Braided-river architecture of the Triassic Swartberg Member, Katberg Formation, South Africa: assessing age, fluvial style, and paleoclimate after the End-Permian Extinction

IF 2 4区 地球科学 Q1 GEOLOGY
M. Gibling, R. Jia, R. Gastaldo, J. Neveling, H. Rochín-Bañaga
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Abstract

The Triassic Katberg Formation has played a central role in interpreting the end-Permian ecosystem crisis, as part of a hypothesis of aridification, vegetation loss, and sediment release in continental settings. We use drone images of an inaccessible cliff near Bethulie to investigate the Swartberg member, a 45 m thick braided-fluvial body, describing remote outcrop facies to identify geomorphic units and using spatial analysis to estimate their proportions in 2D sections. Here the Swartberg member comprises three channel belts within shallow valleys, the lowermost of which is ~500 m wide and incised into lacustrine deposits. The component channel bodies consist mainly of trough cross-bedded sand sheets (48%) and channel-scour fills (28%). Recognizable bars (15%) comprise unit bars with high-angle slipfaces and mounded bar cores (components of mid-channel compound bars), bars built around vegetation, and bank-attached bars in discrete, probably low-sinuosity conduits. Abandoned channels constitute 8% and 16% of flow-parallel and -transverse sections, respectively. When corrected for compaction, the average thalweg depth of the larger channels is 3.9 m, with an average bankfull width of 84 m, scaling broadly with the relief of the bars and comparable in scale to the Platte and South Saskatchewan rivers of North America. The fluvial style implies perennial but seasonably variable flow in a vegetated landscape with a humid paleoclimate. The northward paleoflow accords with regional paleoflow patterns and deposition on a megafan sourced in the Cape Fold Belt, where the Swartberg member represents the avulsion of a major transverse-flowing river. U-Pb dating of in situ and reworked pedogenic carbonate nodules from below the base of the Swartberg member yielded Anisian to Ladinian ages (Middle Triassic), younger than the previously assumed Early Triassic age and implying that considerable gaps in time exist within the succession. An assessment of the interval spanning the lower to mid Katberg Formation is needed to reevaluate the inferred unidirectional trend in fluvial style, aridification, and fossil distributions in this condensed, disjunct succession.
南非Katberg组三叠纪Swartberg组辫状河构造:二叠纪末灭绝后的年代、河流样式和古气候评估
三叠纪Katberg组在解释二叠纪末的生态系统危机中发挥了核心作用,作为大陆环境中干旱化、植被丧失和沉积物释放假说的一部分。我们使用了Bethulie附近一个难以接近的悬崖的无人机图像来研究Swartberg成员,这是一个45米厚的辫状河体,描述了遥远的露头相,以识别地貌单元,并使用空间分析来估计它们在二维剖面中的比例。这里的斯沃斯堡段在浅河谷内由三条水道带组成,其中最下端宽约500米,切割成湖相沉积。组成河道体主要由槽状交错层状沙层(48%)和河道冲刷充填体(28%)组成。可识别的沙洲(15%)包括具有高角度滑面的单元沙洲和堆积的沙洲核心(中间河道复合沙洲的组成部分),围绕植被建造的沙洲,以及在离散的、可能是低弯曲度的管道中与河岸相连的沙洲。废弃河道分别占流动平行断面和横向断面的8%和16%。在对压实作用进行校正后,较大河道的平均水深为3.9米,平均河岸宽度为84米,与沙洲的起伏幅度相当,规模可与北美的普拉特河和南萨斯喀彻温河相媲美。河流类型暗示多年生但季节性变化的流动,在植被景观和湿润的古气候。北向古流动符合区域性古流动模式和源自Cape褶皱带的巨型扇沉积,其中Swartberg段代表了一条主要横向流动河流的撕裂作用。对来自Swartberg段底部的原位和改造后的成童碳酸盐结核进行U-Pb定年,得出了中三叠世(Anisian - Ladinian)的年龄,比先前假设的早三叠世年龄要年轻,这表明在演替中存在相当大的时间差距。需要对横跨Katberg组中下部的层段进行评估,以重新评估在这一浓缩的断续序列中推断出的河流样式、干化和化石分布的单向趋势。
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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.
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