辽中凹陷北洼古近系东二下亚段湖底扇沉积类型及时空演化机理分析

辽中凹陷北洼古近系东二下亚段发育14期湖底扇沉积。基于湖底扇类型划分,对不同类型湖底扇沉积控制因素、成因机制及不同类型湖底扇之间的时空演化规律进行了研究。结合深水重力流沉积学理论,依据湖底扇水道发育程度、重力流流体性质,将研究区湖底扇分为非水道化-砂质碎屑流型湖底扇、非水道化-浊流型湖底扇和水道化湖底扇3种类型。非水道化-砂质碎屑流型和非水道化-浊流型湖底扇无明显下切水道,其中非水道化-砂质碎屑流型湖底扇整体富砂,非水道化-浊流型湖底扇整体富泥。水道化湖底扇发育明显下切水道,水道中发育砂质碎屑流富砂,水道外发育浊流富泥。物源富砂性及坡折带规模共同决定湖底扇沉积类型,含砂率大于30%的富砂型物源易形成非水道化湖底扇,含砂率小于30%的富泥型物源易形成水道化湖底扇。在富砂型物源背景下,当坡折规模较大时,因搬运距离远,砂泥分异充分,沉积非水道化-砂质碎屑流型和非水道化-浊流型两种湖底扇;当坡折规模较小时,砂泥分异不充分,只发育非水道化-砂质碎屑流型湖底扇。富砂物源滑塌为非粘性体,搬运过程中易与水融合,对底部呈片状冲刷,不易形成单一水道;富泥物源滑塌为黏性体,搬运过程中对底部冲刷集中,强度更大,易形成水道。     

黄河口凹陷A区古近系沙河街组三段沉积相

通过岩心观察描述和沉积相分析,结合地震、测井、录井、分析化验资料综合分析结果表明：黄河口凹陷A区沙河街组三段发育扇三角洲相、湖底扇相和湖泊相。沙三段下亚段沉积相特征在沙三段沉积时期具有代表性。沙三段下亚段主要储层沉积相类型为扇三角洲相和湖底扇相。扇三角洲相划分为扇三角洲平原、扇三角洲前缘和前扇三角洲3个亚相。扇三角洲平原亚相由泥石流和水道沉积组成。扇三角洲前缘亚相由近端坝和远端坝沉积组成。湖底扇相可分为内扇、中扇和外扇3个亚相。内扇主要由滑塌堆积和碎屑流沉积组成,中扇主要由碎屑流和浊流沉积组成,外扇主要由浊流沉积组成。沙三段下亚段沉积时期,沉积相的平面展布具有一定的规律性,表现为：靠近南部盆缘断裂发育扇三角洲相,向湖方向发育湖底扇相,向北逐渐过渡为湖泊相。沙三段下亚段沉积时期,盆地明显为南陡北缓的箕状断陷湖盆,陡坡带活动盆缘断裂控制了扇三角洲相的分布。     

湖相重力流沉积特征及沉积模式

应用深水沉积学和地震沉积学的相关理论,通过岩心观察描述、钻测井资料分析及平面沉积相编图,对下刚果盆地A区块白垩系Pointe Indienne组深水重力流的类型、沉积特征、垂向沉积组合及沉积模式进行了探讨分析,指出该地区发育砂质碎屑流、泥质碎屑流、浊流及与重力流形成过程相关的滑动—滑塌沉积,并总结了该深水重力流的沉积模式。结果表明:砂质碎屑流沉积以块状层理细砂岩为主,含大型漂浮泥砾和泥岩撕裂屑;泥质碎屑流沉积以泥级碎屑为主,含有少量的暗色泥岩碎屑和砂质团块,见“泥包砾”结构;浊流沉积以发育完整或不完整的鲍马序列为特征;滑动—滑塌沉积具有明显的剪切滑移面,可见旋转火焰构造、砂岩扭曲杂乱分布及褶皱变形层;纵向上可识别出4种类型的重力流沉积垂向组合,以多期砂质碎屑流沉积叠置和砂质碎屑流沉积与浊流沉积叠置最为常见;研究区深水重力流沉积可分为上部扇、中部扇和外部扇3部分,上部扇以主水道沉积为主;中部扇以辫状水道和溢岸沉积为主,砂体厚度较大;外部扇以朵叶体沉积和薄层浊积岩为主,砂体厚度相对较薄。     

北部湾盆地涠西南凹陷C洼湖底扇沉积特征及控制因素分析

基于岩心、测井和三维地震资料分析,对北部湾盆地涠西南凹陷C洼湖底扇沉积特征及其控制因素进行了系统的分析,建立了研究区湖底扇发育模式。研究区重力流沉积类型主要有滑塌、砂质碎屑流、浊流3种沉积类型,受涠西南低凸起物源、外界触发机制以及古地貌的共同影响,多期重力流在研究区湖盆形成湖底扇。近源区湖底扇沉积以滑塌和厚层砂质碎屑流为主。湖底扇中部主要充填大套砂质碎屑流成因的厚层砂岩。随着流体运移和稀释,砂质碎屑流逐渐转变成远端浊流。在湖底扇末端主要沉积正粒序浊积岩和湖相泥岩。在高精度层序地层格架的约束下,研究区流沙港组一段下亚段湖底扇砂体可划分为5个期次,即U1～U5。受5号断层带差异性活动影响,5期砂体垂向叠置,平面上不断迁移摆动。早期北部分支断层活动较强,砂体主要沉积在分支断层下降盘;后期随着南部主干断层活动性增强以及北部分支断层活动性降低,砂体厚度中心逐渐向南迁移。     

渤海海域莱州湾凹陷沙三段水道型湖底扇发育特征与沉积模式

基于已钻井、测井和三维地震资料,分析了莱州湾凹陷沙三段水道型湖底扇砂体的沉积特征,并探讨其成因及发育模式.研究区沙三中亚段早期砂体成因为湖底扇沉积,并表现出水道型特征,可划分为叠覆型水道及其侧翼、复合型水道及其侧翼和单一水道及水道间等沉积微相类型.顺源条带状展布的叠覆型水道和复合型水道构成湖底扇骨架砂体.湖底扇水道类型和规模受控于物源富砂程度、同沉积断裂坡折带类型和古地貌变化.其中,物源富砂程度决定了湖底扇外部形态,同沉积断裂坡折带类型和古地貌变化进一步控制湖底扇发育位置和水道规模及其类型.水道型湖底扇具有近油源、储盖组合良好和油气运聚条件优越等特点,是岩性油气藏勘探的重要目标.     

黄骅坳陷港中地区古近系沙三段湖底扇沉积相特征

在沉积学和层序地层学理论指导下,通过分析地震剖面响应特征、测井曲线组合形态和岩心沉积构造,结合区域地质背景特点、重矿物及砂岩岩屑成分平面分布特征,研究认为港中地区沙三段发育两期完整的湖底扇沉积,每期湖底扇自下向上表现为正旋回沉积序列,扇面积为30～50 km2。湖底扇可进一步划分为4种亚相和7种沉积微相类型,其中中扇是湖底扇的主体部分,面积为15～20 km2。沙三段湖底扇的砂体并不只是由重力流成因形成的,在沉积作用前期,主要受重力作用控制,但在沉积作用后期,受牵引流和重力流双重作用控制。湖底扇物源主要来自研究区西缘的港西凸起。砂体总体呈朵叶状分布,为多期砂体叠置,在朵叶内部,中扇辫状水道砂体的物性最好,砂体顶底常被深黑色的泥岩所包围,具备非常好的油气富集条件。在港中地区沙三段中油组末期、沙三段上油组末期存在区域性或局部侵蚀界面,容易形成地层不整合油气藏;沙三段两期湖底扇沉积面积大,辫状水道较发育,并受后期构造活动发生变化,水道砂体尖灭在暗色泥岩之中,容易形成砂岩透镜体和砂岩上倾尖灭岩性油气藏。     

胜利油田车镇凹陷沙河街组二、三段沉积相

车镇凹陷古近系沙河街组三段上亚段-二段下亚段是较为典型的深断陷型三级层序.层序的发育主要受控于幕式断陷作用,可进一步划分出低位体系域、湖侵体系域和高位体系域.通过岩心观察、薄片镜下鉴定、粒度分析、古生物及遗迹化石分析,并综合利用测井曲线和地震相特征,认为该时期主要发育有扇三角洲、三角洲、近岸水下扇、湖底扇、滨浅湖滩坝等骨架砂体相,以及滨浅湖、半深湖-深湖等沉积相及其亚相.综合考虑物源特征、沉积环境、沉积体系平面展布以及生、储、盖组合关系,认为有利的沉积相带主要是三角洲、扇三角洲前缘、湖底扇、近岸水下扇的中扇和外扇以及滨浅湖中发育的滩坝和砂坝.     

珠江口盆地荔湾井区珠江组深水扇沉积特征

珠江口盆地白云凹陷荔湾深水区为油气勘探有利区域,通过岩石学和古生物组合特征研究,认为该区珠江组下部属于典型的深水扇沉积,可划分为早期盆地扇和晚期斜坡扇两种类型,两类深水扇都以发育颗粒流、砂质碎屑流及低密度浊流等顺坡重力流沉积为主,同时夹有少量内波和等深流等深水牵引流改造沉积。砂质碎屑流为两类深水扇水道砂体的主要沉积类型,发育有逆-正粒序层理、平行层理和水平层理,粒序层内可见各种丰富的液化变形和生物逃逸构造,而水平层内发育有更多的生物钻孔和扰动现象。两类深水扇的沉积构造和古生物特征有明显差异,其中盆地扇水道砂岩中普遍含硅质小砾石,水道间泥岩中含有较多保存完好的抱球虫化石,斜坡扇水道砂岩以富含炭泥屑为典型特征,水道间泥岩含有更丰富的颗石藻和抱球虫化石,其中部分抱球虫和颗石具有遭受海底溶蚀作用的现象,指示斜坡扇相对盆地扇有更大的水体深度。平面上两类深水扇具有相似的重力流沉积的分带性,都具有自陆架坡折向盆地方向由颗粒流沉积逐渐向砂质碎屑流和近源高密度浊流、远源低密度浊流等单向演化的特点。     

北部湾盆地福山凹陷古近纪湖底扇沉积演化及模式探讨

综合应用地震、测井及岩心观察资料，对福山凹陷古近纪流沙港组的湖底扇沉积进行了详细研究。认为该期的湖底扇沉积主要是由于三角洲前缘带的砂体在重力作用下进入湖泊深水区堆积而形成，部分是由位于湖盆陡坡边缘的河道砂沿水下河道进入湖泊深水区而形成的水下重力流沉积。从空间分布来看，湖底扇主要分布在凹陷的北部和西部，且北部和西部湖底扇的扇体规模较东部大，存活时间较东部长。平面上湖底扇位于三角洲体系的外侧，垂向上由下至上发育着从湖底扇一三角洲前缘远端一三角洲前缘近端的沉积演化序列。湖底扇的总体沉积模式为南部的辫状河三角洲砂岩碎屑体向北推进至深湖区形成孤立的、规模相对较大的湖底扇砂体；而西部及东部的次要物源——辫状河三角洲也在东西两侧活动断层的控制下在湖盆深处形成湖底扇沉积体。     

辽河盆地老第三系深层碎屑岩储层沉积相

辽河盆地老第三系深层主要发育扇三角洲、湖底扇和泛滥平原沉积体系。依据其成因机制、古构造背景及其砂体形态将湖底扇划分为3种类型：①缓坡型湖底扇：分布于辽河凹陷缓坡半深水至深水区，有较长的供给水道，砂体延伸方向与盆地长轴方向垂直，平面上相带展布及延伸明显受供给水道及古地形变化的控制。②陡坡型湖底扇：发育于陡岸坡脚深水区，由陡坡扇三角洲向断阶下滑塌形成，砂体多发育在断层下降盘，前端进入地形相对开阔的洼陷区形成一套沿构造走向分布的扇带状砂体。③断槽型重力流水道沉积：分布于两条断层夹持的断槽之中，碎屑沉积物从东侧陡岸泻入湖盆后直接进入由东侧边界大断裂形成的断槽中成为轴向分布的重力流水道沉积。对深层储层的沉积特征及砂体展布规律作了深入研究，认为沉积体系、沉积相决定了老第三系深层储层的发育规模和储集性能，在相同或相近埋深情况下，储集性能由好到差依次为扇三角洲砂体→湖底扇体→泛滥平原河道砂体；同一类型不同亚相、微相砂体储集性能也有显差异，如缓坡湖底扇砂体由中扇辫状沟道→扇中前缘→外扇亚相方向由好变差。对深部有利储层预测和勘探潜力分析认为，湖底扇中扇、扇三角洲前缘以及泛滥平原河道砂体都有很大的勘探潜力，寻找深层的有利储层应首先寻找有利的沉积相带，再在有利的沉积相带中寻找具相对高孔、高渗带的有利砂砾岩体。     

Sedimentary facies analysis and depositional model of gravity-flow deposits of the Yanchang Formation,southwestern Ordos Basin,NW China

During the deposition of the Chang-7 (Ch-7) and Chang-6 (Ch-6) units in the Upper Triassic, gravity flows were developed widely in a deep lake in the southwestern Ordos Basin, China. Based on cores, outcrops, well-logs and well-testing data, this paper documents the sedimentary characteristics of the gravity-flow deposits and constructs a depositional model. Gravity-flow deposits in the study area comprise seven lithofacies types, which are categorised into four groups: slides and slumps, debris-flow-dominated lithofacies, turbidity-current-dominated lithofacies, and deep-water mudstone-dominated lithofacies. The seven lithofacies form two sedimentary entities: sub-lacustrine fan and the slump olistolith, made up of three and two lithofacies associations, respectively. Lithofacies association 1 is a channel–levee complex with fining-/thinning-upward sequences whose main part is characterised by sandy debris flow-dominated, thick-bedded massive sandstones. Lithofacies association 2 represents distributary channelised lobes of sub-lacustrine fans, which can be further subdivided into distributary channel, channel lateral margin and inter-channel. Lithofacies association 3 is marked by non-channelised lobes of sub-lacustrine fans, including sheet-like turbidites and deep-lake mudstones. Lithofacies association 4 is represented by proximal lobes of slump olistolith, consisting of slides and slumps. Lithofacies association 5 is marked by distal lobes of slump olistolith, comprising tongue-shaped debris flow lobes and turbidite lobes. It is characterised by sandy debris flow, muddy debris flow-dominated sandstone and sandstone with classic Bouma sequences. Several factors caused the generation of gravity flows in the Ordos Basin, including sediment supply, terrain slope and external triggers, such as volcanisms, earthquakes and seasonal floods. The sediment supply of sub-lacustrine fan was most likely from seasonal floods with a high net-to-gross and incised channels. Triggered by volcanisms and earthquakes, the slump olistolith is deposited by the slumping and secondary transport of unconsolidated sediments in the delta front or prodelta with a low net-to-gross and no incised channels.     

Glacimarine lithofacies,provenance and depositional processes on a West Greenland trough‐mouth fan

Along the West Greenland continental margin adjoining Baffin Bay, bathymetric data show a series of large submarine fans located at the mouths of cross‐shelf troughs. One of these fans, termed here ‘Uummannaq Fan’, is a trough‐mouth fan built largely by debris delivered from a fast‐flowing outlet of the Greenland Ice Sheet during past glacial maxima. Cores from this fan provide the first information on glacimarine sedimentary facies within a major West Greenland trough‐mouth fan and on the nature of Late Weichselian–Holocene glacigenic sediment delivery to this region of the Baffin Bay margin. Glacigenic debris flows deposited on the upper slope and extending to at least 1800 m water depth in front of the trough‐mouth are related to the remobilization of subglacial debris that was delivered onto the upper slope at times when an ice stream was positioned at the shelf edge. In contrast, sedimentary facies from the northern sector of the fan are characterized by hemipelagic and ice‐rafted sediments and turbidites; glacigenic debris flows are notably absent in cores from this region. Quantitative X‐ray diffraction studies of the <2‐mm sediment fraction indicate that the bulk of the sediment in the fan is derived from Uummannaq Trough but there are distinct intervals when sediment from northern Baffin Bay sources dominates, especially on the northern limit of the fan. These data demonstrate considerable variation in the nature of sediment delivery across the Uummannaq Fan when the Greenland Ice Sheet was at the shelf edge. They highlight the variability of glacimarine depositional processes operating on trough‐mouth fans on high‐latitude continental margins during the last glacial maximum and indicate that glacigenic debris flows are just one of a number of mechanisms by which such large depocentres form. Copyright © 2012 John Wiley & Sons, Ltd.     

鄂尔多斯盆地华池地区长6油层组湖底扇内深水重力流沉积特征

以岩心的详细观察与测井录井资料综合分析为基础,通过岩石学特征和原生沉积构造等沉积相标志分析,确定鄂尔多斯盆地华池地区长6油层组厚层块状砂体属于半深湖内的深水重力流沉积体系。划分出内扇、中扇和外扇3个亚相,该区主要以中扇亚相最为发育;在深水重力流中识别出液化沉积物流、砂质碎屑流、近源浊流和远源浊流等沉积类型,建立了湖盆深水重力流沉积模式。砂质碎屑流沉积最为广泛,砂体厚度大,连片发育,具有最好的储集层物性,含油性好,是华池地区长6油层组最有利的储集层。     

Depositional model for lacustrine nearshore subaqueous fans in a rift basin: The Eocene Shahejie Formation,Dongying Sag,Bohai Bay Basin,China

The origin of the fourth member of the Eocene Shahejie Formation in the northern steep slopes of the Minfeng Sub‐sag, Dongying Sag, China, was investigated by integrating core studies and flume tank depositional simulations. A non‐channelized depositional model is proposed in this paper for nearshore subaqueous fans in steep fault‐controlled slopes of lacustrine rift basins. The deposits of nearshore subaqueous fans along the base of steep border‐fault slopes of rift basins are typically composed of deep‐water coarse‐grained sediment gravity‐flow deposits directly sourced from adjacent footwalls. Sedimentation processes of nearshore subaqueous fans respond to tectonic activities of boundary faults and to seasonal rainfall. During tectonically active stages, subaqueous debris flows triggered by episodic movements of border‐faults dominate the sedimentation. During tectonically quiescent stages, hyperpycnal flows generated by seasonal rainfall‐generated floods, normal discharges of mountain‐derived rivers and deep‐lacustrine suspension sedimentation are commonly present. The results of a series of flume tank depositional simulations show that the sediments deposited by subaqueous debris flows are wedge‐shaped and non‐channelized, whereas the sediments deposited by hyperpycnal flows generated by sporadic floods from seasonal rainfall are characterized by non‐channelized, coarse‐grained lobate depositional bodies which switch laterally because of compensation sedimentation of hyperpycanal flows. The hyperpycnal‐flow‐deposited non‐channelized lobate depositional bodies can be divided into a main body and lateral edges. The main body can be further subdivided into a proximal part, middle part and frontal part. Normal mountain‐derived river‐discharge‐deposited sediments are characterized by thin‐bedded, fine‐grained sandstones and siltstones with a limited distribution range. Normal mountain‐derived river‐discharge‐deposited sediments and deep‐lacustrine mudstones are commonly eroded in the area close to boundary faults. A nearshore subaqueous fan can be divided into three segments: inner fan, middle fan and outer fan. The inner fan is composed of debrites and the proximal part of the main body. The middle fan consists of the middle part of the main body and lateral edges, normal mountain‐derived river‐discharge‐deposited fine‐grained sediments and deep‐lacustrine mudstones. The outer fan comprises the frontal part of the main body, lateral edges, and deep‐lacustrine mudstones. Based on the non‐channelized depositional model for nearshore subaqueous fans, criteria for stratigraphic subdivision and correlation are discussed and applied.     

珠江口盆地白云凹陷晚渐新统-早中新统沉积特征及演化规律

以珠江口盆地白云凹陷钻井、测井、地震和古生物资料为基础,结合前人研究成果,系统的分析了白云凹陷晚渐新统到早中新统沉积相发育特征及凹陷沉积充填演化过程。研究结果表明,珠海组下部发育大型陆架边缘三角洲沉积,地震反射特征表明该三角洲发育三期;钻遇水下分支河道、支流间湾、河口坝及远砂坝微相,沉积物以富砂为特征,发育冲刷-充填构造、递变层理及较粗的水平潜穴等多种构造;珠海组上部为浅海相,沉积物以海相砂泥岩互层为主,此时期陆架坡折带位于白云凹陷南坡;珠江组沉积时期,海平面升降旋回频繁,陆架坡折带迁至凹陷北坡。随着古珠江流域扩大,沉积物输入量增加,在珠江组下部发育了深水扇,沉积物以细-粗砂岩为主,夹少量粉砂岩及深海泥岩,发育颗粒流、液化流、浊流及碎屑流等四种主要的重力流,钻遇内扇水道,中扇废弃水道及水道间漫溢沉积,外扇深海泥沉积;珠江组上部为半深海相,沉积物以深海泥岩为主。      

辽河西部凹陷欢喜岭地区沙河街组沉积特征及其演化

在充分利用岩芯、录井、测井等相关资料的基础上,总结辽河西部凹陷欢喜岭地区沙河街组的沉积相类型,首次提出运用相对单因素综合作图法来绘制各沉积时期的沉积相平面图,综合探讨了沙河街组的沉积特征及空间沉积演化规律。结果表明：欢喜岭地区沙河街组主要发育扇三角洲相、湖底扇相、滨浅湖相和半深湖—深湖相4种沉积相类型;扇三角洲砂体为欢喜岭地区主要的储集砂体,在沙河街组沉积时期持续发育,主要发育于盆地缓坡部位;湖底扇主要发育在SQ3和SQ4沉积时期,主要分布在广阔的半深湖—深湖环境内;相对单因素综合作图法可以弥补传统的沉积相作图方法精度低的不足;沙河街组的沉积相垂向演化的旋回性明显,自下而上分为两个水进旋回,分别为SQ2～SQ5沉积时期和SQ6、SQ7沉积时期;每个水进旋回初期,盆地构造活动相对较弱,水体较浅,扇三角洲沉积广泛发育,湖底扇沉积规模较小;每个水进旋回中后期,盆地构造活动强度大,湖盆水体加深,扇三角洲规模减小,而湖底扇沉积规模明显扩大,形成非常有利的储集砂体,在研究区广泛发育,是研究区深层勘探的有利目标之一。     

东营凹陷永55区块沙四上亚段深水浊积扇沉积与油气

深水浊积扇是东营凹陷北部陡坡带永55区块沙四上亚段最发育的沉积相,也是最有利的砂砾岩储层。在岩心观察基础上,通过薄片鉴定、粒度分析等测试手段,综合地质、物探和测井资料,对永55区块砂砾岩体储层的沉积特征进行了研究。结果表明,本区深水浊积扇沉积具有如下特征：(1)岩石成分成熟度和结构成熟度均较低;(2)碎屑物质以递变悬浮搬运为主;(3)沉积构造具有典型的重力流成因特征;(4)岩心中见典型鲍马沉积序列。建立了深水浊积扇退积型沉积模式,并进一步细分为内扇、中扇和外扇3个亚相及4个微相。位于中扇的辫状沟道砂体物性好,可以构成优质储层,较深湖暗色泥岩为主要的烃源岩和盖层,本区生、储、盖发育齐全,有着良好的勘探开发前景。     

济阳坳陷车15井区浊积扇沉积及油气勘探意义

根据岩心、地震、测录井资料,在济阳坳陷车镇凹陷车15井区的沙三下砂砾体中识别出滑塌浊积扇和深水浊积扇。其中,车古25井以具水道补给的(有根的)滑塌浊积扇为特色;内扇及水道最发育,为碎屑流夹浊流的巨砾岩、中细砾岩(厚10～20 m)与砾质砂岩夹薄层深灰、灰色泥岩;崩塌成因的巨砾(大小1.06 m)反映了陡的斜坡;地震上呈楔状外形,内扇为弱反射,中扇与外扇为发散、亚平行的连续反射。车57井以粒度偏细且有根的深水浊积扇与深湖相互层为特色;中扇发育,为厚(5～11 m)的水道碎屑流细砾岩与砾质砂岩,夹深灰色泥岩;水道沉积表现为钟型测井曲线。顺水道方向滑塌浊积扇由北而南产生进积,向盆出现深水浊积扇;2类扇体沿主构造线串珠状排列,包裹于大片的深湖相中,呈现"深湖包扇"的沉积格局。不同类型浊积扇的识别及其边界的确定,对于该区隐蔽圈闭勘探具有重要意义。     

南阳地区泌阳凹陷沉积相展布与油气勘探

利用地震、测井、岩心资料,根据沉积构造、岩性剖面结构、砂体厚度确定了泌阳凹陷毕店地区古近系核桃园组三段沉积相类型;借助新的地震反演方法追踪三维数据体中的薄储层,在解释追踪基础上,得到核三段等时单砂层(或小层)厚度变化图,并编制了沉积相分布图。结果表明这里以广泛发育的浊积扇、滑塌扇等浊流沉积为特色,呈现出"南北部浊积扇夹中部深湖相"的沉积格局;早期富浊积砂、晚期富深水泥的沉积演化反映了湖平面的上升过程。基于有利的沉积相带,预测并评价了隐蔽圈闭,为油气勘探提供了依据。