安尼西亚Muschelkalk的硅化和有机质保存:对中欧Muschelkalk海盆地动力学的启示

Central European Geology Pub Date : 2017-03-01 DOI:10.1556/24.60.2017.002

A. Götz, M. Montenari, G. Costin

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引用次数: 2

摘要

日耳曼盆地南部的Anisian Muschelkalk碳酸盐岩含有硅化鲕粒岩，被解释为最大洪水期间生物生产力增加(海洋浮游植物)和陆地植物碎屑输入引发pH条件变化的证据。方解石被二氧化硅取代的三个不同阶段被检测到。第1阶段为自生石英发育阶段，表明沉积环境ph -温度变化。阶段2和阶段3位于富硅域。富硅流体中Al2O3和SrO含量显著，而FeO和MnO含量不显著，表明晚期成岩蚀变较小。硅化颗粒间孔隙空间的特点是保存较好;孢粉玻片显示大量陆生植物碎屑。我们的发现对盆地动力学的意义从古地理延伸到旋回地层学和层序地层学。

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Silicification and organic matter preservation in the Anisian Muschelkalk: Implications for the basin dynamics of the central European Muschelkalk Sea

Anisian Muschelkalk carbonates of the southern Germanic Basin containing silicified ooidal grainstone are interpreted as evidence of changing pH conditions triggered by increased bioproductivity (marine phytoplankton) and terrestrial input of plant debris during maximum flooding. Three distinct stages of calcite ooid replacement by silica were detected. Stage 1 reflects authigenic quartz development during the growth of the ooids, suggesting a change in the pH–temperature regime of the depositional environment. Stages 2 and 3 are found in silica-rich domains. The composition of silica-rich ooids shows significant Al2O3 and SrO but no FeO and MnO, indicating that late diagenetic alteration was minor. Silicified interparticle pore space is characterized by excellent preservation of marine prasinophytes; palynological slides show high abundance of terrestrial phytoclasts. The implications of our findings for basin dynamics reach from paleogeography to cyclostratigraphy and sequence stratigraphy, since change...

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来源期刊

Central European Geology Earth and Planetary Sciences-Geology

CiteScore

1.40

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0.00%

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