Evaluating the multiple sulfur isotope signature of Eoarchean rocks from the Isua Supracrustal Belt (Southwest-Greenland) by MC-ICP-MS: Volcanic nutrient sources for early life

IF 2.7 2区 地球科学 Q2 BIOLOGY
Geobiology Pub Date : 2024-04-10 DOI:10.1111/gbi.12595
Jane E. Macdonald, Patrick Sugden, Matthew Dumont, Kristoffer Szilas, Stijn Glorie, Alexander Simpson, Sarah Gilbert, Andrea Burke, Eva E. Stüeken
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引用次数: 0

Abstract

On the anoxic Archean Earth, prior to the onset of oxidative weathering, electron acceptors were relatively scarce, perhaps limiting microbial productivity. An important metabolite may have been sulfate produced during the photolysis of volcanogenic SO2 gas. Multiple sulfur isotope data can be used to track this sulfur source, and indeed this record indicates SO2 photolysis dating back to at least 3.7 Ga, that is, as far back as proposed evidence of life on Earth. However, measurements of multiple sulfur isotopes in some key strata from that time can be challenging due to low sulfur concentrations. Some studies have overcome this challenge with NanoSIMS or optimized gas-source mass spectrometry techniques, but those instruments are not readily accessible. Here, we applied an aqua regia leaching protocol to extract small amounts of sulfur from whole rocks for analyses of multiple sulfur isotopes by multi-collector inductively coupled plasma mass spectrometry (MC-ICP-MS). Measurements of standards and replicates demonstrate good precision and accuracy. We applied this technique to meta-sedimentary rocks with putative biosignatures from the Eoarchean Isua Supracrustal Belt (ISB, >3.7 Ga) and found positive ∆33S (1.40–1.80‰) in four meta-turbidites and negative ∆33S (−0.80‰ and −0.66‰) in two meta-carbonates. Two meta-basalts do not display significant mass-independent fractionation (MIF, −0.01‰ and 0.16‰). In situ Re–Os dating on a molybdenite vein hosted in the meta-turbidites identifies an early ca. 3.7 Ga hydrothermal phase, and in situ Rb–Sr dating of micas in the meta-carbonates suggests metamorphism affected the rocks at ca. 2.2 and 1.7 Ga. We discuss alteration mechanisms and conclude that there is most likely a primary MIF-bearing phase in these meta-sediments. Our new method is therefore a useful addition to the geochemical toolbox, and it confirms that organisms at that time, if present, may indeed have been fed by volcanic nutrients.

Abstract Image

利用 MC-ICP-MS 评估伊苏阿超级地壳带(西南-格陵兰)始新世岩石的多种硫同位素特征:早期生命的火山营养源
在氧化风化开始之前的缺氧阿奇安地球上,电子受体相对稀缺,这或许限制了微生物的生产力。一种重要的代谢物可能是火山生成的二氧化硫气体在光解过程中产生的硫酸盐。多种硫同位素数据可用来追踪这一硫源,事实上,这一记录表明二氧化硫光解的历史至少可以追溯到 3.7 Ga,也就是地球上出现生命迹象的年代。然而,由于硫浓度较低,对当时一些关键地层中的多种硫同位素进行测量具有挑战性。一些研究利用 NanoSIMS 或优化的气源质谱技术克服了这一难题,但这些仪器并不容易获得。在此,我们采用王水浸出法从整块岩石中提取少量硫,利用多收集器电感耦合等离子体质谱法(MC-ICP-MS)分析多种硫同位素。标准样品和重复样品的测量结果表明该方法具有良好的精确度和准确性。我们将这一技术应用于新元古代伊苏阿超大陆带(ISB,>3.7 Ga)具有假定生物特征的元沉积岩,在四块元浊积岩中发现了正∆33S(1.40-1.80‰),在两块元碳酸盐岩中发现了负∆33S(-0.80‰和-0.66‰)。两个元碳酸盐没有显示出明显的质量无关分馏(MIF,-0.01‰ 和 0.16‰)。元浊积岩中一条辉钼矿脉的原位Re-Os年代测定确定了约3.7 Ga的早期热液阶段,元碳酸盐岩中云母的原位Rb-Sr年代测定表明,变质作用在约2.2和1.7 Ga时对岩石产生了影响。我们讨论了蚀变机制,并得出结论,这些元沉积物中很可能存在原生的含 MIF 相。因此,我们的新方法是对地球化学工具箱的有益补充,它证实了当时的生物(如果存在的话)可能确实是由火山营养物质喂养的。
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来源期刊
Geobiology
Geobiology 生物-地球科学综合
CiteScore
6.80
自引率
5.40%
发文量
56
审稿时长
3 months
期刊介绍: The field of geobiology explores the relationship between life and the Earth''s physical and chemical environment. Geobiology, launched in 2003, aims to provide a natural home for geobiological research, allowing the cross-fertilization of critical ideas, and promoting cooperation and advancement in this emerging field. We also aim to provide you with a forum for the rapid publication of your results in an international journal of high standing. We are particularly interested in papers crossing disciplines and containing both geological and biological elements, emphasizing the co-evolutionary interactions between life and its physical environment over geological time. Geobiology invites submission of high-quality articles in the following areas: Origins and evolution of life Co-evolution of the atmosphere, hydrosphere and biosphere The sedimentary rock record and geobiology of critical intervals Paleobiology and evolutionary ecology Biogeochemistry and global elemental cycles Microbe-mineral interactions Biomarkers Molecular ecology and phylogenetics.
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