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V. A. Marinov S. V. Meledina O. S. Dzyuba O. S. Urman O. V. Yazikova V. A. Luchinina A. G. Zamirailova A. N. Fomin 《Stratigraphy and Geological Correlation》2006,14(4):418-432
Paleontological study of Upper Jurassic and Lower Cretaceous sediments recovered by boreholes in the Agan-Vakh and Nadym-Vengapur interfluves clarified environments of their deposition. As is shown, influx of siliciclastic material to central areas of the West Siberian sea basin varied through time. Taxonomic composition and ecological structure of nektonic and benthic fossil assemblages are analyzed and considered in terms of environmental factors such as hydrodynamics, aeration, temperature, and salinity of seawater. 相似文献
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The research area is located in the western part of Sichuan basin as a Yangtze ecotope of Cathaysian Tethyan area. It is dominated by benthic fauna, including brachiopods, Fusulinids, corals, bivalves, foraminifers, ammonites, bryozoans,Crinoids and pleopods which are less common with traces of trilobites, stromatoporas, nautilus and sporopollens seen in one or two areas,which are obviously controlled by sedimentary environments and in accordance with sedimentary facies.Through the analysis of fossils and research on burial characteristics from middle Permian middleTriassic, based on the combination of the feature of fossils in time and space, seventeen communities are recognized, the coposition, construction and palaeoenvironment of each community are expounded. Study shows that different ecological type biocoenose are distributed in different locations, which are mainly represented by sessile benthic community in the main research area, composed of Mianzhu, Mianyang, Deyang and Santai and nektonic community in marginal areas in the research area subdivided into two parts: Areas around Guangyuan-Nanjiang-Tongjiang, located at the margins in the northeast of the research area, and areas around Wenchuan-Maoxian-Dayidafeishui situated at the western borders of the research area. According to the combination of communities with sedimentary characteristics,six kinds of biofacies have been recognized and described in the study area and biofacies pattern are established. Category,ecotype, typical community and sedimentary facies of each biofacies are elucidated in this paper. The subdivision and analysis of community are meaningful for the studies of paleoenvironment ,paleogeography and their evolutions,The research of biaofacies is important for the recovery of paleobiogeography and paleoplate tectonic characteristics. 相似文献
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The research area is located in the western part of Sichuan basin as a Yangtze ecotope of Cathaysian Tethyan area. It is dominated by benthic fauna, including brachiopods, Fusulinids, corals, bivalves, foraminifers, ammonites, bryozoans, Crinoids and pleopods are less common with traces of trilobites, stromatoporas, nautilus and sporopollens seen in one or two areas,which are obviously controlled by sedimentary environments in accordance with sedimentary facies. On the basis of division and research of biological communities and according to the combination of communities with sedimentary characteristics, six kinds of biofacies have been recognized and described in the study area,i.e. benthic biofacies of restricted platform, benthic biofacies of open platform, benthic biofacies of inner gentle slope, benthic biofacies of outer gentle slope, benthic biofacies of shelf slope and swimming biofacies of deep-water basin. Based on the study of middle Permian to middle Triassic biofacies,biofacies pattern are established, category, ecotype, typical community, sedimentary facies and oil bearing of each biofacies are elucidated in this paper. According to the association law of biofacies in time and space, the ahthors think that there are three biofacies provinces in the study area, i.e., platform biofacies province, slope biofacies province and basin biofacies province.The distribution characteristics of bioface types indicates that the platform-type and ramp-type biofacies are mainly distributed in the subject of the study area. It indicates that their distribution are mainly controlled by Yangtze platform. But the bioface of deep water basin type biofacies and basin biofacies province are mainly distributed at the edge of study area, indicating that they are mainly controlled by the Longmen trough. The study of biofacies and their provincialization of Middle Permain-Middle Triassic in the Western Sichuan Basin is a reference for the reconstruction of paleogeography and paleo-plate.Therefore, the research is meaningful for the analysis of paleogeography, tectonics and their evoulution of the Sichuan Basin. 相似文献
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中国南方海相生烃成藏研究的若干新进展(三) 南方四套区域性海相烃源岩的沉积相及发育的控制因素 总被引:22,自引:0,他引:22
南方研究区下寒武统、上奥陶统—下志留统、下二叠统、上二叠统四套区域性古生代海相烃源岩可划分为7种有利沉积相:即深水泥质陆棚相、深水热水陆棚相、深水碳酸盐岩陆棚相、深水硅磷质台凹相、海湾澙湖相、近海湖盆沼泽相、前三角洲相。四套海相烃源岩的沉积—生物相图反映出这些相都不同程度与大洋相通。从早寒武世到晚二叠世,烃源岩的相类型向多样化发展。受都匀、东吴运动影响,有利相带的分布范围由大到小出现两个旋回。南方海相烃源岩的发育受板块运动、板内活动、三大古隆起、四个转换期、沉积—生物相等五个因素的控制。南方海相优质烃源岩的形成模式可概括为深水陆棚—底栖藻席模式,其特点是底栖藻类发育,沉积表面氧化而埋藏环境还原,并以此区别于已有的三种形成模式。研究区北面的秦岭洋,南面的华南洋(Pz1)、八布洋(Pz2)伸入扬子克拉通内部形成的不同时期"海湾体系",是海相烃源岩发育的摇篮,可作为南方海相油气勘探的一个重要领域。 相似文献
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生物相及其分区的研究对于川西地区中二叠世—中三叠世的古生物古地理、古板块等特征的恢复具有一定的参考意义。研究区内二叠系—三叠系生物化石丰富,其门类主要有腕足类、珊瑚、蜓类、菊石、牙形石、头足类、双壳类及有孔虫等。研究表明,这些生物门类的分布受沉积环境控制较为明显。在对生物群落划分和研究基础上,根据其与沉积特征的组合规律,在研究区识别出6种类型的生物相。通过对生物的生态类型、产出岩性以及对应沉积相类型等分析的基础上,建立了研究区中二叠世—中三叠世生物相模式,并详细阐述了各类型生物相中的生物类别以及典型群落等特征和含油性特征。根据生物的生态、地理分布特征及生物相在时间和空间上的组合规律,将川西地区中二叠世—中三叠世划分为3个生物相区,认为台地生物相区受控于扬子台地的发展,盆地生物相区受控于龙门—松潘海槽的发育。生物相类型的分布特征表明,台地型和缓坡型生物相主要分布于研究区的主体区域,体现了其分布主要受控于扬子台地,而深水盆地型生物相则主要分布于研究区边缘区域,反映出其分布主要受控于其北部的龙门海槽。 相似文献
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Four gastropod species are described from dysaerobic biofacies of the lower part of the Agua de la Mula Member of the Agrio Formation, Neuquén Basin: Metacerithium turriculatum (Forbes, 1845), Nerineopsis acutecarinatum (Behrendsen, 1891) and the new species Ampullina pichinka and Mesalia? kushea. They were active epifaunals and possibly deposit-feeders and/or browsers, and epifaunal to semi-infaunal possibly suspension- or deposit-feeder in the case of M.? kushea, thriving in soft to firm substrates. These gastropods, together with two aporrhaid species, are the dominant components of a typically small-sized, low-diversity macrobenthic fauna that occurs in dark, organic-rich shales. The facies in which this fauna is recorded are thought to represent a transition from lower to upper outer ramp marine settings, in the context of a second-order TST and early stages of a HST. They record a transition from lower dysoxic conditions in the lowest part of the Agua de la Mula Member to upper dysoxic conditions upwards. Two distinct gastropod biofacies were recognized corresponding to the two identified stages: biofacies A, dominated by Protohemichenopus neuquensis and N. acutecarinatum, more tolerant to dysoxic conditions, and biofacies B, dominated by M. turriculatum and Mesalia? kushea, less tolerant to oxygen deficiency. 相似文献
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Marie Gagnoud Patrick Lajeunesse Gaston Desrosiers Bernard Long Suzanne Dufour Jacques Labrie Florian Mermillod-Blondin Georges Stora 《Engineering Geology》2009,103(3-4):106-111
Marine silty clay deposited during the Late-Wisconsinian postglacial marine transgression of eastern Québec (Goldthwait Sea) is ubiquitous in the sedimentary column of intertidal zones of the St-Lawrence Estuary. This mud is very compact and limits the penetration of organisms composing the modern Macoma balthica community. In order to describe the characteristics of intertidal sediments containing Goldthwait Sea mud, axial tomography (CT-Scan) is used. CT-Scan is a non-destructive method that can be used to describe sediment characteristics (grain size, mineralogy, primary and secondary sedimentary structures, fabric, shape and roundness, bedding contact), and to obtain high resolution, 3D representations of structures within sediment cores. Based on differences in the densities of analysed materials, the different lithologies, lithofacies, and organisms within the core can be discriminated, and a quantification of the volume occupied by the different components of the material can be made. Here, CT-Scan images provide information on the distribution, orientation and interweaving of thanatocœnosis shell beds that alternate with massive or faintly laminated postglacial marine mud beds, as well as on ichnofacies characteristics. In addition, we show 3D images of bioturbation structures within the recent sediment layer, which is distinguished from the underlying Goldthwait Sea mud. When coupled with conventional sedimentary (grain size statistics) and radiochronological (14C) analyses, these data provide information which is valuable for identifying depositional processes within sedimentary environments. 相似文献
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