Schandelah科学钻探项目:德国北部早侏罗世古环境变化2500万年记录

IF 2.1 3区 地球科学 Q1 GEOLOGY
B. Schootbrugge, S. Richoz, J. Pross, F. Luppold, S. Hunze, T. Wonik, J. Blau, C. Meister, C. V. D. Weijst, G. Suan, Ángela Fraguas, J. Fiebig, J. Herrle, J. Guex, C. Little, P. Wignall, W. Püttmann, W. Oschmann
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引用次数: 35

摘要

为了了解三叠纪-侏罗纪大灭绝事件后长期和反复的海洋缺氧,在布伦瑞克(德国北部下萨克森州)附近的Schandelah村附近发现了一系列连续取芯的、338米厚的Rhaetian至Toarcian沉积物。在此,介绍并讨论了初步的生物地层学、岩性、沉积学、地球化学和地球物理钻孔数据。根据菊石、介形虫、底栖有孔虫、钙质超微化石和孢粉化石的存在,可以确定所有主要的晚三叠纪和早侏罗世阶段边界以及许多标准的下侏罗纪菊石带。三角洲Rhaetian砂和粉砂岩序列(Exter Fm)包含可能与大规模地球动力学过程有关的地震活动证据。Hettaganian(Lias Alpha)是一个由浅海砂质和粉砂质地层组成的厚的异石器时代序列,其中夹有富含有机物的页岩,代表沉积在风暴活动频繁的海岸面上。Sinemurian至Toarcian期间的逐渐加深导致了层状富有机相的重复沉积。海平面相对下降的时期可能发生在Hettangian晚期、Sinemurian晚期和Pliensbachian早期,在那里发生了一系列坚硬的地面,表明海底受到侵蚀,随后海平面上升导致遗漏和返工增加。Schandelah-1岩芯中下侏罗纪最显著的特征之一是上Pliensbachian内存在丰富的自生碳酸盐岩(glendonite、结核、牛肉方解石),部分C同位素值非常负(低至-37‰V-PDB),表明甲烷发生了厌氧氧化。基于485次分析的高分辨率有机碳同位素记录显示,在最下层的荷塘阶和下托阿尔阶,分别出现了两次主要的负碳同位素偏移(CIE)。这两次偏移都与黑色页岩沉积的开始相吻合,是其他地区这些时间间隔的众所周知的特征。尽管黑色页岩沉积也是Sinemurian和Pliensbachian相类似的部分特征,但没有明显的大的负CIE。因此,Schandelah-1岩心为欧洲陆表海道三叠纪-侏罗纪长期古环境变化提供了一个独特的沉积、生物和地球化学记录档案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Schandelah Scientific Drilling Project: A 25-million year record of Early Jurassic palaeo-environmental change from northern Germany
With the aim to understand prolonged and repeated marine anoxia after the Triassic-Jurassic mass- extinction event, a continuously cored, 338 metre thick succession of Rhaetian to Toarcian sediments was retrieved close to the village of Schandelah near Braunschweig (Lower Saxony, northern Germany). Here, preliminary biostratigraphical, lithological, sedimentological, geochemical, and geophysical borehole data are presented and discussed. Based on the presence of ammonites, ostracods, benthic foraminifers, calcareous nannofossils, and palynomorphs, all major Late Triassic and Early Jurassic stage boundaries and many of the standard Lower Jurassic ammonite zones could be defined. The deltaic Rhaetian sand- and siltstone succession (Exter Fm) contains evidence for seismic activity probably related to large-scale geodynamic processes. The Hettangian (Lias Alpha) is represented by a thick heterolithic succession composed of shallow marine sandy and silty beds with intercalated organic-rich shale, representing deposition on a shoreface with frequent storm activity. Progressive deepening during the Sinemurian to Toarcian resulted in repeated deposition of laminated organic-rich facies. Periods of relative sea-level fall likely occurred during the Late Hettangian, the Late Sinemurian, and Early Pliensbachian, where a series of hardgrounds occur indicating erosion on the sea floor followed by sea level rise leading to omission, and increased reworking. One of the most conspicuous features of the Lower Jurassic in the Schandelah-1 core is the presence of abundant authigenic carbonates (glendonites,concretions, beef-calcite) within the Upper Pliensbachian with partly very negative C-isotope values (down to –37‰ V-PDB) suggesting the anaerobic oxidation of methane. A high-resolution organic carbon isotope record based on 485 analyses shows two major negative carbon isotope excursions (CIEs) within the lowermost Hettangian and Lower Toarcian, respectively. Both excursions coincide with the onset of black shale deposition and are well-known features of these time-intervals in other regions. Despite the fact that black shale deposition also characterizes parts of the Sinemurian and Pliensbachian in similar facies, no large negative CIEs are apparent. The Schandelah-1 core thus provides an unique archive of sedimentary, biotic and geochemical records of long-term Triassic-Jurassic palaeo-environmental change in the European Epicontinental Seaway.
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来源期刊
Newsletters on Stratigraphy
Newsletters on Stratigraphy 地学-地质学
CiteScore
5.50
自引率
4.50%
发文量
22
审稿时长
>12 weeks
期刊介绍: Newsletters on Stratigraphy is an international, peer-reviewed journal with a focus on stratigraphic issues that are relevant for a broad geoscientific community. Papers published in Newsletters on Stratigraphy use (and ideally integrate) stratigraphic methodologies from a wide field of disciplines, including (but not limited to) biostratigraphy, chronostratigraphy, chemostratigraphy, and magnetostratigraphy. The results have implications for paleogeographic reconstructions, paleoceanography, paleoclimate, biotic evolution, basin development, or regional and supraregional correlation. Papers published in Newsletters on Stratigraphy comprise original research articles, background information on ongoing work of e.g., the International Stratigraphic Commission (ICS) and the International Subcommission on Stratigraphic Classification (ISSC), and review articles. There are no page charges for the publication of regular papers.
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