Marine snowstorm during the Permian−Triassic mass extinction

Geology Pub Date : 2023-11-29 DOI:10.1130/g51497.1
S. Grasby, O. Ardakani, Xiaojun Liu, D. P. Bond, P. Wignall, Lorna J. Strachan
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Abstract

The Permian−Triassic mass extinction (PTME) interval is marked by major excursions in both inorganic and organic carbon (C) isotopes. Carbon cycle models predict that these trends were driven by large increases in productivity, yet organic C−rich rocks are not recorded in most PTME shelf sedimentary successions. Anomalous C-rich facies have been reported from rare abyssal plains records now exposed in Japan and New Zealand, where black shales at the PTME are extraordinarily organic-rich units. We examined organic matter at the Waiheke, New Zealand, section, and results show that these deposits are dominated by lamalginites composed of unicellar solitary or colonial phytoplankton produced during algal blooms that falls as “marine snow.” We modeled the impact of ash fall from eruptions in the Siberian Traps large igneous province and argue that they fertilized the Panthalassa Ocean with P and Fe, leading to a marine “snowstorm” and significant C drawdown marking this major biobloom during the PTME.
二叠纪-三叠纪大灭绝期间的海洋雪暴
二叠纪-三叠纪大绝灭(PTME)时期,无机碳和有机碳(C)同位素都发生了重大变化。碳循环模型预测,这些趋势是由生产力的大幅提高所驱动的,但在大多数二叠纪-三叠纪陆架沉积演替中都没有富含有机碳的岩石记录。日本和新西兰目前出露的罕见深海平原记录中出现了异常的富碳层,其中 PTME 的黑色页岩是特别富含有机质的单元。我们研究了新西兰怀赫科(Waiheke)剖面的有机物质,结果表明这些沉积物主要是由单细胞单生或群生浮游植物组成的薄片岩,这些浮游植物是在藻类大量繁殖时产生的,以 "海洋雪 "的形式降落。我们模拟了西伯利亚陷阱大型火成岩带喷发产生的火山灰沉降的影响,并认为这些火山灰为 Panthalassa 海洋提供了大量的磷和铁,导致了海洋 "暴风雪 "和碳的大量减少,从而在 PTME 期间形成了这一主要的生物群落。
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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