Sedimentary geochemistry of deepwater slope deposits in southern Lake Tanganyika (East Africa): Effects of upwelling and minor lake level oscillations

IF 2 4区 地球科学 Q1 GEOLOGY Journal of Sedimentary Research Pub Date : 2022-08-23 DOI:10.2110/jsr.2021.104
M. McGlue, Geoffrey S. Ellis, M. Brannon, J. Latimer, J. Stone, S. Ivory, Neema E. Mganza, M. Soreghan, C. Scholz
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Abstract

Lake Tanganyika ranks among the most valuable modern analogs for understanding depositional processes of carbonaceous sediments in ancient tropical rifts. Prior research on Lake Tanganyika has emphasized the importance of bottom-water anoxia, depositional processes (hemipelagic settling versus gravity flows), and large-scale (100s of meters) lake level change on the quality of sedimentary organic matter content. Here, facies analysis and numerous organic geochemical tools (elemental, carbon isotope, and programmed pyrolysis) were applied to a radiocarbon-dated core from southern Lake Tanganyika to investigate the accumulation of carbonaceous sediments in a deepwater slope environment influenced by high-frequency climatic fluctuations accompanied by only minor (10s of meters) lake level changes. Considerable variability in lithofacies and geochemistry characterizes the ∼ 1030-year-long core record, chiefly driven by climate-mediated changes to the lake's upwelling system. Laminated diatom oozes and sapropels with mean total organic carbon (TOC) concentrations and hydrogen indices of 6.9 wt.% and 385 mg hydrocarbon/g TOC, respectively, characterize sediments deposited during periods of strong upwelling and variable water levels. Silty sediments deposited via gravity-flow processes were likewise rich in organic matter, likely due to preservation-enhancing bottom-water anoxia. Dilution by reworked tephra was the chief constraint on organic enrichment at the study site. Data from this study reveal that oscillations in atmospheric and limnological processes in the absence of major shoreline movements can result in geochemically diverse deepwater slope sediments, which have implications for improving depositional models of petroliferous continental rift basins.
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坦噶尼喀湖(东非)南部深水斜坡沉积物的沉积地球化学:上升流和轻微湖平面振荡的影响
坦噶尼喀湖是了解古代热带裂谷碳质沉积物沉积过程最有价值的现代类似物之一。先前对坦噶尼喀湖的研究强调了底层水缺氧、沉积过程(半远洋沉降与重力流)和大规模(100米)湖面变化对沉积有机质含量质量的重要性。在这里,将相分析和许多有机地球化学工具(元素、碳同位素和程序热解)应用于坦噶尼喀湖南部的放射性碳测年岩心,以调查受高频气候波动影响的深水斜坡环境中碳质沉积物的堆积,而高频气候波动仅伴随轻微(10米)的湖平面变化。在长达1030年的岩芯记录中,岩相和地球化学具有相当大的可变性,这主要是由气候介导的湖泊上升流系统的变化所驱动的。平均总有机碳(TOC)浓度和氢指数分别为6.9 wt.%和385 mg碳氢化合物/g TOC的层状硅藻泥和腐泥是在强烈上升流和水位变化期间沉积的沉积物的特征。通过重力流过程沉积的淤泥质沉积物同样富含有机质,这可能是由于保存增强了底层水缺氧。通过改造的tephra稀释是研究现场有机富集的主要制约因素。这项研究的数据表明,在没有主要海岸线运动的情况下,大气和湖沼过程的振荡会导致深水斜坡沉积物的地球化学多样性,这对改进含油气大陆裂谷盆地的沉积模型具有重要意义。
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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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