共查询到17条相似文献,搜索用时 390 毫秒
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【意义】异重流(hyperpycnal flow)是一种源自洪水期河口、受重力驱动而沿沉积盆地底部流动、以准稳态存在的高密度沉积物重力流。异重流沉积研究对于地质科学进步、地质灾害防治和油气勘探开发等具有重要的理论和现实意义,已成为地球科学与工程领域的研究热点之一。【进展与结论】通过对国内外相关研究进展的综合分析,结合国内湖相异重流沉积典型实例研究,认为:(1)异重流的形成需要两种流体之间有足够的密度差、蓄水水体有足够的深度和突发的洪水事件3个基本条件,就输入流体密度条件而言,海相(或咸水)环境要远大于陆相(或淡水)环境;(2)异重流的形成主要受控于构造、气候、地形、物源供给等因素的综合作用,活跃的构造、湿润的气候、陡峭的地形和充足的碎屑物质供给有利于异重流的发生;(3)在不同沉积位置和沉积背景条件下,异重岩(hyperpycnite)的沉积特征不尽相同,故难以用单一的标志来判识不同条件下沉积的异重岩;(4)在靠近(分流)河口近端(扇根),异重流沟道可与水下分流河道相连,以主水道的侵蚀、填充作用为主,形成下切的主水道砂砾岩体,以侵蚀面+滞留沉积+正粒序砂岩为主要鉴别特征,可含动物及植物茎... 相似文献
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鄂尔多斯晚三叠世湖盆异重流沉积新发现 总被引:15,自引:4,他引:11
水下重力流沉积作为重要的油气储层,已成为当前学术研究和油气工业共同关注的焦点.在鄂尔多斯盆地南部延长组长7~长6油层组深湖相沉积中,发现一种不同于砂质碎屑流沉积和滑塌浊积岩的重力流成因砂岩.其沉积特征为一系列向上变粗的单元(逆粒序层)和向上变细的单元(正粒序层)成对出现;每一个粒序层组合内部的泥质含量变化(高-低-高)与粒度变化一致;上部正粒序层与下部逆粒序层之间可见层内微侵蚀界面;砂岩与灰黑色纯泥岩、深灰色粉砂质泥岩互层;粉砂质泥岩层内也表现出类似的粒度变化特征.通过岩芯观察和薄片鉴定,认为该岩石组合形成于晚三叠世深湖背景下的异重流(hyperpycnal flow)沉积.其沉积产物--hyperpycnite(异重岩?)以发育逆粒序和层内微侵蚀面而区别于其它浊积岩,逆粒序代表洪水增强期的产物,上部的正粒序层为洪水衰退期的沉积,逆粒序-正粒序的成对出现代表一次洪水异重流事件沉积旋回;层内微侵蚀面是洪峰期流速足以对同期先沉淀的逆粒序沉积层侵蚀造成的.鄂尔多斯盆地延长组异重岩的发现,不仅为探索陆相湖盆环境下的异重流沉积提供了一个范例,而且对于深水砂体成因研究、储层预测和油气勘探具有理论和现实意义. 相似文献
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异重流是一种与河口相连、密度大于周围水体(湖泊或海洋)沿水底流动的流体,通常在干热气候、少植被的地区洪水期产生,也是一种持续型浊流。综合资料表明,异重流在流动过程中流量振荡频繁,但整体表现为先增强、后衰减的特点。由异重流形成的沉积岩被称为异重岩,其识别标志包括其垂向上为复合韵律,交错层理和块状层理砂砾岩的交替出现,层面富含有机质和陆源植物碎屑以及内部冲刷面发育等。异重流沉积垂向叠加厚度达数十米,平面主要表现为以具有水道、舌状体和堤岸沉积单元的点物源富砂型或富泥型海(湖)底扇为特征。由于异重岩具备形成优质储层的良好条件,因而具有重要的油气地质意义,可以作为有利的勘探目标。 相似文献
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异重流沉积动力学过程及沉积特征 总被引:6,自引:0,他引:6
异重流(hyperpycnal flows)是指在汇水盆地水深足够条件下,由于携带大量沉积物颗粒,导致流体密度大于稳定环境水体的密度,流体受浮力影响小,沿盆地底部流动的高密度流体,在海水环境中形成异重流的临界沉积物密度为36~43 kg/m~3(体积浓度1.3%~1.7%)。异重流主要受洪水触发形成;从河口到汇水盆地经过回流区、深度有限流区、潜入区的演化,最终形成异重流;主要经历"早期沉积—侵蚀过路—晚期沉积"的沉降过程,在沉积近端以侵蚀充填沉积为主,远端以持续沉积为主;异重流的形成及其沉积主要受地形、气候、物源的控制,地形高差大、半干旱气候条件、丰富的细粒悬浮沉积物供给有利于异重流形成。异重流沉积特征及沉积序列受"源—汇"系统的控制,以流水成因交错层理、层内突变接触面或侵蚀接触面、碳质碎屑和植物碎片为区别于其他深水重力流沉积的典型沉积构造;沉积序列由沉积近端到沉积远端可能依次发育厚层序列、逆正粒序序列、薄层细粒序列。异重流研究具有十分重要的意义,能够丰富和完善深水重力流理论、探究古气候变化和古洪水作用规律、合理解释深水重力流沉积和砂体分布特征、指导深水常规和非常规油气的勘探。 相似文献
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冲绳海槽西南端1.3ka以来异重流沉积记录及其古气候响应 总被引:1,自引:1,他引:0
以冲绳海槽西南端的HOBAB4?S1岩芯为研究对象,综合利用粒度、沉积构造、AMS14C测年等资料,对研究区异重流沉积特征进行研究,对异重流发育的时间段与晚全新世气候事件进行对应。结果表明,岩芯中发育17段异重流沉积,其沉积物组分以砂质粉砂为主,粒度频率分布曲线多呈以70~130 μm为中心的单峰,C?M图上样品点集中分布区间大致平行于C=M基线,且位于PQ段以下,表明沉积物搬运方式为重力流悬浮搬运。异重流内部发育平行层理、爬升沙纹层理和粒序层理等沉积构造。异重流沉积类型主要有两类,一类是厚层异重流沉积,底部侵蚀面发育,内部发育多组逆—正粒序组合,指示了水动力较强,侵蚀作用和沉积作用均较明显的异重流近端沉积;另一类是薄层异重流沉积,底部侵蚀面不发育,内部不发育或仅发育一组逆—正粒序组合,指示了水动力较弱的异重流边部沉积。HOBAB4?S1岩芯的异重流层段集中发育在800~1 300 A.D.之间,指示了当时气候条件为高温高湿,台风、洪水频发,降雨量较大,验证了“中世纪暖期”在东亚地区的存在。 相似文献
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以涠西南凹陷北部陡坡带中段流一段下亚段为研究对象,综合利用三维地震、测井、录井、钻井岩心及分析测试等资料,对研究区异重流成因深水扇的沉积特征、控制因素及沉积模式进行了研究。结果表明,断陷盆地陡坡带至湖盆底部可发育洪水型异重流沉积,依次为顺直水道、弯曲水道和朵叶体,其延伸距离约为15 km,宽度为50~150 m。其中,水道地震反射明显强于周围深水泥岩,其内部沉积以砂岩和含砾砂岩为主;朵叶体沉积主要为细砂岩或粉砂岩,富含陆源植物碎屑,其粒度概率曲线以上拱弧式及宽缓上拱式为主,样品点分布大致平行于C=M基线,指示重力流沉积动力特征。垂向上,单层砂岩一般表现为逆粒序与正粒序成对出现,中部粒度最粗,可见泥质碎屑呈叠瓦状排列,且发育层内微侵蚀面。此外,异重流沉积内部发育块状层理、平行层理、波状交错层理及爬升砂纹层理等沉积构造。“源汇”系统决定了异重流的沉积特征与展布,万山隆起东部岩浆岩等物源输入是异重流形成的物质基础,强构造运动、陡坡折带、湿润半湿润气候及低湖水密度是控制异重流发育程度的主要因素。研究区异重流的发现不仅丰富了断陷湖盆陡坡带沉积相类型,也为陡坡带进一步油气勘探提供了理论依据。 相似文献
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页岩油气的勘探开发推动了泥页岩沉积机理研究的快速发展,使得细粒物质的搬运和沉积成为当今沉积学界和油气工业界共同关注的焦点。尽管海洋环境下的泥质重力流沉积研究成果频见报道,但有关我国新生代湖泊环境中的泥质重力流沉积尚未引起沉积学界的关注。故本文在国内外相关文献调研基础上,以岩芯观察和薄片鉴定为重点,分析了渤海湾盆地东营凹陷古近系沙河街组三段湖相泥质重力流沉积特征;探讨了湖相泥质重力流沉积的形成机制;以期为湖泊沉积学研究和陆相页岩油气开发提供参考。研究发现,东营凹陷古近系沙河街组三段发育泥质块体流、泥质碎屑流、泥质浊流及泥质异重流等多种重力流沉积类型;泥质滑塌岩、泥质碎屑岩、泥质浊积岩和泥质异重岩在时空上可以共生共存。认为泥质沉积物可以在动荡水体和较强水动力条件下沉淀;泥质重力流沉积在深水沉积区占有重要地位;泥质重力流对于泥页岩中的粗粒碎屑物质、有机质的搬运和沉积以及有机质的埋藏起到重要作用,因而具有重要的非常规油气地质意义。 相似文献
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陆相伸展盆地的层序类型、结构和序列与充填模式--以冀中坳陷下第三系为例 总被引:6,自引:2,他引:6
陆相层序受自然地理景观、影响地层发育的地质营力及地层类型等因素影响,因此层序类型多种多样。在冀中坳陷同伸展期发育洪积层序、湖泊层序和冲积层序等三种层序类型。洪积层序是盆地伸展初期地貌反差较大物源供给充分气候干旱条件下发育的一种陆相层序类型,以冲积扇沉积为主,山高盆窄,汇水湖泊面积较小;湖泊层序发育在盆地强烈伸展基底快速沉降气候湿润湖泊水域宽深时期,湖泊水域宽,连通好,湖水深,是烃源岩发育的黄金时期。湖泊层序以湖泊沉积为主,其次为河流和少许冲积扇沉积。冲积层序是在盆地伸展末期地貌反差强度减弱物源距离逐渐加大时的沉积产物,主要为干旱气候条件下的河流、三角洲沉积,湖泊沉积局限。研究表明,影响陆相层序形成的构造、物源、气候等因素与湖泊水体或水平面变化构成一种多元“函数”关系,湖平面变化是上述因素的综合体现。陆相断陷盆地的层序结构大多与湖泊水体之间存在密切联系,因此层序的结构以三分为主。受地壳构造运动控制,断陷盆地发育的层序具有序列性,即下部洪积层序、中部湖泊层序和上部冲积层序。这种序列性是盆地充填对地壳幕式伸展的沉积响应。在盆地充填过程中,不同类型的陆相层序其体系域发育程度具有较大差异。一般地,洪积层序的低位域沉积? 相似文献
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陆盆层序地层研究的思路 总被引:8,自引:1,他引:7
根据陆相地层层序发育的特点,冲积扇、河流、三角洲或湖泊沉积环境,均受地层基准面控制,地层基准面穿越旋回控制着陆相环境重大层序分布。根据不同时间间隔的基准面穿越旋回序次,可将陆层序划分为盆地充填层序、构造层序、层序、亚层序以及小层序5个级别。每个层序(三级)根据蕨面的波动可划分为基准面上升沉积体系域和基准面下降沉积体系域,然后可进一步根据亚层序组的叠置特性进行细分。 相似文献
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Deep-water gravity flows are one of the most important sediment transport mechanisms on Earth. After 60 years of study,significant achievements have been made in terms of classification schemes,genetic mechanisms,and depositional models of deep-water gravity flows. The research history of deep-water gravity flows can be divided into five stages: incipience of turbidity current theory; formation of turbidity current theory; development of deep-water gravity flow theory; improvement and perfection of deep-water gravity flow theory; and comprehensive development of deep-water gravity flow theory. Currently,three primary classification schemes based on the sediment support mechanism,the rheology and transportation process,and the integration of sediment support mechanisms,rheology,sedimentary characteristics,and flow state are commonly used.Different types of deep-water gravity flow events form different types of gravity flow deposits. Sediment slump retransportation mainly forms muddy debris flows,sandy debris flows,and surge-like turbidity currents. Resuspension of deposits by storms leads to quasi-steady hyperpycnal turbidity currents(hyperpycnal flows). Sustainable sediment supplies mainly generate muddy debris flows,sandy debris flows,and hyperpycnal flows. Deep-water fans,which are commonly controlled by debris flows and hyperpycnal flows,are triggered by sustainable sediment supply; in contrast,deep-water slope sedimentary deposits consist mainly of debris flows that are triggered by the retransportation of sediment slumps and deep-water fine-grained sedimentary deposits are derived primarily from finegrained hyperpycnal flows that are triggered by the resuspension of storm deposits. Harmonization of classification schemes,transformation between different types of gravity flow deposit,and monitoring and reproduction of the sedimentary processes of deep-water gravity flows as well as a source-to-sink approach to document the evolution and deposition of deep-water gravity flows are the most important research aspects for future studies of deep-water gravity flows study in the future. 相似文献
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深水重力流沉积领域是当前全球油气勘探与研究的热点,陆相盆地深水重力流沉积研究在我国已有50年历程,大致可以分为3个阶段,即浊流理论探索与发展阶段(1970—1980年)、浊流理论工业化应用阶段(1990—2000年)和砂质碎屑流研究阶段(2010年以后)。近10年来,随着国际深水沉积理论的发展与我国油气勘探技术的进步,湖盆深水沉积研究工作进展迅速,涌现出了大量的新成果、新认识,主要包括以下4个方面: 1)湖盆中央深水区至少存在浊流、异重流、砂质碎屑流及底流4种类型的重力流与牵引流沉积;2)湖盆中不同类型的流体在搬运与沉积过程中存在互相转化,形成混合事件层(Hybrid Event Bed);3)建立了湖相砂质碎屑流搬运—沉积过程的鉴别标志—— “泥包砾”结构(Mud-coated intraclasts);4)地震沉积学理论与技术方法在湖相重力流内部沉积单元解剖、湖盆深水沉积模式建立等方面取得巨大成功。展望未来,为适应油气工业勘探开发需求,湖盆深水沉积研究发展趋势主要有5个方面: 1)深水砂体成因类型划分、搬运—沉积过程及沉积模式的建立与完善;2)深水泥页岩(细粒沉积)成因机理、类型划分及其油气意义研究;3)深水沉积“源—汇”系统与地震响应及评价预测研究;4)深水沉积搬运—沉积过程实验模拟研究;5)新的深水沉积理论体系建立及其在油气勘探开发中的应用。 相似文献
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随着页岩油气勘探开发和相关领域研究的不断深入,细粒沉积物的搬运和沉积已成为当前沉积学研究的热点问题之一,但中国中生代湖泊环境中的泥质重力流沉积尚未引起应有的关注。通过岩心观察、薄片鉴定等手段及综合研究,分析了鄂尔多斯盆地晚三叠世湖相泥质重力流沉积特征,探讨了其形成机制与成因分类。鄂尔多斯盆地三叠系延长组湖相泥页岩结构类型多样,发育泥质块体流沉积、泥质碎屑流沉积、泥质浊流沉积和泥质异重流沉积等多种重力流沉积类型。按照泥质含量将重力流划分为砂质重力流、泥质重力流和混合重力流3种亚类,并根据成因将重力流划分为滑塌体、碎屑流、浊流及异重流等4种亚类;结合成因和泥质含量,将重力流沉积共划分为12种类型。滑塌岩、碎屑岩分布于三角洲前缘斜坡脚附近;浊积岩、异重岩广泛分布于三角洲斜坡至沉积中心。认为泥质沉积物可以在强水动力条件下搬运-沉积;重力流沉积细粒物质在湖相沉积中占据很大的比例;泥质重力流对泥页岩中的碎屑物质、黏土矿物及有机质的搬运和沉积起到重要作用,因而对于页岩油气的生烃、储集性能和压裂工艺研究具有重要意义。 相似文献
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B.Z. Xian J.H. Wang J.P. Liu Y.L. Dong C.L. Gong Z.Y. Lu 《Australian Journal of Earth Sciences》2018,65(1):135-151
Sediment avalanche from delta ramp is one of the significant development mechanisms for a turbidite system in a lacustrine basin. To advance our understanding of deep-water sedimentary processes in a lacustrine delta ramp, delta-fed turbidites in the Eocene Dongying depression of the Bohai Bay Basin were studied using core data, 3-D seismic data and well log data. Sandy debris flows, muddy debris flows, mud flows, turbidity currents, slides, sandy slumps and muddy slumps were interpreted based on the identification of lithofacies. Data indicates that deep-water sedimentary processes in the study area were dominated by debris flows and slumps, which accounted for ~68% and 25% (in thickness) of total gravity flow deposits, respectively; turbidity-current deposits only accounted for ~5%. Mapping of turbidites showed that most were deposited after short-distance transportation (<20 km), restricted by the scale of deep-water areas and local topography. Channels, depositional lobes, debris flow tongues, muddy turbiditic sheets, slides and slumps were identified in a delta-fed ramp system. Slides and slumps were dominant at the base of slopes or at the hanging walls of growth faults with strong tectonic activity. Channels and depositional lobes developed in gentle, low-lying areas, where sediments were transported longer distances. Sand-rich sediment supply, short-distance transportation and local topography were crucial factors that controlled sedimentation of this ramp system. Channels generally lacked levees and only produced scattered sandstones because of possible hydroplaning of debris flow and unstable waterways. In addition to lobes, debris flow tongues could also be developed in front of channels. These findings have significant implications for hydrocarbon exploration of deep-water sandstone fed by deltas in a lacustrine basin. 相似文献
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The impact of meteoric water on the diagenetic alterations in deep-water, marine siliciclastic turbidites 总被引:1,自引:0,他引:1
H. Mansurbeg Mohamed A.K. El-ghali S. Morad P. Plink-Bjrklund 《Journal of Geochemical Exploration》2006,89(1-3):254
Meteoric-water flux and formation of kaolinite owing to the dissolution of detrital silicates are common features of continental and paralic sandstones. In deep-water marine sandstones, meteoric-water flux is commonly considered unlikely to occur. However, the study of deep-water, marine sandstones of the Shetland–Faroes Basin on the British continental shelf revealed widespread and extensive dissolution and kaolinitization of mica and feldspar grains, which are attributed to meteoric-water flux during a sea-level lowstand. We suggest that this apparently enigmatic meteoric-water flux mechanism is likely to have occurred by hyperpycnal flow. Hyperpycnal flow occurs when river effluent directly transfers into sediment gravity flow, and enters seawater as a mixture of sediment and fresh water. The likelihood for hyperpycnal flows increases at times when rivers and distributary channels reach the shelf edge, and their flows are delivered directly onto the deepwater slope. 相似文献
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Sequences of wave-enhanced sediment-gravity flows (WESGFs) have been widely recognized in the marine shelf environment. In this study, we show observations of WESGF deposits in lacustrine settings using well core and thin section data from the Paleogene in the Jiyang sub-basin, Bohai Bay basin, eastern China. The findings of this study include the following: 1) the sequence of WESGFs in the lacustrine basin is similar to that of marine; it consists of three units, MF1 unit: siltstone with basal erosion surface, MF2 unit: silt-streaked claystone, and MF3 unit: silty-mudstone; and 2) prodelta sand sheets are found in the lacustrine WESGF sequence and are classified as the MFd unit: clay-streaked siltstone. However, because the system size and variability in hydrodynamic conditions are different between the lacustrine and marine basins, lacustrine WESGFs do appear to have three distinguishable features: 1) the sediment grain size and sand content are slightly higher than those of the marine WESGFs; 2) lacustrine WESGFs may contain prodelta sediments or sedimentary sequences of other types of gravity flows, such as hyperpycnal flows; and 3) the scale of the sedimentary structures for lacustrine WESGFs is smaller. The WESGFs found in the continental lacustrine basin provide a new model for sediment dispersal processes in lake environments and may be helpful to explain and predict the distribution of sandy reservoirs for oil and gas exploration. 相似文献