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1.
深水沉积研究经历了50年,争论也持续了50年。从浊流及鲍玛序列开始,随着对浊流定义的过分使用,到今天对鲍玛序列作为浊积岩相序及相关的扇模式普遍持否定态度,深水沉积研究经历了一个认识的旋回。主要问题和争论的焦点是:是否所有深水砂岩都是浊流成因,鲍玛序列能否代表浊积岩相序;是否所有的深水扇水道下方都能形成席状的、平行的、加厚的、具有丘状外形的浊积砂岩沉积;是否可以利用地震方法识别深水扇的砂岩储层。对“浊流”概念的过分使用把深水扇模式内几乎所有深水沉积都解释成浊流成因,导致了曾经为之建立模式的学者纷纷撰文抛弃原有扇模式。深水沉积研究面临着对过往认识的否定和如何建立新的理论模式。尽管浊流及相关的深水扇模式研究走向穷途末路,石油工业却从浊流理论和相关模式中获得了许多油气发现,勘探家们仍然希望通过这些模式寻找更多的油气,科学理论和应用出现了分化。对深水沉积过程和流态的认识及沉积模式的建立是当今深水沉积研究的难点,实现深水砂岩储层的有效预测是深水沉积研究的主要目的。我国深海油气勘探在即,深水沉积的科学问题同样不可逾越。 相似文献
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1浊积岩传统神话在浊积岩研究中,著名的鲍马层序是1962年通过对法国东南部阿尔卑斯山脉地区Annot砂岩浊流沉积研究基础上提出来的,组成该层序的Ta、Tb、Tc、Td、Td段应是一次浊流事件的产物。浊流又有高密度浊流和低密度浊流之分。此后,特别是在Walker(1978)提出海底扇相模式之后,以鲍马层序为代表的经典浊积岩和海底扇相模式在沉积地质学界广泛流行,甚至几乎在所有的深水砂岩研究中,都用它来进行描述并解释浊流沉积。Shanmugam认为在过去50年期间,有关浊流沉积的例子导致形成了很多关于深水浊积岩形成的许多神话,并提供了相关实例来说… 相似文献
3.
深水浊积砂体的成因机理及特征 总被引:1,自引:0,他引:1
深水浊积砂体及其体系域以其重要的理论意义和作为油气储集层的经济价值始终是沉积地质学研究的主要领域之一。深水浊积砂体是在深水环境下在重力作用下所形成的一个连续过程的组成部分。这个连续部分可以分为五类:泥石流、颗粒流、流体化沉积物流、浊流和滑塌。由浊流过程形成的深水环境下的浊积砂体,具有海相浊积体和湖相浊积体的特征,与海(湖)平面的下隆低水位有关。 相似文献
4.
随着全球深水油气勘探的兴起,深水浊积岩成为沉积学界和石油工业界研究的热点,但直到现今,其主要作为潜在储层进行研究,而作为烃源岩研究还很少。最近通过对印尼库泰盆地深水区油气地质条件的研究发现,深水区油气成藏的有效烃源岩为粒度相对较粗的浊积岩,而非传统页岩;有机质来源为陆源高等植物碎屑,其通过浊流在低位期从陆架搬运至陆坡和深海平原深水区沉积于深水浊积岩中,平均有机碳质量分数为1%~2%,少数可达2%~5%,最大达50%,氢指数HI为50~183,最大可达400;同种类型烃源岩在南海文莱-沙巴盆地深水区也有发现。同时调研了全球一些浊积岩富集有机质案例,包括全球ODP与DSDP资料、刚果西海岸现今深水浊积岩系统、加蓬西海岸现今深水浊积岩系统、安哥拉渐新世深水浊积岩系统和西班牙比利牛斯山始新世深水浊积岩系统,结果表明,其有机质特征都具有较高的有机碳含量,有机质来源主要为陆源高等植物,具有生油气潜力。深水浊积岩富集有机质的模式能够成为深水区有机质富集的新模式,富集有机质的浊积岩能够成为深水区油气成藏的有效烃源岩。深水浊积型烃源岩对全球深水油气成藏理论及勘探思路都将产生重要影响。 相似文献
5.
6.
右江盆地深水沉积层序地层学研究 总被引:19,自引:2,他引:17
以右江地区泥盆-三叠纪深水盆地相地层为研究对象,①详细讨论了深水浊流沉积的层序划分及特征,结果表明浊流沉积的层序界面特征明显,主要表现为界面不规则,LST期砂岩底面具大量侵蚀充填构造及塑性流动变形构造等,层序的体系域构成与浊积扇演化关系密切,即从低水位体系域→海侵体系域→高水位体系域的演化浊积扇经历了进积→退积→加积→进积演化过程;②详细讨论了深水硅泥质沉积的层序划分及特征,即可根据硅质岩、泥质岩 (包括粉砂岩 )相对含量变化及成因特征来识别层序及体系域组成特征。 相似文献
7.
浊流及相关重力流沉积研究综述 总被引:44,自引:2,他引:42
本文首先介绍了浊流及相关重力流的有关概念,并对浊流沉积研究历史进行了简要回顾,概括了当前浊流沉积的研究现状;随后,总结了浊积岩的沉积特征并对其成因进行了扼要解释;最后,对浊流及相关重力流沉积研究中两个有争议的问题-浊积相的划分和浊积相模式的建立进行了探讨。 相似文献
8.
藏北那曲盆地中—上侏罗统拉贡塘组浊流沉积特征及微量元素地球化学 总被引:3,自引:0,他引:3
藏北那曲地区中上侏罗统拉贡塘组发育典型的深水浊流沉积,根据浊积岩鲍马序列和粒度特征,可以进一步将其区分为近源砂质浊积岩和远源细屑浊积岩。微量及稀土元素地球化学研究表明,拉贡塘组浊积岩富集Cr、Co、Sc、Th等元素,无Ce负异常或负异常不明显,沉积物物源主要来自于变质岩区或再循环的沉积岩分布区。那曲盆地是冈底斯中生代多岛弧盆系统的组成部分之一,中上侏罗世深水浊流沉积形成于活动大陆边缘中的弧后盆地环境,该弧后盆地的形成与班公湖怒江中特提斯洋盆的洋壳向南的俯冲作用有关。 相似文献
9.
浊积砂体一直是人们关注的焦点。随着含油气盆地勘探程度的不断增高,"九五"以来,陆相含油气区逐渐进入以隐蔽油气藏为主要目标的勘探阶段,深水浊积砂体作为油气的储集层,成为石油地质领域的一个研究热点,其中,浊积砂体的类型划分和形成机制尤其是人们关注的焦点。本文介绍了浊流及相关重力流的有关概念,对浊流沉积研究进展及现状作了简介,最后对湖盆浊积砂体多种分类方案作了详细的阐述,并以山东济阳坳陷发育的浊积岩为例偿试湖相浊积砂体的分类,总结归纳了湖相浊积砂体的类型、识别标志和分布规律。 相似文献
10.
《地质科技情报》2016,(6)
浊流是深水环境中重要的侧向搬运过程之一,大量陆源有机质贡献及快速的搬运沉积等特点,使其相对于正常的深水沉积具有较强的有机质富集能力。不同的浊积系统、浊积系统的不同时期、同一浊积系统的不同沉积单元及浊积岩层之间,有机质富集程度差别很大。低水位型、高水位-持续型和海侵型深水浊积系统的划分,有利于预测高频率、大规模浊积事件发育的地质条件和地质时期以及有机质富集的有利区域和时期。同一浊积系统内,朵叶体和峡谷-天然堤的下游区域可能为更有利的有机质富集区域。浊积岩中细粒层的有机质丰度差异主要取决于粉砂质组分的含量;而砂岩层中的有机质丰度变化较大,主要取决于较大的植物碎屑的贡献。浊积厚度、浊积频率等原因造成的有机质保存的差异则进一步造成了浊积岩中有机质含量的不均衡。这种不同尺度上的有机质富集的差异性分析,对探讨深水浊积岩的生烃潜能及能否作为有效烃源岩具有一定的启示意义。 相似文献
11.
深海沉积理论发展及其在油气勘探中的意义 总被引:14,自引:2,他引:12
深海沉积理论的进展主要涉及“鲍玛序列”、浊流、砂质碎屑流和深海层序地层四方面。以Shanmugam为代表认为:“鲍玛序列”并非唯一浊流产物,可含有砂质碎屑流、浊流、内潮汐、内波、等深流多种流体作用的结果;过去识别的“鲍玛序列”A段有浊流也有相当部分是砂质碎屑流成因,B—D段交错层理则是底层牵引流沉积产生的;只有浊流的沉积物才能称为浊积岩;“高密度浊流”是指砂质碎屑流而不是浊流;浊流是一种有牛顿流和紊乱状态的沉积物重力流;浊积岩没有复杂的颗粒悬浮层和碎石浮层,不发育逆粒序。Shanmugam等关于“鲍玛序列”这一新解是深海沉积学理论的一个进步。深海牵引流过去数十年取得了较大进步,但理论与实践脱节。深海层序地层是深海沉积理论进展的另一个方面,层序界面类型、体系域沉积有自身的独特性:层序界面至少存在斜坡侵蚀面、低水位下超面和水下沉积间断面三种;当沉积背景以陆源碎屑为主时,LST主要为盆底扇,TST和早期HST表现为非钙质远洋沉积,晚期HST一般不发育;当碳酸盐沉积为沉积背景时,LST主体为碎屑流和跨塌蹦落沉积或淡水透镜体,TST和早期HST为钙质细粒沉积,晚期HST可能存在有较小规模的钙屑海底扇。建议慎重解释“鲍玛序列”,审视“浊积扇”理论,废弃“浊积扇”概念,加强深海牵引流沉积机理方面的研究;LST浊积砂体、砂质碎屑流形成的块状不规则砂体、深海牵引流砂体可在深海储层预测方面具有巨大潜势,深海沉积作用及其过程的精细研究在指导深海油气勘探方面将会发挥越来越为重要的作用。 相似文献
12.
PHILIP R. HILL 《Sedimentology》1984,31(3):293-309
A detailed survey of the upper and middle Nova Scotian continental slope at 42°50′N and 63°30′W indicates a complex morphology dominated by mass movements on various scales and an immature turbidity current channel. The range of sediment facies is diverse including hemipelagic and turbidite muds, turbidite sands and gravelly sandy muds of debris flow origin. Deformed units, interpreted as slump deposits are also observed. Several facies associations, related to discrete morphological environments, are recognized. Thick turbidite sand units with minor intervening mud beds are characteristic of the high-relief uppermost slope and channel margin. Thinner turbidite sands, deformed slump beds and various mud facies are associated with small-scale, hummocky mid-slope topography. Sand beds are more abundant in the depressions than on intervening hummocks indicating the preferred transport paths of small turbidity currents. At the lower end of the main turbidity current channel, frequent turbidite sand beds with relatively minor mud beds are deposited on a depositional lobe. In areas unaffected by mass movements, alternating bioturbated mud and sandy muds make up the core sequences. A local model of sedimentation is proposed for this area and illustrates that simple models of continental slope sedimentation only apply to a limited range of settings. 相似文献
13.
日喀则群砂泥质复理石的浊积层序非常发育,包括富泥的粘性高密度浊流、砂质高密度浊流、低密度浊流和Pickering及Hiscott(1986)的限制性泥质高密度浊流的沉积层序。其中,低密度浊流沉积层序的组合与鲍马(Bouma)层序很相似,两者的区别在于沉积的粒度、粒级分布范围、层序厚度和相组合等特征的不同。沉积相序、古流向和物源分析表明,日喀则群复理石盆地的南侧主要发育单向物源的海底扇体系,而盆地北侧以发育双向物源和多种沉积流体的复合沉积为特征。值得指出的是,特殊的浊积类型——限制性泥质高密度浊流沉积的发现为论证日喀则群复理石盆地属残留盆地又提供了一条有力的依据。 相似文献
14.
新疆北部泥盆系火山碎屑浊积岩层序结构特征及其地质意义 总被引:1,自引:0,他引:1
新疆北部泥盆系火山碎屑浊积岩包括粗粒、中粒和细粒火山碎屑浊积岩三大类,后者尚可进一步划分为粉砂质、泥质和生物成因浊积岩。岩性上以含火山物质有别于陆屑、钙屑浊积岩。在火山碎屑浊积岩中识别出20种层序结构,它们可归并为完整鲍马序列、连续不完整鲍马序列和间断不完整鲍马序列三类。文章认为:间断不完整鲍马序列是多个浊流事件或浊流事件与其他事件相互叠加、干扰的产物,为活动构造环境,特别是火山岛弧海中非单源、单方向浊流沉积或火山碎屑浊积岩或细粒浊积岩的重要特征。 相似文献
15.
Turbiditic and non-turbiditic mudstone of Cretaceous flysch sections of the East Alps and other basins 总被引:4,自引:0,他引:4
REINHARD HESSE 《Sedimentology》1975,22(3):387-416
Recognition of the occurrence and extent of hemipelagic and pelagic deposits in turbidite sequences is of considerable importance for environmental analysis (palaeodepth, circulation, distance from land, hemipelagic or pelagic versus turbidite sedimentation rates) of ancient basins. Differentiation between the finegrained parts (E-division) of turbidites and the (hemi-) pelagic layers (F-division of turbidite-pelagite alternations) is facilitated in basins where carbonate turbidites were deposited below the carbonate compensation depth (CCD) such as the Flysch Zone of the East Alps but may be difficult in other basins where less compositional contrast is developed between the fine-grained turbidites and hemipelagites. This difficulty pertains particularly in Palaeozoic and older basins. For Late Mesozoic-Cenozoic oceans with a relatively deep calcite compensation level three other types of turbidite basins may be distinguished for which differentiation becomes increasingly more difficult in the sequence from (1) to (3): (1) terrigenous turbidite basins above the CCD; (2) carbonate turbidite basins above the CCD; (3) terrigenous turbidite basins below the CCD. Criteria and methods useful for the differentiation between turbiditic and hemipelagic mudstone in the Upper Cretaceous of the Flysch Zone of the East Alps include calcium carbonate content, colour, sequential analysis, distribution of bioturbation, and microfaunal content. In modern turbidite basins clay mineral content, organic matter content, plant fragments, and grain-size (graded bedding, maximum grain diameter) have reportedly also been used as criteria (see Table 3). Deposition of muddy sediment by turbidity currents on weakly sloping sea bottoms such as the distal parts of deep-sea fans or abyssal plains is not only feasible but may lead to the accumulation of thick layers. Contrary to earlier speculation it can be explained by the hydrodynamic theory of turbidity currents, if temperature differences between the turbidity current and the ambient deep water as well as relatively high current velocities for the deposition of turbiditic muds (an order of magnitude higher on mud surfaces than commonly assumed) are taken into consideration. The former add to the capacity of turbidity currents to carry muddy sediment without creating a driving force on a low slope. 相似文献
16.
贺兰拗拉槽胡基台地区中奥陶统樱桃沟组深海重力流沉积特征 总被引:1,自引:0,他引:1
结合国际上深海沉积研究最新动态,分析了鄂尔多斯盆地西侧胡基台地区中奥陶统樱桃沟组野外剖面。认为该地层块状内部无层理砂岩为砂质碎屑流沉积而不是前人认为的浊流沉积。研究区发育有垮塌沉积、颗粒流沉积、砂质碎屑流沉积、浊流沉积等重力流沉积。该区樱桃沟组重力流沉积类型的总体分布特征是:下部发育钙屑浊流与大规模灰岩垮塌沉积,见砂质碎屑流沉积;中部主要发育陆源碎屑浊流沉积,但在其下部有较为发育的颗粒流沉积;上部发育陆源碎屑浊流沉积。其中垮塌沉积和颗粒流沉积作为对古构造的沉积响应,反映了樱桃沟期该地区的古构造地形为陡坡。 相似文献
17.
M. A. JOHNSON 《Sedimentology》1966,7(2):117-129
Some results of turbidity-current theory are applied to analyses of turbidite layers in cores from the route of a large turbidity current of sheet-flow type. Novel features are that current velocity is estimated from the sediment sizes deposited, and the lateral spreading of the current is considered. An approximate quantitative picture of the current is obtained. It is compared with the turbidity current which caused the Grand Banks cable breaks. 相似文献
18.
砂质碎屑流和底流改造——部分传统浊积岩成因新解 总被引:4,自引:0,他引:4
以鲍马层序为代表的古典浊积岩,在地质学界曾广泛流行。近年来的研究表明,真正的浊积岩是很少发生的。由于浊流和碎屑流具有不同的流变学特点,人们对部分传统浊积岩提出了砂质碎屑流和底流改造成因及其鉴别标志,并对传统海底浊积扇模式在进行重新研究的基础上提出了海底碎屑流模式。 相似文献
19.
Sustained turbidity currents and their interaction with debrite-related topography; Labuan Island, offshore NW Borneo, Malaysia 总被引:3,自引:0,他引:3
The Temburong Fm (Early Miocene), Labuan Island, offshore NW Borneo, was deposited in a lower-slope to proximal basin-floor setting, and provides an opportunity to study the deposits of sustained turbidity currents and their interaction with debrite-related topography. Two main gravity-flow facies are identified; (i) slump-derived debris-flow deposits (debrites) — characterised by ungraded silty mudstones in beds 1.5 to > 60 m thick which are rich in large (> 5 m) lithic clasts; and (ii) turbidity current deposits (turbidites) — characterised by medium-grained sandstone in beds up to 2 m thick, which contain structureless (Ta) intervals alternating with planar-parallel (Tb) and current-ripple (Tc) laminated intervals. Laterally discontinuous, cobble-mantled scours are also locally developed within turbidite beds. Based on these characteristics, these sandstones are interpreted to have been deposited by sustained turbidity currents. The cobble-mantled scours indicate either periods of intense turbidity current waxing or individual flow events. The sustained turbidity currents are interpreted to have been derived from retrogressive collapse of sand-rich mouth bars (breaching) or directly from river effluent (hyperpycnal flow). Analysis of the stratal architecture of the two facies indicates that routing of the turbidity currents was influenced by topographic relief developed at the top of the underlying debrite. In addition, turbidite beds are locally eroded at the base of an overlying debrite, possibly due to clast-related substrate ‘ploughing’ during the latter flow event. This study highlights the difficulty in constraining the origin of sustained turbidity currents in ancient sedimentary sequences. In addition, this study documents the importance large debrites may have in generating topography on submarine slopes and influencing routing of subsequent turbidity currents and the geometry of their associated deposits. 相似文献