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现代辽河三角洲潮流沉积 总被引:4,自引:0,他引:4
运用钻探和浅地层探测等获得的最新调查资料,对全新世以来辽河三角洲潮流沉积进行了研究。研究区10m深度内的地层主要包括潮滩相、潮道相和浅海相沉积,其下为古三角洲相。潮滩相沉积物以砂和粉砂为主,分选中等,跳跃和悬浮组分各占50%左右;浅海相和潮道相沉积物主要为软弱的黏土质粉砂和粉砂质黏土,以悬浮组分为主。全新世以来至1896年,研究区为古辽河与古大凌河、绕阳河复合三角洲之间的小海湾。1896年双台子河分洪以后,盖州滩等潮滩形成并快速发育,1969年建闸后,入海径流量不断减小,潮道趋于淤积充填。 相似文献
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胶州湾内外的涨、落潮三角洲上发育有一定规模的潮流沙脊体系,通过多波束调查采集数据和浅剖、沉积物资料的分析,对沙脊特征进行了研究。湾内涨潮三角洲上分别分布有冒岛沙脊、中央沙脊和岛耳河沙脊;湾外落潮三角洲上分别发育了潮流沙脊大竹、南沙、北沙和位于主潮流通道末端的弧状沙脊。潮流沙脊体系的演变具有较为明显的继承性。沙脊以海侵时期发育的沙体为内核,沉积物组成以粒度较粗的砂质沉积物为主,物源基础为低海平面时期胶州湾盆地内堆积的河流三角洲相沉积物。据分析,沙脊现代物源较为匮乏,整体目前处于冲刷不淤的状态。在现代潮流水动力条件下,研究区潮流沙脊处于活动状态。 相似文献
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潮流沉积学大会每4年举办一次,汇集了国际潮流沉积研究领域最前沿的学术成果。2008年,中国第一次成功举办第七届国际潮流沉积学大会。会议以现代和古代潮流沉积层序、潮流沉积水动力学、潮流沉积体系对全球变化的响应以及潮流沉积环境的监测和模拟为中心议题,详尽介绍了有"陆架潮流沉积地貌博物馆"之称的中国浅而宽的大陆架上的6个主要潮流沉积体系;集中关注与人类活动密切相关的潮控三角洲的发展变迁;对于潮流沉积层序的辨别和分析不仅表明了沉积的物质来源,还揭示了潮流和沉积物行为模式的动力学机制;潮流沉积的环境效应是区域性的,同时更是对于全球变化的明显响应。在此背景下,对其监测与物理、数值模拟在认识高、低纬度地区的潮流沉积体系对全球变化的响应以及极端气候事件对潮流沉积体系的改造中发挥了不可替代的作用。 相似文献
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用数值模拟方法揭示湛江潮汐汊道落潮三角洲的潮场特征和波浪场特征,探讨落潮三角洲地貌的形成,演化过程中的沉积动力学意义,并提出湛江港落潮三角洲沉积物的运动模式。 相似文献
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中国陆架潮流沉积体系和模式 总被引:27,自引:1,他引:26
在1991年中法合作渤海潮流沉积研究的基础上,查阅了国内外有关研究成果,分析了中国陆架的水深地形、沉积地貌与潮流动力的关系,认为潮流对中国陆架的海底地貌和沉积的形成发育起了主导作用。当潮流流速大于3节时,潮流的侵蚀作用是主要的,往复潮流多形成冲刷深槽,大大刷深了海峡或水道。当潮流流速1-3节时,潮流的沉积作用是主要的,多形成浅滩,即潮流沙脊和潮流沙席。以M2分潮椭率绝对值0.4为界,大于0.久者意味着潮流旋转性强,多形成潮流沙席;小于0.4者意味着潮流往复性强,多形成潮流沙脊。提出了我国邻近陆架发育了5个现代潮流沉积地貌体系:(1)黄海东部潮流沉积体系,它由西朝鲜湾潮流沙脊和其南部的沙席两者组成;(2)渤海东部潮流沉积体系,它由老铁山水道冲刷槽,辽东浅滩沙脊和渤中浅滩沙席三者组成;(3)长江口外潮流沉积体系,它由江苏滨外潮流沙脊和长江口浅滩潮流沙席组成;(4)台湾滨外潮流沉积体系,它由台湾海峡冲刷槽、台湾浅滩沙脊、澎湖水道冲刷槽和台中浅滩沙席四者组成;(5)琼州海峡潮流沉积体系,它由琼州海峡冲刷槽、东浅滩沙脊和西浅滩沙脊三者组成。此外,在东海陆架上还有冰后期海侵早期形成的残留潮流沉积体系。全新世陆架浅海潮流沉积模式可分海峡一浅� 相似文献
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高邮凹陷黄珏地区戴二段扇三角洲沉积特征 总被引:1,自引:0,他引:1
黄珏地区戴二段发育了以砂砾岩扇体为主的沉积体系。本文在岩心观察和描述的基础上,结合测井等资料,对黄珏地区戴二段砂砾岩体的沉积特征进行了研究。结果表明黄珏地区戴二段沉积时期在同生断层的下降盘主要发育水退型扇三角洲沉积体系。扇三角洲前缘是该区水退扇三角洲砂体堆积的主体,可进一步划分为水下分流河道、席状砂和分流间湾等砂体微相。不同的相带储层物性差异明显,扇三角洲前缘水下分流河道砂体储集物性较好,为油气聚集有利相带。该区沉积体系的形成受构造特征、古地貌和物源区等性质的影响,古地貌特征是该区水退型扇三角洲形成的决定性因素。 相似文献
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本次研究依据大量的钻井、露头和岩心资料,根据沉积构造、沉积层序特征及测井曲线对比分析,对姬塬地区延九段的沉积相进行研究,认为本区延九段为潮湿气候条件下的辫状河—辫状三角洲沉积,且明确了沉积相的时空展布和变化规律。研究区辫状三角洲平原上分流河道比较发育,还发育分流间、决口扇和沼泽沉积;三角洲前缘上主要发育水下分流河道和水下分流间。研究区储层砂体发育各种层理构造和侵蚀构造。河道砂坝储层物性好,常叠覆形成构造小高点,可形成构造-岩性油藏。 相似文献
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曹妃甸老龙沟动力地貌体系及演化 总被引:3,自引:0,他引:3
老龙沟为典型沙坝-泻湖型潮汐汊道,潮汐汊道地貌结构完整.老龙沟口门处潮流动力最强,发育-20m的深槽.口门内涨潮流三角洲上发育完整的多级水道体系.口门外落潮三角洲止于-11 m水深处.以突起的末端坝为地形标志,落潮主水道偏于落潮三角洲东侧发育,落潮三角洲西侧发育宽缓冲流平台.落潮主水道以落潮流为优势,冲流平台上潮流动力... 相似文献
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Depositional environment can change through geological time. This paper describes a delta that evolved from river-dominated into tide-dominated. The delta is located in the Ya13-1 field of the South China Sea. Understanding the change that occurred in the deltaic setting is important because the change in depositional environments led to changes in spatial distribution of facies and other rock properties.The Oligocene sediments of the third member of the Lingshui Formation in the Ya13-1 field were deposited in a river-dominated delta, and later impacted by marine flooding, fluvial and tidal currents. As a result of these different influences, the early-stage depositional micro-facies and the sandbody distributions are quite different from those of the later stage. At the early stage, fluvial influences prevailed, resulting in a fluvial-dominated delta plain and deposition of many linguoid sand bars in the delta front. During the late stage of deposition, tide-dominated delta fronts were developed extensively and finger sand bars deposited abundantly in the delta front as a result of the tidal influence.Ya13-1 gas field is laterally divided into two large subareas and vertically into eight stratigraphic packages. Because of the different influences of marine flooding that resulted in different interbeds and intercalations, the number of stratigraphic packages in the south is different from that in the north. The change of deltaic depositional environments also resulted in different reservoir properties between the northern and southern regions as the reservoir properties of mouth bars are generally better than distributary channels. These depositional characteristics significantly impact the development of the field. 相似文献
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基于湛江湾口外海图地形资料,采用GIS与动力地貌分析的方法,研究了近50年来湛江湾口外落潮三角洲的冲淤变化特征,对湛江湾口外落潮三角洲的演变机制进行了探讨。湛江口外落潮三角洲体系包括口外东北浅滩、西南边滩及口门通道深槽。近50年来,东北浅滩东缘及滩顶出现了侵蚀后退,浅滩西缘和南缘呈淤积趋势,东北浅滩整体有西移南扩趋势;西南边滩有不同程度的侵蚀后退;口门通道深槽有所淤积。湛江湾口外落潮三角洲侵蚀与沿岸泥沙供给不足及人类活动影响有关,口门通道深槽淤积除与落潮三角洲侵蚀泥沙向西搬运有关外,还可能与湛江湾内围垦导致口门通道潮汐动力减弱有关。航道北侧东北浅滩变化对航道回淤的可能影响值得关注。 相似文献
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Predicting the hydrodynamics, morphology and evolution of ancient deltaic successions requires the evaluation of the three-dimensional depositional process regime based on sedimentary facies analysis. This has been applied to a core-based subsurface facies analysis of a mixed-energy, clastic coastal-deltaic succession in the Lower-to-Middle Jurassic of the Halten Terrace, offshore mid-Norway. Three genetically related successions with a total thickness of 100–300 m and a total duration of 12.5 Myr comprising eight facies associations record two initial progradational phases and a final aggradational phase. The progradational phases (I and II) consist of coarsening upward successions that pass from prodelta and offshore mudstones (FA1), through delta front and mouth bar sandstones (FA2) and into erosionally based fluvial- (FA3) and marine-influenced (FA4) channel fills. The two progradational phases are interpreted as fluvial- and wave-dominated, tide-influenced deltas. The aggradational phase (III) consists of distributary channel fills (FA3 and FA4), tide-dominated channels (FA5), intertidal to subtidal heterolithic fine-grained sandstones (FA6) and coals (FA7). The aggradational phase displays more complex facies relationships and a wider range of environments, including (1) mixed tide- and fluvial-dominated, wave-influenced deltas, (2) non-deltaic shorelines (tidal channels, tidal flats and vegetated swamps), and (3) lower shoreface deposits (FA8). The progradational to aggradational evolution of this coastal succession is represented by an overall upward decrease in grain size, decrease in fluvial influence and increase in tidal influence. This evolution is attributed to an allogenic increase in the rate of accommodation space generation relative to sediment supply due to tectonic activity of the rift basin. In addition, during progradation, there was also an autogenic increase in sediment storage on the coastal plain, resulting in a gradual autoretreat of the depositional system. This is manifested in the subsequent aggradation of the system, when coarse-grained sandstones were trapped in proximal locations, while only finer grained sediment reached the coastline, where it was readily reworked by tidal and wave processes. 相似文献
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本文以粤西水东湾表层沉积物样品的粒度分布为基本数据,使用对应分析方法并结合地形与波流特征,分析了海湾动力沉积环境。分析结果表明,海湾现代沉积环境可划分为4个动力沉积区。 相似文献
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The Bay of Banten is an example of a shallow-water reef environment adjacent to an eroding delta system, where corals survive in turbid conditions. This study investigated the hydrodynamic controls over residual fluxes of terrigenous sediment in the bay. Observations of wind, waves, currents and suspended sediment concentrations in 1998 and 1999 revealed contrasting dynamic turbidity conditions influenced by tides, monsoon-driven flows and locally generated waves. The most sediment-rich suspensions originate from the shallow coastal margin of an inactive delta, where waves resuspend sediment and small creeks discharge freshwater and sediment. Because of coupling between monsoonal wind, throughflow in the bay and wave height, when wave-induced resuspension peaks seasonally during the northwest monsoon, an eastward throughflow prevents the nearshore reefs in the bay from being directly exposed to turbid water masses generated in the eroding delta. In inshore waters, tidal asymmetry and the spatial variation of current amplitudes cause residual sediment transport, largely depending on the availability of erodible sediment. In the center of the bay, where there is a patch reef complex, the tidal and subtidal currents are weak and therefore here there is a zone where sediment accumulates. 相似文献
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Stratigraphic models for microtidal tidal deltas; examples from the Florida Gulf coast 总被引:1,自引:0,他引:1
Richard A. Davis Jr. C. Kelly Cuffe Katherine A. Kowalski Eric J. Shock 《Marine Geology》2003,200(1-4):49-60
Extensive vibracoring of both flood- and ebb-tidal deltas along the central Gulf Coast of the Florida peninsula reveals a strong overall similarity with subtle distinctions between flood and ebb varieties. Although the coast in question is microtidal, the inlets range from tide-dominated to distinctly wave-dominated. Both types of tidal deltas overlie a muddy sand interpreted to have been deposited in a back-barrier environment. The sharp contact at the base of the tidal delta sequence is typically overlain by a thin shell gravel layer. The ebb-tidal delta sequence is characterized by fine quartz sand with shell gravel in various concentrations; coarse and massive at the margins of the main ebb channel, and finer and imbricated at the marginal flood channels. The flood-tidal deltas are characterized by the same facies but with a small amount of mud. Shelly facies on the channels on flood deltas are not as well developed as on the ebb deltas. The combination of the stratigraphic sequence and the lithofacies make tidal deltas readily identifiable in the ancient record. The differences between flood and ebb varieties are subtle but consistent. 相似文献