东格陵兰岛侏罗纪地层

IF 2 4区 地球科学 Q1 GEOLOGY Geus Bulletin Pub Date : 2021-07-09 DOI:10.34194/GEUSB.V46.6521
F. Surlyk, P. Alsen, M. Bjerager, G. Dam, M. Engkilde, Carina F. Hansen, M. Larsen, N. Noe‐nygaard, S. Piasecki, J. Therkelsen, H. Vosgerau
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引用次数: 8

摘要

东格陵兰裂谷盆地由一系列不同地壳构造、不同构造历史和构造风格的侏罗系次盆地组成。这个大致由北向南延伸的盆地暴露在东格陵兰岛中部和北部,长度超过600公里,宽度高达250公里。最南端的暴露是在Jameson Land最大的次盆地中发现的,而最北端的暴露是在Store Koldewey和Germania Land。本次修订的重点是侏罗纪,但包括了上三叠纪和下白垩纪序列,因为它们与侏罗纪序列有遗传关系。整个演替形成了一个整体的海侵-海退大旋回,是基默里纪海平面最高、海侵最大的旋回。晚三叠纪-早侏罗世是东格陵兰的构造静止时期。下侏罗统沉积层厚度可达950米,仅限于Jameson Land和最南端的利物浦Land的一个小的断陷异常。下侏罗统演替形成了一个完整的地层层饼包,记录了从雷蒂亚—西尼穆里亚期河流湖相向以浅海沉积为主的普林恩巴卡世—早巴约世的转变。巴约晚期裂谷作用的发生,使盆地形态和水系格局彻底重组,沉积盆地向北扩展。后下bajoian早裂谷矿床厚度约500-600 m,暴露于Jameson Land、Liverpool Land、Milne Land、Traill Ø、Geographical Society Ø、Hold with Hope、Clavering Ø、Wollaston Forland、Kuhn Ø、Th。Thomsen Land, Hochstetter Forland, Store Koldewey和Germania Land。上侏罗统裂谷-顶极地层厚度达数公里,除利物浦地和日耳曼尼亚地外,在同一地区均有暴露。在盆地南部,bajoian - kimmeridian上层序由以浅海相砂岩开始,以较深的海相泥岩结束的逐级后退单元组成,部分地区有砂质重力流沉积和注入物。在Jameson陆次盆地和Milne陆次盆地中,上侏罗统—下白垩统(volgian—ryazanian)由陆架边缘前台阶堆积砂岩体组成,并伴有斜坡和盆地泥岩和质量流砂岩。在詹姆逊地北部,断块断裂和倾斜始于巴约安晚期,至伏尔安中期达到顶峰,形成了强烈倾斜的断块,演替记录继续逐步加深。在Wollaston Forland - Kuhn Ø地区,Volgian以深水砾岩和含砾砂岩的厚楔体为代表,这些砾岩穿过盆地进入泥岩沉积在断层附着的斜坡边缘和聚煤状海底扇中。主要在20世纪70年代和80年代初建立的岩石地层方案在随后几年进行的工作的基础上进行了修订。整个侏罗纪演替,包括上三叠纪(雷提世)和下白垩纪(梁赞世-豪特里维世),形成了詹姆逊陆超群。超群被细分为Kap Stewart、Neill Klinter、Vardekløft、Hall Bredning和Wollaston Forland群,这些群被细分为25个组和48个成员。其中许多都进行了修订,并引入了3个新编队和14个新成员。
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Jurassic stratigraphy of East Greenland
The East Greenland Rift Basin comprises a series of Jurassic subbasins with different crustal configurations, and somewhat different tectonic histories and styles. The roughly N–S elongated basin is exposed in central and northern East Greenland over a length of more than 600 km and a width of up to 250 km. The southernmost exposures are found in the largest subbasin in Jameson Land, while the northernmost exposures are on Store Koldewey and in Germania Land. The focus of the present revision is on the Jurassic, but the uppermost Triassic and lowermost Cretaceous successions are included as they are genetically related to the Jurassic succession. The whole succession forms an overall transgressive–regressive megacycle with the highest sea level and maximum transgression in the Kimmeridgian. The latest Triassic – Early Jurassic was a time of tectonic quiescence in East Greenland. Lower Jurassic deposits are up to about 950 m thick and are restricted to Jameson Land and a small down-faulted outlier in southernmost Liverpool Land. The Lower Jurassic succession forms an overall stratigraphic layer-cake package that records a shift from Rhaetian–Sinemurian fluvio-lacustrine to Pliensbachian – early Bajocian mainly shallow marine sedimentation. Onset of rifting in the late Bajocian resulted in complete reorganisation of basin configuration and drainage patterns, and the depositional basin expanded far towards the north. Post-lower Bajocian early-rift deposits are up to about 500–600 m thick and are exposed in Jameson Land, Liverpool Land, Milne Land, Traill Ø, Geographical Society Ø, Hold with Hope, Clavering Ø, Wollaston Forland, Kuhn Ø, Th. Thomsen Land, Hochstetter Forland, Store Koldewey and Germania Land. Upper Jurassic rift-climax strata reach thicknesses of several kilometres and are exposed in the same areas with the exception of Liverpool Land and Germania Land. In the southern part of the basin, the upper Bajocian – Kimmeridgian succession consists of stepwise backstepping units starting with shallow marine sandstones and ending with relatively deep marine mudstones in some places with sandy gravity-flow deposits and injectites. In the Jameson Land and Milne Land Subbasins, the uppermost Jurassic – lowermost Cretaceous (Volgian–Ryazanian) succession consists of forestepping stacked shelf-margin sandstone bodies with associated slope and basinal mudstones and mass-flow sandstones. North of Jameson Land, block-faulting and tilting began in the late Bajocian and culminated in the middle Volgian with formation of strongly tilted fault blocks, and the succession records continued stepwise deepening. In the Wollaston Forland – Kuhn Ø area, the Volgian is represented by a thick wedge of deep-water conglomerates and pebbly sandstones passing basinwards into mudstones deposited in fault-attached slope aprons and coalescent submarine fans. The lithostratigraphic scheme established mainly in the 1970s and early 1980s is here revised on the basis of work undertaken over subsequent years. The entire Jurassic succession, including the uppermost Triassic (Rhaetian) and lowermost Cretaceous (Ryazanian–Hauterivian), forms the Jameson Land Supergroup. The supergroup is subdivided into the Kap Stewart, Neill Klinter, Vardekløft, Hall Bredning, and Wollaston Forland Groups, which are subdivided into 25 formations and 48 members. Many of these are revised, and 3 new formations and 14 new members are introduced.
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来源期刊
Geus Bulletin
Geus Bulletin GEOLOGY-
CiteScore
2.80
自引率
17.60%
发文量
8
期刊最新文献
Petrology of the Skaergaard Layered Series Stratigraphy of the Upper Jurassic to lowermost Cretaceous in the Rødryggen-1 and Brorson Halvø-1 boreholes, Wollaston Forland, North-East Greenland  Organic geochemistry of an Upper Jurassic – Lower Cretaceous mudstone succession in a narrow graben setting, Wollaston Forland Basin, North-East Greenland Upper Jurassic – Lower Cretaceous of eastern Wollaston Forland, North-East Greenland: a distal marine record of an evolving rift Mudstone diagenesis and sandstone provenance in an Upper Jurassic – Lower Cretaceous evolving half-graben system, Wollaston Forland, North-East Greenland
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