内蒙古苏里格庙地区晚古生代层序地层学研究

通过岩心观察 ,结合测井曲线和地震反射资料分析 ,并根据层序地层和层序界面的识别标志 ,建立了苏里格庙地区的层序地层格架 ,并将上古生界划分为 3个二级层序 (超层序组 )和 15个三级层序 ,其中本溪组和太原组的层序具二元体系域结构 ,即由海进体系域和高位体系域组成 ;山西组、石盒子组和石千峰组的层序具三元体系域结构 ,包括低位体系域、湖进体系域和高位体系域。剖析了陆表海浅陷沉积、陆表海碳酸盐岩与碎屑岩混合沉积及近岸内陆河流—三角洲—湖泊沉积超层序组 (或层序组 )中层序的发育特征 ,论述了层序的演化过程。     

海拉尔盆地贝尔凹陷贝西地区南屯组层序地层特征

应用沉积学和层序地层学的原理和方法,利用地震、钻井、岩心等资料,结合盆地区域构造演化特征,建立了海拉尔盆地贝尔凹陷贝西地区南屯组层序地层格架,将南屯组划分为1个超层序、4个三级层序、11个体系域。在层序格架内共识别出扇三角洲、辫状河三角洲、湖底扇、湖泊4种主要沉积相类型及8种亚相类型。南屯组沉积时期区内经历了初始沉降-快速沉降-沉降减弱-萎缩的构造演化过程,并形成与其对应的4个三级层序:SQ1沉积时期,研究区为分割的断陷盆地,湖盆规模较小,主要发育扇(辫状河)三角洲;SQ2沉积时期,湖盆规模迅速增大,统一的湖盆基本形成,沉积格局与SQ1时期相似,但有所不同的是区内西南缘出现物源供给,形成扇三角洲沉积;SQ3沉积时期,湖盆规模最大,区内各个物源方向的扇(辫状河)三角洲沉积规模明显减小,湖底扇及滑塌浊积体等重力流深水沉积相对发育;SQ4沉积时期,湖盆萎缩,湖盆规模迅速减小,同时东南部物源供给不足,造成东南部辫状河三角洲沉积几乎消失。生储盖组合及成藏条件综合分析表明:SQ2、SQ3低位体系域及高位体系域发育优质储层,并由于紧邻规模较大的烃源岩,在邻近断裂发育地区易形成断块圈闭及断背斜圈闭;在斜坡地区和缓坡带可形成不整合面作为遮挡的不整合-岩性圈闭及以各类砂体作为储集空间的地层超覆圈闭。     

松辽盆地北部上白垩统青山口—姚家组沉积相及层序地层界面特征

青山口组和姚家组形成于盆地演化的坳陷期，此时松辽湖盆北部发育富有特色的大型湖泊三角洲沉积，沿湖盆纵向长轴主要出现三角洲—湖相泥岩充填模式，发育三角洲和湖泊两种沉积相类型。从盆地边缘到盆地中心，沉积相由浅水三角洲逐渐变为湖泊沉积。其中青山口组主要发育滨湖、浅湖、半深湖—深湖沉积亚相；姚家组主要发育三角洲平原、三角洲前缘和前三角洲沉积亚相。岩心观察资料显示，研究区泉头组顶部至姚家组顶部共识别出6个沉积层序，相应有7个沉积层序界面，其中一个同时为超层序界面。层序界面附近主要见古土壤、冲刷面、钙质结核、削截等现象，层序界面之上覆盖鲕粒灰岩、生物屑灰岩，并见虫孔构造、黄铁矿等。     

西藏吉隆沟石炭纪沉积相与层序地层特征

西藏北喜马拉雅地层分区石炭纪仅发育杜内期一维宪期沉积，时间跨度约30Ma，含亚里组与纳兴组两个岩石地层单位。据吉隆沟地层的特征可识别出潮坪、三角洲及浅海陆棚等沉积相。由层序界面性质与地层结构特征划分为2个Ⅰ型层序、7个Ⅱ型层序、2个层序组，属1个超层序。多数层序仅由海侵体系域(TST)和高水位体系域(HST)两部分组成。     

济阳坳陷馆陶组层序地层研究

利用钻井、测井、露头和地震等资料采用沉积学、层序地层学、地震地质学等方法,研究济阳坳陷馆陶组沉积特征,并进行了层序地层划分,结果发现：济阳坳陷馆陶组地层主要发育河流相沉积,馆陶组下段存在以浅水湖泊为背景的辫状河三角洲沉积,馆陶组上段发育湖泊三角洲沉积以及曲流河浅水三角洲沉积,在此基础上,进行了层序界面识别与层序划分,可将馆陶组地层可划分出一个构造层序,2个三级层序,层序底界面都为I型层序界面,每个层序内又可划分出3个体系域,即低水位体系域、扩张体系域和高水位体系域。     

伊宁凹陷金鑫煤矿侏罗系露头剖面层序地层分析

以伊宁凹陷北缘霍城县金鑫煤矿侏罗系露头地层剖面为研究对象,采用层序地层学和沉积相分析方法,对其层序界面特征、层序的构成特征和沉积相类型进行研究.结果表明,侏罗系露头剖面发育冲积扇、辫状河、曲流河、三角洲和滨浅湖等沉积相类型;层序界面以侵蚀不整合面和河道强烈侵蚀下切面为识别标志.依据确定的层序界面,在八道湾组中划分3个层序、三工河组和西山窑组中分别划分2个层序.低位体系域主要发育冲积扇和辫状河沉积体系,湖扩体系域主要发育滨浅湖沉积,高位体系域主要发育三角洲和曲流河沉积体系.泥炭沼泽主要发育于湖扩体系域和高位体系域.     

松辽盆地东南缘层序地层与沉积体系配置及演化--以梨树断陷西北部营城组地层为例

 利用地质和地球物理资料对梨树断陷西北部营城组地层的层序界面进行识别,识别结果表明,营城组地层可划分为2个三级层序,由下至上分别是SQ5和SQ6,对应的3个层序界面分别是SB5、SB6和SB7。各三级层序可进一步细分为低位体系域、湖侵体系域和高位体系域。低位体系域主要由进积准层序组构成,湖侵体系域主要由退积准层序组构成,而高位体系域则以进积或加积式准层序组为主。沉积类型主要有近岸水下扇、扇三角洲、辫状河三角洲和湖泊总计4种相类型,其中辫状河三角洲和湖泊是研究区内最发育的相类型。近岸水下扇和扇三角洲沉积体系在各层序的凹陷边界断层下降盘发育,受构造运动控制明显,常发育在断陷湖盆的陡带;辫状河三角洲沉积体系往往与充沛的长轴物源相配置,常发育在断陷湖盆的缓坡带,指出这种构造与沉积体系的空间配置关系及其演化常受古构造与古地貌的控制。最后指出最有利的储集区位于梨树断陷西北部斜坡带。     

海拉尔盆地呼和湖凹陷南屯组层序地层与沉积体系分析

以层序地层学理论为指导,充分利用岩心、测井、地震等资料,依据层序界面反射特征,建立了海拉尔盆地呼和湖凹陷南屯组层序地层格架,将南屯组划分为两个三级层序:层序Sq1相当于南屯组一段,层序Sq2相当于南屯组二段。每个层序发育完整,分别由低水位体系域、水进体系域和高水位体系域组成。针对研究区目的层段所划分层序发育的特点,在层序地层单元划分和对比基础上,对层序格架内的沉积相类型和沉积体系分布规律进行了研究,确定研究区主要发育扇三角洲、辫状河三角洲、湖底扇、湖泊等沉积体系。Sq1层序在凹陷北部发育辫状河三角洲沉积体系, 而在南部发育扇三角洲沉积体系。Sq2层序缓坡带发育辫状河三角洲沉积体系,陡坡带发育扇三角洲沉积体系,湖盆周围发育沼泽相。综合分析各层序沉积特征及演化规律,指出了呼和湖凹陷南部沉积砂体为较有利的勘探区域。     

白驹凹陷泰州组层序地层及沉积特征

运用地震、岩心、钻测井和古生物等资料,对苏北盆地白驹凹陷泰州组进行了层序地层和沉积相分析,在泰州组地层中可识别出3个层序界面,划分出2个三级层序(SQ1、SQ2)和4个体系域。根据沉积相标志,在泰州组沉积体中识别出了辫状河三角洲、(曲流河)三角洲及湖泊3种沉积相类型,并进一步划分为8种亚相和17种微相。其中,SQ1沉积于盆地初始断陷期,以发育辫状河三角洲为特征;SQ2低位体系域沉积时期,盆地的拉张作用增加,湖盆范围扩大,(曲流河)三角洲沉积最为发育;SQ2湖侵体系域和高位体系域沉积时期,盆地发育由断陷湖盆转为坳陷湖盆,湖侵体系域湖泊沉积范围最广,主要为半深湖—深湖亚相沉积环境,高位体系域湖平面略有下降,以滨浅湖沉积环境为主。指出白驹凹陷生油层主要发育于SQ2湖侵体系域,其本身又是良好的盖层;而储集层则主要发育在SQ1-SQ2低位体系域以及SQ2高位体系域,之间相互组合形成了2套生储盖组合,生储盖的良好配置使白驹凹陷发育的辫状河三角洲前缘水下分流河道、三角洲前缘水下分流河道、席状砂以及滨浅湖砂滩、砂坝砂体成为有利的油气勘探区。     

江陵浅水-半深水坳陷湖盆层序地层学特征

以层序地层学理论为指导,系统研究了江陵浅水-半深水坳陷湖盆的层序地层学特征。研究表明:区域不整合界面和沉积转换界面是级层序的主要界面;层序内虽均发育低位、湖侵和高位体系域,但各体系域发育程度是不同的,致使层序的旋回性以非对称为主;层序内各体系域的沉积相构成均以河流三角洲和浅水湖泊为主,而冲积扇、扇三角洲不发育,湖泊水体基本没有发生过明显的扩张、收缩,湖平面的波动没有造成沉积相带的区域性变化,在此基础上,建立了江陵浅水-半深水坳陷湖盆特有的两种层序地层充填模式。     

新疆塔里木盆地白垩纪—第三纪层序地层学研究

通过对塔里木盆地西南坳陷区和东北坳陷区白垩纪－第三系典型剖面的层序地层学研究，结合地震和钻井资料的分析，划分出西南坳陷区30个三级层序，东北坳陷区24个三级层序，因其所处的构造位置和沉积环境不同，两坳陷区形成的三级层序并非一一对应，不能进行大区域的直接对比。而三级层序的有序叠置构成了二级超序及其体系域，基叠置方式包括进积组合、退积组织和加积组合。通过二级超层序的研究发现，两坳陷区白垩系－第三系（中新统）可划分为4个二组超层序（SS1－SS4），并可以等时对比，所反映的相对海平面变化周期也基本相同，并且与同受特提斯海水影响的西藏南部地区白垩－早第三纪沉积层序有海平面变化基本一致，即西藏西南地区和塔里木盆地受特提斯构造和全球海平面变化的共同影响。从中新世开始，青藏高原快速隆升，塔里木盆地相对下降，造成了两地区层序类型及海平面变化速率的不同。     

Siliciclastic shoreline to growth‐faulted,turbiditic sub‐basins: The Proterozoic River Supersequence of the upper McNamara Group on the Lawn Hill Platform,northern Australia

The River Supersequence represents a 2nd‐order accommodation cycle of approximately 15 million years duration in the Isa Superbasin. The River Supersequence comprises eight 3rd‐order sequences that are well exposed on the central Lawn Hill Platform. They are intersected in drillholes and imaged by reflection seismic on the northern Lawn Hill Platform and crop out in the McArthur Basin of the Northern Territory. South of the Murphy Inlier the supersequence forms two south‐thickening depositional wedges on the Lawn Hill Platform. The northern wedge extends from the Murphy Inlier to the Elizabeth Creek Fault Zone and the southern wedge extends from Mt Caroline to the area south of Riversleigh Station. On the central Lawn Hill Platform the River Supersequence attains a maximum thickness of 3300 m. Facies are dominantly fine‐grained siliciclastics, but the lower part comprises a mixed carbonate‐siliciclastic succession. Interspersed within fine‐grained facies are sharp‐based sandstone and conglomeratic intervals interpreted as lowstand deposits. Such lowstand deposits represent a wide range of depositional systems and palaeoenvironments including fluvial channels, shallow‐marine shoreface settings, and deeper marine turbidites and sand‐rich submarine fans. Associated transgressive and highstand deposits comprise siltstone and shale deposited below storm wave‐base in relatively quiet, deep‐water settings similar to those found in a mid‐ to outer‐shelf setting. Seismic analysis shows significant fault offsets and thickness changes within the overall wedge geometry. Abrupt thickness changes across faults over small horizontal distances are documented at both the seismic‐ and outcrop‐scales. Synsedimentary fault movement, particularly along steeply north‐dipping, largely northeast‐trending normal faults, partitioned the depositional system into local sub‐basins. On the central Lawn Hill Platform, the nature of facies and their thickness change markedly within small fault blocks. Tilting and uplift of fault blocks affected accommodation cycles in these areas. Erosion and growth of fine‐grained parts of the section is localised within fault‐bounded depocentres. There are at least three stratigraphic levels within the River Supersequence associated with base‐metal mineralisation. Of the seven supersequences in the Isa Superbasin, the River Supersequence encompasses arguably the most dynamic period of basin partitioning, syndepositional faulting, facies change and associated Zn–Pb–Ag mineralisation.     

东营凹陷下第三系层序地层研究与隐蔽油气藏预测

应用层序地层学理论,利用地震、测井、岩心和分析化验资料,建立了东营凹陷下第三系层序界面识别标志,把东营凹陷下第三系划分为 1个超层序组,4个超层序,10个层序,进行体系域划分,建立了东营凹陷下第三系层序地层格架。构造坡折带是指由同沉积构造长期活动引起的沉积斜坡明显突变的地带,对盆地充填的可容纳空间和沉积作用可产生重要影响。通过层序地层格架与构造坡折带的研究,建立东营凹陷层序发育模式。受构造坡折带控制的层序低位域砂体和湖侵体系域砂体,成藏条件良好,最有利于形成隐蔽油气藏。     

Application of the Sequence Stratigraphy in the Study of Cretaceous-Tertiary of the Tarim Basin, Xinjiang, China

1. IntroductionThe Tarim basin, one of the most developed and important areas of marine Cretaceous-Tertiary in China except for south Tibet, is very rich in oil and gas, such as Kekeya oilfield in southwestern Tarim and Kela2 gas field in northeastern Tarim. Because of the expansion, subduction of the oceanic crust of the Tethys and the collision between the India plate and the Eurasia plate during the Cretaceous-Tertiary, the Tethys transgressed into the Tarim basin from west to east fr…     

Evolution of three unconformity‐bounded sandy carbonate successions in the McArthur River region of northern Australia: The Lawn,Wide and Doom Supersequences in a proximal part of the Isa Superbasin

Gamma‐ray curves from surface outcrops together with U–Pb SHRIMP zircon dating are used to redefine the evolution of a Palaeoproterozoic sandy dolostone succession from northern Australia. This case history indicates that gamma‐ray logging of surface sections should accompany lithostratigraphic logging or an inadequate interpretation of stratigraphic evolution is a likely outcome. The 1200 m‐thick Nathan Group from the McArthur River area had previously been interpreted as a more‐or‐less continuous package of carbonates deposited in lacustrine and associated shallow‐water environments. Now it is seen to comprise the preserved remnants of three truncated, second‐order supersequences—the Lawn, Wide and Doom Supersequences—each a few hundred metres thick and each deposited over a time period of a few million years. These supersequences are separated by major stratigraphic breaks each approaching probably 10 million years duration. Each supersequence comprises several third‐order sequences which themselves contain higher‐order cycles. These were deposited in a series of continental, shoreline, and inner to outer carbonate platform environments. Transgressive, high‐energy, fluvial to marginal marine, mixed clastic‐carbonate facies dominate most of the sequences. The middle, Wide Supersequence, however, preserves deeper water (mostly sub‐storm‐wave‐base) stromatolitic facies in one sequence, and storm‐reworked clastics in another. These are interpreted as condensed intervals deposited around their respective maximum flooding surfaces and are succeeded by regressive facies that probably represent highstand systems tracts. New correlations between these 1615–1575 Ma sandy carbonate successions of the McArthur Basin (Amos, Balbirini and Dungaminnie Formations) and time‐equivalent largely clastic successions in the Lawn Hill area (Lawn Hill and Doomadgee Formations), some 400 km to the southeast, are proposed.     

华北克拉通南部周口坳陷谭庄—沈丘凹陷早白垩世沉积、构造特征与原型盆地性质

谭庄—沈丘凹陷位于华北克拉通南部,大别山北缘与华北克拉通接壤部位的周口坳陷内。区内下白垩统地层厚度巨大,沉积和沉降中心偏于盆地南侧。沉积物以细粒陆源碎屑砂岩、粉砂岩和泥岩为主;岩石中富含火山碎屑,成分成熟度和结构成熟度中等;发育一系列牵引流成因的沉积构造,属于与河流三角洲——滨浅湖沉积体系及其沉积相的组合,早白垩世沉积物源供给主要来自南部。盆地的发育和演化及早白垩世沉积主要受南部边界的叶鲁断裂控制,属于张性正断层,后期该断层发生明显地向盆地方向的逆冲。依据下白垩统砂岩组分构造属性、砂岩岩屑组分、沉积物常量元素和稀土元素地球化学特征分析以及与南部大别山造山带火山岩发育年代的对比等综合分析认为,谭庄—沈丘凹陷形成于早白垩世伸展大地构造背景,是受大别山北缘山盆耦合作用影响形成的断陷型沉积盆地。     

梅河盆地古近系梅河组沉积层序演化特征

梅河盆地为典型的断陷型含煤、油页岩盆地。通过岩芯、测井和地震的层序标志识别,在梅河盆地梅河组识别出1个巨层序、2个超层序和4个三级层序。其中,砂砾岩段、下部含煤段、中部泥岩段、上部含煤段分别对应着三级层序I、II、III和IV。通过对层序地层格架的认识,结合构造、沉积分析,揭示了研究区梅河组沉积层序演化规律,三级层序地层格架内沉积演化分别为:层序I发育了盆地初始裂陷阶段的冲积型和扇三角洲沉积;层序II发育了盆地裂陷扩张阶段扇三角洲、沼泽和浅水湖泊沉积;层序III发育了盆地最大扩张阶段深水湖泊沉积;层序IV发育了盆地萎缩阶段扇三角洲和湖泊沉积。因此,梅河盆地梅河组的层序I到层序IV的演化揭示了中国东部伸展环境下断陷盆地从初始裂陷阶段到盆地萎缩阶段完整的不同沉积层序演化特征。     

二连盆地吉尔嘎朗图凹陷下白垩统赛汉塔拉组层序地层及聚煤特征

二连盆地吉尔嘎朗图凹陷是一个陆相断陷聚煤盆地,下白垩统赛汉塔拉组是其主要含煤地层,作者利用岩心、钻孔资料对其岩相类型、沉积相、层序地层及聚煤作用特征进行研究。(1)赛汉塔拉组主要由砂砾岩、砂岩、粉砂岩、泥岩、碳质泥岩及厚层褐煤组成,发育扇三角洲平原相、扇三角洲前缘相、辫状河三角洲平原相、辫状河三角洲前缘相、滨浅湖相,分别属于扇三角洲沉积体系、辫状河三角洲沉积体系和湖泊沉积体系。(2)识别出2种层序界面:不整合面和下切谷冲刷面,将赛汉塔拉组划分为2个三级层序。从层序Ⅰ到层序Ⅱ,煤层厚度逐渐增大,聚煤作用逐渐增强。(3)在滨浅湖环境下厚煤层主要形成于湖侵体系域早期,在扇/辫状河三角洲环境下厚煤层主要形成于湖侵体系域晚期,煤层厚度在凹陷中部最大,向西北和东南方向均变小。聚煤作用明显受基底沉降作用影响,可容空间增加速率与泥炭堆积速率相平衡,从而形成了区内巨厚煤层。     

辽西八道壕煤盆地层序地层与成煤环境分析

辽西黑山—彰武地区分布有一系列早白垩世断陷成因的陆相盆地,其中以八道壕煤盆地含煤性最好。本次工作在八道壕煤矿深部勘探区,采用二维地震、钻探、测井等对八道壕组进行了层序地层和成煤环境分析。八道壕组可分为三个三级层序,下部第1层序（Sq1）为冲积扇注入湖盆形成的水下扇—扇三角洲沉积体系,湖侵域和高位域各含一个煤组,湖侵域退积的水下扇边缘和高位域扇三角洲前缘都有厚煤层发育。早期冲积扇自盆地西南注入湖盆,煤层发育在断陷较深的中北部,自西侧盆缘断裂附近向东超覆。Sq1湖侵域的煤层比高位域的煤层分布面积要大。盆地南部冲积扇主体部位粗碎屑岩增多,上、下煤组的煤层均向南变薄尖灭。由于物源区构造抬升冲积扇向湖盆的进积作用加剧,八道壕组中上部第2、3层序粗碎屑沉积物增多,湖盆水域面积缩小,煤层不再发育。     

New SHRIMP geochronology for the Western Fold Belt of the Mt Isa Inlier: developing a 1800 – 1650 Ma event framework ∗

The integration of detrital and magmatic U – Pb zircon SHIRMP geochronology with facies analysis has allowed the development of a chronostratigraphic framework for the Leichhardt and Calvert Superbasins of the Western Fold Belt, Mt Isa Inlier. This new event chart recognises three supersequences in the Leichhardt Superbasin: the Guide, Myally and Quilalar Supersequences. The Guide Supersequence spans the interval ca 1800 – 1785 Ma and includes the Bottletree Formation and the Mt Guide Quartzite. Sequence relationships suggest that this sedimentary package represents an asymmetric second-order cycle, recording a thickened transgressive suite of deposits and a comparatively thin second-order highstand. The overlying Myally Supersequence spans the interval ca 1780 – 1765 Ma and includes the Eastern Creek Volcanics and syndepositional Lena Quartzite, and the Myally Subgroup. This package represents a second-order supersequence cycle in which mafic volcanism was initiated during a phase of east – west extension. Following the cessation of volcanism, transgression led to the deposition of the Alsace Quartzite and deeper water Bortala Formation. An increase in the rate of sediment supply over accommodation resulted in progradation and deposition of the Whitworth Quartzite and redbed playa facies of the Lochness Formation as accommodation closed. The Quilalar Supersequence spans the interval ca 1755 – 1740 Ma. Sequence analysis in the eastern part of the Leichhardt River Fault Trough identifies a transgressive suite of facies at the base of this supersequence. Black shales from the upper part of the transgressive deposits characterise the condensed section for this supersequence. Facies analysis indicates that deposition took place in a series of storm-, tide- and wave-dominated shelfal marine depositional systems. Although there are no new depositional age constraints for the younger Bigie Formation, field relationships suggest that it is coeval with, or immediately preceded, the ca 1710 Ma Fiery magmatic event. Therefore, a separate supersequence is defined for the Bigie Formation, the Big Supersequence, even though it may be more genetically related to the Fiery magmatic event. The Big Supersequence, together with the ca 1690 Ma Prize Supersequence, comprise the Calvert Superbasin. The evolution of the Leichhardt and Calvert Superbasins are temporally and spatially related to magmatism. In particular, the new maximum depositional ages for the Guide and Myally Supersequences refine the age of the Eastern Creek Volcanics to ca 1780 – 1775 Ma. The new age for the Weberra Granite is within error of the age for the Fiery Creek Volcanics, indicating that they are both part of the ca 1710 Ma Fiery event. New ages for the Sybella Granite confirm that magmatism associated with this magmatic event is refined to 1680 – 1670 Ma, and is followed by deposition of the Gun Supersequence. Combining the new geochronological constraints with previous work now provides a detailed stratigraphic event framework between 1800 and 1575 Ma for the Western Fold Belt of the Mt Isa Inlier, and allows detailed comparisons and correlations with the Eastern Fold Belt and other Proterozoic terranes.