地热泉喷口池中的间歇泉化石和睾丸变形虫:巴塔哥尼亚侏罗纪烧结矿中的古生态学和不同的保存质量(阿根廷德萨多山丘)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ana Julia Sagasti, Kathleen A. Campbell, Juan L. García Massini, Amanda Galar, Diego M. Guido, Pascale Gautret
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引用次数: 0

摘要

间歇泉是一种陆地硅质温泉沉积物(烧结矿),形成于近喷口地区的地下,pH 值接近中性,以碱式氯化物排出流体为特征,初始温度较高(约 73°C 至高达 100°C),并随动态水文、季节性、风力和其他环境参数的变化而快速波动。我们对阿根廷巴塔哥尼亚晚侏罗世(约 150 Ma)德萨多地块地质省克劳迪亚古地热场的间歇泉进行了分析。间歇喷泉岩样本--形态从针状到柱状再到结节状--包含丰富的微化石,这些微化石以单型组合的形式出现在三种成岩保存状态中。保存最完好的微化石由囊泡状结构组成,具有径向异极对称性(平均直径约 35 μm)、圆形孔隙、无装饰的光滑壁以及盘状或贝雷石状形状。与现存形态相似的生物进行比较后发现,它们与 Arcella hemisphaerica-Arcella rotundata 复合体中的睾丸变形虫和 Centropyxis aculeata strain discoides 有亲缘关系。这些物种出现在 22°C 至 45°C 的活跃地热池中,与现代间歇泉的形成温度不符。我们认为,睾丸变形虫可能是在春季-喷口喷发周期之间的较冷阶段定居在间歇喷泉中,捕食生物膜。由于间歇性的沐浴和波动的热流体排放物的飞溅,硅沉淀可能导致它们被困和化石化。岩相分析证实了古溶剂水喷发的周期性以及后来将蛋白石转化为石英的成岩作用。硅化微生物在空间上的斑驳降解和改变导致微化石的保存质量参差不齐。该研究成果说明了微尺度分析对于确定硅质温泉沉积物中早期硅化的位置和高质量保存化石遗迹的重要性,这对于地球和潜在火星的早期生命研究非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Fossil Geyserite and Testate Amoebae in Geothermal Spring Vent Pools: Paleoecology and Variable Preservation Quality in Jurassic Sinter of Patagonia (Deseado Massif, Argentina)

Fossil Geyserite and Testate Amoebae in Geothermal Spring Vent Pools: Paleoecology and Variable Preservation Quality in Jurassic Sinter of Patagonia (Deseado Massif, Argentina)

Geyserite is a type of terrestrial siliceous hot spring deposit (sinter) formed subaerially in proximal vent areas, with near-neutral pH, alkali chloride discharge fluids characterized by initial high temperatures (~73°C to up to 100°C) that fluctuate rapidly in relation to dynamic hydrology, seasonality, wind, and other environmental parameters. We analyzed sinters at the Claudia paleogeothermal field from the Late Jurassic (~150 Ma) Deseado Massif geological province, Argentinean Patagonia. The geyserite samples—with spicular to columnar to nodular morphologies—contain abundant microfossils in monotypic assemblages that occur in three diagenetic states of preservation. The best-preserved microfossils consist of vesicle-like structures with radial heteropolar symmetry (~35 μm average diameter), circular apertures, smooth walls lacking ornamentation, and disk- or beret-like shapes. Comparisons with extant, morphologically similar organisms suggest an affinity with the testate amoebae of the Arcella hemisphaerica–Arcella rotundata complex and Centropyxis aculeata strain discoides. These species occur in active geothermal pools between 22°C and 45°C, inconsistent with the temperature of formation of modern geyserites. We propose that the testate amoebae may have colonized the geyserite during cooler phases in between spring-vent eruptive cycles to prey on biofilms. Silica precipitation through intermittent bathing and splashing of fluctuating thermal fluid discharge could have led to their entrapment and fossilization. Petrographic analysis supports cyclicity in paleovent water eruptions and later diagenesis that transformed the opal into quartz. Spatially patchy degradation and modification of the silicified microorganisms resulted in variable preservation quality of the microfossils. This contribution illustrates the importance of microscale analysis to locate early silicification and identify high-quality preservation of fossil remains in siliceous hot spring deposits, which are important in early life studies on Earth and potentially Mars.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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