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1.
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
2.
以库车前陆盆地为例,对陆相前陆盆地的形成、沉积充填与层序地层结构、不整合面与层序界面、层序地层组成与其模式、生储盖组合与岩性地层圈闭等关键问题进行了探讨。认为前陆层序是盆缘构造运动的响应,由低位(冲积)体系域、湖侵体系域、高位体系域组成。前陆盆地层序界面表现为构造或沉积不整合面,代表了一次构造幕的发生,其层序地层样式是盆缘造山带构造楔推进作用的结果,是盆地演化的不同阶段的响应,反映了构造运动由强到弱的间歇变化。前陆层序界面代表了沉积结构的大转换,之下为构造稳定阶段的湖相泥岩或膏泥岩,之上为代表构造运动的冲积扇—扇三角洲相的巨厚磨拉石沉积充填。在构造活动期和静止期,盆地不同位置形成不同的沉积充填和地层结构特点。构造活动期以低位(冲积)体系域为主,在毗邻造山带侧以巨厚的冲积扇-扇三角洲-辫状河三角洲相等冲积沉积物为主;构造静止期以湖侵体系域为主,为广泛的河流-湖泊相沉积。沉积厚度从靠近冲断带侧向盆地内逐渐变小。陆相前陆盆地的生储盖组合配置好,储集体广泛分布于低位、湖侵和高位体系域中,以辫状河三角洲和滨湖相为主。其岩性地层圈闭主要分布在前缘斜坡带上,包括沿古隆起边缘的地层超覆不整合圈闭和地层削蚀不整合圈闭,将会成为今后油气勘探的新领域。 相似文献
3.
古新统明月峰组是丽水西次凹中重要的含油气层段,其浅海-三角洲相沉积构成了一个完整的三级层序。层序界面在地震剖面上表现为下超、削截、下切,界面底部的下切水道在测井曲线上具块状、箱型等特征性的反映。依据初始海泛面、最大海泛面和高位域晚期存在的明显海退界面,三级层序内可划分出低水位、海侵、高水位和下降体系域四部分。层序界面和主要的海侵、海退面均得到了古生物丰度和分异度的佐证。通过对上述4个体系域平面编图,揭示了不同时期沉积体系展布及其演化。低位-海侵期发育下切谷、滨岸碎屑-三角洲及扇三角洲前缘-远端浊积砂体,前者分布在盆地西缘斜坡带,物源来自西北和东南两个方向;后者发育于盆地中部的东缘陡坡带,物源由东向西推进。高位域和下降体系域以发育大型高角度进积的三角洲前缘砂为特征,高位域三角洲分布在盆地西侧,且南部比北部发育;下降域盆地沉积范围明显缩小,三角洲主要集中在盆地西侧中部。 相似文献
4.
山东黄县盆地是中国东部一个重要的煤和油页岩共生盆地,古近系李家崖组是盆地主要的含煤岩系发育层段。根据层序地层学理论,建立了古近系层序地层格架;依据钻测井、岩心资料划分了李家崖组的沉积相类型,编制了分体系域的沉积相图。主要结论如下:(1)李家崖组发育湖泊、辫状河三角洲以及扇三角洲3种沉积相类型。(2)层序Ⅰ低水位体系域以辫状河三角洲相为主,湖扩展体系域以扇三角洲相和湖泊相为主,高水位体系域以扇三角洲相为主;层序Ⅱ低水位体系域以辫状河三角洲相为主,湖扩展体系域以扇三角洲相和湖泊相为主,高水位体系域以湖泊相为主。(3)层序Ⅰ发育时期: 低水位期盆地初始形成—湖扩展期盆地扩张—高水位期盆地萎缩;层序Ⅱ发育时期: 低水位期盆地再次缓慢扩张—湖扩展期盆地加速扩张—高水位期盆地萎缩消亡。 相似文献
5.
东河砂岩是沉积于早海西期角度不整合面之上的第一套旋回性地层单元,它是由最底部的低水位体系域(LST)、海侵体系域(TST)及高水位体系域组成的Ⅰ类标准沉积层序,相当于三级海平面旋回的沉积地层。LST以缺失其早期的盆底扇、斜坡楔状体等为特征,仅发育其晚期的陆上河流充填沉积;TST中不发育凝缩层段,副层序在垂向上以弱退积至加积方式堆叠。一个完整的海平面相对升降旋回导致区内不同时期、不同地区的沉积体系及沉积特征不同。 相似文献
6.
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
7.
利用钻孔岩心数据等资料及层序地层学的有关理论、方法,对鄂尔多斯盆地上三叠统瓦窑堡组进行了层序地层学和聚煤作用的研究。识别出区域不整合面、河流下切谷、地层颜色、岩性突变界面等4个层序界面,并划分出了3个三级层序及相应的低位、湖侵及高位体系域。从时间上看含煤性以层序3最好,层序2次之,层序1较差,煤层主要形成于三级层序的湖侵体系域,其次为高位体系域,厚煤层(5煤层)主要发育于三级层序最大湖泛面附近。综合研究区沉积环境、层序地层、岩相古地理等研究成果,得出了主要煤层(5煤层)形成于湖侵过程中湖湾沼泽、三角洲平原间湾沼泽和曲流河泛滥平原沼泽的结论。 相似文献
8.
通过露头剖面及钻孔岩心数据,对北京西山潭柘寺地区石炭—二叠纪陆相及海陆过渡相含煤岩系进行了层序地层和聚煤作用研究。依据区域不整合面(古风化壳)、下切河道砂体底面、生物缺失带、海侵方向转换面以及岩性突变面等特征辨认出8个层序界面,据此将研究区石炭—二叠系划分为7个三级层序,分别对应于本溪组及太原组M6煤层底板以下、太原组中上部、山西组、下石盒子组、红庙岭组下段、红庙岭组上段、双泉组。根据岩相及沉积环境变化特征,可将每个三级层序进一步划分为低位体系域、海侵体系域和高位体系域。区内可采煤层(如M4)形成于下三角洲平原沉积环境,在三级层序内一般位于最大海泛面附近。 相似文献
9.
以层序地层学理论为指导,在井震联合标定的基础上,综合运用地震、测井、钻井、岩芯及野外露头资料,建立了塔北隆起哈拉哈塘地区白垩系卡普沙良群层序地层格架.将卡普沙良群划分为5个三级层序,并在层序格架内进行了沉积相识别及沉积体系研究,识别出了河流、三角洲及湖泊等沉积体系.结合前陆盆地构造演化阶段的分析,认识了沉积体系展布规律.指出油气勘探应围绕SQ1、SQ2、SQ5层序低位及高位体系域的储集砂体开展,在平面上研究区中部三角洲前缘相带为有利区带. 相似文献
10.
运用层序地层学与沉积学的原理和方法,建立滴水泉地区侏罗系八道湾组层序地层格架,划分沉积相,在此基础上分析层序充填及沉积演化特征,预测研究区岩性油气藏的类型及分布。研究结果表明:八道湾组为“一个半”层序,包括5个体系域。整体经历了一个先退积、后进积、再退积的过程。研究区发育辫状河、辫状河三角洲和湖泊3种沉积相类型、5种沉积亚相类型和10种沉积微相类型。JSQ1层序低位体系域以辫状河沉积为主,湖侵体系域主要发育滨浅湖沉积,高位体系域以辫状河三角洲沉积为主;JSQ2层序低位体系域主要发育辫状河三角洲沉积,而湖侵体系域以滨浅湖沉积为主。滴水泉地区八道湾组发育的有利储集砂体是辫状河和辫状河三角洲砂体,主要发育于低位和高位体系域。研究区八道湾组沟谷型古地貌可与JSQ1低位体系域广泛分布的辫状河道砂体组合形成地层-岩性圈闭,是研究区最有利的勘探目标。 相似文献
11.
黑龙江省东部七星河盆地是一新生代聚煤盆地,其含煤地层为古近系宝泉岭组、新近系富锦组。宝泉岭组由各级砂岩、泥岩、炭质泥岩以及褐煤组成,发育滨浅湖相、深-半深湖相、三角洲平原相,属于湖泊沉积体系、三角洲沉积体系。富锦组主要由泥岩、粉砂岩、中砂岩、含砾粗砂岩及煤层、炭质泥岩、硅藻岩组成,发育滨浅湖相、扇三角洲平原相,分别属于湖泊沉积体系和扇三角洲沉积体系。层序SI相当于宝泉岭组,发育低位体系域、湖侵体系域和高位体系域,煤层主要发育高位体系域中后期,成煤环境以滨浅湖淤积沼泽为主。层序SII相当于富锦组,主要发育湖侵体系域、高位体系域,局部地区发育低位体系域,煤层亦主要发育高位体系域中后期,成煤环境以扇三角洲淤积沼泽和滨浅湖淤积沼泽为主。层序SI、SII的高位体系域中后期,盆地基底沉降速率和物源供给处于相对平衡状态,主要发育了扇三角洲淤积沼泽、滨浅湖和滨浅湖淤积沼泽环境,发育可采煤层。 相似文献
12.
为了深入认识川西坳陷中段须四段层序地层格架内沉积特征,综合利用野外露头、地震、岩心、测/录井、分析测试等资料对其进行了系统分析。结果表明须四段为一个三级层序,根据层序界面特征划分出低位体系域、湖侵体系域和高位体系域,并建立了等时层序地层格架。依据沉积相标志识别出冲积扇、辫状河、辫状河三角洲和湖泊4种相类型,明确了层序地层格架内沉积相平面展布及纵向演化特征:平面上,短轴物源自龙门山山前依次发育冲积扇、辫状河、辫状河三角洲和湖泊相,长轴物源主要发育辫状河三角洲前缘沉积,长短轴物源在合兴场-德阳-马井-新繁镇一带地区交汇;纵向上,低位体系域和高位体系域时期以辫状河三角洲前缘沉积为主,水下分支河道砂体纵向叠置、横向连片、分布广泛,湖侵体系域时期以滨浅湖沉积为主。建立了层序-沉积充填模式,指出低位体系域和高位体系域时期的长轴物源和长短轴物源交汇区辫状河三角洲前缘水下分支河道砂体是研究区优质储层发育区。 相似文献
13.
通过钻井、测井以及野外剖面等资料的综合分析,塔里木盆地巴楚及塔中地区二叠系可识别出6个层序边界.除B4为Ⅱ型层序边界外,其他各层序边界均为Ⅰ型层序边界,并以侵蚀下切为特征.根据6个层序边界可将二叠系划分为5个三级层序,这些层序均符合Vail经典层序地层学模式.SQ4层序可识别出湖侵体系域和高位体系域,SQ1、SQ2、SQ3、SQ5层序可识别出低位体系域、海(湖)侵体系域和高位体系域.低位体系域为河流相性质的侵蚀沟谷充填沉积,海(湖)侵体系域为滨浅湖和半深湖沉积,高位体系域为半深湖-滨浅湖以及三角洲沉积,另外,SQ3层序高位体系域上部还发育火山岩.河流相侵蚀沟谷充填沉积和三角洲沉积主要分布在塔东隆起西部斜坡上. 相似文献
14.
以大量钻孔岩心资料为基础,对资中铁佛场普查区须家河组沉积环境进行了分析,在须家河组共识别出4个三级层序,分别对应一段、二—三段、四—五段、六段,其层序特点为:低位体系域主要为河道砂岩沉积,几乎没有煤层发育;湖侵和高位体系域主要发育湖泊三角洲相,在滨岸沼泽和分流间湾环境成煤,且高位体系域煤层发育相对较厚、较多。研究认为区内主要可采煤层(高炭、下元炭煤层)形成于滨岸沼泽和受河流控制为主的湖滨三角洲环境。 相似文献
15.
The Lower Cenomanian Bahariya Formation corresponds to a second-order depositional sequence that formed within a continental shelf setting under relatively low-rate conditions of positive accommodation (< 200 m during 3–6 My). This overall trend of base-level rise was interrupted by three episodes of base-level fall that resulted in the formation of third-order sequence boundaries. These boundaries are represented by subaerial unconformities (replaced or not by younger transgressive wave ravinement surfaces), and subdivide the Bahariya Formation into four third-order depositional sequences. The construction of the sequence stratigraphic framework of the Bahariya Formation is based on the lateral and vertical changes between shelf, subtidal, coastal and fluvial facies, as well as on the nature of contacts that separate them. The internal (third-order) sequence boundaries are associated with incised valleys, which explain (1) significant lateral changes in the thickness of incised valley fill deposits, (2) the absence of third-order highstand and even transgressive systems tracts in particular areas, and (3) the abrupt facies shifts that may occur laterally over relatively short distances. Within each sequence, the concepts of lowstand, transgressive and highstand systems tracts are used to explain the observed lateral and vertical facies variability. This case study demonstrates the usefulness of sequence stratigraphic analysis in understanding the architecture and stacking patterns of the preserved rock record, and helps to identify 13 stages in the history of base-level changes that marked the evolution of the Bahariya Oasis region during the Early Cenomanian. 相似文献
16.
The Qaidam Basin is a Mesozoic–Cenozoic compresso-shearing basin in western China. This basin has been subsiding since the Indosinian orogeny, and the subsidence is a strongly inherited feature in its Quaternary development. Five third-order sequences (SQ1, SQ2, SQ3, SQ4 and SQ5) were recognised using drilling/logging, coring and seismic data analysis. Each sequence was further divided into transgressive systems tract and regressive systems tract based on the maximum flooding surface. A sequence stratigraphic framework was established that revealed the distribution of sedimentary systems. Seven depositional systems, namely, alluvial fan, fan delta, braided-delta, shore lacustrine, shallow lacustrine, semi-deep lacustrine and incised valley depositional system, were identified from 105 well logs and 2?D seismic lines covering 1600?km. The sedimentary system distribution was identified as follows: (1) large-scale alluvial deposit located on the southern slope and adjacent to Kunlun Mountain and Yaber tectonic zone located northeast of the study area; (2) braided-delta deposits southeast of the Sanhu area; (3) widely developed fan-delta sediments on the base of Qigequan Formation in the Yaber tectonic zone; (4) well-deposited shoal lacustrine facies along the depositional strike in the regressive systems tract; (5) widely distributed shallow lacustrine facies; and (6) incised valley with large lateral extension and incision depth as an entity at the front of the Golmud Basin in the Sanhu area. Two different depositional models, namely, east and west models, were built by conducting an integrated analysis of sequence stratigraphy and sedimentary process. In the Sanhu area, the main controlling factors of the sequence architecture and depositional systems associations of the Qigequan Formation are tectonic subsidence and climate change with sediment supply and lake-level fluctuation secondary factors. This case study provides an example of the analyses of sequence stratigraphy and depositional systems in a salinised plateau basin. The approach combines seismic and sedimentary facies analysis to investigate Quaternary deposition and stratigraphy. The low-amplitude tectonic belt on the northern slope and the lithological traps on the southern slope are predicted to be favourable for the lithological gas reservoirs. 相似文献
17.
The Greta Coal Measures are the lower of two main coal‐bearing intervals in the Permian northern Sydney Basin. High quality outcrop and continuous core data are available from the Muswellbrook Anticline area in the Hunter Valley, enabling a sequence‐stratigraphic interpretation of the Greta Coal Measures to be presented for the first time. Age and core relationships indicate an unconformity at the base and the top of the Greta Coal Measures. A correlation between dated tuffs in the upper Greta Coal Measures in the Muswellbrook area and the Maitland Group in the Cessnock area establishes a clear diachronous upper boundary for the Greta Coal Measures resulting from a northwest‐ward marine transgression. The Greta Coal Measures are interpreted to occupy a single sequence in which the lower fluvial and lacustrine Skeletar Formation makes up a transgressive systems tract, the Ayrdale Sandstone Member is an estuarine unit around the maximum flooding surface, and the upper fluvial to deltaic Rowan Formation occupies a highstand systems tract. The overlying Jasdec Park Sandstone Member of the Maitland Group infills incised valleys above a sequence boundary and then occurs as a transgressive shoreline system before passing into the glacial marine Branxton Formation. The Greta Coal Measures represent high accommodation where subsidence and sediment supply were approximately balanced over more than 100 m of accumulation, and the development of 14 recognisable coal seams occurred in a single sequence. 相似文献
18.
为了揭示鄂尔多斯盆地东缘层序地层与沉积相特征,以层序地层学和沉积学理论为指导,对鄂尔多斯盆地东缘保德扒楼沟剖面及周缘上古生界的层序与体系域界面类型、层序结构、沉积相类型及沉积演化进行研究。依据区域性不整合面、下切谷冲刷面、海侵方向转换面和区域性海退面等层序界面将研究区上古生界划分为7个三级层序,分别对应于本溪组、太原组2段、太原组1段、山西组、下石盒子组、上石盒子组和石千峰组。保德扒楼沟及周缘上古生界剖面发育16种岩石类型和8种岩石组合。区内上古生界发育障壁海岸相、碳酸盐岩台地相、辫状河相和曲流河相。SQ1-SQ3中低位体系域发育风化壳和潮道亚相,海侵体系域发育潮坪亚相和潟湖亚相,高位体系域发育碳酸盐岩台地相、潟湖亚相和潮坪亚相;SQ4-SQ7中低位体系域发育辫状河河床亚相,海侵体系域主要发育曲流河泛滥平原亚相,高位体系域主要发育多期曲流河河床亚相—堤岸亚相—泛滥平原亚相的演化序列。区内上古生界经历了由障壁海岸相和碳酸盐岩台地相向河流相的演化过程,沉积演化主要受物源供给、海平面变化和构造活动的控制。 相似文献
19.
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
20.
查干德勒苏地区位于内蒙古巴音戈壁盆地东部,早白垩世在伸展构造体制下于断陷盆地内形成了厚度约1000m的巴音戈壁组碎屑岩系地层,该层位是层间氧化带砂岩型铀矿找矿目的层,可划分为3个岩性段,下段为洪(冲)积相,水下扇相和扇三角液相沉积,中段段为浅湖相-半深湖相-较深湖相沉积,上段为滨浅湖或三角液相沉积,巴音戈壁组从下往上由洪(冲)积相,水下扇相,扇三角液相到浅湖较深湖相又到滨浅湖,三角液相的相序结合,反映湖盆水体从浅到深又变浅的演化过程,巴音戈壁组构成三级层序发育完整的低位,湖浸和高位体系域,中还对砂质岩的渗透性进行了分析,提出三角洲相,滨浅湖相砂质岩对形成层间氧化带砂岩型铀矿是有利的。 相似文献
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