雪球地球海洋组成的全新冰期碳酸盐记录--来自华南南托地层的证据

Guangyou Zhu, Kun Zhao, W. Ding, Ruimin Wang, Haoran Ma, X. Lang, Tingting Li, Chao Li, Bing Shen
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摘要

冻原期(约 717-635 Ma)雪球地球冰川以碳同位素(δ13Ccarb)为负值的 "帽状 "碳酸盐岩沉积结束,其原因是在退冰过程中增加了各种 13C 贫化碳源。这些观点假定,在合成冰期海洋中,海洋溶解无机碳(DIC)富含 13C。然而,由于合成冰期海洋化学成分未知,这一假设尚未得到验证。在本研究中,我们详细分析了南沱地层(约 650-635 Ma)碳酸盐层(也称共冰期碳酸盐层)的岩石学、碳酸盐碳(δ13Ccarb)和氧(δ18Ocarb)同位素、有机碳(δ13Corg)同位素、主要和次要元素组成(Ca、Mg、Mn、Fe、Sr)以及铁的种类(总铁、高活性铁、黄铁矿铁)。又称合冰期碳酸盐层。岩相观察表明,冰期碳酸盐岩由白云岩、泥晶粉白云岩、石灰白云岩和白云质灰岩组成,支持自生碳酸盐岩的成因,因此有可能记录了马里诺冰期的海洋化学。合成冰期碳酸盐的特点是锰含量极高、铁/锰比值低、δ13Ccarb(-7‰)值低。高锰含量和低铁/锰比意味着海洋氧化还原条件有利于 Mn2+ 的积累和 Fe2+ 的氧化,而低δ13Ccarb 值可能归因于海底火山的二氧化碳脱气以及冰川时期的低原生埋藏。由于合成冰期海洋的δ13CDIC值低于大多数盖层碳酸盐的δ13Ccarb值,我们推断在盖层碳酸盐沉淀过程中,通过碳酸盐风化或有机碳埋藏等方式增加了富含13C的DIC或去除了12C。这些发现为了解冷源冰川作用的性质、冠碳酸盐的起源以及全球冰川作用的后果提供了新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synglacial carbonate records of snowball Earth ocean composition—Evidence from the Nantuo Formation, South China
The Cryogenian (ca. 717−635 Ma) snowball Earth glaciations ended with the precipitation of “cap” carbonate successions with negative carbon isotope (δ13Ccarb) values, which have been explained by the addition of various 13C-depleted carbon sources in the deglacial process. These arguments assumed that marine dissolved inorganic carbon (DIC) was enriched in 13C in the synglacial ocean. However, this assumption has not yet been tested, because the synglacial ocean chemistry is unknown. In this study, we carried out detailed analyses of the petrology, carbonate carbon (δ13Ccarb) and oxygen (δ18Ocarb) isotopes, organic carbon (δ13Corg) isotopes, major and minor elemental compositions (Ca, Mg, Mn, Fe, Sr), and iron speciation (total Fe, highly reactive Fe, pyrite Fe) of the carbonate layers (also called synglacial carbonate layers) from the Nantuo Formation (ca. 650−635 Ma) on the Yangtze block, South China. Petrographic observations indicated that the synglacial carbonate comprises dolomicrite, mud-crystal powder dolomite, lime dolomite, and dolomitic limestone, supporting an authigenic carbonate origin, and thus, it potentially recorded the ocean chemistry during the Marinoan ice age. The synglacial carbonate is characterized by extreme Mn enrichment, low Fe/Mn ratios, and low δ13Ccarb (−7‰) values. High Mn contents and low Fe/Mn ratios imply marine redox conditions favoring Mn2+ accumulation and Fe2+ oxidation, while low δ13Ccarb values might be attributed to CO2 degassing of submarine volcanoes as well as low primary burial during the glaciation. Since the δ13CDIC value of the synglacial ocean was lower than the δ13Ccarb values of most cap carbonates, we infer the addition of 13C-enriched DIC or removal of 12C during cap carbonate precipitation, such as through carbonate weathering or organic carbon burial. These findings provide new insights into the nature of Cryogenian glaciation, the origin of cap carbonates, and the aftermath of global glaciation.
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