抗重力洞穴形成的岩石学和地球化学约束

IF 1.9 3区 地球科学 Q1 GEOLOGY Depositional Record Pub Date : 2022-06-04 DOI:10.1002/dep2.199
Adrian Immenhauser, Rene Hoffmann, Sylvia Riechelmann, Mathias Mueller, Dennis Scholz, Stefan Voigt, Stefan Niggemann, Dieter Buhl, Maximilian Dornseif, Alexander Platte
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引用次数: 1

摘要

洞穴碳酸盐岩似乎是在无视重力的情况下生长的,一个多世纪以来一直吸引着社区的兴趣。本文主要研究“螺旋体”,即具有中心毛细血管的扭曲的蠕虫状洞穴。钙质和文石螺旋岩的岩石学、晶体学和地球化学数据(最近至347 ka)与之前的工作放在一起。Windloch洞穴中的Aragonic螺旋岩形成了异常巨大和复杂的结构,与法国Asperge洞穴中著名的螺旋岩阵列有相似之处。Aragonic和钙化螺旋岩在晶体结构和内部几何形状方面有显著差异。煅烧螺旋岩最好被描述为由纤维状中晶组成的复合晶体结构。Aragonite螺旋岩显示出针状到片状晶体的复杂结构,其中一些显示出生长孪晶的证据,可能通过单斜前体阶段结晶。几个通道阶数及其复杂结构的显微断层特征提出了关于流体迁移和螺旋岩结构的重要问题。就其同位素地球化学而言,螺旋岩在不同程度上贫含13C,同位素值受流体混合和矿物学相关分馏的控制。就其δ18O值而言,大多数螺旋岩与其他钙质和文石质洞穴岩重叠。从流体迁移和CO2脱气速率、矿物学和螺旋岩岩石学的角度讨论了解释螺旋岩扭曲形态的先前模型。对于这里记录的复杂文石螺旋,解释扭曲生长形式的最可能机制包括内部毛细管网络与螺旋岩尖端的局部(扇形)生长相结合。形态较简单的钙化螺旋岩最好用毛细管和表面流来解释。未来的工作应包括地质微生物学,以评估诱导矿化的重要性,以及透射电子显微镜分析,以更定量地分配晶体性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Petrographic and geochemical constraints on the formation of gravity-defying speleothems

Cave carbonates, seemingly growing in defiance of gravity, have attracted the community's interest for more than a century. This paper focusses on ‘helictites’, contorted vermiform speleothems with central capillaries. Petrographic, crystallographic and geochemical data of calcitic and aragonitic helictites (recent to 347 ka) from three caves in Western Germany are placed in context with previous work. Aragonitic helictites from one site, the Windloch Cave, form exceptionally large and complex structures that share similarities with the celebrated helictite arrays in the Asperge Cave in France. Aragonitic and calcitic helictites differ significantly in their crystal fabrics and internal geometry. Calcitic helictites are best described as a composite crystal fabric consisting of fibrous mesocrystals. Aragonite helictites display a complex fabric of acicular to platy crystals, some of which show evidence for growth-twinning and perhaps crystallisation via a monoclinal precursor stage. The micro-tomographic characterisation of several orders of channels and their complex architecture raises important questions regarding fluid migration and helictite architecture. In terms of their isotope geochemistry, helictites are depleted in 13C to various degrees, isotope values that are controlled by the mixing of fluids and mineralogy-related fractionation. Regarding their δ18O values, most helictites overlap with other calcitic and aragonitic speleothems. Previous models explaining the twisted morphology of helictites are discussed from the viewpoint of fluid migration and CO2 degassing rates, mineralogy and helictite petrography. For the complex aragonitic helicities documented here, the most likely mechanisms to explain the contorted growth forms include the internal capillary network combined with localised (sector) growth at the helictite tip. The morphologically simpler calcitic helictites are best explained by capillary and surface flow. Future work should include geomicrobiology to assess the significance of induced mineralisation and transmission electron microscopy analysis to more quantitatively assign crystallographic properties.

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CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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