晚白垩世上升流体系中硫酸盐还原、硫化物氧化与磷酸盐聚集联系的地球化学证据

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Heiko Alsenz, Peter Illner, Sarit Ashckenazi-Polivoda, Aaron Meilijson, Sigal Abramovich, Shimon Feinstein, Ahuva Almogi-Labin, Zsolt Berner, Wilhelm Püttmann
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引用次数: 34

摘要

对来自以色列Negev Mishash/Ghareb组的晚白垩世特提斯上升流沉积物进行了大量的地球化学和生物标志物分析,以解释研究剖面下部高比例的磷酸盐和上部保存的有机质(OM)。该剖面由三种相类型组成;下伏的磷矿段(PM)、油页岩段(OSM)和上覆的泥灰岩段(MM)。总有机碳(TOC)含量在整个剖面上变化很大,从中土的0.6%到浅海的24.5%不等。总铁(TFe)从PM的0.1%到OSM的3.3%不等。总硫(TS)在MM中为0.1%,在OSM中为3.4%,导致OSM剖面的C/S比高达6.5。沉积物中总磷(TP)的平均比例为11.5%,随着沉积相的变化,沉积物中总磷(TP)的平均值仅为0.9%。TOC/TOCOR比值表明细菌硫酸盐还原活性较高,此外,脂肪酸分析结果表明细菌的硫化物氧化活性在沉积物沉积期间较高,而在沉积物沉积期间降低。上升流条件影响了高初级生产力,因此存在丰富的有机质。这一点,再加上PM沉积物中硫酸盐的高可用性,由于硫酸盐还原细菌的活性,导致了更高的硫化物产量。在整个剖面沉积过程中,铁的有效性是一个限制因素,影响S与OM的结合。由于OSM中C/S比高达6.5的自然硫化过程,这使得大部分OM得以保存,免受微生物降解的影响。此外,孔隙水中丰富的硫化物支持硫化物氧化细菌的生长,促进P的沉积,在PM中高达15%。从PM到OSM,这些条件发生了巨大的变化,导致磷灰石沉淀显著减少,并且与OM反应的活性S物质浓度很高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Geochemical evidence for the link between sulfate reduction, sulfide oxidation and phosphate accumulation in a Late Cretaceous upwelling system

Geochemical evidence for the link between sulfate reduction, sulfide oxidation and phosphate accumulation in a Late Cretaceous upwelling system

On Late Cretaceous Tethyan upwelling sediments from the Mishash/Ghareb Formation (Negev, Israel), bulk geochemical and biomarker analyses were performed to explain the high proportion of phosphates in the lower part and of organic matter (OM) preserved in upper parts of the studied section. The profile is composed of three facies types; the underlying Phosphate Member (PM), the Oil Shale Member (OSM) and the overlying Marl Member (MM).

Total organic carbon (TOC) contents are highly variable over the whole profile reaching from 0.6% in the MM, to 24.5% in the OSM. Total iron (TFe) varies from 0.1% in the PM to 3.3% in the OSM. Total sulfur (TS) ranges between 0.1% in the MM and 3.4% in the OSM, resulting in a high C/S ratio of 6.5 in the OSM section. A mean proportion of 11.5% total phosphorus (TP) in the PM changed abruptly with the facies to a mean value of only 0.9% in the OSM and the MM.

The TOC/TOCOR ratios argue for a high bacterial sulfate reduction activity and in addition, results from fatty acid analyses indicate that the activity of sulfide-oxidizing activity of bacteria was high during deposition of the PM, while decreasing during the deposition of the OSM.

The upwelling conditions effected a high primary productivity and consequently the presence of abundant OM. This, in combination with high sulfate availability in the sediments of the PM resulted in a higher sulfide production due to the activity of sulfate-reducing bacteria. Iron availability was a limiting factor during the deposition of the whole section, affecting the incorporation of S into OM. This resulted in the preservation of a substantial part of OM against microbial degradation due to naturally-occurring sulfurization processes expressed by the high C/S ratio of 6.5 in the OSM.

Further, the abundant sulfide in the pore water supported the growth of sulfide-oxidizing bacteria promoting the deposition of P, which amounted to as much as 15% in the PM. These conditions changed drastically from the PM to the OSM, resulting in a significant reduction of the apatite precipitation and a high concentration of reactive S species reacting with the OM.

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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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