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1.
细粒浊积岩是一类较为特殊的浊积岩类型,与可用鲍马序列解释的完整经典浊积岩相比,其颗粒粒径明显偏细,小于63μm的颗粒含量超过50%。通过对四川盆地北部唐家河剖面寒武系第二统郭家坝组上部地层的系统研究发现,Stow细粒浊积岩序列发育广泛。该序列下部(T0-T3)主要为极细砂、粉砂与泥质纹层互层,发育微弱冲刷构造和泄水构造等软沉积物变形构造;中部(T4-T6)为泥质层段夹断续粉砂质纹层;上部(T7-T8)转变为均质泥岩段,生物扰动构造发育,整体序列具有正粒序特征。浊积岩序列中碎屑颗粒主要为石英、岩屑和云母,长石少见,杂基含量高;粒度频率分布曲线(直方图)显示颗粒分选性比传统浊积岩好,且自下而上各砂质纹层内颗粒粒径变细;概率值累计曲线表现为“一段式”和“上凸的折线式”2种,且悬浮组分占据了绝大优势;C-M图以平行于“C=M”基线为特征,但受碎屑颗粒粒级偏小的影响,投点整体沿C=M基线向左下偏移,显示该序列具有浊流递变悬浮沉积的特点。结合筇竹寺阶(第二统)沉积背景,认为靠近研究区西北侧的摩天岭古陆为浊积岩发育的主要物源区,台内地形的遮挡为细粒浊积岩的发育提供了良好的地形条件,悬浮搬运和阵发性环境事件(如风暴、洪水等)搬运为细粒沉积物主要的搬运机制。以唐家河剖面为代表的寒武系郭家坝组细粒浊积岩的广泛发育,对于认识四川盆地北缘古地理格局和非常规油气勘探具有重要意义。  相似文献   

2.
碎屑岩和碳酸盐岩分别产自“外源、浑水”与“内源、清水”环境,二者的交替互层沉积可反映古水体性质、物源供给及气候等环境要素的频繁改变。晚石炭世,柴达木盆地北缘构造相对稳定,盆内发育巨厚的、多级次嵌套的“碎屑岩—碳酸盐岩混积层系”,记录了“冰室地球”冰川活动下的古海平面大幅度升降和古气候、古环境频繁交替信息。文中以柴达木盆地北缘连续完整露头剖面和钻井取心剖面为研究对象,结合区域地质资料、前人研究成果,通过详细的岩心、露头及镜下薄片观察,在研究区重点层段识别出下切谷充填型碎屑岩沉积和碳酸盐岩台地沉积组成的频繁互层序列。碎屑岩—碳酸盐岩互层组合序列在垂向上的有序叠加,构成了复合海平面变化旋回层序,其从碳酸盐岩—改造型台地沉积开始,向上依次发育碎屑岩下切谷充填序列的底部冲积河道沉积、中部河口湾序列和顶部代表海泛面的泥岩沉积,最后转变为碳酸盐岩向海到向陆台地亚相,反映了一个显著的早期海退—中期逐渐海侵—后期再次海退的旋回过程。冰川期急剧变冷的气候和冰川型高频的大幅度海平面升降,驱动滨线及相带迁移,影响到碎屑岩供给速率和碳酸盐生产率,造成了碎屑岩—碳酸盐岩的高频转换。  相似文献   

3.
受制于钻井资料少及地质条件复杂,珠江口盆地白云主洼古近系文昌组三级层序格架内的沉积体系发育特征及沉积充填演化关系一直缺乏系统研究,严重制约着白云主洼深部地层的油气勘探。基于三维地震和钻井资料,采用层序原型结构剖面恢复、增强地震相分析、砂体地震扫描解释等新技术方法,重建白云主洼文昌组三级层序的沉积体系,并结合主洼构造演化特征,还原文昌组的沉积充填演化过程。结果表明: 白云主洼文昌组发育4个“源-汇”体系,分别为西北缓坡带纯陆源碎屑的大型辫状河三角洲—湖泊相沉积、东北斜坡带陆源与火山碎屑混源的大—中型辫状河三角洲—湖泊相沉积、西南轴向陡坡带纯陆源碎屑的近岸水下扇和扇三角洲—湖泊相沉积、东南陡坡带陆源与火山碎屑混源的小型近岸水下扇及扇三角洲—湖泊相沉积。白云主洼文昌组沉积时期的演化过程可大致分为河流(WCSQ1下段)、河流—湖泊(WCSQ1上段)、超深湖发育(WCSQ2下段)、超深湖早期充填(WCSQ2上段)、超深湖充填(WCSQ3、WCSQ4)、浅湖发育(WCSQ5)等6个发育阶段,湖盆经历了初始成盆、强烈断陷为超深湖、被大规模沉积充填为深湖—半深湖,最后直至充填为浅湖的沉积演化过程。  相似文献   

4.
利用沉积转换事件再造关键变革期的构造活动和气候演变是源-汇系统研究的新动向和切入点。新生代以来,印度大陆与亚洲大陆的汇聚隆升以及喜马拉雅-青藏高原的剥蚀、向孟加拉湾的物质输入,形成了当今世界上最大的源-汇系统(喜马拉雅-孟加拉湾源-汇系统)。利用3D地震数据和IODP 354与362航次获取的碎屑锆石数据揭示了晚中新世以来孟加拉-尼科巴扇沉积转换事件及其源-汇成因机制。研究认为尼科巴扇和孟加拉扇经历了此消彼长的沉积建造过程:尼科巴扇经历了“晚中新世快速进积→上新世缓慢建造→第四纪相对静止”的建造过程;而孟加拉扇经历了“晚中新世相对静止→上新世缓慢建造→第四纪快速进积”的沉积建造过程。喜马拉雅-孟加拉湾源-汇系统碎屑锆石年龄核密度统计结果显示:晚中新世以来,指示古布拉马普特拉河迁移演化路径的60~0 Ma碎屑锆石在若开-尼科巴扇呈现出逐渐减少的变化趋势,而在孟加拉扇呈现出逐渐增多的变化趋势。这一碎屑锆石年龄核密度变化特征表明:(1)在晚中新世,古布拉马普特拉河主沉积物分散路径靠近孟加拉湾东部一侧发育且大量碎屑颗粒向尼科巴扇搬运分散,形成“快速进积的尼科巴扇和相对静止的孟加拉扇”;(2)在上新世初,青藏高原隆升所诱发的西隆高原抬升使古布拉马普特拉河向西迁移分流,在古西隆高原北缘Mikir山附近分流为东西两支,东支向尼科巴扇搬运分散的碎屑颗粒开始减少,而西支向孟加拉扇搬运分散的碎屑颗粒开始增多,形成“以缓慢建造为演化特征的尼科巴-孟加拉扇”;(3)在第四纪初,印度板块-亚洲板块最强碰撞造成青藏高原最强隆升并达到最大海拔高度,古布拉马普特拉河东支袭夺废弃,向尼科巴扇卸载的沉积物相应显著减少,而古布拉马普特拉河西支与恒河并流后向孟加拉扇卸载的沉积物亦相应显著增加,形成“相对静止的尼科巴扇和快速进积的孟加拉扇”。由此可见,尼科巴-孟加拉扇“此消彼长的跷跷板式沉积转换事件”是古布拉马普特拉河沉积物分散路径迁移演化的源-汇响应;其在上新世-第四纪之交发生了一起最为显著的沉积转换事件,其是上新世晚期印度板块-亚洲板块碰撞的源-汇响应。  相似文献   

5.
鄂尔多斯中东部地区奥陶系马家沟组发育巨厚的碳酸盐岩与膏盐岩交互的沉积体系,但对其沉积发育的规律性及其内部天然气成藏聚集的基本地质特征尚未形成明确的认识。通过对奥陶系碳酸盐岩-膏盐岩体系形成时的构造与古地理背景、沉积特征、储层发育、烃源供给及圈闭聚集等方面的分析,形成新的观点与地质认识:(1)受盐洼周边古隆起影响,奥陶系碳酸盐岩-膏盐岩共生体系形成于与外部广海周期性隔绝的局限海蒸发环境,导致其岩性“相控”与“层控”分布特征极为显著;(2)首次提出“非层状沉积分异”的概念,并认为它是控制奥陶系内幕“溶孔型”储层发育的决定性因素;(3)受区域岩性相变及后期构造反转的控制,奥陶系盐下层系具有形成大区域分布的岩性圈闭体系的有利条件;(4)盐下层系虽自身的海相烃源岩生烃潜力有限,但由于燕山期东部构造抬升与西侧上古生界煤系烃源“供烃窗口”及膏盐封盖层区域性连续分布等要素密切配合,仍具有规模供烃、大区带成藏的潜力。  相似文献   

6.
苏怀  史正涛  董铭  叶燎原  叶蕾 《地学前缘》2021,28(2):202-210
古堰塞湖溃决洪水事件的重建是当前地学研究的热点问题之一,寻找足够的可参考的现代溃决洪水事件案例是顺利开展这项工作的基础。2018年11月13日发生在金沙江干流的白格堰塞湖超万年一遇的溃决洪水事件(学术界称之为“11·3”白格堰塞湖溃决洪水事件)就是一个难得的样本。这次溃决事件发生在枯水期,洪峰完全由溃决洪水产生,没有叠加其他来源,对评估流域地貌和沉积体系对堰塞溃决事件的响应有很好的参考价值。本文以溃决洪水事件受灾最为严重的奔子栏—石鼓段为研究区,通过详细的野外调查和初步的水力学估算发现“11·3”白格堰塞湖溃决洪水事件在奔子栏—石鼓段的地貌作用主要表现为洪水淹没区的岸坡塌岸和沉积物堆积,未发现明显的基岩侵蚀。沉积物主要由分选良好的具水平纹层的砂组成。受金沙江较低的河床比降影响,洪水产生的基底剪切应力较弱在27~142 N/m2,不能悬浮和搬运直径5 cm以上的砾石,也不能产生明显的磨蚀和冲(撞)击作用。在发生塌岸的部分段落,洪水沉积物中有砾石坠入,甚至会出现类似浊流沉积的层序。这些现象的发现对深入理解堰塞湖溃决洪水的复杂地貌过程和沉积特征有重要参考意义。  相似文献   

7.
古洪水沉积物是研究地史时期极端降水事件和古环境演化的重要载体。基于地质记录开展古洪水重建研究,可以为揭示区域洪水历史过程及机制提供依据,对水资源利用和工程建设等具有重要的现实意义。本文以漕河古河道北岸出露较好的李迪城村剖面为研究对象,综合地层序列、野外沉积特征、沉积构造及沉积物粒度分析,对白洋淀地区漕河古河道沉积记录的古洪水事件进行了识别,发现该剖面具有以下主要特征:古洪水沉积层与下伏地层存在明显的冲刷侵蚀面,沉积体形态呈透镜状,由泥砾、炭屑、双壳类及灰黑色粉细砂混杂组成,发育中小型交错层理;洪水沉积物粒度指标(中值粒径、砂含量、黏土/粉砂值及Q90)表现为高值,以细砂为优势组分,含混杂的粉砂及少量黏土,分选较差;古洪水沉积层中古树与双壳类集中埋藏,呈定向排列,其指示的方向与遥感影像揭示的古河道方向一致。通过该剖面沉积特征及地层AMS 14C年代分析,确定漕河在全新世早期约10.8~9.6 ka BP发生了4期古洪水事件,这4期古洪水事件可以与该时期华北地区其它古洪水事件进行对比。当时正值全新世早期,东亚夏季风增强,为气温和降水频繁波动上升时期,据此推断白洋淀地区全新世早期的古洪水事件是当时气候背景下的产物。  相似文献   

8.
前陆盆地由于其独特的构造和沉积背景形成不同的层序地层格架样式.以准噶尔盆地车排子地区为例,详细分析了造山带前缘隆起斜坡带层序样式.在准西车排子地区中新生界主要目的层段(下白垩统吐谷鲁群、古近系安集海河组、新近系沙湾组和塔西河组)充填沉积中识别出5条主要等时界面,据界面的性质和级别划分出一级层序2个,二级层序组3个,三级层序4个.受前陆盆地造山带前缘隆起斜坡带独特的沉积背景及多幕逆冲构造活动作用过程的控制,准西车排子地区中新界各三级层序具有二元沉积结构特征,仅发育低位和湖扩体系域.逆冲挤压期发育低位粗碎屑沉积,应力松弛期发育湖扩细碎屑沉积.低位下切谷、大型扇三角洲和湖扩滩坝砂是准西车排子地区的有利储集砂体及勘探目标.   相似文献   

9.
以中东X油田Mishrif组中下段为例,综合利用地震、测井、岩心、铸体薄片及常规物性等资料,开展层序地层级次识别及层序地层级次对沉积演化的控制作用研究。结果表明:(1)Mishrif组发育5个三级层序和10个四级层序,中下段MB2—MC1层段对应三级层序SQ2—SQ3,包括4个四级层序,其内部发育11个五级层序和多个六级层序。(2)研究区发育次盆地碳酸盐开阔台地-弱镶边台地沉积,储层主要发育于台内滩和台缘滩中,按照生物碎屑类型可将滩相进一步细分为5种类型。(3)六级层序控制单滩体的沉积序列,五级层序控制多滩体的组合特征,四级层序决定沉积微相演化特征,三级层序决定沉积体系的演化特征。(4)SQ2层序的PSS3、PSS4四级层序早期为斜坡环境,发育透镜状滑塌粗粒沉积,后期发育台地边缘滩间→中能滩相沉积序列;SQ3层序的PSS5、PSS6四级层序发育台地边缘滩间→中能滩相→高能滩相沉积序列。SQ3沉积结束后形成了特殊的下切谷充填沉积。  相似文献   

10.
鹤庆—洱源地区位于扬子板块西缘,西邻“三江”结合带,晚二叠世—晚三叠世经历了完整的盆-山转换过程。通过分析该区地层岩性组合及沉积环境,结合构造事件,厘清了区内盆-山转换的时间格架及各阶段盆地沉积响应。研究结果表明: 区内盆地演化可分为陆内裂谷盆地、坳陷盆地和前陆盆地3个阶段; 裂谷盆地阶段沉积形成了巨厚的玄武岩沉积; 坳陷盆地阶段依次沉积了青天堡组碎屑岩、北衙组灰岩和白云岩; 前陆盆地阶段形成了中窝组和松桂组不整合界面及粗碎屑砾岩。研究成果对研究扬子西缘和“三江”特提斯构造带盆-山演化具有重要的科学意义。  相似文献   

11.
Research on colluvial depositional systems has recently emphasized periglacial and high‐altitude settings, and the relations between Quaternary slope stratigraphy and climate change. This article examines the role of variable slope morphology, surface hydrology and microclimate in controlling colluvial sedimentation along a coastal tract of the hyperarid Atacama Desert in northern Chile. Direct accessibility of active surfaces is accompanied by uninterrupted stratigraphic exposures along the base of slopes, allowing direct comparisons between surface processes and the resulting sedimentary record. Four slope sectors are identified, based on differences in morphology and processes over active surfaces. Colluvial sedimentation is controlled by complex interactions of slope gradients and profiles, exposure to dominant winds, and potential runoff pathways, which vary considerably between different sectors. Major differences are evident between these hyperarid deposits and slope sedimentation in periglacial and temperate settings, including the complete absence of pedogenic activity and clay minerals; the volume of aeolian deposits and their role in controlling processes which redistribute sediment downslope, extending colluvial aprons; and the occurrence of runoff processes only where favoured by particular topographic configurations. Depositional surfaces range from steep talus cones, to debris‐flow‐dominated and aeolian‐dominated colluvial aprons, to an aeolian ramp subject to reworking by mass flows and flash floods. Consequently, facies associations and architectures at outcrop are highly variable and highlight the importance of spatial variations in slope morphology and processes in producing distinct, coeval colluvial stratigraphies within a single environmental context. Discrepancies between active processes and the corresponding stratigraphic signatures are also evident in some sectors; for example, preservation of alluvial and aeolian facies in stratigraphic sections does not always reflect the dominant processes over active slopes. Together with the spatial variability in processes and deposits along these slopes, this suggests that caution is required when extracting palaeoenvironmental information from analyses of colluvial successions.  相似文献   

12.
Many modern sand deposits resulting from episodic floods in semi-arid zones are dominated by parallel laminations, but parallel-laminated sands are not a major feature in perennial streams. Single flood events may deposit over 1.5 m of parallel-laminated sand. Hence, ancient parallel-laminated, sand-dominated alluvial deposits may be the product of ephemeral flows.The Trentishoe Formation (Hangman Sandstone Group — Middle Devonian) of North Devon consists, in part, of laterally extensive beds of parallel-laminated, fine-grained red sandstones that build multistorey sand bodies. Individual beds are little more than 1 m thick, but may extend laterally for hundreds of metres. A vertical sequence of erosion surface, sparse silt clasts, parallel laminations, silt drape, is often found, suggesting high flow stage deposition of plane-bedded sand, followed by a very rapid waning of flow with silt fallout in the final stages of the flood. This sequence bears marked similarity to certain modern ephemeral flow sands.  相似文献   

13.
Alluvial fans are usually constructed through episodic flood events. Despite the significance of these ephemeral floods on the morphodynamics of alluvial fans, depositional responses to the variations in flood conditions are still poorly documented. This greatly limits the ability to interpret ancient sedimentary successions of fans and the associated flood hydrodynamics. The Quaternary Poplar Fan from endorheic Heshituoluogai Basin provides an optimal case for addressing this issue. Based on the variations in facies associations and flood conditions, three depositional stages – namely; lobe building stage, channel building stage and the abandonment stage – are identified. During the lobe building stage the Poplar Fan is predominately constructed through incised channel flood, sheetflood and unconfined streamflood, with coeval development of distal surficial ephemeral ponds. The channel building stage is characterized by the development of gravelly braided rivers. However, only scour pool fill deposits are preferentially preserved in the Poplar Fan. During the abandonment stage, erosional lags and aeolian sands randomly occur throughout the fan, while gully deposits can only be found in the distal fan. The distinctive facies architecture of the Poplar Fan is likely to be the result of periodicity of climate fluctuations between wetter and drier conditions during the Late Pleistocene to Holocene. The ephemeral floods formed under wetter conditions usually show high discharge and sediment concentrations which facilitate the lobe building processes. During the drier periods, only gravelly braided rivers can be developed through ephemeral floods as the intensity and frequency in precipitation, discharge and sediment concentrations of the flood flows significantly decrease. The abandonment stage of the fan may occur between recurring flood episodes or during the driest periods. Furthermore, the long-term (105 to 106 year) geomorphic evolution of the Poplar Fan shows the influence of tectonic activities. The ongoing thrust uplift tectonic activities have caused destruction of the fan but can also facilitate the fan-head trench/incision of the fan, which in turn facilitate the progradation of the fan. This study proposes a new depositional model for alluvial fans constructed through episodic flood events, which shows the character of both sheet-flood dominated and stream-flow dominated end members of alluvial fans. These findings supplement the understanding of the variability of the alluvial fans and provide means to characterize rock record of alluvial fans and their associated flood and climate conditions.  相似文献   

14.
Recurring glacial outburst floods from the Yukon-Tanana Upland are inferred from sediments exposed along the Yukon River near the mouth of Charley River in east-central Alaska. Deposits range from imbricate gravel and granules indicating flow locally extending up the Yukon valley, to more distal sediments consisting of at least 10 couplets of planar sands, granules, and climbing ripples with up-valley paleocurrent indicators overlain by massive silt. An interglacial organic silt, occurring within the sequence, indicates at least two flood events are associated with an earlier glaciation, and at least three flood events are associated with a later glaciation which postdates the organic silt. A minimum age for the floods is provided by a glass fission track age of 560,000 ± 80,000 yr on the GI tephra, which occurs 8 m above the flood beds. A maximum age of 780,000 yr for the floods is based on normal magnetic polarity of the sediments. These age constraints allow us to correlate the flood events to the early-middle Pleistocene. And further, the outburst floods indicate extensive glaciation of the Yukon-Tanana Upland during the early-middle Pleistocene, likely representing the most extensive Pleistocene glaciation of the area.  相似文献   

15.
The morphodynamics of a river flood on a fan delta and its resultant stratigraphic and sedimentary signatures have been studied by means of a flume experiment under controlled boundary conditions. The experiment revealed that deposition was dominant in flood periods when the channels were highly loaded with sediments. In contrast, erosion was dominant in periods of low flow. Mouth bars were formed when a subaqueous channel began to backfill. The development of a mouth bar began with progradation in the down‐dip direction and proceeded by aggradation, then retrogradation and finally transverse growth. A channel bifurcated in multiple stages by sequentially forming mouth bars or by simultaneously forming arrays of mouth bars. During the bifurcation, the diffluent point moved upstream, which resulted in channel migration and the development of a delta lobe. Flood events triggered fan‐delta front slide‐slump deposits.  相似文献   

16.
杨劲松  王永  尹金辉  赵华  刘哲  姜高磊  张鹏  戚甲豪 《地球科学》2022,47(11):3944-3959
冲积平原作为城市聚集和人类发展的重要区域,长期面临着巨大的洪水灾害风险,基于平原区丰富的沉积记录开展洪水事件重建研究有助于科学认识洪水历史及规律,具有重要的意义和价值.通过系统梳理国内外在冲积平原洪水重建研究中的最新进展,重点回顾了近年来我国长江中下游平原和华北平原相关代表性成果,分析了平原区洪水沉积主要特征和识别标志,归纳了特大洪水事件的典型沉积序列和主要沉积环境.最后,结合国内外研究热点和前沿,展望了未来我国冲积平原在洪水重建研究的巨大潜力,建议以沉积相和地层关系为基础,进一步扩展洪水重建研究的时空范围,探索从定性到定量获取不同规模洪水的水文信息,进而开展流域尺度的综合分析,深入了解洪水的驱动机制和影响因素.   相似文献   

17.
High-quality subsurface data provide new insights into the formation of Oak Ridges Moraine (ORM), an ~80 km3 sequence of stratified meltwater deposits resting >200 m above adjacent Lake Ontario. The ORM sedimentary succession comprises a three-part regional architecture: (i) ~north–south channel sand–gravel; (ii) channel-capping rhythmites; and (iii) east–west ridge sediments. The ORM depositional sequence overlies a regional unconformity with a cross-cutting channel network resulting from ~north–south meltwater floods that transitioned progressively (falling stage) from a ~NNE to ENE flow direction (parallels Lake Ontario depression). Seismic profiles delineate the channels and channel fill characteristics of bank-to-bank channel sedimentation of thick gradational gravel–sand–mud sequences. Channel-capping mud (~100–236 rhythmites) within multiple channels beneath the ORM landform mark a widespread interval of low-energy, seasonally controlled subglacial pond deposition. During this quiescent period ice-sheet thickness adjusted to flood-induced stretching/thinning and re-profiled slopes. New ice gradients led to east–west flow and deposition of the overlying third element, a sequence of high-energy confined esker–fan sediments along ORM ridge. Close, sequential timing (~329 varve years) of channel, basin and ridge-forming architectural elements supports naming this assemblage the ORM formation. Proposed ORM floods are analogous to Icelandic jökulhlaups based on the size, geometry and sedimentology. The observed rhythmite interval between flood events represents a short period (~236 years) of regional meltwater storage prior to east–west ORM flooding. The ORM channel and overlying esker-fan sediment ridge represent two closely timed meltwater drainage events rather than formation by coalescing ice streams. The scale and timing of the ORM flood events are linked to rapid sea-level rise, ~13.5 ka BP. This high-resolution ORM sedimentological record may provide insights into depositional and glaciogenic controls of other large, stratified moraines. The ORM data indicate deposition in response to hydrodynamic events (outbreak floods, re-profiled ice) rather than direct climate forcing.  相似文献   

18.
Although sequence stratigraphic concepts have been applied extensively to coarse-grained siliciclastic deposits in nearshore environments, high-resolution sequence stratigraphic analysis has not been widely applied to mudstone-dominated sedimentary successions deposited in more distal hemipelagic to pelagic settings. To examine how sequence stratigraphic frameworks can be derived from the facies variability of mudstone-dominated successions, the Tununk Shale Member of the Mancos Shale Formation in south-central Utah (USA) was examined in detail through a combination of sedimentological, stratigraphic and petrographic methods. The Tununk Shale accumulated on a storm-dominated shelf during the second-order Greenhorn sea-level cycle. During this eustatic event, the depositional environment of the Tununk Shale shifted laterally from distal middle shelf to outer shelf, then from an outer shelf to an inner shelf environment. At least 49 parasequences can be identified within the Tununk Shale. Each parasequence shows a coarsening-upward trend via upward increases in silt and sand content, thickness and lateral continuity of laminae/beds, and abundance of storm-generated sedimentary structures. Variations in bioturbation styles within parasequences are complex, although abrupt changes in bioturbation intensity or diversity commonly occur across parasequence boundaries (i.e. flooding surfaces). Due to changes in depositional environments, dominant sediment supply and bioturbation characteristics, parasequence styles in the Tununk Shale show considerable variability. Based on parasequence stacking patterns, eleven system tracts, four depositional sequences and key sequence stratigraphic surfaces can be identified. The high-resolution sequence stratigraphic framework of the Tununk Shale reveals a hierarchy of stratal cyclicity. Application of sequence stratigraphic concepts to this thick mudstone-dominated succession provides important insights into the underlying causes of heterogeneity in these rocks over multiple thickness scales (millimetre-scale to metre-scale). The detailed sedimentological characterization of parasequences, system tracts and depositional sequences in the Tununk Shale provides conceptual approaches that can aid the development of high-resolution sequence stratigraphic frameworks in other ancient shelf mudstone successions.  相似文献   

19.
Late Wisconsin floods from glacial Lake Missoula occurred between approximately 16 and 12 ka BP. Many floods occurred; some were demonstrably cataclysmic. Early studies of Missoula flooding centered on the anomalous physiography of the Channeled Scabland, which J. Harlen Bretz hypothesized in 1923 to have developed during a debacle that he named ‘The Spokane Flood’. Among the ironies in the controversy over this hypothesis was a mistaken view of uniformitarianism held by Bretz's adversaries. After resolution of the scabland's origin by cataclysmic outburst flooding from glacial Lake Missoula, research since 1960 emphasized details of flood magnitudes, frequency, routing and number.Studies of flood hydraulics and other physical parameters need to utilize modern computerized procedures for flow modeling, lake-burst simulation, and sediment-transport analysis. Preliminary simulation models indicate the probability of multiple Late Wisconsin jökulhlaups from Lake Missoula, although these models predict a wide range of flood magnitudes.Major advances have been made in the study of low-energy, rhythmically bedded sediments that accumulated in flood slack-water areas. The ‘forty floods’ hypothesis postulates that each rhythmite represents the deposition in such slack-water areas of separate, distinct cataclysmic floods that can be traced from Lake Missoula to the vicinity of Portland, Oregon. However, the hypothesis has numerous unsubstantiated implications concerning flood magnitudes, sources, routing and sedimentation dynamics.There were multiple great Late Wisconsin floods in the Columbia River system of the northwestern United States. Studies of high-energy, high altitude flood deposits are necessary to evaluate the magnitudes of these floods. Improved geochronologic studies throughout the immense region impacted by the flooding will be required to properly evaluate flood frequency. The cataclysmic flood concept championed by J. Harlen Bretz continues to stimulate exciting and controversial research.  相似文献   

20.
白杨河冲积扇是由阵发性洪水期的碎屑流沉积物与间洪期辫状河沉积物组成的复合型冲积扇,其构型与碎屑流扇的构型和河流型扇的构型有很大的不同。本研究选取准噶尔盆地西北缘干旱气候下发育的现代白杨河冲积扇作为解剖实例,对103个天然剖面和9个人工大型探槽进行了详细测量,在沉积微相及不同级别的沉积构型的观测和分析的基础上,分析了阵发性洪水条件下间歇性辫状河型冲积扇体的地貌单元的演化过程和沉积构型特征,研究不同流态的阵发性洪水条件下各种建造和改造机制,明确受阵发性洪水控制的间歇性辫状河型冲积扇的沉积特征,建立了其沉积构型模式。认为: 在洪水期,阵发性洪流(碎屑流)形成席状化的片流(或片洪)沉积,在洪退期,随着洪水强度的减弱,又转变为辫流沉积,而在间洪期,仍有持续的辫状流体(牵引流)在限制性的水道中流动,并对洪水期的碎屑流沉积物进行改造,形成了限制性的(条带状的)辫状河道沉积,2个时期的沉积物在时空上频繁叠置,形成了一种更加复杂的沉积构型。该模式对油田地下冲积扇砂砾储集层的成因识别、预测及对比具有一定的参考价值。  相似文献   

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