Eguchi James, Diamond Charles W, Lyons Timothy W
Department of Earth and Planetary Sciences, University of California, Riverside, CA 92521, USA.
PNAS Nexus. 2022 Mar 30;1(2):pgac036. doi: 10.1093/pnasnexus/pgac036. eCollection 2022 May.
Oxygen and carbon are 2 elements critical for life on Earth. Earth's most dramatic oxygenation events and carbon isotope excursions (CIE) occurred during the Proterozoic, including the Paleoproterozoic Great Oxidation Event and the associated Lomagundi CIE, the Neoproterozoic Oxygenation event, and the Shuram negative CIE during the late Neoproterozoic. A specific pattern of a long-lived positive CIE followed by a negative CIE is observed in association with oxygenation events during the Paleo- and Neo-proterozoic. We present results from a carbon cycle model designed to couple the surface and interior cycling of carbon that reproduce this pattern. The model assumes organic carbon resides in the mantle longer than carbonate, leading to systematic temporal variations in the δC of volcanic CO emissions. When the model is perturbed by periods of enhanced continental weathering, increased amounts of carbonate and organic carbon are buried. Increased deposition of organic carbon allows O accumulation, while positive CIEs are driven by rapid release of subducted carbonate-derived CO at arcs. The subsequent negative CIEs are driven by the delayed release of organic C-derived CO at ocean islands. Our model reproduces the sequences observed in the Paleo- and Neo-proterozoic, that is oxygenation accompanied by a positive CIE followed by a negative CIE. Periods of enhanced weathering correspond temporally to supercontinent break-up, suggesting an important connection between global tectonics and the evolution of oxygen and carbon on Earth.
氧和碳是地球上生命所必需的两种元素。地球最显著的氧化事件和碳同位素偏移(CIE)发生在元古宙,包括古元古代大氧化事件及相关的洛马冈迪CIE、新元古代氧化事件,以及新元古代晚期的舒拉姆负CIE。在古元古代和新元古代的氧化事件中,观察到一种特定模式,即先是长期的正CIE,随后是负CIE。我们展示了一个碳循环模型的结果,该模型旨在将碳的地表和内部循环耦合起来,重现这种模式。该模型假设有机碳在地幔中的留存时间比碳酸盐长,导致火山排放的二氧化碳的δC出现系统性的时间变化。当模型受到大陆风化增强期的扰动时,碳酸盐和有机碳的埋藏量增加。有机碳沉积增加会导致氧气积累,而正CIE是由俯冲碳酸盐衍生的二氧化碳在弧区的快速释放驱动的。随后的负CIE是由海洋岛屿上有机碳衍生的二氧化碳的延迟释放驱动的。我们的模型重现了在古元古代和新元古代观察到的序列,即氧化伴随着正CIE,随后是负CIE。风化增强期在时间上与超大陆解体相对应,这表明全球构造与地球上氧和碳的演化之间存在重要联系。
