Annual sulfur cycle in a warm monomictic lake with sub-millimolar sulfate concentrations

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Geochemical Transactions Pub Date : 2015-07-02 DOI:10.1186/s12932-015-0021-5
Nadav Knossow, Barak Blonder, Werner Eckert, Alexandra V Turchyn, Gilad Antler, Alexey Kamyshny Jr.
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引用次数: 32

Abstract

We studied the annual variability of the concentration and isotopic composition of main sulfur species and sulfide oxidation intermediates in the water column of monomictic fresh-water Lake Kinneret. Sulfate concentrations in the lake are <1?mM and similar to concentrations that are proposed to have existed in the Paleoproterozoic ocean. The main goal of this research was to explore biogeochemical constrains of sulfur cycling in the modern low-sulfate fresh-water lake and to identify which processes may be responsible for the isotopic composition of sulfur species in the Precambrian sedimentary rocks.

At the deepest point of the lake, the sulfate inventory decreases by more than 20% between March and December due to microbial sulfate reduction leading to the buildup of hydrogen sulfide. During the initial stages of stratification, sulfur isotope fractionation between sulfate and hydrogen sulfide is low (11.6?‰) and sulfur oxyanions (e.g. thiosulfate and sulfite) are the main products of the incomplete oxidation of hydrogen sulfide. During the stratification and at the beginning of the lake mixing (July–December), the inventory of hydrogen sulfide as well as of sulfide oxidation intermediates in the water column increases and is accompanied by an increase in sulfur isotope fractionation to 30?±?4?‰ in October. During the period of erosion of the chemocline, zero-valent sulfur prevails over sulfur oxyanions. In the terminal period of the mixing of the water column (January), the concentration of hydrogen sulfide decreases, the inventory of sulfide oxidation intermediates increases, and sulfur isotope fractionation decreases to 20?±?2?‰.

Sulfide oxidation intermediates are present in the water column of Lake Kinneret at all stages of stratification with significant increase during the mixing of the water column. Hydrogen sulfide inventory in the water column increases from March to December, and sharply decreases during the lake mixis in January. Sulfur isotope fractionation between sulfate and hydrogen sulfide as well as concentrations of sulfide oxidation intermediates can be explained either by microbial sulfate reduction alone or by microbial sulfate reduction combined with microbial disproportionation of sulfide oxidation intermediates. Our study of sulfur cycle in Lake Kinneret may be useful for understanding the range of biogeochemical processes in low sulfate oceans over Earth history.

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硫酸盐浓度为亚毫摩尔的温暖单一湖泊的年硫循环
研究了单一淡水湖Kinneret水柱中主要硫种和硫化物氧化中间体的浓度和同位素组成的年际变化。湖中的硫酸盐浓度为<1?与古元古代海洋中存在的浓度相似。本研究的主要目的是探索现代低硫酸盐淡水湖硫循环的生物地球化学约束,并确定哪些过程可能对前寒武纪沉积岩中硫物种的同位素组成负责。在湖的最深处,由于微生物硫酸盐减少导致硫化氢积聚,硫酸盐库存在3月至12月期间减少了20%以上。在分层初期,硫酸盐和硫化氢之间的硫同位素分馏较低(11.6‰),硫化氢不完全氧化的主要产物是硫代硫酸盐和亚硫酸盐等硫氧离子。在分层期间和湖泊混合初期(7 - 12月),水柱中硫化氢和硫化物氧化中间体的库存量增加,并伴有硫同位素分馏增加至30±4?‰在十月。在化学斜坡侵蚀期间,零价硫比硫氧离子占优势。在水柱混合末期(1月),硫化氢浓度下降,硫化物氧化中间体库存量增加,硫同位素分馏降至20±2‰。在分层的各个阶段,Kinneret湖水柱中均存在硫化物氧化中间体,在水柱混合过程中硫化物氧化中间体含量显著增加。3月至12月水柱硫化氢存量增加,1月湖泊混合时急剧减少。硫酸盐和硫化氢之间的硫同位素分馏以及硫化物氧化中间体的浓度可以通过单独的微生物硫酸盐还原或微生物硫酸盐还原结合硫化物氧化中间体的微生物歧化来解释。我们对Kinneret湖硫循环的研究可能有助于理解地球历史上低硫酸盐海洋生物地球化学过程的范围。
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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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