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1.
构造控制型天然气水合物矿藏及其特征 总被引:12,自引:4,他引:12
构造环境是天然气水合物富集成藏的重要控制因素,增生楔、断裂体系、褶皱、(泥)底辟、滑塌等特殊构造体是影响天然气水合物成藏的主要地质载体。通过对这些特殊构造体与天然气水合物成藏关系的研究,结合流体活动对水合物形成的影响,总结出陆缘地区有增生楔型、盆缘斜坡型、埋藏背斜型、断褶型、滑塌型及底辟型等六类构造控制型水合物矿藏。南海位于欧亚板块、太平洋板块及印澳板块的交汇处,早期为活动陆缘,晚期演化为被动陆缘,其构造活动具有早期张裂、后期挤压的特点,这既不同于被动陆缘,也有别于活动陆缘,可视为“复合型”大陆边缘,兼具了“被动陆缘沉积速率高、活动陆缘构造活跃”的优点,从而形成了“增生楔型、断褶型、底辟型、滑塌型、盆缘斜坡型”等多种构造控制型水合物矿藏,是“复合型”大陆边缘水合物成藏地质模式的典型代表。 相似文献
2.
深地震探测揭示的华南地区莫霍面深度 总被引:15,自引:2,他引:13
从20世纪70年代以来, 在华南地区进行了大量的深地震探测研究。本文通过对华南地区的深地震探测研究的总结和梳理, 探讨了华南大陆及其邻近海域的莫霍面变化情况, 结果表明: 华南大陆莫霍面形态变化较大, 总体变化趋势是由西部向东部呈逐渐抬升; 华南大陆最深的莫霍面出现在攀西地区北缘, 最浅的莫霍面出现在衢州盆地, 两者差35 km; 华南地区周缘断裂均存在莫霍面错断; 华南加里东造山带莫霍面深度浅于台湾造山带; 东海边缘海与南海北缘地壳厚度明显不同。这些特征可能指示了不同区域所经历的岩石圈及地壳演化过程不同, 其中攀西地区的莫霍面较厚可能同青藏高原物质东流有关, 华南造山带的地壳减薄缘于后期遭受的伸展作用, 东海及南海的莫霍面深度反映了两者处于不同的陆缘位置, 前者为活动大陆边缘, 后者为被动大陆边缘。 相似文献
3.
南海北部陆坡分类及成因分析 总被引:3,自引:0,他引:3
陆坡形态隐含了丰富的地质信息,其差异性是大陆边缘沉积、侵蚀过程长期交互作用的结果。利用横跨南海北部的二维地震测线,采取曲线拟合的研究手段,在南海北部识别出了下凹型、平直型、"S"型等三种类型的陆坡。下凹型陆坡发育在莺歌海-琼东南西部、珠江口中部两个陆坡区,但其成因不同,前者主要受控于快速的沉积物供给,而后者受到陆架边缘三角洲进积和海底峡谷侵蚀的联合作用;平直型陆坡仅见于琼东南东部地区,其主控因素为弱的沉积物供给和较快的构造沉降;"S"型陆坡发育在珠江口地区的两翼,其形成明显受到海流和内波等外作用的改造。不同类型的陆坡具有特定的地层叠置样式、陆架坡折迁移轨迹类型和沉积体系分布特征。对陆坡类型的研究有助于建立沉积过程和产物的预测模式,从而指导古代陆坡的深水油气勘探。 相似文献
4.
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
5.
中国南海西北次海盆西北陆缘洋陆过渡区深水沉积体系特征 总被引:2,自引:0,他引:2
高分辨率二维地震资料显示中国南海西北次海盆西北陆缘(水深1 000 m及以下)发育如下深水沉积体系:珠江口盆地南部隆起区缓坡带(水深约1 000~1 500 m、坡度<1.2°)出露神狐南海山,该海山附近发育“海山相关等深流沉积体系”,可能受南海中层水循环(自西向东)底流控制;神狐南海山以南水深约1 500~2 500 m的陆坡区(坡度>2°)普遍发生坡移,发育“重力流滑塌体系”和“峡谷体系”,鲜见等深流沉积;下陆坡区(水深>2 500 m,坡度稍缓<2°)滑塌现象明显减少,主要发育“峡谷体系”以及“席状等深流沉积体系”,席状等深流沉积体系可能受分散的、流速较低的南海深层水循环底流控制。地震沉积记录显示,神狐南海山附近等深流侵蚀特征最早出现于晚中新世早期,其后至现今该区较稳定发育等深流沉积/侵蚀的加积序列,说明南海西北次海盆西北陆缘的稳定底流沉积/侵蚀可追溯至晚中新世早期。 相似文献
6.
C.C. VON DER BORCH A. E. GRADY R. ALDAM D. MILLER R. NEUMANN A. ROVIRA K. EICKHOFF 《Sedimentology》1985,32(4):507-518
The late Proterozoic Adelaide Geosyncline, along with overlying Cambrian strata, comprises a thick sequence of sediments and sparse volcanics which accumulated in a major rift and passive margin setting. During late syn-rift or early post-rift phases, large volumes of terrigenous and carbonate sediments of the late Proterozoic Umberatana and Wilpena Groups and Cambrian Hawker Group filled the rift. Submarine canyon development was related to at least four of these depositional cycles, the most notable of which resulted in incision and subsequent filling of the major (several kilometres in width and up to 1.5 km deep) submarine canyons by the Wonoka Formation. The Wonoka Formation canyons are not obviously fault controlled. They are interpreted to have been eroded by turbidity currents during a relative low-stand of sea-level. They were subsequently filled by a fining-upwards suite of sediments which reflects subsequent relative rise of sea-level and carbonate platform development. Ultimately the canyon complex was buried by north-westerly progradation of overlying fluvial and slope sequences (Billy Springs Beds and possibly correlative upper Pound Subgroup). It is considered likely that more distal elements of this prograding clastic wedge provided the necessary material for canyon erosion, prior to canyon filling and ultimate burial by what may have been elements of the same depositional cycle. It is considered possible that the series of isolated outcrops of canyon cross-sections within the Wonoka Formation are sections of a single canyon thalweg developed within a considerably broader zone of slope degradation. If this interpretation is correct, then the gorge-like Patsy Springs Canyon lies in more proximal regions of the basin-slope, whereas 40 km to the north-east the lower slope is cut by the Fortress Hill Canyon Complex. Palaeocurrent analyses of channel-fill turbidites within the canyons imply that the Fortress Hill Complex is in fact the outcropping western edge of a sinuous, incised canyon thalweg. The Wonoka Formation canyons, containing basal sedimentary breccias but only minor conglomerates, are considered typical of passive margin canyon development. They are contrasted with the generally highly conglomeratic channel-fills observed in outcropping Tertiary and Cretaceous examples of active margin canyons and upper fan valleys. 相似文献
7.
序言前陆盆地是由板块碰撞引起侧向挤压,进而形成冲断推覆体(thrust mass)加载于大陆边缘,使大陆地壳周缘前陆隆起(peripheral forebulge)形成的一种不对称盆地,它的一侧与发育周缘前陆隆起的克拉通大陆为邻,另一侧靠近冲断推覆体。靠近冲断推覆体侧的一端主要发育陆源碎屑沉积,而靠近克拉通大陆的一边则发育成为碳酸盐台地。由于碰撞后大陆岩石圈的持续俯冲,造成冲断推覆体跨过先前被动大陆边缘,进而向克拉通陆内迁移发展,致使碳酸盐台地最终全被陆源碎屑掩埋。最初,冲断推覆体位于海平面之下,随着冲断推覆体叠加而成山链,加载于大陆边缘薄的外部地壳之上,沿缝合线形成一个深而狭长的边缘海槽地,接受陆源泥和深海沉积物沉 相似文献
8.
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
9.
利用南海北部陆缘及邻区的地质、地球物理资料,综合编制了印支半岛东缘-西沙海槽-南海北部陆坡-台湾恒春半岛-菲律宾海地学断面,从地形地貌、地球物理场、地质构造特征和时空演化等多个方面综合揭示了南海北部陆缘洋陆转换带岩石圈结构及其相互作用,对深入认识南海北部陆缘构造格局和深水区油气地质具有重要意义. 相似文献
10.
世界著名深水油气盆地的构造特征及对我国南海北部深水油气勘探的启示 总被引:6,自引:0,他引:6
介绍世界著名深水油气盆地的主要特征,着重构造特征,并与南海北部深水区进行了对比。世界著名深水油气盆地产出的大地构造条件具多样性,虽然大多数位于开阔大洋被动陆缘(南大西洋裂谷系、北海、澳大利亚西北陆架盆地),但边缘海的被动陆缘(墨西哥湾盆地)、转换大陆边缘(洛杉矶盆地)、主动陆缘(南沙海槽盆地)也可形成极佳的深水含油气盆地。南海北部深水区具有世界某些重要深水含油气盆地类似的特征,如位于被动陆缘和大河出口下方,以裂陷期的湖相富有机质页岩为主要生油岩,白云凹陷发育上下叠置的6层深水扇等,这都是有利的石油地质条件。但南海北部深水区盐层和盐构造不发育,构造圈闭相对较不发育,使深水油气系统的研究更加困难,也更具开拓意义。
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11.
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
12.
南海南、北陆缘中生代构造层序及其沉积环境 总被引:1,自引:0,他引:1
新生代海底扩张,使南海陆缘分为南、北两部分。南部礼乐地块与南海北缘在扩张之前构成了统一的活动陆缘。通过对南、北陆缘的钻井研究和井旁地震剖面解释,发现二者的中生界均具有4 个地震层序及3 个构造层。南北陆缘构造层序及物源分析表明,早白垩世礼乐地块与南海北缘曾发生碰撞拼贴。早白垩世的南海北缘地区沉积环境由海陆过渡相向陆相演化,相应的礼乐地区是由浅海相向滨海相演化,二者反映出相同的向上变浅旋回,说明在南、北陆缘拼贴之后,两者具有了统一的构造沉积背景。到晚白垩世末,两区均隆升为陆,且遭受剥蚀; 南海北缘地区上白垩统部分被剥蚀,而距俯冲边界更近的礼乐地区上白垩统则被剥蚀殆尽。 相似文献
13.
内容提要:被动大陆边缘的含盐盆地多在重力作用下发育薄皮盐构造.这些构造不但记录了盆地的演化过程,而且往往富含大量的油气资源.因此,被动陆缘盐构造是学术界与工业界共同关注的热点.在传统的被动陆缘含盐盆地模型中,盆地主要在重力作用下形成上坡的拉张区,下坡的挤压区和两者之间的转移区.近年来,国际学术界围绕重力变形在盆地中的作... 相似文献
14.
Taiwan is located in the axis of the Manila Trench. It results from an oblique collision between the northernmost part of the Luzon arc and the Chinese passive margin. This active collision follows the subduction of the Oligocene-Miocene oceanic crust of the South China Sea along the Manila Trench. The tectonized Chinese margin emerged in the Hengchun peninsula (South Taiwan). Gentle folds which are delineated by the Quaternary reefal limestones demonstrate Recent deformations. These folds deformed a thick detrital sequence of Miocene age (Ssuchung Chi series) which was previously strongly folded and thrust westward (axis NS-N20) upon the Renting mélange of Latest Miocene age. These main deformations, sealed by the Middle Pliocene, are the evidence for the onset of collision in this part of Taiwan at the end of the Miocene. Because of its obliquity, the collision started already in the northern part of Taiwan during the Late Miocene (6-7-8 Ma ?).The Ssuchung Chi series, a sequence of proximal turbidites, has contained, since the Middle Miocene (NN 6~13 Ma), fragments of an Oligocene to Lower Miocene oceanic crust. This ophiolitic material is very similar to the East Taiwan Ophiolite of the Coastal Range. It originated most probably from a slice of South China Sea crust obducted in Middle Miocene times (13–14 Ma) upon the Chinese margin (North of the Hengchun peninsula). This obduction occurred 7 to 8 Ma before the beginning of collision. These results make it possible to propose an evolutionary model for Taiwan from the Oligocene to the Recent, with the different phases of a collision between a volcanic arc and a passive margin. 相似文献
15.
Submarine canyons are conduits for the distribution of sediment across continental margins. Although many canyons connect directly with fluvial or marine littoral system feeders, canyons detached from direct hinterland supply are also recognized. The fill of detached canyons remains enigmatic, because their deep‐water setting restricts analysis of their evolution and stratigraphic architecture. Therefore, this study aims to investigate the sedimentary processes that infilled deep‐water canyons and the resulting architecture. Miocene outcrops of an exhumed deep‐water system from the East Coast Basin, New Zealand, are documented and compared with the morphology and seismic scale architecture of a modern detached canyon system on the same convergent margin. The outcropping system preserves the downstream margin of a sub‐basin deposited at palaeo‐water depths >700 m. A 6 km wide by 430 m deep incision is filled by heterogeneous siliciclastic sediments, 50% of which comprise graded thin‐beds with traction structures, interpreted to result from oscillatory flows. These are intercalated with concave‐up lenses, up to 15 m thick, of sigmoidally‐bedded, amalgamated sandstones, which preserve ripple casts on bed bases, interpreted as deposits at the head of a deep‐marine canyon. Palaeo‐flow was eastward, into the sub‐basin margin. On the adjacent margin of the sub‐basin down‐dip, stacked and amalgamated sandstones and conglomerates represent the fill of a submarine channel complex, at least 3 km wide. The channels are inferred to have been fed by the up‐dip canyon, which traversed the intervening structural high; similar relationships are seen in the bathymetry data. Seismic studies on this margin demonstrate that multiple phases of canyon cut and fill may occur, with downstream architectural evolution comparable to that seen at outcrop, demonstrating that detached canyons may act as sediment conduits. Breaching of developing sea‐floor structures by detached canyons can modify tortuous sediment pathways, supplying sediment to otherwise starved areas of the slope. 相似文献
16.
《International Geology Review》2012,54(4):304-328
To examine the tectonic history of the Taiwan segment of the eastern margin of South China, six rock samples from the Tailuko belt, the metamorphic basement of Taiwan, were selected for zircon SHRIMP dating. The aim was to identify evidence shedding light on the timing of the change from passive to active tectonics for this part of the continental margin since South China separated from the supercontinent of Rodinia. The results lead to two age groups, 190–200 and 88–90 Ma. These age groups, augmented by the previously published age data, suggest that they could have resulted from two Mesozoic accretion/subduction events. In addition, this mid‐late Mesozoic Tailuko belt might have also been reactivated and structurally complicated by the late Cenozoic collision/accretion of the Luzon arc with the Eurasian continent. Records of older tectonic events, such as those derived from the Japanese Islands, are absent in this metamorphic basement. An important finding of this study is the existence of the 191±10 Ma Talun metagranite, the oldest granitic intrusion ever reported in the Taiwan region and along the eastern coast area of South China. In spite of a large age uncertainty, the occurrence of this metagranite is not consistent with the apparent younging trend of Jurassic‐Cretaceous igneous activity toward the coastline in South China, and should be taken into consideration by future studies. 相似文献
17.
We have constructed finite element models at various stages of passive margin evolution, in which we have incorporated the system of forces acting on the margin, depth-dependent rheological properties and lateral variations across the margin. We have studied the interrelations between age-dependent forces, geometry and rheology, to decipher their net effect on the state of stress at passive margins. Lithospheric flexure induced by sediment loading dominates the state of stress at passive margins. This study has shown that if after a short evolution of the margin (time span a few tens of million years) subduction has not yet started, continued aging of the passive margin alone does not result in conditions more favourable for transformation into an active margin. Although much geological evidence is available in support of the key role small ocean basins play in orogeny and ophiolite emplacement, evolutionary frameworks of the Wilson cycle usually are cast in terms of opening and closing of wide ocean basins. We propose a more limited role for large oceans in the Wilson cycle concept. 相似文献
18.
《Journal of South American Earth Sciences》2010,30(4):861-870
The seascape of the continental shelf and slope offshore Santa Marta is sculpted by the submarine Aguja Canyon, a deep seafloor incision that extends from the inner shelf to the continental rise along some 115 km. No major modern rivers flow into this canyon, thus ruling out principal fluvial control on the present geometry of this feature. Recently acquired multibeam sonar bathymetry data have provided insight into the three-dimensional geometry of this outstanding feature that disrupts the seafloor relief. In addition, seismic reflection data provide images of the internal structure of the canyon’s subsurface. In this study, we describe the morphology of the Aguja Canyon along a series of transects, interpret the structure under the canyon, and discuss possible geologic processes that played a role during its formation and modification. Seismic data indicate that incision of the canyon’s inner reach is the result of recent motion along the western termination of the active Oca strike–slip fault. Relief in the middle reach may be predominantly controlled by sedimentary processes (erosion, infilling and lateral thalweg migration). In the past, however, the middle reach may have been tectonically controlled. The outer reach appears to be the combined result of tectonics, sedimentary process and mud-diapiric intrusions. We conclude that the Aguja Canyon is predominantly a tectonic feature that accommodates shallow transpressive stresses as dislocation of the seafloor. 相似文献
19.
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
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
20.
Three sources of stress at active (Andean) continental margins are considered: body forces on the plates which drive their motion, thermal stresses generated within the cooling lithosphereand bending stresses due to the flexure of the lithosphere at an ocean trench. It is argued that the bending stresses dominate. The evolution of passive (Atlantictype) continental margins is also considered. Models for the free and locked flexure of the continental and oceanic lithosphere are given. Based on observed gravity anomalies, it is argued that the continental margin fault system must remain active throughout much of the evolution of the margin. These displacements accommodate both the subsidence of the oceanic lithosphere due to its cooling and thickeningand the sedimentary loading. This loading may be responsible for the seismicity on the eastern continental margin of the United States e.g., the Charleston, South Carolina earthquake of 1884. 相似文献