阿根廷圭亚那裂谷盆地三叠纪圣克拉拉亚盆地平衡填湖湖盆地层沉积条件的脊椎动物和无脊椎动物痕迹化石解释

IF 2 4区 地球科学 Q1 GEOLOGY Journal of Sedimentary Research Pub Date : 2023-11-13 DOI:10.2110/jsr.2021.124
Cecilia A. Benavente, Kevin M. Bohacs, Adriana C. Mancuso
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引用次数: 0

摘要

圣克拉拉阿巴霍和圣克拉拉阿里巴地层拥有各种各样的化石痕迹,记录了中三叠世的各种行为和广泛的生态位。中三叠世是大陆动物进化的关键时期,幼齿动物(犬齿动物和双齿动物)和原始蜥脚类动物(恐龙、翼龙和鳄鱼目动物)的多样化代表了后二叠纪动物的恢复。圣克拉拉组是阿根廷圭亚那裂谷盆地陆相充填的一部分,代表了一个河流输入和三角洲发育的湖泊体系。这些单元的沉积学特征及其堆积模式具有“波动深”相组合的特征,是典型的平衡填充湖盆。湖泊和相关的陆地环境保存了丰富的无脊椎动物痕迹记录,有26种昆虫属,它们来自fodichnia、domichnia、repichnia、pascichnia和cubichnia的行为学分类,占据了所有的大陆层(陆地和水下、浅层/极浅层、浅层、中层和深层)和生态位(嗜水、嗜水、亲水和亲水)。与无脊椎动物的足迹相关联,发现了四足动物足迹的两种分类模式:中等保真度模式和高保真度模式。结合物理沉积特征、洞穴、足迹和足迹及其地层位置来解释这些亚群中足迹保存的主要因素。发现的最重要和最可变的保存因子是由平衡填湖系统的古水文控制的地下水位波动。这些数据表明,在平衡填充湖系中,湖泊及其相关亚背景(如三角洲平原和湖缘环境)中出现了多种微量化石组合,而在同时期的湖中心地层中可能完全没有微量化石,特别是在缺氧湖底条件下,如分生的圣克拉拉湖系中可能出现过微量化石。
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Interpreted depositional conditions of balanced-fill lake basin strata incorporating vertebrate and invertebrate trace fossils, Triassic Santa Clara Sub-Basin, Cuyana Rift Basin, Argentina
The Santa Clara Abajo and Santa Clara Arriba formations host a diverse assemblage of trace fossils that record a wide range of behaviors and a broad array of ecological niches during the Middle Triassic, a critical period in the evolution of continental fauna with the diversification of both synapsids (cynodont and dicynodont) and archosauromorphs (dinosaurs, pterosaurs, and crocodilians) that represent post-Permian faunal recovery. The Santa Clara formations are part of the continental infill of the Cuyana rift Basin in Argentina and represent a lacustrine system with fluvial input and delta development. Sedimentological characteristics of these units as well as their stacking patterns characterize a “fluctuating profundal” facies association typical of a balanced-fill lake basin. The lacustrine and associated terrestrial environments preserve a rich record of invertebrate traces with 26 ichnogenera from ethological classes of fodichnia, domichnia, repichnia, pascichnia, and cubichnia occupying all co ntinental tiers (subaerial and subaqueous, surficial/very shallow, shallow, mid, and deeper) and ecological niches (epiterraphilic, terraphilic, hygrophilic, and hydrophilic). In association with the invertebrate traces, two taphonomic modes of tetrapod footprints have been found: a moderate fidelity mode and a high fidelity mode. Physical sedimentary features, burrows, trails, and tracks, and their stratigraphic positions are integrated to interpret the main factors involved in footprint preservation in these subsettings. The most significant and variable preservational factor found is water-table fluctuations controlled by the paleohydrology of a balanced-fill lake system. These data show that in balanced-fill lake systems, diverse trace assemblages occur in the lake and associated subsettings such as delta plains, and lake-margin settings whereas trace fossils can be totally absent in coeval lake-center strata, particularly if anoxic lake bottom conditions occur, as probably occurred in the meromictic Santa Clara lake system.
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来源期刊
CiteScore
3.80
自引率
5.00%
发文量
50
审稿时长
3 months
期刊介绍: The journal is broad and international in scope and welcomes contributions that further the fundamental understanding of sedimentary processes, the origin of sedimentary deposits, the workings of sedimentary systems, and the records of earth history contained within sedimentary rocks.
期刊最新文献
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