Depositional processes in a shale-dominated Devonian succession: Sedimentary facies and trace fossil integrated analysis

IF 2.7 2区 地球科学 Q1 GEOLOGY
Josiane Branco Plantz , Daniel Sedorko , Thiago Gonçalves Carelli , Renato Rodriguez Cabral Ramos , Leonardo Borghi
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引用次数: 0

Abstract

Fine-grained rocks have historically been interpreted as a product of the settling of fine fractions in low-energy environments. However, recent studies have suggested that in these environments, more dynamic and complex processes operate. These processes involve a much more diverse set of sedimentary processes than those previously assumed. The lithological homogeneity of clayey successions, associated with the obliteration of their primary characteristics by diagenetic and/or weathering processes, makes it difficult to interpret depositional processes and understand the paleoenvironment. To contribute to a better comprehension of the mechanisms of transport and deposition of fine-grained rocks in a siliciclastic mud-dominated succession, as well as their depositional site, the present study aims at the detailed analysis of a continuous drill core. This core contains a thick Devonian succession consisting essentially of shale from the Ponta Grossa Formation (Paraná Basin, Brazil). Throughout the analyzed succession, a wide variety of sedimentary structures have been identified, such as parallel laminations, wave-ripple cross-stratification, hummocky cross-stratification, normal grading, and gutter casts. These structures show the constant performance of high-energy flows, which are configured as important deposition and/or rework agents. The integrated analysis of facies and trace fossils has proven to be more efficient for paleoenvironmental characterization than isolated approaches. This is because facies and ichnofacies (e.g., Cruziana, with its proximal, impoverished, archetypal, and distal expressions; Skolithos and Glossifungites) can be easily correlated, facilitating the identification of facies associations. This approach not only allows for the interpretation of a shallow marine platform with a gentle slope (ramp shelf) paleoenvironment of moderate to high energy, subject to storm wave action, but also enables the identification of the particular characteristics of deposits from different sub-environments (proximal to distal offshore, offshore transition, shoreface to offshore transition, and prodelta) and their deposition mechanisms. Furthermore, the facies associations are useful for highlighting the variations formed in response to oscillations of the relative sea level and changes in sedimentary input.

以页岩为主的德文郡演替的沉积过程:沉积面和痕量化石综合分析
细粒岩石历来被解释为低能量环境中细粒沉降的产物。然而,最近的研究表明,在这些环境中,有更加动态和复杂的过程在起作用。这些过程所涉及的沉积过程比之前假设的要多样化得多。粘土岩层的岩性均一,加上其主要特征被成岩和/或风化过程抹去,使得解释沉积过程和了解古环境变得困难。为了更好地理解硅质泥质为主的演替中细粒岩石的运移和沉积机制,以及它们的沉积地点,本研究旨在对一个连续钻孔岩芯进行详细分析。该岩心含有厚厚的泥盆纪岩层,主要由 Ponta Grossa 组(巴西巴拉那盆地)的页岩组成。在整个分析的岩层中,发现了各种各样的沉积结构,如平行层理、波状交叉层理、驼峰状交叉层理、正常层理和沟铸层理。这些结构显示了高能量流的持续作用,是重要的沉积和/或再加工媒介。事实证明,对岩相和微量化石进行综合分析比孤立分析更能有效地确定古环境特征。这是因为面貌和痕量化石(例如,Cruziana,包括近端、贫化、原型和远端表现;Skolithos 和 Glossifungites)可以很容易地相互关联,从而有助于确定面貌关联。这种方法不仅可以解释具有中高能量、受风暴潮作用的缓坡(斜坡陆架)浅海平台的古环境,还可以识别不同子环境(近岸到远岸、近岸过渡、岸面到近岸过渡和前三角洲)沉积物的特征及其沉积机制。此外,面状关联还有助于突出相对海平面波动和沉积输入变化所形成的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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