与沉积时间尺度和地球化学相一致的马里诺雪球冰川作用后盖碳酸盐的三阶段形成过程

Trent B. Thomas, David C. Catling
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引用次数: 0

摘要

在新近纪(距今 1,000-5.388 亿年前),全球至少发生过两次 "雪球地球 "冰川期。这一时期的冰川后地表环境被记录在盖层碳酸盐中:直接覆盖在冰川沉积层上的石灰岩或白云石层。对形成帽状碳酸盐岩的环境条件的推测缺乏共识,这主要是因为单一的假说无法解释帽状碳酸盐岩的全球质量、沉积时间尺度以及母水的地球化学性质。在此,我们提出了一个在第二次冰期(即马里诺期)之前、期间和之后的全球地质碳循环模型,以解释盖碳酸盐岩的特征。我们发现帽状碳酸盐的形成过程分为三个阶段:(1)冰川期低温海底风化作用产生深海碱度;(2)冰川期后剧烈的大陆风化作用为碳酸饱和淡水层提供碱度,迅速沉淀帽状碳酸盐;(3)冰川期后融水与深海碱度的混合延长了帽状碳酸盐的沉积。我们建议未来的地球化学数据和建模改进如何进一步评估我们的假设。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-stage Formation of Cap Carbonates after Marinoan Snowball Glaciation Consistent with Depositional Timescales and Geochemistry
At least two global "Snowball Earth" glaciations occurred during the Neoproterozoic Era (1000-538.8 million years ago). Post-glacial surface environments during this time are recorded in cap carbonates: layers of limestone or dolostone that directly overlie glacial deposits. Postulated environmental conditions that created the cap carbonates lack consensus largely because single hypotheses fail to explain the cap carbonates' global mass, depositional timescales, and geochemistry of parent waters. Here, we present a global geologic carbon cycle model before, during, and after the second glaciation (i.e. the Marinoan) that explains cap carbonate characteristics. We find a three-stage process for cap carbonate formation: (1) low-temperature seafloor weathering during glaciation generates deep-sea alkalinity; (2) vigorous post-glacial continental weathering supplies alkalinity to a carbonate-saturated freshwater layer, rapidly precipitating cap carbonates; (3) mixing of post-glacial meltwater with deep-sea alkalinity prolongs cap carbonate deposition. We suggest how future geochemical data and modeling refinements could further assess our hypothesis.
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