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1.
松辽盆地层序地层特征及油气聚集规律 总被引:22,自引:9,他引:13
根据野外露头、钻井岩心、测井和地震资料,建立松辽盆地各级层序的识别标志和层序地层格架,将松辽盆地地层划分为白垩纪裂谷盆地巨层序和第三纪裂谷盆地巨层序,并将白垩纪裂谷盆地巨层序进一步划分为3个超层序组,7个超层序和19个层序.松辽盆地构造演化经历了断陷期、坳陷期和萎缩期3个阶段,断陷湖盆与坳陷湖盆成因机制不同.因此,层序地层内部特征及充填序列有较大差别.通过对层序地层格架内各体系域生储盖层发育特征、组合规律和油气聚集规律研究认为:水退体系域是储集砂体最发育、油气资源量最多的层段,其次为低水位和水进体系域,高水位体系域含油气较差. 相似文献
2.
为了揭示歧口凹陷古近系岩性地层油气藏分布规律并指导钻探,应用层序地层学理论,结合三维地震、测井和岩心资料对岐口凹陷滨海地区古近系开展了层序地层分析。古近系作为一个超层序组发育3个超层序、11个三级层序。根据同沉积构造坡折类型,可以把层序划分为挠曲坡折型层序和断坡型层序2种层序类型。其中:断坡型层序主要发育在超层序1,挠曲坡折型层序主要发育在超层序2和超层序3。在滨海斜坡区,超层序2和超层序3由挠曲坡折控制的层序低位体系域和高位体系域砂体与湖扩展体系域优质烃源岩配置良好、埋深适中、成藏条件优越,是地层岩性油气藏发育有利区。提出了模型正演和有效数计算相结合的地震属性优选方法及地震属性控制下的储层预测技术,并利用该项技术在有利区内预测了6个有利目标。 相似文献
3.
漠河盆地上侏罗统层序地层格架 总被引:8,自引:0,他引:8
漠河盆地出露了较完整的上侏罗统 ,6条绣峰组、二十二站组、额木尔河组及开库康组露头剖面层序地层分析和不同剖面间层序对比结果表明 ,漠河盆地从绣峰组到开库康组在垂向上发育了 36个三级层序 ,构成绣峰、二十二站、额木尔河和开库康 4个超层序。门都里东山绣峰组剖面和二十二站组剖面出露了较完整的绣峰和二十二站超层序 ,瓦拉干—二十二站绣峰组剖面出露的是绣峰超层序中上部和二十二站超层序底部地层 ,二十二站北山二十二站组剖面出露的是二十二站超层序中上部和额木尔河超层序下部地层 ,小丘古拉河额木尔河组剖面出露的是额木尔河超层序中上部和开库康超层序下部地层 ,开库康乡开库康组剖面出露的是开库康超层序的上部地层。 相似文献
4.
松辽盆地北部白垩系由3个超层序组、8个超层序、28个沉积层序组成。断陷湖盆期发育3个超层序和6个沉积层序,以火山岩与粗碎屑岩组合为特征。断拗转化期形成1个超层序和4个沉积层序,以中粗碎屑岩为特征。典型的大型拗陷湖盆期,可识别出3个超层序和15个沉积层序,以湖泊、三角洲相中细碎屑岩沉积为主,水进体系域和高水位体系域沉积时期半深湖-深湖相暗色泥岩广为发育。湖盆萎缩期,可识别出1个超层序和3个沉积层序,以湖泊、三角洲相中粗碎屑岩沉积为主。超层序组界面包括白垩系基岩顶面、营城组顶界面和嫩江组顶界面,与燕山运动各主要幕次形成的区域不整合面相对应,区域构造运动对其起着重要的控制作用。超层序界面可以是上述超层序组界面,也可由平行不整合面和剥蚀界面构成。超层序界面处沉积间断的时间较长,河道下切、地层缺失、暴露等沉积现象发育,与岩石地层单位界面一致。沉积层序界面处沉积间断的时间相对超层序界面要短,与岩石地层单位界面往往不一致。超层序界面在地震剖面上最明显的特征是出现削截、上超和顶超等反射终止现象,岩性、测井曲线也发生剧烈变化。 相似文献
5.
海拉尔盆地查干诺尔凹陷下白垩统层序地层学研究 总被引:1,自引:0,他引:1
依据岩心、测井、录井和地震资料,以层序地层学理论为指导对海拉尔盆地查干诺尔凹陷下白垩统的扎赉诺尔群进行层序地层划分。扎赉诺尔群可划分为1个超层序,形成于凹陷断陷发育期,自下而上可划分为5个三级层序(Sq1、Sq2、Sq3、Sq4、Sq5)。进而在层序框架内对沉积体系和生、储、盖发育特征进行了分析,预测了储集层有利发育区带。指出各个断阶带、斜坡带沉积的冲积扇、扇三角洲砂体和超层序的退积型层序组(Sq2、Sq3)发育的湖底扇砂体是油气良好的储集场所,是有利的勘探目标。 相似文献
6.
辽河西部凹陷古近系层序地层与地层岩性油气藏预测 总被引:6,自引:0,他引:6
基于构造层序分析方法,应用三维地震、测井、岩心资料对辽河西部凹陷古近系做了层序地层研究和地层岩性油气藏预测。古近系作为一个超层序组可以划分出4个超层序8个三级层序。根据同沉积构造坡折类型,可以把层序划分为同沉积断裂坡折层序、同沉积挠曲坡折层序和无坡折的缓坡层序三种层序类型。其中同沉积断裂坡折层序主要发育在超层序1、超层序2和超层序3,同沉积挠曲坡折层序和缓坡层序主要发育在超层序4。超层序2和超层序3由同沉积构造坡折控制的层序低位域和高位域砂体与湖扩展体系域优质烃源岩配置,成藏条件优越。同时这些岩性圈闭一般处于中深层次生孔隙发育带内,储层性能良好,最有利于岩性油气藏发育。据此在辽河西部凹陷提出了西斜坡锦1断层的下降盘,双台子断裂下降盘;东部陡坡台安—小洼—海外河断裂下降盘是岩性油气藏发育的有利部位。〖JP〗 相似文献
7.
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。 相似文献
8.
南海北部湾盆地北部凹陷涠洲组层序地层格架及特征 总被引:3,自引:0,他引:3
通过地震、测井和岩心等资料及重矿物变化规律的综合分析,识别出沉积基准面旋回产生的层序界面,在北部湾盆地北部凹陷涠洲组划分出 3个超层序 9个三级层序,并研究了各层序发育的特征及沉积体系构成。盆地充填超层序的发育受控于中长周期基准面变化,层序地层单元在中长周期基准面旋回中所处位置不同,其地层厚度、沉积体系的类型和分布均有显著的不同。通过分析对比确认主要控油层序为超层序 1的层序 2和 3,主要储层赋存于低水位和水进体系域。以基准面旋回为基础,论述了层序与油气储盖组合的关系。 相似文献
9.
辽河坳陷曙北地区新生代层序地层及沉积体系发育特征 总被引:1,自引:1,他引:0
曙北地区是辽河坳陷西部凹陷的一个次级单元,是在太古界和中、晚元古界基底上发育起来的新生代裂谷盆地,新生界自下而上发育的地层为古近系房身泡组、沙河街组、东营组和新近系馆陶组,并覆盖第四系的沉积。通过地震、测井和地质资料的综合研究及时频分析技术的应用,本区新生代裂谷盆地沉积可划分为1个大陆裂谷巨层序、1个大陆裂谷后热沉降超层序和1个同裂谷沉降超层序、4个层序和14个体系域,并存在Ⅰ型层序和Ⅱ型层序。通过研究提出了断陷湖盆缓坡层序地层模式,揭示了不同的体系域中沉积体系的发育具有的不同特征。在两种不同类型层序的TST和HST之间,常发育大套的页岩,构成主要的生油层和盖层,各体系域的边缘场所构成良好的储层。本区层序地层的划分对于优质储层的寻找和油气富集规律的研究具有重要意义。 相似文献
10.
二连盆地白音查干凹陷是一个北断南超型的箕状断陷盆地。通过岩心、录井剖面、测井曲线和地震资料的综合研究,结合EXXON公司的层序地层划分模型和T.Cross高分辨层序地层的基准面旋回模式,将凹陷的主要研究目的层-下白垩统巴彦花群划分出2个超层序,6个三级层序;识别出冲积扇、扇三角洲等6种沉积相类型,其中冲积扇、扇三角洲发育在凹陷的北部陡坡带,辫状河三角洲和浊积扇发育在凹陷南部缓坡;发现凹陷经历3次大的湖泛,在层序演化上具有早期形成及继承性发育的特点。 相似文献
11.
南海东北部潮汕坳陷发现中—晚侏罗世到白垩纪的海相中生代地层,由泥岩、砂岩、放射虫硅质岩夹鲕粒灰岩及火山岩构成。岩石组合及沉积特征反映出,从中-晚侏罗世到白垩纪沉积水深经历了由浅到深,然后又转为陆地的一个完整旋回,沉积环境则经历了由滨浅海相到深海相,又到滨海过渡相和陆相河湖体系的演变过程,在深海相与滨海陆地过渡相之间存在一个明显的环境突变,为沉积环境缺失所致。与深海相放射虫硅质岩相伴,则夹有玄武岩(细碧岩)层。沉积反应的气候条件从中-晚侏罗世-早白垩世的温暖湿润气候环境过渡到晚白垩世的炎热干旱气候环境。这套海相中生代地层的存在对解释南海北部中生代大地构造演化以及古特提斯洋和太平洋的关系具有重要意义。 相似文献
12.
从区域构造地球化学演化的角度来看,华南Hg、Sb矿床的形成主要可划分为三个阶段:(1)沉积层(主要是元古宙基底沉积层)堆积过程中Hg、Sb的储集;(2)元古宙基底(沉积层)的下沉-熔融-花岗岩形成与Hg、Sb释放;(3)在有利构造的引控下,含Hg、Sb流体形成、演化与成矿,简称为储存-释放-富集宏观三阶段。本文重点阐述的是第一阶段,华南沉积层特别是元古宙基底沉积层的Hg、Sb丰度。文中将华南沉积层Hg、Sb丰度分为四种类型:Ⅰ原生本底丰度;Ⅱ同生异常丰度;Ⅲ后生丰度;Ⅳ混合丰度。本文计算、统计出华南沉积岩系本底丰度Hg为0.368μg/g,Sb为1.28μg/g。华南元古宙基底沉积岩系本底丰度Hg为0.363μg/g,Sb为1.45μg/g都明显高于地壳及花岗岩Hg、Sb丰度值。 相似文献
13.
中国南方中三叠世地层及沉积古地理分异 总被引:13,自引:0,他引:13
中三叠世是中国南方沉积盆地从海相沉积向陆相沉积转变的重要时期, 因此阐明该期的地层结构和沉积古地理分异对于揭示该区域构造和地质发展历史是相当重要的。本文将中国南方划分为四个沉积区 :东南沉积区、下扬子沉积区、上扬子沉积区及右江沉积区。同时对各沉积区序列、岩相生物群的分布和分异进行了总结。从而认为当时东南沉积区与下扬子沉积区是一个直接关联的沉积古地理整体, 而上扬子沉积区与右江沉积区为另个沉积古地理整体。前者在中三叠世时是一个南东高, 北西低的向北西方向倾斜的陆缘海沉积盆地, 从安尼期至拉丁期, 沉积相带不断向北西方向迁移, 并在安尼期与拉丁期之交完成从海向陆的转变。 相似文献
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15.
论华南喷流-沉积块状硫化物矿床 总被引:27,自引:1,他引:27
现代海底喷流-沉积硫化物矿床的发现极大地推动了海底热液成矿理论的发展,也大大地提高了对古代海底喷流块状硫化物矿床的研究水平。本文指出喷流-沉积是重要的成矿作用,提出喷流-沉积矿床是华南Cu、Pb、Zn、Sn、Ag、Au等矿产资源的重要来源,形成了一批超大型矿床,并将华南许多曾被认为属夕卡岩型的矿床重新确认为喷流-沉积矿床。文章还论述了华南喷流-沉积块状硫化物矿床的特征、分类、时空分布及其成矿特点等问题,提出断裂拗陷带型喷流-沉积块状硫化物矿床是华南具有特色的类型,而陆相断陷盆地中喷流-沉积矿床值得进一步深入研究 相似文献
16.
南海南、北陆缘中生代构造层序及其沉积环境 总被引:1,自引:0,他引:1
新生代海底扩张,使南海陆缘分为南、北两部分。南部礼乐地块与南海北缘在扩张之前构成了统一的活动陆缘。通过对南、北陆缘的钻井研究和井旁地震剖面解释,发现二者的中生界均具有4 个地震层序及3 个构造层。南北陆缘构造层序及物源分析表明,早白垩世礼乐地块与南海北缘曾发生碰撞拼贴。早白垩世的南海北缘地区沉积环境由海陆过渡相向陆相演化,相应的礼乐地区是由浅海相向滨海相演化,二者反映出相同的向上变浅旋回,说明在南、北陆缘拼贴之后,两者具有了统一的构造沉积背景。到晚白垩世末,两区均隆升为陆,且遭受剥蚀; 南海北缘地区上白垩统部分被剥蚀,而距俯冲边界更近的礼乐地区上白垩统则被剥蚀殆尽。 相似文献
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TANG Huafeng ZHAO Zhigang TIAN Zhiwen LU Baoliang TANG Wu HE Kailun ZHU Chenxi WANG Pujun 《《地质学报》英文版》2021,95(1):280-293
Based on the volume magnetic susceptibility and specific gravity measurements and mineral and lithologic identification results for 540 samples,the rock type,density,and magnetic susceptibility of rocks from northern Borneo were analyzed,and the applicability of gravity and magnetic data to the lithologic identification of the Mesozoic strata in the southern South China Sea was assessed accordingly.The results show that there are 3 types and 25 subtypes of rocks in northern Borneo,mainly intermediate-mafic igneous rocks and exogenous clastic sedimentary rocks,with small amounts of endogenous sedimentary rocks,felsic igneous rocks,and metamorphic rocks.The rocks that are very strongly-strongly magnetic and have high-medium densities are mostly igneous rocks,tuffaceous sandstones,and their metamorphic equivalents.The rocks that are weakly magnetic-non-magnetic and have medium-very low densities are mostly conglomerates,sandstones,siltstones,mudstones,and coal.The rocks that are weakly magnetic-diamagnetic and have highmedium densities are mostly limestones and siliceous rocks.The Cenozoic rocks are characterized by low densities and medium susceptibilities;the Mesozoic rocks are characterized by medium densities and medium-high susceptibilities;and the pre-Mesozoic rocks are characterized by high densities and low magnetism.Based on these results and the distribution characteristics of the various rock types,it was found that the pre-Mesozoic rocks produce weak regional gravity anomalies;the Mesozoic sedimentary rocks produce negative regional gravity anomalies;whereas the Mesozoic igneous rocks produce positive regional gravity anomalies;and the Cenozoic igneous rocks produce positive regional gravity anomalies.The regional high magnetic anomalies in the southern part of the South China Sea originate from the Mesozoic mafic igneous rocks and their metamorphic equivalents;and the regional medium magnetic anomalies may be produced by the felsic igneous rocks and their metamorphic equivalents.Accordingly,the identification of the Mesozoic lithology in the southern South China Sea shows that the Mesozoic sedimentary rocks are distributed over a large area of the southern South China Sea.Thus,it is concluded that the Mesozoic strata in this area have the potential for oil and gas exploration. 相似文献
18.
《International Geology Review》2012,54(15):1801-1828
We have investigated Mesozoic geological problems around the South China Sea (SCS) based on gravimetric, magnetic, seismic, and lithofacies data. Three-dimensional analytical signal amplitudes (ASA) of magnetic anomalies clearly define the inland tectonic boundaries and the residual Mesozoic basins offshore. The ASA suggest that the degree of magmatism and/or the average magnetic susceptibility of igneous rocks increase southeastwards and that late-stage A-type igneous rocks present along the coast of southeast China possess the highest effective susceptibility. The geophysical data define Mesozoic sedimentary and tectonic structures and reveal four major unconformities [Pz/T–J, T–J/J, J/K, and Mesozoic/Cenozoic (Pz, Palaeozic; T, Triassic; J, Jurassic; K, Cretaceous)], corresponding to regional tectonic events revealed by nine palaeogeographic time slices based on prior geological surveys and our new fieldwork. Showing both sedimentary and volcanic facies and regional faults, our palaeogeographic maps confirm an early Mesozoic northwestward-migrating orogeny that gradually obliterated the Tethyan regime, and a middle-to-late Mesozoic southeastward migration and younging in synchronized extension, faulting, and magmatism. Three major phases of marine deposition developed but were subsequently terminated by tectonic compression, uplift, erosion, faulting, rifting, and/or magmatism. The tectonic transition from the Tethyan to Pacific regimes was completed by the end of the Middle Triassic (ca. 220 Ma), reflecting widespread Mesozoic orogeny. The transition from an active to a passive continental margin occurred at the end of the Early Cretaceous (ca. 100 Ma); this was accompanied by significant changes in sedimentary environments, due likely to an eastward retreat of the palaeo-Pacific subduction zone and/or to the collision of the West Philippine block with Eurasia. The overall Mesozoic evolution of southeast China comprised almost an entire cycle of orogenic build-up, peneplanation, and later extension, all under the influence of the subducting palaeo-Pacific plate. Continental margin extension and rifting continued into the early Cenozoic, eventually triggering the Oligocene opening of the SCS. 相似文献
19.
《China Geology》2019,2(2):133-141
Source rocks are the material basis of oil and gas generation and determine the potential resources of exploration blocks and have important research value. This paper studies the lithology, thickness, and geochemistry of Mesozoic source rocks in the southeastern East China Sea continental shelf. The results show that the Mesozoic source rocks are mainly dark mudstone and coal-bearing strata. The total thickness of Lower–Middle Jurassic source rocks ranges from 100 m to 700 m, and that of Lower Cretaceous source rocks ranges from 50 m to 350 m. The overall thickness of Mesozoic source rocks is distributed in the NE direction and their thickness center is located in the Jilong Depression. The Lower–Middle Jurassic source rocks are mainly developed shallow marine dark mudstone and transitional coal measure strata. Those of the Lower Cretaceous are mainly mudstone of a fan delta front. Lower–Middle Jurassic and Lower Cretaceous hydrocarbon source rocks are dominated by type III kerogen, with Lower–Middle Jurassic hydrocarbon source rocks having high organic matter abundance and being medium–good hydrocarbon source rocks, while Lower Cretaceous hydrocarbon source rocks have relatively poor quality. From northwest to southeast, the vitrinite reflectance Ro of Mesozoic source rocks increases gradually. Source rocks in the study area are divided into three types. The first hydrocarbon-generating area is mainly located in the southeastern region of the study area, and the Jilong Depression is the hydrocarbon-generating center. The results of this study can provide a basis for exploration of Mesozoic oil and gas resources in the southeastern East China Sea continental shelf.© 2019 China Geology Editorial Office. 相似文献
20.
华南二叠纪层序地层与盆地演化 总被引:31,自引:2,他引:29
新兴的层序地层学,是盆地分析的重要手段。华南二叠纪是华南板块海西-印支阶段盆地演化的重要时期,沉积盆地类型划分为克拉通盆地、板内及板缘伸展盆地,以及东吴运动后出现的前陆盆地和弧后盆地。南方二叠系由11个层序和1个半超层序组成,不同类型沉积盆地中层序地层具有不同的层序特征和充填形式。二叠纪是海西-印支期盆地演化由成熟到消亡的转折阶段,它们发育于扩张环境下,总体上是由两个克拉通盆地夹持一个伸展盆地。两个克拉通盆地的发展不均衡,中央伸展盆地沿着加里东的拼合带发育。这一古地理古构造格局与加里东期十分相似,由此认为,华南晚古生代沉积的构造背景,并不是稳定的克拉通环境。 相似文献