Organic geochemistry of an Upper Jurassic – Lower Cretaceous mudstone succession in a narrow graben setting, Wollaston Forland Basin, North-East Greenland

IF 2 4区 地球科学 Q1 GEOLOGY Geus Bulletin Pub Date : 2023-12-21 DOI:10.34194/geusb.v55.8320
J. Bojesen‐Koefoed, P. Alsen, M. Bjerager, J. Hovikoski, P. Johannessen, H. Nøhr-Hansen, Henrik I Petersen, S. Piasecki, H. Vosgerau
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Abstract

The Oxfordian–Ryazanian was a period of widespread deposition of marine organic-rich mudstones in basins formed during the early phases of the rifting that heralded the formation of the present-day North Atlantic. Occasionally, uninterrupted deposition prevailed for 20 million years or more. Today, mudstones of this time interval are found on the shelves bordering the North Atlantic and adjacent areas from Siberia to the Netherlands. Here, we report data on two fully cored boreholes from Wollaston Forland (North-East Greenland, approx. 74° N), which represent an uninterrupted succession from the upper Kimmeridgian to the Hauterivian. The boreholes record basin development at two different positions within an evolving halfgraben, located at the margin of the main rift, and thus partially detached from it. Although the overall depositional environment remained an oxygen-restricted deep-shelf setting, rifting-related changes can be followed through the succession. The Kimmeridgian was a period of eustatic highstand and records the incipient rifting with a transgressive trend straddling the transition to the lower Volgian by a gradual change from deposits with high levels of total organic carbon (TOC) and kerogen rich in allochthonous organic matter to deposits with lower TOC and a higher proportion of autochthonous organic matter. This is followed by a slight regressive trend with lower TOC and increased proportions of allochthonous organic matter until rifting culminated in the middle Volgian–Ryazanian, indicated by increasing autochthonous organic matter and higher TOC, which prevailed until basin ventilation occurred towards the end of the Ryazanian. The properties of the reactive kerogen fraction remained rather stable irrespective of TOC, underlining the effect of terrigenous matter input for TOC. These variations are also captured by biological markers and stable carbon isotopes. The deposits are very similar to equivalent successions elsewhere in the proto-North Atlantic region, albeit the proportion of terrigenous kerogen is greater.
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格陵兰东北部沃拉斯顿福尔兰盆地狭窄地堑环境中上侏罗世-下白垩世泥岩演替的有机地球化学特征
牛津-侏罗纪是富含海洋有机质的泥岩在断裂早期形成的盆地中广泛沉积的时期,预示着今天北大西洋的形成。有时,不间断沉积的时间长达 2000 万年或更久。如今,在北大西洋和从西伯利亚到荷兰的邻近地区的陆架上发现了这一时期的泥岩。在此,我们报告了来自沃拉斯顿福尔兰(格陵兰东北部,约北纬 74°)的两个完全取芯钻孔的数据,这两个钻孔代表了从上金梅里德纪到豪特里维纪的不间断演替。这些钻孔记录了位于主裂谷边缘、因而部分脱离主裂谷的一个不断演变的半断裂带内两个不同位置的盆地发育情况。虽然整个沉积环境仍然是一个氧气受限的深海陆架环境,但可以通过演替追踪到与断裂有关的变化。金梅迭纪是一个震旦纪高位时期,记录了断裂的萌芽,其横向趋势跨越了向伏尔加河下游的过渡,从总有机碳(TOC)含量高、富含同源有机质的角质沉积逐渐转变为总有机碳含量较低、自生有机质比例较高的沉积。随后出现了轻微的倒退趋势,总有机碳含量降低,同源有机质比例增加,直到伏尔加-梁赞中期裂解达到高潮,表现为自生有机质增加和总有机碳含量升高,这种趋势一直持续到梁赞末期发生盆地通风。无论总有机碳含量如何,活性角质部分的性质都保持相当稳定,这突出表明了陆源物质输入对总有机碳含量的影响。生物标记和稳定碳同位素也捕捉到了这些变化。这些沉积物与原北大西洋地区其他地方的同类沉积物非常相似,尽管陆生角质所占比例更大。
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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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