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1.
The Middle Jurassic Walloon Subgroup is a prolific coal seam gas (CSG) resource in the Surat Basin, Queensland. Sedimentary framework models constrain stochastic reservoir models of the geological heterogeneity, but there is limited basin analysis information in the public domain. Here we present a regionally consistent stratigraphic framework model for the Walloon CSG play in the eastern Surat Basin. Lithostratigraphic correlation of open-file industry and government wireline logs supports the interpretation of six subunits in the eastern Surat Basin (oldest–youngest: Durabilla Formation; Taroom Coal Measures; Tangalooma Sandstone; and Juandah Coal Measures, informally divided into three members named the lower Juandah Coal Measures, Juandah sandstone and upper Juandah Coal Measures). Important findings are that subunits within the Walloon Subgroup do not correlate along the entire CSG play area; in many places, the overlying Springbok Sandstone (Upper Jurassic) has incised to the lower Juandah Coal Measures level, removing the upper coal seam groups. The Walloon Subgroup thins to the south through a combination of depositional thinning and truncation. Lithofacies analysis and isopach maps support deposition in a southerly prograding fluvial system or clastic wedge. This stratigraphic and depositional interpretation informs models for hydrogeological studies of the Walloon Subgroup and underpins a regional assessment of controls on microbial methane distribution. 相似文献
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苏北盆地高邮凹陷是江苏油田的主要油气勘探开发区,是一个南断北超的典型箕状断陷湖盆,其中的古近系戴南组为一套厚度近2 000 m的河湖相砂泥岩地层,从下到上分为一段和二段。通过沉积充填分析和沉积相编图,戴南组一段沉积时,苏北盆地断陷构造活动相对强烈,地形高差大,水体相对较深,水体范围相对较小,从南向北分别发育近岸水下扇、湖底扇、三角洲等沉积相类型。戴南组二段沉积时,构造活动有所减弱,地形高差变小,水体相对较浅,水体范围扩大至整个凹陷,从南向北分别发育扇三角洲、湖底扇、三角洲等沉积相类型。利用砂岩等厚图等资料,确定了戴南组的沉积相图。沉积相在平面上分布范围明确,纵向上既有差异性又有继承性。高邮凹陷边缘和内部的同沉积断层对沉积相和砂体的发育分布起着重要的控制作用,沉积相控制了油气分布,特别是对隐蔽油气藏形成起重要作用。高邮凹陷戴南组的隐蔽圈闭类型主要有地层超覆、断层-岩性、砂岩上倾尖灭及透镜体圈闭等。湖底扇、三角洲前缘、扇三角洲前缘、近岸水下扇中扇等为有利的储集岩相带。结合石油地质条件的分析,确定了联18-马18井区等几个有利的隐蔽油藏勘探区。 相似文献
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Alessandro Batezelli Francisco Sergio Bernardes Ladeira Diego Luciano do Nascimento Mrcio Luiz DA Silva 《Sedimentology》2019,66(2):699-735
The Upper Cretaceous Bauru Group in south‐east Brazil consists of alluvial strata whose characteristics and distribution indicate a fluvial system developed in a semi‐arid to arid climate. Sections exposed within a 90 000 km2 study area in Minas Gerais State (in south‐eastern Brazil) were evaluated using facies and palaeosol analysis to formulate depositional and pedogenic models that may account for geomorphic and climate features. From east to west, the study succession records a gradual decrease in grain size, an increase in the width/thickness ratio in channels, a decrease in the lateral and vertical connectivity of channel deposits, and an increase in overbank deposits. The fluvial architecture indicates a braided channel belt, ephemeral ribbon–channels, and an unconfined fluvial facies from east to west in the study area. The lateral and vertical distribution of facies, stratigraphic architecture and palaeocurrent data suggest proximal, medial and distal portions of a progradational distributive fluvial system. The sedimentary dynamics were marked by the building and abandonment of channels related to processes of aggradation, vegetation growth and palaeosol generation. Macromorphological and micromorphological analyses have identified pedological and mineralogical features that indicate an arid to semi‐arid climate with a provenance from the north‐eastern part of the basin (Alto Paranaiba Uplift). From the proximal to the distal portions of the distributive fluvial system, the palaeosol development is different. In the proximal portion, the palaeosols are absent or poorly developed, allowing a possible general comparison with the present soil order: Inceptisols and Aridisols. In the medial portion of the fluvial system, the palaeosols are well‐developed and characterized by Bt, Btk, C and Ck horizons (Alfisols, Aridisols, Inceptisols and Entisols). Poorly drained to well‐drained palaeosols from the base to the top in the distal plain (Aridisols and Inceptisols) are associated with geomorphic and hydromorphic changes in the fluvial system due to progradational evolution. The genetic relationship between the fluvial architecture and the palaeosols enhances the understanding that the sedimentation and pedogenesis that occurs in different portions of the distributive fluvial system are related to the tectonic and climatic evolution of the basin. 相似文献
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《Sedimentology》2018,65(5):1631-1666
Detailed logging and analysis of the facies architecture of the upper Tithonian to middle Berriasian Aguilar del Alfambra Formation (Galve sub‐basin, north‐east Spain) have made it possible to characterize a wide variety of clastic, mixed clastic–carbonate and carbonate facies, which were deposited in coastal mudflats to shallow subtidal areas of an open‐coast tidal flat. The sedimentary model proposed improves what is known about mixed coastal systems, both concerning facies and sedimentary processes. This sedimentary system was located in an embayed, non‐protected area of a wide C‐shaped coast that was seasonally dominated by wave storms. Clastic and mixed clastic–carbonate muds accumulated in poorly drained to well‐drained, marine‐influenced coastal mudflat areas, with local fluvial sandstones (tide‐influenced fluvial channels and sheet‐flood deposits) and conglomerate tsunami deposits. Carbonate‐dominated tidal flat areas were the loci of deposition of fenestral‐laminated carbonate muds and grainy (peloidal) sediments with hummocky cross‐stratification. Laterally, the tidal flat was clastic‐dominated and characterized by heterolithic sediments with hummocky cross‐stratification and local tidal sandy bars. Peloidal and heterolithic sediments with hummocky cross‐stratification are the key facies for interpreting the wave (storm) dominance in the tidal flat. Subsidence and high rates of sedimentation controlled the rapid burial of the storm features and thus preserved them from reworking by fair‐weather waves and tides. 相似文献
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The evolution of incised valleys is an important area of research due to the invaluable data it provides on sea‐level variations and depositional environments. In this article the sedimentary evolution of the Ría de Ferrol (north‐west Spain) from the Last Glacial Maximum to the present is reconstructed using a multidisciplinary approach, combining seismic and sedimentary facies, and supported by radiocarbon data and geochemical proxies to distinguish the elements of sedimentary architecture within the ria infill. The main objectives are: (i) to analyse the ria environment as a type of incised valley to evaluate the response of the system to the different drivers; (ii) to investigate the major controlling factors; and (iii) to explore the differentiation between rias and estuaries. As a consequence of the sea‐level rise subsequent to the Last Glacial Maximum (ca 20 kyr bp ), an extensive basin, drained by a braided palaeoriver, evolved into a tide‐dominated estuary and finally into a ria environment. Late Pleistocene and Holocene high‐frequency sea‐level variations were major factors that modulated the type of depositional environments and their evolution. Another major modulating factor was the antecedent morphology of the ria, with a rock‐incised narrow channel in the middle of the basin (the Ferrol Strait), which influenced the evolution of the ria as it became flooded during Holocene transgression. The strait acted as a rock‐bounded ‘tidal inlet’ enhancing the tidal erosion and deposition at both ends, i.e. with an ebb‐tidal delta in the outer sector and tidal sandbanks in the inner sector. The final step in the evolution of the incised valley into the modern‐defined ria system was driven by the last relative sea‐level rise (after 4 kyr bp ) when the river mouths retreated landward and a single palaeoriver was converted into minor rivers and streams with scattered mouths in an extensive coastal area. 相似文献
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Red or buff‐coloured sandstones and siltstones of fluvial origin comprise approximately 80% of the Ringerike Group, a late Silurian Old Red Sandstone (ORS) sequence that crops out extensively in the Oslo Region of southern Norway. These fluvial sediments are lithostratigraphically ascribed to two laterally equivalent formations—the Stubdal Formation (to the north of Oslo) and the Skien Formation (to the south of Oslo). The fluvial strata of each of the two formations have a distinct style of sandbody geometry, facies, provenance, and palaeocurrent direction. Within the Stubdal Formation, shallow channelized sandbodies, low‐ to upper‐flow regime sedimentary structures, a Caledonide provenance and a palaeoflow toward the southeast are evident. Within the Skien Formation, sandbody geometry is entirely sheet form, with upper‐flow regime sedimentary structures, a provenance from Precambrian rocks to the northern and local parts of the Oslo Region and a palaeoflow toward the east. No stratal contact can be seen between the two fluvial formations, due to a 15 km break in exposure between the southernmost Stubdal Formation and the northernmost Skien Formation. Relationships with adjacent formations indicate that they are diachronous, lateral equivalents. Given the abrupt change in sedimentary style between the two formations, it is proposed that a barrier had developed within the foreland basin, diverting the ORS fluvial systems in southern Norway, from a southward (north of Oslo), to an eastward direction (south of Oslo). This diversion had implications for depositional gradient, fluvial regime and provenance, resulting in the differences visible in the deposits of those rivers. The barrier invoked is arguably a Caledonide blind thrust fault that developed a topographic high, running east–west through the vicinity of Oslo, during the late Silurian. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献
8.
C. C. Wainman P. J. Mccabe J. L. Crowley R. S. Nicoll 《Australian Journal of Earth Sciences》2013,60(7):807-816
The Jurassic Walloon Coal Measures of the Surat Basin were previously estimated to be of Middle Jurassic age, ranging from Aalenian to Callovian, based on an uncalibrated eastern Australian biostratigraphic framework. New U–Pb dates of 162.55 ± 0.05 Ma and 158.86 ± 0.04 Ma obtained from zircons in ash-fall volcanic tuffs now place the Walloon Coal Measures of the Surat Basin in the Upper Jurassic Oxfordian. The new dates have several implications for the interpretation of the Jurassic strata in the Surat Basin. First-order subsidence rates of 61 m/Myr for the Walloon Coal Measures are more akin to those of foreland basins than the previously assumed intracratonic setting. The dates also imply deposition of the Walloon coals in substantially higher latitudes than previously assumed and that they accumulated as peats in mires that experienced more than three months’ continual darkness each winter. Zircon dating of tuffs and associated geochemistry should assist with the correlation of the laterally impersistent coals, fluvial sandstone and mudstone of the Walloon Coal Measures, which are currently difficult to correlate over distances of more than a few kilometres. Dating of the palynostratigraphic zones APJ4.2 to APJ5 (Aequitriradites norrisii Association Zone to Murospora florida Association Zone) will also need to be recalibrated. 相似文献
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The middle to late Oligocene Polonez Cove Formation, exposed on south‐eastern King George Island, South Shetland Islands, provides rare evidence of mid‐Cenozoic West Antarctic cryosphere evolution. A revised lithostratigraphy and facies analysis and a review of the palaeoenvironmental significance of the formation are presented here. The diamictite‐dominated basal member of the formation (Krakowiak Glacier Member) records the presence and retreat of marine‐based ice on a shallow continental shelf. Five overlying members are recognized. These consist of basaltic‐sourced sedimentary rocks and lavas and represent a variety of shoreface and shallow continental shelf environments in an active volcanic setting. These units contain diverse reworked and ice‐rafted exotic clasts that become sparse towards the top of the formation, suggesting a continuing but waning glacial influence. New 40Ar/39Ar dates from interbedded lava flows indicate a late Oligocene age (25·6–27·2 Ma) for the Polonez Cove Formation, but are slightly younger than skeletal carbonate Sr‐isotope ages obtained previously (28·5–29·8 Ma). There is evidence for wet‐based subice conditions at the base of the Polonez Cove Formation, but no sedimentary facies to suggest substantial meltwater. This may reflect a subpolar setting or may result from lack of preservation or a high‐energy depositional environment. A northern Antarctic Peninsula/South Shetland Islands provenance is probable for most non‐basaltic clasts, but certain lithologies with possible origins in the Transantarctic and Ellsworth Mountains also occur sparsely throughout the formation. There is evidence to suggest that the presence of such far‐travelled clasts within subglacially deposited facies at the base of the formation reflects the advance of a local ice cap across marine sediments containing the clasts as ice‐rafted material. The presence of these clasts suggests that extensive marine‐based ice drained into the southern Weddell Sea region and that a strong Weddell Sea surface current operated both before and during deposition of the Polonez Cove Formation. 相似文献
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渝东—湘西地区志留纪小河坝组层序岩相古地理特征及演化 总被引:1,自引:0,他引:1
通过对渝东—湘西地区野外露头及相关室内研究,分析了区内志留纪小河坝组沉积环境、层序特征、沉积相展布及其演化特征。将该区小河坝组划分为2个沉积层序,每个沉积层序都由海侵和高位体系域组成。以体系域为编图单元,采用体系域压缩法,编制了渝东—湘西地区小河坝组4张层序岩相古地理图,结果表明:更加精确真实地反映了海陆分布、物源方向及其演化过程,更好地反映了层序格架下的物质聚集分布规律。揭示出研究区早志留世小河坝期碎屑岩沉积的物质主要来自东南部的江南雪峰山隆起,沉积环境由东往西逐渐变深,三角洲平原位于湘西地区,三角洲前缘发育于渝东地区;碳酸盐台地发育于靠近黔中隆起的南部浅水区,沉积环境由南往北逐渐变深,深水陆棚沉积区位于宜宾—重庆一带,该新认识对于更准确地预测渝东-湘西志留系储集体的分布以及下一步油气勘探部署具有重要实际指导意义。 相似文献
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通过对库车河剖面下白垩统巴西改组—古近系库姆格列木群底部的沉积露头实测,分析砂岩岩性组合、沉积构造特征、砾岩特征及沉积古环境,并结合现代天山南北季节性河流沉积特征,认为干旱气候条件下发育的季节性河流及季节性河流三角洲是白垩纪库车坳陷发育的重要沉积体系.下白垩统巴什基奇克组砂岩特征与现今广泛发育的季节性河流沉积特征极为相似,既有较为典型的河流相正韵律砂体大面积沉积,河道底部内碎屑泥砾与厚层块状的大型交错层理等砂岩,又显示出高能细砂岩和高能粉砂岩沉积,并具有较低的成分成熟度和较高的结构成熟度基本特征.在此基础上,建立了库车河剖面下白垩统巴西改组—巴什基奇克组沉积相模式:巴西改组沉积时期,库车坳陷发育面积较大的宽浅型湖泊,天山前发育的季节性河流进入湖泊后形成季节性河流三角洲;巴什基奇克组沉积时期,古天山前出现了多个小型湖泊,古天山山前发育大量的季节性辫状河与多个小型季节性辫状三角洲沉积. 相似文献
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Facies analysis and depositional systems of Cenozoic sediments in the Hoh Xil basin, northern Tibet 总被引:12,自引:0,他引:12
A sedimentary succession more than 5800 m thick, including the Lower Eocene to Lower Oligocene Fenghuoshan Group, the Lower Oligocene Yaxicuo Group, and the Lower Miocene Wudaoliang Group, is widely distributed in the Hoh Xil piggyback basin, the largest Cenozoic sedimentary basin in the hinterland of the Tibetan plateau. The strata of the Fenghuoshan and Yaxicuo groups have undergone strong deformation, whereas only minor tilting has occurred in the Wudaoliang Group. We analyze their sedimentary facies and depositional systems to help characterize continental collision and early uplift of the Tibetan plateau. The results indicate fluvial, lacustrine, and fan-delta facies for the Fenghuoshan Group, fluvial and lacustrine facies for the Yaxicuo Group, and lacustrine facies for the Wudaoliang Group. Development of the Hoh Xil basin underwent three stages: (1) the Fenghuoshan Group was deposited mainly in the Fenghuoshan-Hantaishan sub-basin between 56.0 and 31.8 Ma ago; (2) the Yaxicuo Group was deposited mainly in the Wudaoliang and Zhuolai Lake sub-basins between 31.8 and 30.0 Ma ago; and (3) the Wudaoliang Group was deposited throughout the entire Hoh Xil basin during the Early Miocene. The Fenghuoshan and Yaxicuo groups were deposited in piggyback basins during the Early Eocene to Early Oligocene, whereas the Wudaoliang Group was deposited in a relatively stable large lake. The Hoh Xil basin underwent two periods of strong north–south shortening, which could have been produced by the collision between India and Asia and the early uplift of the Tibetan plateau. The study suggests the Hoh Xil region could reach a high elevation during the Late Oligocene and the diachronous uplift history for the Tibetan plateau from east to west. 相似文献
13.
四川盆地寒武纪台地滩相储集体是一套重要的油气勘探目的层,准确预测其发育部位、储集性能与分布规律是其油气勘探的重要基础,其中,寒武纪不同地质历史时期古地理与构造-沉积环境的研究是储集体预测的关键。根据野外实测剖面、钻井和测井分析、地震资料,应用活动论构造-古地理思想,在沉积地质条件、区域连井地层剖面,地层厚度与沉积相等分析的基础上,综合编制了寒武纪各个时期的构造-沉积环境图件,反映了四川盆地寒武纪的古地理特征及盆地演化。四川盆地寒武纪整体呈现西高东低、北高南低的古地理格局,西部发育潮坪和滨岸等碎屑岩沉积相,中东部发育缓坡相、台地相及台地边缘浅滩相等。沉积相在时空上的响应为由早寒武世梅树村期局限台地→筇竹寺期碎屑岩台地和深水盆地→早寒武世沧浪铺期滨岸-混积台地→早寒武世龙王庙期碳酸盐岩缓坡→中寒武世陡坡寺期蒸发局限镶边台地→中晚寒武世洗象池期成熟镶边台地的演化过程。其中,筇竹寺期为巨厚的烃源岩生成期;龙王庙期和洗象池期,为碳酸盐岩储集层发育的有利时期;龙王庙期及陡坡寺期发育的蒸发岩可形成良好的盖层。 相似文献
14.
Evaluating along‐strike variation using thin‐bedded facies analysis,Upper Cretaceous Ferron Notom Delta,Utah 
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下载免费PDF全文 Thin‐bedded delta‐front and prodelta facies of the Upper Cretaceous Ferron Notom Delta Complex near Hanksville in southern Utah, USA, show significant along‐strike facies variability. Primary initiation processes that form these thin beds include surge‐type turbidity currents, hyperpycnal flows and storm surges. The relative proportion of sedimentary structures generated by each of these depositional processes/events has been calculated from a series of measured sedimentological sections within a single parasequence (PS6–1) which is exposed continuously along depositional strike. For each measured section, sedimentological data including grain size, lithology, bedding thickness, sedimentary structures and ichnological suites have been documented. Parasequence 6–1 shows a strong along‐strike variation with a wave‐dominated environment in the north, passing abruptly into a fluvial‐dominated area, then to an environment with varying degrees of fluvial and wave influence southward, and back to a wave‐dominated environment further to the south‐east. The lateral facies variations integrated with palaeocurrent data indicate that parasequence 6–1 is deposited as a storm‐dominated symmetrical delta with a large river‐dominated bayhead system linked to an updip fluvial feeder valley. This article indicates that it is practical to quantify the relative importance of depositional processes and determine the along‐strike variation within an ancient delta system using thin‐bedded facies analysis. The wide range of vertical stratification and grading sequences present in these event beds also allows construction of conceptual models of deposition from turbidity currents (i.e. surge‐type turbidity currents and hyperpycnal flows) and storm surges, and shows that there are significant interactions and linkages of these often paired processes. 相似文献
15.
济阳坳陷东营凹陷的主要含油层系为古近系沙河街组。沙河街组各段沉积相的展布各具特征,演化序列清楚。沙四段早期主要发育冲积—洪积扇,分布于湖盆的边缘地区;沙四段晚期,受北断南超的箕状构造背景控制,由北向南依次发育了近岸水下扇、滑塌浊积扇、半深湖相和滨浅湖濉坝相沉积。沙三段沉积时期是三角洲发育的鼎盛时期,三角洲的主体主要分布于凹陷的东部和中部地区,伴随着三角洲自东向西的推进及湖盆范围的不断缩小,沉积类型由早期的三角洲—滑塌浊积扇、三角洲—坡移浊积扇体系向晚期的河流—三角洲体系演化。南部斜坡带以河流相沉积为主,北部陡坡带垂向上由近岸水下扇—滑塌浊积扇、三角洲和辫状河三角洲组成。经过沙三段沉积时期三角洲等的填平补齐作用,到沙二段沉积时期以河流相沉积为主,只在凹陷西部的利津洼陷发育小规模的三角洲—浅湖相沉积。沙—段沉积时期湖盆发生大规模湖侵,物源供应减弱,以滨、浅湖相沉积为主,在凹陷南部边缘发育有滩坝相沉积。 相似文献
16.
在构造-沉积-成矿背景、铀源地质体配置研究的基础上,选择滇西腾冲地块龙川江盆地南部团田地区老矿床外围部署验证工程,获得了重要找矿发现.本文以第一手钻探资料为素材,通过分析上新世龙川江盆地演化过程,建立含矿层系芒棒组的沉积体系和圈定有利赋矿微相组合,重建赋矿古冲积扇体的岩相古地理格局,为该地区和同类盆地砂岩型铀矿勘查提供... 相似文献
17.
The process of Cenozoic sea-land changes in the northern South China Sea(SCS)controlled the sedimentary filling pattern and played an important role in the petroleum geological characteristics of the northern marginal sedimentary basins.Under the control of the opening process of the SCS,the northern SCS Cenozoic transgression generally showed the characteristics of early in the east and late in the west,and early in the south and late in the north.The initial transgression occurred in the Eocene in the Taixinan Basin(TXNB)of the eastern SCS,while the transgression occurred until the Pliocene in the Yinggehai Basin(YGHB)of the western SCS.International Ocean Discovery Program(IODP)expeditions(Expeditions 367/368)revealed that the initial transgression of the SCS basin occurred at approximately 34 Ma,which was the initial opening time of the SCS.The period of drastic changes in the sedimentary environment caused by large-scale transgression corresponded to the opening time of the southwestern subbasin(approximately 23 Ma),which also represented the peak of the spreading of the SCS.The sea-land transition process controls the distribution of alternating continent-marine facies,marine facies source rocks and reservoirs in the basins.The marine facies source rocks of the basins in the northern SCS have a trend of gradually becoming younger from east to west,which is consistent with the regional process of gradual transgression from east to west.Regional sea-level changes were comprehensively influenced by SCS opening and global sea-level changes.These processes led to the early development in the east and south and late development in the west and north for the carbonate platform in the SCS.Carbonate platforms form another type of"selfgenerating and self-accumulating"oil-gas reservoir in the northern SCS.The sea-land transition controlled the depositional filling patterns of different basins and laid the foundation of marine deposits for oil and gas resources.The source-reservoircap assemblage in the northern SCS was controlled horizontally by provenance supply and sedimentary environmental changes caused by sea-land transition and vertically by the tectonic evolution of the SCS and regional sea-level changes. 相似文献
18.
东昆仑造山带海西—印支期东昆南前陆盆地构造岩相古地理 总被引:3,自引:0,他引:3
地层相态的恢复对于研究非史密斯地层区沉积盆地的演化过程有着非常重要的意义。在1∶ 2 5万野外地质填图基础上作出了东昆仑造山带东段东昆南前陆盆地晚二叠世至中三叠世构造岩相古地理图 ,该系列图揭示了东昆南前陆盆地在 5个发展阶段中的岩相分布特征和空间上的古地理展布范围 ,即晚二叠世早期东昆南前陆盆地发育的初始阶段、晚二叠世晚期前陆盆地的扩展至短期萎缩阶段、早三叠世早期前陆盆地的再次扩展阶段、早三叠世晚期盆地发育的高峰阶段和中二叠世前陆盆地的萎缩至消亡阶段。东昆南前陆盆地的演化过程在一定程度上反映了构造对沉积的控制作用 相似文献
19.
Sequence architecture and carbonate platform configuration (Late Cenomanian–Santonian), Sinai, Egypt
Abstract Relative sea‐level changes on the mixed carbonate–siliciclastic platform of Sinai are manifested in shifts of distinct facies belts (deep‐water facies, high‐energy subtidal, shallow subtidal, lagoon, shallow shoreface siliciclastics, supratidal) and are interpreted in terms of sequence stratigraphy. Eight sedimentary sequences are recognized for the Upper Cenomanian to Santonian. Their correlation along a north–south transect reveals distinct changes in lithofacies and progradation/retrogradation patterns within the individual systems tracts. The number and stratigraphy of the sequence boundaries of Sinai correlate well with those from adjacent areas. Patterns of increased subsidence are documented for the Central Sinai Basin since the Late Cenomanian by increased thickness of the stratal packages (post‐CeSin 7 HST, post‐TuSin 1 LST and HST, post‐TuSin 2 LST) and are balanced by varying accumulation rates. Based on new sedimentological and biostratigraphic data, large‐scale palaeogeographic maps and cross‐sections show the: (1) temporal and spatial evolution of the Central Sinai Basin, e.g. its latest Cenomanian initial formation, Lower Turonian deep‐water facies, Middle Turonian to Coniacian synsedimentary subsidence; (2) drowning of the Cenomanian platform coinciding with the latest Cenomanian to Early Turonian relative sea‐level rise; (3) re‐establishment of the platform in Middle–Late Turonian times; and (4) a Coniacian basin and swell morphology. 相似文献
20.
以测井资料和岩心观察为基础,对鄂尔多斯盆地北部苏里格庙含油气区的二叠系山西组及下石盒子组盒八段识别出了辫状河、曲流河、三角洲和湖泊等4种沉积相类型。利用层序地层学原理,将山西组和下石盒子组盒八段划分5个三级沉积层序,建立了苏里格庙含油气区层序地层格架。编制了以体系域为单位的山西组和下石盒子组盒八段沉积期岩相古地理图,探讨了层序地层格架内的山西组和下石盒子组盒八段沉积期岩相古地理特征及演化规律。山西期古地理格局呈南北向相分异的曲流河-三角洲沉积;盒八段沉积期冲积体系大范围向研究区南部迁移,形成了以辫状河沉积为主的河流-三角洲沉积。河道砂体是苏里格庙含油气区有利的砂质储集体类型,主要发育在低位体系域。实践表明,以体系域为单位编制的岩相古地理图,可以清楚地展示不同沉积时期的沉积微相展布与迁移变化,是有利储层预测的一种有效方法。 相似文献