中国北方石炭系—二叠系油气地质调查与勘探进展   总被引：1，自引：1，他引：0  

卢进才  牛亚卓  姜亭 《地质通报》2018,37(1):7-15

近10年来,中国北方(天山-兴蒙构造带)以石炭系—二叠系为目的层的油气基础地质调查在地层划分对比、层序地层、沉积充填与沉积体系、构造改造等基础地质领域,以及石炭系—二叠系烃源岩评价等石油地质领域取得了一系列新认识。天山-兴蒙构造带发育石炭纪—二叠纪与中生代2期叠合盆地,其中中生代盆地群是在未变质的石炭系—二叠系之上发育的上叠盆地。盆地内部及周缘地质体均发现了石炭系—二叠系良好烃源岩。准噶尔、三塘湖、吐哈、银额等盆地以石炭系—二叠系为目的层的油气调查与勘探不断取得新的发现与突破,二连、松辽等盆地相继获得了石炭系—二叠系油气赋存信息。中国北方石炭系—二叠系具有良好的油气地质条件与资源前景,有望成为油气勘探的战略接替新领域。  相似文献   

珠江口盆地多期走滑构造与叠合型拉分盆地:以阳江东凹为例     

刘欣颖  吴静  朱定伟  索艳慧  周洁  王鹏程  王光增  刘泽  刘博  郭玲莉  朱俊江  李三忠 《大地构造与成矿学》2021,45(1):6-19

珠江口盆地的成盆机制和构造演化过程探讨是该地区烃源岩研究中不可缺少的环节,也是大家广泛关注的焦点问题。本文以阳江东凹为例,通过整体与局部相结合的分析方法,从整体上确定了研究区走滑断裂的发育特征和展布框架,明确了区域构造运动与走滑断裂的成因联系;并将整体划分成局部,聚焦于阳江东凹古近纪盆地构造演化阶段逐步分解与精细检验,对珠江口盆地的成盆机制、发育过程和演化模式进行分阶段解剖和分析。结果表明,研究区的构造演化过程分为三个阶段:文三段沉积期NW-SE向伸展,文二段沉积期南北向区域拉张作用下NE走向断裂右行右阶走滑拉分和文一段-恩平组沉积期NWW向走滑断裂左行左阶拉分。由于三个阶段受到不同的区域构造运动影响,各阶段盆地的打开方式和断裂的分布特征具有一定差异。同时,不同时期的构造演化过程与同时期区域构造应力场的转变一一对应,控制了沉积-沉降中心的分布,据此本文提出珠江口盆地的裂解模式是多期走滑构造控制的"叠合型"拉分盆地的新认识,研究区整体表现为三期构造叠合型盆地,盆地的构造叠合机制与洼陷的生烃排烃具有一定的相关性。  相似文献   

巴布亚湾两期前陆盆地叠置结构及其形成演化          下载免费PDF全文

王德良  梅廉夫  胡孝林  杨松岭  吴路路  刘昭茜  杨焓  苏珈毅 《地球科学》2021,46(2):405-417

巴布亚湾受澳大利亚板块与太平洋板块高速斜向汇聚的控制,经历了复杂的中、新生代构造演化.前人对巴布亚湾盆地结构构造特征的研究多是局部的、分散的,关于盆地的形成时间和动力学机制仍存在争议.利用覆盖全盆的钻井约束的高精度2D、3D地震资料,精细地刻画了盆地的结构和构造特征,揭示了巴布亚湾发育潘多拉和奥雷两期叠置的前陆盆地.潘多拉前陆盆地是形成于渐新世不整合面之上的晚渐新世-中中新世微型前陆盆地,走向为NNE.奥雷前陆盆地是发育在复杂的裂谷边缘之上的早中新世-现今的周缘前陆盆地,沿着弧形的巴布亚半岛延伸480 km;盆地走向在148°E发生转变,由西部的NW向转为东部的近EW向.潘多拉微前陆盆地被奥雷前陆盆地向南逐渐超覆的沉积地层覆盖,两个前陆盆地走向相互垂直,垂向上形成叠置结构.阐明了巴布亚湾新生代经历三期挤压事件及两期叠置的前陆盆地的形成演化,解决了盆地结构及区域构造演化认识的不足,理清了复杂陆缘环境从伸展到挤压多期构造事件的时序及动力学机制,为澳大利亚板块北缘的板块构造重建提供了盆内证据.   相似文献   

构造叠加晕结合五方位测井在甘肃省贾公台金矿寻找深部矿体中的应用          下载免费PDF全文

杨怀玉  蒙轸  刘杰  赵瑛  梁悦  贾新勇 《甘肃地质》2023,(1):20-28

贾公台金矿为甘肃党河南山地区规模最大的金矿床。为探索深部矿化、寻找盲矿体,在贾公台矿段开展原生晕研究,建立原生叠加晕轴向分带,发现贾公台金矿具反向分带特征。说明该矿体深部存在多期次成矿作用。结合地井五方位测井,预测深部3 200 m标高以下存在盲矿体。深部钻探发现了厚度大、品位高的多层金矿体,新增金资源量12吨,取得了显著找矿成果。构造叠加晕结合地井五方位测井成功圈定贾公台金矿深部矿体的实践,对同类矿床的深部找矿具有重要指导意义。  相似文献   

Distribution of Palaeozoic tectonic superimposed unconformities in the Tarim Basin,NW China: significance for the evolution of palaeogeomorphology and sedimentary response     

Hao Liu  Ian D. Somerville  Changsong Lin  Shengjie Zuo 《Geological Journal》2016,51(4):627-651

Seismic and drilling well data were used to examine the occurrence of multiple stratigraphic unconformities in the Tarim Basin, NW China. The Early Cambrian, the Late Ordovician and the late Middle Devonian unconformities constitute three important tectonic sequence boundaries within the Palaeozoic succession. In the Tazhong, Tabei, Tadong uplifts and the southwestern Tarim palaeo‐uplift, unconformities obviously belong to superimposed unconformities. A superimposed unconformity is formed by superimposition of unconformities of multiple periods. Areas where superimposed unconformities develop are shown as composite belts of multiple tectonic unconformities, and as higher uplift areas of palaeo‐uplifts in palaeogeomorphologic units. The contact relationship of unconformities in the lower uplift areas is indicative of truncation‐overlap. A slope belt is located below the uplift areas, and the main and secondary unconformities are characterized by local onlap reflection on seismic profiles. The regional dynamics controlled the palaeotectonic setting of the Palaeozoic rocks in the Tarim Basin and the origin and evolution of the basin constrained deposition. From the Sinian to the Cambrian, the Tarim landmass and its surrounding areas belonged to an extensional tectonic setting. Since the Late Ordovician, the neighbouring north Kunlun Ocean and Altyn Ocean was transformed from a spreading ocean basin to a closed compressional setting. The maximum compression was attained in the Late Ordovician. The formation of a tectonic palaeogeomorphologic evolution succession from a cratonic margin aulacogen depression to a peripheral foreland basin in the Early Caledonian cycle controlled the deposition of platform, platform margin, and deep‐water basin. Tectonic uplift during the Late Ordovician resulted in a shallower basin which was followed by substantial erosion. Subsequently, a cratonic depression and peripheral or back‐arc foreland basin began their development in the Silurian to Early–Middle Devonian interval. In this period, the Tabei Uplift, the Northern Depression and the southern Tarim palaeo‐uplift showed obvious control on depositional systems, including onshore slope, shelf and deep‐water basin. The southern Tarim Plate was in a continuous continental compressional setting after collision, whereas the southern Tianshan Ocean began to close in the Early Ordovician and was completely closed by the Middle Devonian. At the same time, further compression from peripheral tectonic units in the eastern and southern parts of the Tarim Basin led to the expansion of palaeo‐uplift in the Late Devonian–Early Carboniferous interval, and the connection of the Tabei Uplift and Tadong Uplift, thus controlling onshore, fluvial delta, clastic coast, lagoon‐bay and shallow marine deposition. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

甘肃肃北贾公台金矿构造叠加晕特征及深部找矿预测     

蒙轸 《地质与勘探》2015,51(4):731-740

通过对贾公台金矿开展系统的原生晕研究工作,初步建立了矿区原生叠加晕轴向分带(自上而下):W-Mo-Bi-Ni-Co-Cu-Zn-Pb-Ag-Au-Sb-As,认为区内成矿热液具有多期次叠加成矿的特点,深部前缘晕元素异常发育,预示深部找矿前景较好,预测深部盲矿靶位在3200 m标高以下。  相似文献   

Continental growth and reworking on the edge of the Columbia and Rodinia supercontinents; 1.86–0.9 Ga accretionary orogeny in southwest Fennoscandia     

Nick M.W. Roberts  Trond Slagstad 《International Geology Review》2015,57(11-12):1582-1606

Geological history from the late Palaeoproterozoic to early Neoproterozoic is dominated by the formation of the supercontinent Columbia, and its break-up and re-amalgamation into the next supercontinent, Rodinia. On a global scale, major orogenic events have been tied to the formation of either of these supercontinents, and records of extension are commonly linked to break-up events. Presented here is a synopsis of the geological evolution of southwest Fennoscandia during the ca. 1.9–0.9 Ga period. This region records a protracted history of continental growth and reworking in a long-lived accretionary orogen. Three major periods of continental growth are defined by the Transscandinavian Igneous Belt (1.86–1.66 Ga), Gothian (1.66–1.52 Ga), and Telemarkian (1.52–1.48 Ga) domains. The 1.47–1.38 Ga Hallandian–Danopolonian period featured reorganization of the subduction zone and over-riding plates, with limited evidence for continental collision. During the subsequent 1.38–1.15 Ga interval, the region is interpreted as being located inboard of a convergent margin that is not preserved today and hosted magmatism and sedimentation related to inboard extensional events. The 1.15–0.9 Ga period is host to Sveconorwegian orogenesis that marks the end of this long-lived accretionary orogen and features significant crustal deformation, metamorphism, and magmatism. Collision of an indenter, typically Amazonia, is commonly inferred for the cause of widespread Sveconorwegian orogenesis, but this remains inconclusive. An alternative is that orogenesis merely represents subduction, terrane accretion, crustal thickening, and burial and exhumation of continental crust, along an accretionary margin. During the Mesoproterozoic, southwest Fennoscandia was part of a much larger accretionary orogen that grew on the edge of the Columbia supercontinent and included Laurentia and Amazonia amongst other cratons. The chain of convergent margins along the western Pacific is the best analogue for this setting of Proterozoic crustal growth and tectonism.  相似文献   

Palaeoproterozoic mid‐basin inversion in the northern Mt Isa terrane,Queensland     

P. G. Betts 《Australian Journal of Earth Sciences》2013,60(5):735-748

The Mellish Park Syncline is located in the northern part of the Mt Isa terrane. It has an axial trace that transects the remnants of the unconformity‐bounded Palaeoproterozoic Leichhardt and Isa Superbasins. The syncline is separated into a lower and upper component based upon variation in fold geometry across the basin‐bounding unconformity. The lower syncline, in the Leichhardt Superbasin, is tight and has an inclined west‐dipping axial plane. The upper syncline, in the Isa Superbasin, is open and upright. The geometry of the lower syncline is a consequence of a period of shortening and basin inversion which post‐dated the Leichhardt Rift Event (ca 1780–1740 Ma) and pre‐dated the Mt Isa Rift Event (ca 1710–1655 Ma), forming an open and upright north‐oriented syncline. Subsequent southeast tilting and half‐graben development during the Mt Isa Rift Event resulted in the lower syncline being tilted into its inclined geometry. Sequences of the Isa Superbasin were then deposited onto the eroded syncline. The geometry of the upper syncline reflects regional east‐west shortening during the Isan Orogeny (ca 1590–1500 Ma). The position of the upper syncline was largely controlled by the pre‐existing lower syncline. At this time the lower syncline was reactivated and tightened by flexural slip folding.  相似文献   

叠合盆地油气成藏体系研究思路与方法——以准噶尔盆地中部地区油气藏为例     

金之钧 《高校地质学报》2011,17(2):161-169

以准噶尔盆地中部地区油气藏为例,阐述了叠合盆地油气成藏体系研究的基本思路和方法,归纳为“一个中心,两 条途径”。一个中心是指以油气藏为中心进行剖析研究,两条途径是指采用有机和无机地球化学相结合的研究方法。在准噶 尔盆地中部地区的实例研究结果表明,根据原油的有机（生物标志物）地球化学分析,研究区至少存在2大油气成藏体系, 即盆1井西凹陷东环带地区二叠系成藏体系、莫索湾中东部地区二叠系和侏罗系成藏体系。再通过无机地球化学（储层成 岩方解石）分析,发现研究区还存在另外2个成藏体系,即东道海子凹陷周边地区二叠系和侏罗系成藏体系、石东地区二 叠系成藏体系。在此基础上,进一步评价了各成藏体系中的油气潜力,以为区域油气勘探提供参考。因此,油气成藏体系 的研究有助于加强对勘探的指导;有机和无机地球化学相结合的研究方法相互补充,是对过去通常主要根据有机地球化学 方法进行分析的拓展与补充完善,形成了新认识,值得在今后的油气成藏体系研究中加强深入探索。  相似文献   

Anisotropy of magnetic susceptibility and petrofabric studies in the Garhwal synform, Outer Lesser Himalaya: Evidence of pop-up klippen     

Upasana  Devrani  Ashok K.  Dubey 《Island Arc》2009,18(3):428-443

Abstract   Geological field, petrographic, and anisotropy of magnetic susceptibility studies help in understanding the evolutionary history of the Garhwal synform that lies in the western Outer Lesser Himalaya. Orientations of the magnetic susceptibility axes reveal large variations at short distances as a result of superimposed deformation, and predominant stress conditions favorable for normal faulting. Rocks forming the outer limbs of the Garhwal Synform are metamorphosed up to the lower greenschist facies. The metamorphic grade increases to chlorite zone in the inner limb and the core is characterized by chlorite–biotite to garnet zones. The different grades of metamorphism are separated by thrusts and the structure is described as a pop-up klippen.  相似文献