The Lower - Middle Miocene transition (Karpatian – Badenian) in the Krems Embayment (Central Paratethys, Lower Austria): a multistrati-graphic approach and the role of the Diendorf-Boskovice Fault System.

IF 1.7 4区地球科学 Q2 Earth and Planetary Sciences

Austrian Journal of Earth Sciences Pub Date : 2023-01-01 DOI:10.17738/ajes.2023.0006

H. Gebhardt, Bettina Schenk, A. Enge, S. Ćorić, Eva-Maria Ranftl, P. Heinz

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Abstract

Abstract The Krems Embayment contains the westernmost fully marine depositional environments of the Karpatian and Bade-nian transgressions in the Central Paratethys. Four drill cores were investigated to analyse the bio- and lithostratigraphic, and tectonic relations. The investigated core sections cover the Karpatian Laa Formation (bio-zones M4, NN4) and the Badenian Gaindorf Formation (M5b-M6, NN4-NN5). Important biostratigraphic indicators identified are Praeorbulina glomerosa glomerosa, Praeorbulina glomerosa circularis and Orbulina suturalis for the Gaindorf Formation. The Laa Formation is indicated by the absence of Praeorbulina, Orbulina and Globigerina falconensis, low numbers of Globorotalia bykovae, and a prominent peak in Helicosphaera ampliaperta abundance at the end of the Karpatian. Cibicidoides lopjanicus and Cassigerinella spp. occur with high percentages in Badenian samples and show much longer stratigraphic ranges than known from literature data. The depositional gap at the Karpatian-Badenian boundary has a minimum duration of 0.41 My in the Krems Embayment. The combination of bio- and lithostratigraphic data allows the correlation across major faults. The Diendorf-Boskovice Fault System played an important role during basin formation and was identified as very active during the early to middle Badenian Stage. The results of this study show the complex interaction of sedimentation, tectonic activity and paleobiological developments in this peripheral part of a marginal sea.

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Krems Embaiment（中副特提斯，下奥地利）中新世下中期过渡期（Karpatian–Badenian）：多比例图解方法和Diendorf-Boskovice断层系统的作用。

Krems Embayment包含了Paratethys中部Karpatian海侵和badde -nian海侵最西端的全海相沉积环境。研究了4个岩心，分析了生物、岩石地层和构造关系。研究的岩心剖面包括Karpatian Laa组(生物带M4, NN4)和Badenian Gaindorf组(M5b-M6, NN4- nn5)。确定的重要生物地层指示物为盖道夫组的Praeorbulina glomerosa glomerosa、Praeorbulina glomerosa circularis和Orbulina suturalis。Laa组主要表现为Praeorbulina、Orbulina和Globigerina falconensis的缺失，Globorotalia bykovae的数量较少，而Helicosphaera ampliaperta的丰度在Karpatian末期达到一个显著的高峰。洛贾蠓和卡西igerinella在巴登尼亚标本中所占比例较高，其地层分布范围比文献资料所知的要长得多。喀尔帕迪亚-巴登尼亚边界沉积缺口在克雷姆斯盆地的最小持续时间为0.41 m。生物地层和岩石地层资料的结合使主要断层之间的对比成为可能。Diendorf-Boskovice断裂系统在盆地形成过程中发挥了重要作用，在巴登尼亚早期至中期非常活跃。研究结果表明，该边缘海的外围部分存在沉积、构造活动和古生物发育的复杂相互作用。

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来源期刊

Austrian Journal of Earth Sciences Earth and Planetary Sciences-Paleontology

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： AUSTRIAN JOURNAL OF EARTH SCIENCES is the official journal of the Austrian Geological, Mineralogical and Palaeontological Societies, hosted by a country that is famous for its spectacular mountains that are the birthplace for many geological and mineralogical concepts in modern Earth science. AUSTRIAN JOURNAL OF EARTH SCIENCE focuses on all aspects relevant to the geosciences of the Alps, Bohemian Massif and surrounding areas. Contributions on other regions are welcome if they embed their findings into a conceptual framework that relates the contribution to Alpine-type orogens and Alpine regions in general, and are thus relevant to an international audience. Contributions are subject to peer review and editorial control according to SCI guidelines to ensure that the required standard of scientific excellence is maintained.