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1.
The upper Millstone Grit strata (Yeadonian, Namurian) of North Wales have been studied using sedimentological facies analysis and sequence stratigraphy. These strata comprise two cyclothems, each containing prodelta shales (Holywell Shale) that pass gradationally upwards into delta‐front and delta‐plain deposits (Gwespyr Sandstone Formation). The deltas formed in shallow water (<100 m), were fluvial‐dominated, had elongate and/or sheet geometries and are assigned to highstand systems tracts. Two delta complexes with distinctive sandstone petrographies are identified: (1) a southerly derived, quartzose delta complex sourced locally from the Wales‐Brabant Massif, and (2) a feldspathic delta complex fed by a regional source(s) to the north and/or west. The feldspathic delta complex extended further south in the younger cyclothem. A multistorey braided‐fluvial complex (Aqueduct Grit, c. 25 m thick) is assigned to a lowstand systems tract, and occupies an incised valley that was eroded into the highstand feldspathic delta complex in the younger cyclothem. A candidate incised valley cut into the highstand feldspathic delta complex in the older cyclothem is also tentatively identified. Transgressive systems tracts are thin (<5 m) and contain condensed fossiliferous shales (marine bands). The high‐resolution sequence stratigraphic framework interpreted for North Wales can be readily traced northwards into the Central Province Basin (‘Pennine Basin’), supporting the notion that high‐frequency, high‐magnitude sea‐level changes were the dominant control on stratigraphic architecture. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
2.
琼东南盆地宝岛地区层序地层和砂体展布特征分析 总被引:6,自引:1,他引:5
以层序地层学理论为基础,通过对地震和测井层序进行分析,在琼东南盆地宝岛地区第三系识别出14个地震层序,并分析了各层序的发育特征.总结了不同体系域砂体类型,对各体系域砂体的空间展布进行了详细分析.并指出有利砂体的分布特征:低水位体系域,砂体主要分布在低水位楔、斜坡扇和盆底扇;高水位体系域,主要分布在三角洲、扇三角洲、海底扇和峡谷水道.研究表明,以层序地层学理论为指导,划分层序和体系域,进而对有利砂体进行预测,对该地区油气勘探有重要指导意义. 相似文献
3.
东营凹陷下第三系高分辨率层序地层研究 总被引:31,自引:6,他引:31
本文基于构造层序分析和基准面分析原理,建立了高分辨率地层格架,强调了构造演化对层序样式的控制。断陷湖盆的层序由低位体系域、湖扩展体系域和高位体系域组成,依据其低位体系域特征以及沉积体系的空间配置关系,划分出三种层序样式,其中生长断层型的低位体系域最发育;构造坡折型低位、湖扩展和高位体系域发育齐全,这与海相被动大陆边缘层序样式有类似性;滨岸缓坡型以浅水环境沉积体系为主。构造坡折的存在,为低位扇的发 育提供了广阔的空间,形成了低位三角洲、浊积扇及扇三角洲三种类型低位扇,它们是隐蔽油气藏勘探的主要对象。依据构造坡折带及低位扇发育规律,结合油气成藏条件分析,提出了新的勘探领域,经钻探取得了较好的经济效益,充分证明了层序地层学在陆相盆地中具有广阔的应用前景。 相似文献
4.
根据陆相层序地层的自身特点,对其层序界线、层序级别、层序界面等特征进行了分析,并把陆相层序地层分成断陷和坳陷两种盆地层序模式。最后根据层序模式特征阐述了陆相层序地层学在油气勘探开发中的实际意义。 相似文献
5.
中部4区块位于准噶尔盆地腹部的昌吉凹陷,侏罗纪时堆积了浅水辫状三角洲相粗粒砂砾岩与深水湖泊相泥岩沉积,这些沉积在D2井区显示出多个明显的旋回.根据沉积相序变化、准层序叠加样式、测井曲线特征,通过伴生的低水位域底界面的识别及附近的超失、削截特征分析,仔细追踪和查明了10条关键层序界面,划分出9个三级层序,识别出低水位、湖进和高水位体系域.由于处于关键坡折带的下倾方向,每个层序均具有完整的三分结构,年限平均约5Ma,共识别出27个体系域,准层序组62个,准层序148个.单个层序厚度平均209.3m,单个准层序组平均厚30.4m,单个准层序平均厚13.0m. 相似文献
6.
莱州湾凹陷古近系沙河街组沙三中段发育典型的辫状河三角洲沉积体系。本文基于经典层序地层学理论,通过对莱州湾凹陷三维地震、主要钻井及取心、测井等资料综合分析,对莱州湾凹陷沙三中段层序地层特征及层序格架内沉积体系展布进行精细研究。将沙三中段整体划分为1个三级层序,并根据初次湖泛面、最大湖泛面及高水位体系域域内三角洲期次包络面的界定将沙三中段进一步划分为低水位体系域、湖侵体系域和高水位体系域3个体系域及6个四级层序。在层序格架内分析了研究区沙三中段沉积体系的展布特征及演化规律。沙三中段低水位体系域西部斜坡带发育扇三角洲沉积,北部陡坡带发育近岸水下扇沉积。湖侵体系域发育辫状河三角洲沉积,高水位体系域发育4期辫状河三角洲沉积、高水位体系域Ⅰ、Ⅱ期发育坡移浊积扇沉积。根据层序发育和油气成藏条件分析,认为沙三中段低水位体系域扇三角洲、湖侵体系域辫状河三角洲、高水位体系域坡I和II期的坡移扇沉积成藏条件最为有利,是下一步寻找岩性油气藏的优先目标。 相似文献
7.
J. Georg Friebe 《International Journal of Earth Sciences》1993,82(2):281-294
The mixed carbonate-siliciclastic Weißenegg (Allo-) Formation records three depositional sequences corresponding approximately to the TB 2.3, TB 2.4 and TB 2.5 global cycles. Sea-level fluctuations were of the order of at least 30 m. Siliciclastic lowstand systems tracts comprise lignite deposits, reworked basement and tidal siltstones (above a tectonically enhanced sequence boundary) as well as coastal sand bars. Coastal sands of the transgressive systems tract contain distinct layers of well cemented nodules. They are interpreted as the first stage in hardground formation and record superimposed minor sea-level fluctuations. Coral patch reefs and rhodolith platforms developed during transgressive phases and were subsequently drowned and/or suffocated by siliciclastics during early highstand. Shallowing upwards siliciclastic parasequences, each terminated by a bank of rhodolith limestone, form the (late) highstand systems tract. The limestone beds record superimposed fourth-order transgressive pulses. Occasionally a carbonate highstand wedge developed. Lowstand carbonate shedding occurred where the top of a platform which suffered incipient drowning during highstand was near sealevel again during the following lowstand. Late highstand delta progradation is common. 相似文献
8.
Palaeo-Tokyo Bay is a relic of the Plio-Pleistocene Kazusa forearc basin in the Boso Peninsula of Japan. The sedimentary infill of palaeo-Tokyo Bay is characterized by shallow marine to paralic sediments of the middle to upper Pleistocene Shimosa Group. Sequence stratigraphical analysis has been used to describe spatial and temporal variations in the depositional systems of the lowest units of the Shimosa Group, deposited during the early stage of development of palaeo-Tokyo Bay. Three different type of depositional systems were recognized: sand ridge to shelf (SRS), shelf to delta (SDL) and shelf to non-deltaic nearshore (SNS) systems. They overlie early transgressive estuarine deposits infilling lowstand valleys incised in the south-eastern margin of palaeo-Tokyo Bay. These systems were developed during late transgressive through highstand stages of a relative sea level cycle, which may have been controlled by a glacio-eustatic sea level change at about 0·4 Ma. Spatial variation in depositional systems is largely identical to that in modern Tokyo Bay; environmental conditions similar to those prevailing at the present day probably characterized the early history of palaeo-Tokyo Bay. The timing of highstand systems tracts within a high frequency depositional sequence was analysed in terms of the effect of sedimentation rate, based on the mapping of a chronostratigraphical surface marked by the Hy4 volcanic ash layer. From spatial variations in sedimentation rate, it was possible to identify the diachronous evolution of highstand systems tracts from the SDL system, through the SNS system, to the SRS system. Time lag is indicated by major bounding surfaces, such as maximum flooding or downlap surfaces associated with a condensed section, which developed immediately above or below the Hy4 volcanic ash layer. The lag may be of the order of a few thousands to tens of thousands of years within a depositional sequence with a total of duration of about 100 000 years. 相似文献
9.
陆相盆地坡折带的隐蔽油气藏勘探战略 总被引:13,自引:0,他引:13
本文从陆相坡折带的定义和分类入手,阐述了构造坡折带、沉积坡折带和侵蚀坡折带的成因以及对层序,尤其对低水位体系域和隐蔽油气藏的控制和影响。指出陆相坡折带与海相坡折带的区别主要表现在:①坡度不同:陆相盆地受构造作用(包括断裂作用)和短源快速沉积的影响,坡度较陡,碎屑物差异沉积明显。②坡折带特点不同:海相坡折带一般单一稳定,而陆相坡折带具有多级坡折的特点。在此基础上,对渤海湾盆地东营凹陷进行了研究。应用钻、测井及地震等资料,建立了东营凹陷沙三段中部地层的层序地层格架,共分为4个层序,并且每个层序可分为低水位体系域、水进体系域和高水位体系域。建立了储油单元与层序单元(尤其低水位体系域)对应关系。阐述了陆相盆地斜坡带沉积体系域中储集砂体类型和油气成藏机制,从而指导隐蔽油气藏勘探。 相似文献
10.
石炭系卡拉沙依组作为塔河油田碎屑岩领域主要产层之一,其沉积相类型及分布一直存在争议。本文通过井震结合,建立了该区的高精度层序地层格架。通过岩心观察,利用地震、测井、分析化验等资料,确定了沉积体系的类型,并开展了沉积相类型和展布的研究。研究表明,卡拉沙依组可划分为两个三级层序,其中层序CKLSQ1可划分为3个体系域,分别为低位体系域、海侵体系域和高位体系域;层序CKLSQ2可划分为两个体系域,分别为海侵体系域和高位体系域。沉积相为三角洲和潮坪相交互沉积,其中北部以三角洲相为主,南部盐上区以潮坪相为主,中部的盐边区为两者的过渡带。该认识为目的层段窄薄砂体的预测和精确刻画提供了地质依据。 相似文献
11.
根据沉积相序变化、准层序叠加样式、测井曲线特征,运用关键坡折带知识,通过伴生的低水位域底界面的识别及附近的超失、削截特征分析,仔细追踪和查明了准噶尔盆地腹部地区中部2区块9条关键界面.进行了侏罗系的高分辨层序地层的划分。研究表明C1井区J_1b_2-J_2t沉积时期可划分出8个三级层序,均具有完整的三分结构:LST、TST和HST;共划分出27个体系域,共识别出准层序组56个,准层序118个。单个层序的厚度105.6~176.8 m,平均140.7 m;单个准层序组平均24.9 m;单个准层序平均11.8 m。 相似文献
12.
大型海相三角洲分布范围广,沉积动力复杂,其精细层序—沉积构型和演化规律是沉积学领域长期研究的热点。综合岩矿、测井和三维地震资料,充分结合高精度层序地层学和三维地震沉积学分析方法,对古珠江三角洲西侧的恩平地区中新世早-中期沉积特征进行了精细研究,识别出了辫状河道、曲流河道等河控三角洲的主要微相单元,同时也揭示出海岸砂脊等浪控三角洲中发育的典型微相类型。在高精度层序格架约束下,揭示出单一典型层序内古珠江三角洲的演化特征: 低位体系域以河控三角洲为主,发育大型交切状辫状水道;海侵和高位体系域河道规模明显减小,以小规模曲流河道为主,且易于见到海岸砂脊等波浪作用的典型特征。此外,针对恩平地区中新世早-中期沉积相带的系统编图和演化分析,在大约6 Ma时间内识别出6次河道大规模改道现象,推测恩平地区沉积演化明显受到自旋回沉积过程的影响。 相似文献
13.
笔者应用层序地层学的原理和研究方法,对扬子地台西缘陕西宁强和四川广元地区的志留纪地层剖面进行了重新研究,识别出9个三级层序,三级层序均发育TST和HST,而缺乏LST和SMST。通过区内积层序的对比,建立了扬子西缘志留纪层序地层格架,最后探讨了该区志留纪的海平面变化规律。 相似文献
14.
The passive margin Texas Gulf of Mexico Coastal Plain consists of coalescing late Pleistocene to Holocene alluvial–deltaic plains constructed by a series of medium to large fluvial systems. Alluvial–deltaic plains consist of the Pleistocene Beaumont Formation, and post-Beaumont coastal plain incised valleys. A variety of mapping, outcrop, core, and geochronological data from the extrabasinal Colorado River and the basin-fringe Trinity River show that Beaumont and post-Beaumont strata consist of a series of coastal plain incised valley fills that represent 100 kyr climatic and glacio-eustatic cycles.
Valley fills contain a complex alluvial architecture. Falling stage to lowstand systems tracts consist of multiple laterally amalgamated sandy channelbelts that reflect deposition within a valley that was incised below highstand alluvial plains, and extended across a subaerially-exposed shelf. The lower boundary to falling stage and lowstand units comprises a composite valley fill unconformity that is time-transgressive in both cross- and down-valley directions. Coastal plain incised valleys began to fill with transgression and highstand, and landward translation of the shoreline: paleosols that define the top of falling stage and lowstand channelbelts were progressively onlapped and buried by heterolithic sandy channelbelt, sandy and silty crevasse channel and splay, and muddy floodbasin strata. Transgressive to highstand facies-scale architecture reflects changes through time in dominant styles of avulsion, and follows a predictable succession through different stages of valley filling. Complete valley filling promoted avulsion and the large-scale relocation of valley axes before the next sea-level fall, such that successive 100 kyr valley fills show a distributary pattern.
Basic elements within coastal plain valleys can be correlated with the record offshore, where cross-shelf valleys have been described from seismic data. Falling stage to lowstand channelbelts within coastal plain valleys were feeder systems for shelf-phase and shelf-margin deltas, respectively, and demonstrate that falling stage fluvial deposits are important valley fill components. Signatures of both upstream climate change vs. downstream sea-level controls are therefore interpreted to be present within incised valley fills. Signatures of climate change consist of the downstream continuity of major stratigraphic units and component facies, which extends from the mixed bedrock–alluvial valley of the eroding continental interior to the distal reaches, wherever that may be at the time. This continuity suggests the development of stratigraphic units and facies is strongly coupled to upstream controls on sediment supply and climate conditions within hinterland source regions. Signatures of sea-level change are critical as well: sea-level fall below the elevation of highstand depositional shoreline breaks results in channel incision and extension across the newly emergent shelf, which in turn results in partitioning of the 100 kyr coastal plain valleys. Moreover, deposits and key surfaces can be traced from continental interiors to the coastal plain, but there are downstream changes in geometric relations that correspond to the transition between the mixed bedrock–alluvial valley and the coastal plain incised valley. Channel incision and extension during sea-level fall and lowstand, with channel shortening and delta backstepping during transgression, controls the architecture of coastal plain and cross-shelf incised valley fills. 相似文献
15.
综合应用测井曲线、岩心、野外露头剖面等资料,分析鄂尔多斯盆地陇东地区延长组的层序地层特征及沉积相,在延长组识别出4个三级层序界面,将延长组分为4个三级层序10个体系域,识别出4种主要的沉积体系:扇三角洲、辫状河三角洲、曲流河三角洲及湖泊沉积体系。分析了各体系域沉积体系的平面展布特征,探讨了体系域沉积模式及层序与油气的关系。指出低位体系域中发育的三角洲平原河道及前缘水下分流河道砂体是最主要的储层,水进及高位体系域中发育的浊积岩砂体分布面积大,是潜在的储层、水进和高位体系域中发育的湖相泥、页岩是良好的生油层和盖层,使得陇东地区存在有利的生储盖组合,处于有利的含油气系统之中,具较好的油气勘探前景。 相似文献
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17.
珠江口盆地番禺低隆起韩江组高精度层序格架和沉积样式与岩性地层圈闭的发育分布 总被引:8,自引:3,他引:5
番禺低隆起是珠江口盆地重要的含油气区。区内的韩江组可划分为3个三级层序,其顶底界面均以削蚀和上超不整合及其对应的整合为界;依据四级旋回的海泛面可进一步划分出11个四级层序或体系域。三级层序SQhj1上部的2个四级层序发育两套具有前积结构的三角洲沉积,SQhj2的低位域广泛发育下切谷充填和低水位楔。结合钻井约束的地震沉积学和古地貌学分析,揭示了四级层序沉积相的平面分布和演化。高位域三角洲前缘砂坝和水下水道、低位下切水道及低位楔三角洲、海滩砂坝砂体等为区内主要的储集砂体,它们与其上覆的海进泥岩形成良好的储盖组合,沿上超斜坡带、下斜坡或坡折带可形成岩性地层圈闭。 相似文献
18.
IDOIA ROSALES PEDRO ANGEL FERNÁNDEZ-MENDIOLA JOAQUÍN GARCÍA-MONDÉJAR 《Sedimentology》1994,41(5):861-882
The Aptian to lowermost Albian carbonate platform of Castro Urdiales (Cantabria, northern Spain) was broken up by extensional tectonic movements shortly after the beginning of the Albian. Block faulting characterized this rifting episode, the effects of which waned during the Albian. In crestal locations tilting of the fault blocks caused the subaerial exposure of parts of the older platform, resulting in intense karst diagenesis. Differential subsidence of the blocks controlled the development of a crestal residual carbonate platform (Arenillas), which was surrounded by deeper water on both sides. Seven unconformities related to platform exposure and karstification are identified on the Arenillas platform, and form the basal boundaries of seven depositional sequences (S1-S7). On the platform, lowstand systems tract deposits consist of breccias filling caves, and grainstones and debris flow deposits filling incised canyons. Transgressive plus highstand systems tracts consist of rare marls plus shallow water rudistid, coral and chondrodontid limestones. In the basin, the unconformities are erosional surfaces at the base of resedimented limestones, marls or sandy or silty siliciclastics (lowstand systems tracts). Transgressive plus highstand systems tracts in this setting consist of marls and hemipelagic marly limestones. Tectonism is believed to be the main control on sequence formation, and only a few sequence boundaries (e.g. the base of S6 in the Upper Albian inflatum Zone) can be correlated with eustatic events. 相似文献
19.
Anatomy of falling‐stage deltas in the Turonian Ferron Sandstone of the western Henry Mountains Syncline,Utah: Growth faults,slope failures and mass transport complexes 
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下载免费PDF全文 Christopher R. Fielding 《Sedimentology》2015,62(1):1-26
Falling‐stage deltas are predicted by sequence stratigraphic models, yet few reliable criteria are available to diagnose falling‐stage deltaic systems in surface exposures. Recent work on the Upper Cretaceous (Turonian) Ferron Sandstone in the western Henry Mountains Syncline of south‐central Utah has established its environment of deposition as a series of modest‐sized (5 to 20 km wide), probably asymmetrical, mixed‐influence deltas (‘Ferron Notom Delta’) that dispersed sediment eastwards from the rising Sevier orogenic hinterland into the Western Cordilleran Foreland Basin. Analysis of sandstone body stacking patterns in a 67 km long, depositional strike‐parallel (north–south) transect indicates that the growth of successive deltas was strongly forced by synsedimentary growth of a long wavelength (ca 100 km), 50 m amplitude fold structure. Herein, two discrete areas within this transect, superbly exposed in three dimensions, are documented in order to determine the details of stratal stacking patterns in the depositional dip direction, and thereby to assess the stratigraphic context of the Ferron Notom Delta. In the two study areas, dip transects expose facies representing river mouth bar to distal delta front environments over distances of 2 to 4 km. Key stratal packages are clinothems that offlap, downlap, and describe descending regressive trajectories with respective to basal and top datums; they are interpreted as the product of relative sea‐level fall. The vertical extent of clinoforms suggests that deltas prograded into <30 m of water. Furthermore, these deltaic successions preserve abundant evidence of delta front slope failure, growth faulting, and incision and filling of deep (<15 m) slope gullies. Gully fills are composed of chaotic intraformational breccia and/or massive sandstone, and constitute linear, ‘shoestring’ sandbodies in the distal portions of individual palaeodelta systems. They are interpreted to have been cut and filled during the late falling‐stage and lowstand of relative sea‐level cycles. The north–south distribution of the stratal style described above seems to be focused on the flanks of the growth anticline, and so the numerous falling‐stage systems tracts preserved within the Ferron Notom Delta probably owe their origin to synsedimentary structural growth, and the unstable fluid pressure regime that this growth imposed on the sea floor and shallow subsurface. 相似文献
20.
STEPHEN T. ABBOTT 《Sedimentology》1997,44(5):805-824
Richly fossiliferous and disconformity-bounded facies successions, termed Mid-Cycle Condensed Shellbeds (MCS), occupy a mid-cycle position within depositional sequences in the Castlecliff section (mid-Pleistocene, Wanganui Basin, New Zealand). These shell-rich intervals (0.1–4.5 m thick) comprise the upper of two loci of shell accumulation in Castlecliff sequences. The lower disconformable contacts are sharp and variably burrowed, and are interpreted as submarine transgressive surfaces formed by storm or tidal current erosion at the feather-edge of contemporary transgressive systems tracts. Above (i.e. seaward) of this erosion surface, macrofossil remains (mainly bivalves and gastropods) accumulated, with little reworking, on the inner-shelf under conditions of reduced terrigenous sediment supply. The upper contacts are sharp transitions from shell-rich to relatively shell-poor lithofacies; parautochthonous shell accumulation was ‘quenched’by downlapping highstand systems tract shelf siltstones and muddy fine sandstones. Castlecliff MCS, together with the basal shell-rich part of overlying highstand systems tracts, occupy a stratigraphic position which corresponds to the condensed section that forms at the transgressive/highstand systems tract boundary in the sequence model of Haq et al. (1987). Palaeoenvironmental analysis indicates that Castlecliff MCS are substantially, if not entirely, transgressive deposits. This study therefore shows that the ‘condensation maximum’within a depositional sequence does not necessarily bracket the transgressive systems tract/highstand systems tract boundary. 相似文献