Microbial micritic cementation in deep time: Implications for early marine lithification and paleoenvironmental reconstruction

IF 2.7 2区 地球科学 Q1 GEOLOGY
Salim Belkhedim , Gregor P. Eberli , Matthias López Correa , Radouane Sadji , Abdelkrim Nemra , Miloud Benhamou , Axel Munnecke
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Abstract

Early micritic cementation is important to reconstruct paleoenvironments of sedimentary gaps. However, due to their scarcity in ancient records, their initial mineralogy (low-magnesium calcite (LMC), high-magnesium calcite (HMC), aragonite), as well as their origin (biotic or abiotic) and paleoenvironments are still controversial. Herein, based on fluorescence microscopy (FL), cathodoluminescence microscopy (CL), and microdrilling carbon and oxygen isotope analyses, we investigate well developed micritic cements in lower Pliensbachian limestones from the Traras Mountains, northwestern Algeria. Evidence for a microbiological influence in the formation of these cements is given by their irregular morphology, the presence of clotted micropeloidal structures, as well as their bright fluorescence under FL. Together, they reflect precipitation of the micritic cements under microbial control via active and/or passive mechanisms, in the presence of organic matter. Their orange luminescence and low δ18O signals suggest their initial precipitation by sea-water as HMC before being recrystallized into LMC within the meteoric and/or burial realm. These micritic cements, including anisopachous and meniscus-like cements are thought to be precipitated within the marine phreatic zone, as they are associated mainly with isopachous fibrous cements, which is in contrast to their widespread attribution as typical and indicative fabrics of the marine vadose zone. In addition, it has been shown that crystalline cements are developed always upon the early micritic envelopes and micritic cements. These observations which are in line with recent studies conducted on modern deposits confirm that preservation of marine microbial cements in deep time is crucial not only for early grain stabilization, but also serving as a foundation for the subsequent crystal growth.

深部时间的微生物微晶胶结:对早期海洋岩化和古环境重建的影响
早期微晶胶结对于重建沉积缝隙的古环境非常重要。然而,由于它们在古代记录中很少见,其初始矿物学(低镁方解石(LMC)、高镁方解石(HMC)、文石)及其起源(生物或非生物)和古环境仍存在争议。在此,我们基于荧光显微镜(FL)、阴极发光显微镜(CL)和微钻碳氧同位素分析,研究了阿尔及利亚西北部特拉斯山脉下普利恩巴赫石灰岩中发育良好的微晶胶结物。这些胶结物的不规则形态、凝块状微胶体结构的存在以及在荧光显微镜下发出的明亮荧光,都证明了微生物对其形成的影响。它们共同反映了在有机物存在的情况下,微晶胶结物在微生物控制下通过主动和/或被动机制沉淀。它们的橙色荧光和低δO 信号表明,它们最初是由海水沉淀为 HMC,然后在流星和/或埋藏领域内重结晶为 LMC。这些微晶胶结物,包括异帕氏胶结物和半月板状胶结物,被认为是在海洋喷气区内沉淀的,因为它们主要与异帕氏纤维胶结物有关,这与它们被普遍认为是海洋浸润区的典型和指示性结构形成鲜明对比。此外,研究还表明,结晶胶结物总是在早期微晶包层和微晶胶结物的基础上形成的。这些观察结果与最近对现代沉积物进行的研究相一致,证实了海洋微生物胶结物在深部的保存不仅对早期晶粒的稳定至关重要,而且还是随后晶体生长的基础。
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来源期刊
Sedimentary Geology
Sedimentary Geology 地学-地质学
CiteScore
5.10
自引率
7.10%
发文量
133
审稿时长
32 days
期刊介绍: Sedimentary Geology is a journal that rapidly publishes high quality, original research and review papers that cover all aspects of sediments and sedimentary rocks at all spatial and temporal scales. Submitted papers must make a significant contribution to the field of study and must place the research in a broad context, so that it is of interest to the diverse, international readership of the journal. Papers that are largely descriptive in nature, of limited scope or local geographical significance, or based on limited data will not be considered for publication.
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