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1.
鄂尔多斯盆地西缘晚石炭世沉积体系与高频层序旋回--以呼鲁斯太剖面例析 总被引:2,自引:0,他引:2
鄂尔多斯盆地西缘呼鲁斯太剖面上石炭统包括靖远组、羊虎沟组和太原组,发育有堡岛、堡岛-台地和潮控三角洲三种沉积体系,自下而上可以划分出16个海进- 海退层序旋回,每个层序旋回的时限为1.1 ~ 3.3Ma, 平均 1.9Ma,相当于四级相对海平面变化旋回,属高频层序旋回。每个层序由海侵体系域和早期高位体系域、晚期高位体系域组成,偶发育有强制海退体系域。晚石炭世早期海侵来自祁连海,太原晚期,祁连海与华北连通。研究区古海平面变化表现为先慢速后快速海侵和快速海退,少数为正常海退,并由此建立了古海岸平原的层序地层模式。 相似文献
2.
鄂尔多斯盆地西缘晚石炭世沉积体系与高频层序旋回--以呼鲁斯太剖面例析 总被引:4,自引:0,他引:4
鄂尔多斯盆地西缘呼鲁斯太剖面上石炭统包括靖远组、羊虎沟组和太原组,发育有堡岛、堡岛—台地和潮控三角洲三种沉积体系,自下而上可以划分出16 个海进- 海退层序旋回,每个层序旋回的时限为1 .1 ~3 .3 Ma ,平均1 .9 Ma ,相当于四级相对海平面变化旋回,属高频层序旋回。每个层序由海侵体系域和早期高位体系域、晚期高位体系域组成,偶发育有强制海退体系域。晚石炭世早期海侵来自祁连海,太原晚期,祁连海与华北连通。研究区古海平面变化表现为先慢速后快速海侵和快速海退,少数为正常海退,并由此建立了古海岸平原的层序地层模式。 相似文献
3.
相对海平面变化与南海珠江深水扇系统的响应 总被引:41,自引:2,他引:39
根据微体古生物分析建立起来的珠江口盆地第三系相对海平面曲线,具有与全球海平面变化相一致的三级旋回和不一致的二级旋回。三级海平面升降导致了各沉积层序体系域在宽广陆架和陆坡之间的迁移,研究证实,位于南中国海北缘、珠江口外的陆坡深水区广泛发育第三系多层序叠置的南海珠江深水扇系统。区域性构造作用使得珠江口盆地二级海平面变化与全球海平面变化具有不一致性,并形成与全球海退趋势相反的海侵型海平面曲线。受相对海平面变化的控制,现今处于陆坡深水区的白云凹陷自32Ma南海扩张以来经历了三台阶式的海侵事件,形成了台阶式退积层序组合,具有下粗上细的沉积序列;造就了23.8Ma以前的浅水三角洲-滨岸砂泥岩沉积组合;23.8~10.5Ma的深水扇砂泥岩为主的沉积组合;以及10.5Ma以来主要为远端的细粒沉积为主。 相似文献
4.
通过对广西六景、贵州独山和乌当泥盆系剖面层序、体系域、副层序及作用相和环境相的系统研究,识别出2种层序界面;3种海进过程和10种层序、体系域和相对海面变化.并发现,阶跃型高幅海平面变化形成的层序界面、层序、体系域、副层序和旋回层往往可在大区域追踪对比;剖面作用相、环境相分析是露头层序地层和相对海平面变化研究的基础,剖面上层序、体系域及其反映的相对海平面变化的频率、幅度、速度和相位研究对层序界面、层序、体系域、副层序和旋回层的空间延拓、等时追踪对比和驱动机制的成因解释有重要的指导、预测作用. 相似文献
5.
黔桂泥盆纪层序地层及海平面变化的频幅,速度和相位 总被引:2,自引:0,他引:2
通过对广西六景、贵州独山和乌当泥盆系剖面层序、体系域、副层序及作用相和环境相的系统研究,识别出2种层序界面;3种海进过程和10种层序,体系域和相对海面变化,并发现,阶跃型高幅海平面变化形成的层序界面、层序、体系域、副层序和旋回层往往可在大区域追踪对比;剖面作用相、环境相分析是露头层序地层和相对海平面变化研究的基础,剖面上层序、体系域及其反映的相对海平面变化的频率、幅度、速度和相位研究对层序界面、层 相似文献
6.
塔里木盆地中奥陶统一间房组沉积演化和沉积层序的发育特征及其控制因素目前还存在争议。选择塔里木盆地西部良里塔格山地区一间房组为研究对象,基于沉积相和高频米级沉积旋回类型的识别及其垂向叠置样式的分析,明确一间房组的沉积演化和沉积层序的发育特征及其控制因素。研究表明:(1)一间房组沉积时期,良里塔格山地区整体为一个碳酸盐岩缓坡沉积体系,主要发育10种岩相类型和2个沉积相带(潮缘—局限潮下带和开阔潮下带);(2)一间房组发育两种高频米级沉积旋回,分别为潮缘—局限潮下沉积旋回和开阔潮下沉积旋回;(3)识别出2个半三级层序,层序界面主要为岩性转换面,其中一个完整的三级层序包括海侵体系域和海退体系域两部分;(4)沉积演化与层序发育的主要控制因素包括古地理格局、沉积微地貌及不同级次的相对海平面变化。其中古地理格局控制着整体的沉积相带分布,沉积微地貌决定着特定岩相(如瓶筐石礁)发育的优势部位,不同级次相对海平面变化则制约着沉积相的时空演化。 相似文献
7.
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
8.
为探讨海相页岩中层序边界的识别、层序划分以及垂向上的演变特征,并给页岩中标准化层序地层的研究以及页岩气的勘探开发提供参考,以川东南地区上奥陶统五峰组—下志留统龙马溪组黑色富有机质海相页岩为例,综合利用野外剖面、岩芯、岩石薄片、古生物化石、测井、地球化学资料,结合层序地层学理论对海相页岩进行层序界面的识别和层序的划分。研究建立了以岩性界面直观反映物理特征,以测井反映地层叠加样式,以古生物笔石限定时间概念,以地球化学参数TH/U反映氧化还原环境和TOC反映有机质旋回性的海相页岩多参数层序边界识别方法;进而分析了垂向的层序发育特征以及连井层序特征,明确了五峰组—龙马溪组龙一段先后经历了三次较大规模的海侵—海退旋回,划分出3个三级层序和7个体系域;探讨了海退—海侵事件以及冰期气候对相对海平面升降的控制作用,建立了在冰期气候、古陆抬升、上升洋流以及浊流等影响因素下以体系域为单元海侵—海退的海相页岩垂向层序演化模式;体系域SQ1-TST、SQ2-TST以及SQ2-EHST为有机质富集的重点层位,SQ3-TST为次一级的有机质富集层位。 相似文献
9.
鄂尔多斯盆地东缘保德地区上古生界层序地层与沉积相特征 总被引:1,自引:1,他引:0
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
10.
华北地台在晚寒武世为一个较为典型的缓坡型台地。在其北部地层中,以发育风暴砾屑灰岩及生物丘灰岩闻名,包括崮山组、长山组和凤山组。在该套地层中,深缓坡相泥岩和泥灰岩与浅缓坡相颗粒灰岩和泥粒灰岩一起构成若干潮下型碳酸盐米级旋回,这些米级旋回本身即为有序的异成因岩相序列而成为基本工作单元。在长周期三级层序中。米级旋回形成有序垂直叠加形式,反映了三级层序本身是一个与三级相对海平面变化相关的、环境加深和变浅过程中所形成的沉积相序列根据这些特征,在华北地台北部晚寒武世地层中可识别出4个三级层序。从北向南,相变为一套白云岩,其中三级层序的高水位体系域则发育较多的潮坪相白云岩以及由其构成的环潮坪型米级旋回。这些层序的典型特征是:层序界面为淹没不整合面,层序的相序序列以“深缓坡相—浅缓坡相”为特征,从而构成特殊的“CS(?) HST”序列;而在华北地台南部,层序界面多为暴露间断面,层序的相序组构多以“缓坡相—潮坪相”为特征。从北向南的变化,形成了一个富有规律性的层序地层格架。从旋回到层序、从岩相序列到沉积相序列的层序地层研究表明:作为基本工作单元,米级旋回实际上是由“间断—加积作用”旋回机制所形成的岩相序列,由米级旋回的有序叠加形式所构成的三级层序则是一个沉积相序列。由各剖面点的古水深变化曲线,可以定性地综合出华北地台晚寒武世的海平面变化曲线。与北美晚寒武世海平面变化曲线相对比,既存在相似性更存在差异性,说明了长周期海平面变化既受全球性海平面变化的控制,同时也受区域因素的影响。 相似文献
11.
浙江石浦下白垩统灰岩微相分析与锆石U Pb年代学研究 总被引:1,自引:0,他引:1
通过对浙江象山石浦灰岩剖面系统的岩相学研究,总结出4种基本灰岩微相类型,即生物碎屑泥晶灰岩、泥晶鲕粒灰岩或鲕粒泥晶灰岩、叠层石泥灰岩、薄层—条带状泥灰岩,其形成于潮坪、鲕粒滩和浅海等三种沉积环境。结合整个剖面岩性变化规律,划分出4个沉积旋回,反映了3次主要海侵过程。并利用LA-ICP-MS锆石U-Pb同位素定年技术,首次获得了该剖面下部凝灰岩夹层中锆石U-Pb年龄为114±2 Ma,确定了该剖面形成时代为早白垩世。这一成果对于深化我国东南沿海早白垩世构造—沉积环境的研究具有重要意义。 相似文献
12.
根据札达盆地剖面中地层的接触关系、沉积旋回、沉积体系和岩相岩性特征,可将上新统河湖相地层划分为2个组、5个沉积相、8个岩段。古格组(N22g)一岩段为砾岩,属河流相沉积;二、三、五岩段以细碎屑岩为主,属浅湖相沉积;四岩段以含粘土质细碎屑岩为主,属深湖相沉积。托林组(N21t)一、二、三岩段为一套砾岩、含砾中粗粒钙质长石岩屑砂岩和中细粒砂岩的碎屑岩,为典型冲(洪)积扇沉积物。ESR法和古地磁法测年结果表明,古格组形成时代为上新世晚期(4.40~2.47Ma);托林组形成时代为上新世早期(5.44~4.40Ma)。札达盆地为一同生断陷盆地,在上新世时期的构造运动过程中,盆地演化经历了水进体系域—湖泊扩张体系域—湖泊收缩体系域3个发展阶段。 相似文献
13.
上奥陶统马家沟组为鄂尔多斯盆地东部最重要储集层,目前关于该区早奥陶世马家沟期沉积模式及岩相古地理存在较大争议.本次研究运用现代岩相古地理分析方法,以钻探成果资料与微量元素分析、镜下鉴定等分析化验资料为依据,重建了其沉积模式.指出马一、三、五亚期为海退期,盆地东部与外海隔离,气候干热,主要发育膏盐湖与含膏云坪的沉积组合;马二、四亚期为海侵期,发育开阔海、局限海与云灰坪沉积组合.并结合岩相古地理特征,以低海平面时期和高海平面时期分别建立鄂尔多斯盆地东部早奥陶世马家沟期沉积模式. 相似文献
14.
This paper presents examples of various large tidal sandbodies from the Eocene Roda Sandstone in the southern Pyrenees and the Late Pleistocene and Early Holocene in the East China Sea. An attempt is made to summarize the geometric variability of these large tidal sandbodies in relation to the sediment supply and tidal discharge of the depositional system. Transverse sand bars were developed in low-sinuosity, high-gradient channels with high influxes of coarse sediments and water from fluvial systems. Tidal point bars were formed in meandering low-gradient estuarine channel where tidal influence was stronger and sediment was finer than those of the transverse sand bar. A tidal delta complex was built up at the estuary mouth with an abundant sediment supply and an increased tidal discharge. Tidal sand ridges were formed when relict fluvial or deltaic sands were eroded and reworked by strong tidal currents during subsequent sea-level rise.
Since the sediment supply and the tidal discharge of the depositional system were closely related to the eustatic sea-level change and basin subsidence, i.e. the relative sea-level change, special attention will be given to the relationship between geometric variability of tidal sandbodies and the sequence stratigraphic framework in which various sandbodies occurred. Three orders of eustatic sea-level fluctuations can be recognized. The third-order eustatic sea-level cycle, together with basin subsidence, controlled the development of systems tracts and the occurrence of different tidal sandbodies, such as estuary and tidal flat facies during the late stage of a LSW systems tract (type 1 sequence) or a SM systems tract (type 2 sequence); tidal point bar facies, tidal delta facies or tidal sand-ridge facies during a TR systems tract; estuary facies during an early HS systems tract; and fluvial sand bar facies in a late HS systems tract and the early stage of a SM or LSW systems tract. There are also the fourth-order and fifth-order eustatic fluctuations, which are superimposed on the third-order eustatic changes and have important control on the build-up, abandonment and preservation of composite and single tidal sandbodies, respectively.
Since the deposition of tidal sandbodies is very sensitive to eustatic sea-level changes, recognition of various tidal sandbodies is important in sequence stratigraphy analyses of sedimentary basins and in the facies prediction of clastic sediments in basin modelling. 相似文献
15.
Tectonic, eustatic and environmental controls on mid-Cretaceous carbonate platform deposition, south-central Pyrenees, Spain 总被引:2,自引:0,他引:2
Cenomanian–Turonian strata of the south‐central Pyrenees in northern Spain contain three prograding carbonate sequences that record interactions among tectonics, sea level, environment and sediment fabric in controlling sequence development. Sequence UK‐1 (Lower to Upper Cenomanian) contains distinct lagoonal, back‐margin, margin, slope and basin facies, and was deposited on a broad, flat shelf adjacent to a deep basin. The lack of reef‐constructing organisms resulted in a gently dipping ramp morphology for the margin and slope. Sequence UK‐2 (Upper Cenomanian) contains similar shallow‐water facies belts, but syndepositional tectonic modification of the margin resulted in a steep slope and deposition of carbonate megabreccias. Sequence UK‐3 (Lower to Middle Turonian) records a shift from benthic to pelagic deposition, as the shallow platform was drowned in response to a eustatic sea‐level rise, coupled with increased organic productivity. Sequences UK‐1 to UK‐3 are subdivided into lowstand, transgressive and highstand systems tracts based on stratal geometries and facies distribution patterns. The same lithologies (e.g. megabreccias) commonly occur in more than one systems tract, indicating that: (1) the depositional system responded to more than just sea‐level fluctuations; and (2) similar processes occurred during different times throughout sequence development. These sequences illustrate the complexity of carbonate platform dynamics that influence sequence architecture. Rift tectonics and flexural subsidence played a major role in controlling the location of the platform margin, maintaining a steep slope gradient through syndepositional faulting, enhancing slope instability and erosion, and influencing depositional processes, stratal relationships and lithofacies distribution on the slope. Sea‐level variations (eustatic and relative) strongly influenced the timing of sequence and parasequence boundary formation, controlled changes in accommodation and promoted platform drowning (in conjunction with other factors). Physico‐chemical and climatic conditions were responsible for reducing carbonate production rates and inducing platform drowning. Finally, a mud‐rich sediment fabric affected platform morphology, growth geometries (aggradation vs. progradation) and facies distribution patterns. 相似文献
16.
Cyclothemic sedimentary rocks of the Plio-Pleistocene Petane Group outcrop extensively in the Tangoio block of central Hawke's Bay, New Zealand. They are products of inner to mid-shelf sedimentation and were deposited during glacio-eustatic sea level fluctuations along the western margin of a shallow, pericontinental seaway located in a forearc setting. The succession consists of five laterally continuous cyclothems, each containing a fine grained interval of silt and a coarse grained interval of siliciclastic sand ± gravel or limestone. Five sedimentary facies assemblages comprising 20 separate facies have been recognized. Coarse grained intervals of cyclothems were deposited mostly during relative sea level lowstands and contain up to four facies assemblages: (1) a non-marine assemblage (with three component facies, representing braided river and overbank environments); (2) an estuarine assemblage (with three component facies, representing tidal flat and mud-dominated estuarine environments); (3) a siliciclastic shoreline assemblage (with six component facies, representing greywacke pebble beach, shoreface and inner shelf environments); and (4) a carbonate shelf assemblage (with four component facies, representing tide-dominated, inshore and shallow marine environments). Fine grained intervals of cyclothems were deposited during sea level highstands when the Tangoio area was generally experiencing mid-shelf sedimentation. This produced an offshore assemblage consisting of four component facies. The distribution of facies assemblages during relative sea level lowstands was dependent upon proximity to the shoreline, the type and rate of sediment supply to the basin, and shelf hydrodynamics. Carbonate shelf facies dominate coarse grained intervals in Cyclothems 3–5, but siliciclastic shoreline and non-marine facies dominate in Cyclothems 1 and 2. The abrupt change from siliciclastic to carbonate sedimentation during relative sea level lowstand deposition is thought to have been induced by rapidly falling interglacial to glacial sea level accentuated by regional tectonic shoaling. This caused most of the terrigenous sediment supply to bypass the Tangoio area. Consequently, carbonate sediment accumulated in inshore and shallow marine settings. Facies assemblages rarely show lateral interdigitation, but are vertically stratified over the entire Tangoio block. Facies successions in each cyclothem preserve a record of relative sea level change during deposition of the Petane Group and are consistent with a Plio-Pleistocene sea level change in eastern New Zealand of c. 75–150 m, i.e. approximately the magnitude suggested for Late Quaternary glacio-eustatic sea level changes. 相似文献
17.
在对扬子板块埃迪卡拉系陡山沱组不同相区的25条代表性剖面野外研究基础上,通过沉积岩石学和岩相序列特征的系统分析,认为陡山沱组沉积时期曾发生3次二级海平面升降事件。依据3个海平面升降转换面,可识别出3个层序底界面:(1)陡山沱组底部与下伏南华系南沱组及其同期层位的冰碛杂砾岩之间的界面;(2)在浅水沉积区陡山沱组中部和上部分别出现喀斯特侵蚀面;(3)在深水沉积区相应层序界面为岩相结构转换面。依据火山灰锆石U-Pb同位素年龄,可将陡山沱组层序地层划分为2个半二级层序或超层序(SS1,SS2和SS3-TST),其中SS1时限为35Ma(635~600Ma),SS2时限为35Ma(600~565Ma),SS3-TST时限为14Ma(565~551Ma)。陡山沱组底部广泛发育的盖帽白云岩底和3个层序内的最大海泛面可以作为4个相对等时面,结合事件沉积标志层,可建立扬子板块陡山沱组从浅水沉积区至深水沉积区等时性二级层序地层划分对比格架。研究结果表明,三峡地区陡山沱组四段式划分方案不适用于整个扬子板块内陡山沱组的区域地层划分和对比。因而,建议扬子板块陡山沱组应该以二级层序地层为基础,结合化学地层和生物地层进行综合划分和对比。陡山沱组新的地层划分对比格架为研究陡山沱组古地理演变和编制该时期高精度的岩相古地理图奠定了基础。 相似文献
18.
二叠系是中国南方重要的海相含油气层系,经历了两次大的海侵-海退沉积旋回,形成了以海相碳酸盐岩为主,海相、陆相及过渡相并存的沉积古地理格局。根据典型剖面分析和岩相古地理研究,识别出4类沉积体系,即陆地沉积体系、混合沉积体系、碳酸盐台地沉积体系和斜坡盆地沉积体系。总结出4类基本的沉积体系组合,指出海平面变化和构造运动是控制沉积体系变化及其空间展布的决定因素。最后对成油气地质条件进行了分析和讨论,认为二叠系具有多套生储盖组合,其中以碳酸盐台地体系-斜坡盆地体系组合和混合沉积体系-斜坡盆地体系组合最为理想。 相似文献
19.
冀中坳陷位于渤海湾盆地西部,是发育在华北地台之上的中新生代沉积坳陷,在寒武系主要发育海相碳酸盐岩。从寒武系露头剖面入手,结合钻井地层,建立露头和钻井之间的地层对比格架。对单井相、地震相、连井相的研究表明,冀中坳陷在寒武纪构造活动平缓,各区域的地层厚度差异小。通过野外露头剖面实测、岩心观察、样品分析以及各岩性含量的统计,识别出了台地、缓坡、陆棚等3种相类型。台地相中可以识别出潮坪、局限台地、开阔台地、鲕粒滩、竹叶状砾屑滩等5种类型。潮坪主要指潮上坪和潮间坪,并进一步识别出了潮上泥坪、潮上云坪、潮上云灰坪、潮间灰坪等类型。基于各沉积相类型的分析,建立了冀中坳陷寒武系的碳酸盐岩沉积相模式,并编制了9张岩相古地理图。对古地理的研究表明,冀中坳陷在府君山期开始海侵,发育了局限台地和潮坪;至馒头期、毛庄期海侵进一步发展,主要发育了潮上泥坪;到徐庄期以后,潮坪、鲕粒滩共存,并在张夏期海侵达到高潮。崮山期开始海退,潮坪沉积又开始出现。长山期、凤山期进一步海退,分别发育了竹叶状砾屑滩和潮上云坪、潮间灰坪等。 相似文献