆早期演化的知识。本文根据反射地震资料(图1)就该海槽成因进行初步探讨。 相似文献
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冲绳海槽的形成与发展 总被引:1,自引:0,他引:1
冲绳海槽是位于东海大陆架外缘、东海陆架边缘隆褶带与琉球岛弧之间的一个狭长带状弧间盆地.关于它的成因,已有古琉球弧直接张裂和断裂下陷两种观点,而笔者认为,它是由于菲律宾海板块从早中新世末以来,向欧亚大陆板块下俯冲所形成的沟-弧-盆系列的一个组成部分,在其生成和发展过程中,先后经历了拗陷、断陷和扩张三个阶段.然而,扩张刚刚开始.今后它将进一步裂开,琉球弧将更加向菲律宾海方向推进.因受调查程度的限制,本文将以冲绳海槽北半部的资料为主要依据. 相似文献
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北康盆地构造特征及其构造区划 总被引:3,自引:0,他引:3
北康盆地是位于南沙中部海城的新生代沉积盆地,新生代沉积盖层在盆地内广泛发育,根据地震反射特征及地震反射界面的区域对比,盆地基层可进一步划分为3个构造层。北康盆地西南边界发育延贾断裂,该断裂西起万安盆地,向东直于加里曼丹。从渐新世始,廷贾断裂先后经历了3次规模较大的构造活动。南沙海槽西北缘断裂位于北康盆地的东南边界,该断裂把北康盆地和南沙海槽盆地分隔开来。北康盆地内断裂主要有北东、北西和南北向三组,其中南北、北西向断层往往错断北东向断层。在详细讨论断层特征和沉积盖层布规律的基础上,对北康盆地的二级构造单元进行了划分。 相似文献
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南海北部西沙海槽北侧陆坡块体搬运沉积体系的发育特征及演化 总被引:1,自引:0,他引:1
Triple mass-transport deposits(MTDs) with areas of 625, 494 and 902 km2, respectively, have been identified on the north slope of the Xisha Trough, northern South China Sea margin. Based on high-resolution seismic reflection data and multi-beam bathymetric data, the Quaternary MTDs are characterized by typical geometric shapes and internal structures. Results of slope analysis showed that they are developed in a steep slope ranging from 5° to 35°. The head wall scarps of the MTDs arrived to 50 km in length(from headwall to termination). Their inner structures include well developed basal shear surface, growth faults, stepping lateral scarps, erosion grooves, and frontal thrust deformation. From seismic images, the central deepwater channel system of the Xisha Trough has been filled by interbedded channel-levee deposits and thick MTDs. Therefore, we inferred that the MTDs in the deepwater channel system could be dominated by far-travelled slope failure deposits even though there are local collapses of the trough walls. And then, we drew the two-dimensional process model and threedimensional structure model diagram of the MTDs. Combined with the regional geological setting and previous studies, we discussed the trigger mechanisms of the triple MTDs. 相似文献
16.
A Deep-sea Channel in the Northwestern Mediterranean Sea: Morphology and seismic structure of the Valencia Channel and its surroundings 总被引:2,自引:0,他引:2
Belen Alonso Miquel Canals Alberto Palanques Jean-Pierre Rehault 《Marine Geophysical Researches》1995,17(5):469-484
The 400 km long Valencia Channel occupies the axis of the Valencia Trough in the Northwestern Mediterranean. Four different types of seismic reflection profiles were used to analyze the morphology and structure of the Valencia Channel with regard to the role played by both margins, Balearic and Iberian, of the Valencia Trough. From a detailed morphoseismic analysis of the Valencia Channel, its upper, middle, and lower courses can be characterized as follows: (1) in the upper course, tributaries are short and only slightly incised, with recent mass-transport deposits occurring on the adjacent continental slopes; (2) in the middle course, the channel deepens, and tributary valleys merge into it; and (3) the lower course begins after a sudden change in the direction of the channel, has a meandering path, is flanked by levees, and is fed by some valleys.During the Pliocene and Quaternary, at least four erosional and filling phases are observed in seismic profiles of the lower course of the Valencia Channel. The varying intensity of mass-transport processes and associated retrogressive slumping, which are related with fluctuations in sediment supply and relative sea-level changes, have played a major role in the formation, maintenance and deepening of the Valencia Channel. In addition to these sedimentary processes, a basement tectonic control and some morphostructural features affect the direction of the Valencia Channel locally. 相似文献
17.
Qi-Liang Sun Shi-Guo Wu Thomas Lüdmann Bin Wang Tao-Tao Yang 《Marine Geophysical Researches》2011,32(3):415-428
Gravity flow deposits form a significant component of the stratigraphic record in ancient and modern deep-water basins worldwide.
Analyses of high-resolution 3D seismic reflection data in a predominantly slope setting, the southern slope of Qiongdongnan
Basin, South China Sea, reveal the extensive presence of gravity flow depositional elements in the Late Pliocene−Quaternary
strata. Three key elements were observed: (1) mass transport deposits (MTDs) including slumps and debris flows, (2) turbidity
current deposits including distributary channel complexes, leveed channel complexes and avulsion channel complexes, and (3)
deep-water drapes (highstand condensed sections). Each depositional element displays a unique seismic expression and internal
structures in seismic profiles and attribute maps. Based on seismic characteristics, the studied succession is subdivided
into six units in which three depositional cycles are identified. Each cycle exhibits MTDs (slump or debris) at the base,
overlain by turbidities or a deep-water drape. The genesis of these cycles is mainly controlled by frequent sea-level fluctuations
and high sedimentation rates in the Late Pliocene–Quaternary. Moreover, tectonics, differential subsidence, and paleo-seafloor
morphology may have also contributed to their formation processes. The present study is aimed to a better understanding of
deep-water depositional systems, and to a successful hydrocarbon exploration and engineering-risk assessment. 相似文献