意大利亚平宁半岛南部中生代地台碳酸盐岩的沉积环境、成因过程和压力溶液辅助压实作用

Simona Todaro, C. Manniello, Alessia Pietragalla, N. Preto, F. Agosta
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引用次数: 0

摘要

成岩过程中发生的压力溶解过程深刻地改变了碳酸盐岩的水力特性,影响了它们的机械分层,从而影响了高角度裂缝的尺寸、分布和连通性。花柱石的形成受主岩质地的控制,因此也受沉积环境和成岩过程的影响。本研究报告了在意大利南部一个侏罗纪-白垩纪碳酸盐岩平台上进行的多学科研究的结果。研究的目的是揭示单一碳酸盐岩质和特定成岩过程对床层平行苯乙烯岩形成的控制作用。薄片的微成因分析旨在获得有关碳酸盐的成分和质地的信息。岩相观察和 CL 分析是解读其成岩历史的关键。研究结果表明,碳酸盐最初沉积于浅水区域,该区域偶尔会出现大量碳酸盐泥。在这种环境中,早期胶结抑制了它们的化学压实。在晶粒支撑面中,压力溶解只发生在晶粒接触处。在浅埋成岩过程中,块状方解石的沉淀要早于晶粒支撑面中的床面平行花柱石的形成。与此相反,泥质支撑面有利于化学压实,从而使水柱石显示出良好的横向延伸性和较厚的沉积物填充。我们尝试根据岩相质地对不同类型的水云母形态进行分类。具体而言,在颗粒支撑面上成核的水云母形态较为粗糙(尖峰状),而在泥质支撑面上的水云母形态较为平滑(矩形至波浪状)。应用这些知识有助于确定从深部取芯的碳酸盐岩的成岩历史,从而预测深部埋藏的碳酸盐岩的断裂地层性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Depositional Setting, Diagenetic Processes, and Pressure Solution-Assisted Compaction of Mesozoic Platform Carbonates, Southern Apennines, Italy
Pressure solution processes taking place during diagenesis deeply modify the hydraulic properties of carbonates, affecting their mechanical layering and hence the dimension, distribution, and connectivity of high-angle fractures. The formation of stylolites is controlled by the texture of the host rock and therefore by the depositional environment and the diagenetic processes that involve it. This study reports the results of a multidisciplinary study carried out on a Jurassic–Cretaceous carbonate platform in southern Italy. The goal is to unravel the control exerted by single carbonate textures and specific diagenetic processes on the formation of bed-parallel stylolites. Microfacies analyses of thin sections are aimed at obtaining information regarding the composition and texture of the carbonates. Petrographic observations coupled with CL analyses are key to deciphering their diagenetic history. Results are consistent with carbonates originally deposited in a shallow-water realm in which carbonate mud is occasionally abundant. In this environment, early cementation inhibits their chemical compaction. In grain-supported facies, pressure solution is only localized at the grain contacts. During shallow burial diagenesis, precipitation of blocky calcite predates the formation of bed-parallel stylolites in the grain-supported facies. Contrarily, mud-supported facies favor chemical compaction, which results in stylolites showing a good lateral extension and thick sediment infill. A classification of different types of stylolite morphology is attempted in relation to facies texture. In detail, rougher morphology (sharp-peak) characterizes the stylolites nucleated in grain-supported facies, while smoother morphology (rectangular to wave-like) is observed in stylolites on mud-supported facies. Application of this knowledge can be helpful in constraining the diagenetic history of carbonate rocks cored from depth, and therefore predict the fracture stratigraphy properties of carbonates buried at depth.
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