钡同位素制约了新特提斯洋白垩纪 OAE 2 的触发机制

IF 4.8 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Feifei Zhang, Guolin Xiong, Guang-Yi Wei, Yi-Bo Lin, Xianghui Li, Shu-zhong Shen
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引用次数: 0

摘要

距今 9 450 万-9390 万年前发生的仙人-土伦边界大洋缺氧事件(又称 OAE 2)为阐明气候对海洋环境扰动的影响提供了一个机会。关于 OAE 2 的触发机制以及原北大西洋、西内海航道、太平洋和欧洲大洋陆架的海洋脱氧率,已经进行了广泛的研究。然而,关于新特提斯洋海洋脱氧开始的详细时间以及导致 OAE 2 的有机碳埋藏背后的触发机制的研究仍然较少。在此,我们通过展示西藏 OAE 2 高度扩展断面的高分辨率钡同位素(δ138Ba)数据,填补了这一空白,该断面跨越了仙人纪-都龙纪边界。我们观察到一个巨大的负δ138Ba偏移,与正δ13C偏移相关。负δ138Ba偏移的开始时间比δ13C偏移的开始时间早约400千年,这表明新特提斯洋的海洋脱氧开始于OAE 2之前的400千年。所研究的碳酸盐的δ138Ba值明显低于在现代大西洋和太平洋观测到的表层海水的δ138Ba值,这表明OAE 2之前的新特提斯洋的出口生产力水平大大低于现代海洋的水平。因此,我们提供了新的证据,表明即使考虑到海洋初级生产力的变化,OAE 2 期间有机碳的埋藏也导致了观测到的由广泛的浅水缺氧驱动的 δ13C 正偏移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Barium isotopes constrain the triggering mechanism of the Cretaceous OAE 2 in the Neotethys Ocean

The Cenomanian–Turonian boundary oceanic anoxic event (known as OAE 2, occurring 94.5–93.9 million years ago) provides an opportunity to clarify climatic forcing on marine environmental perturbations. OAE 2 has been extensively studied regarding its triggering mechanism and rates of marine deoxygenation in the proto-North Atlantic, Western Interior Seaway, Pacific, and European pelagic shelf. However, the detailed timing of the onset of ocean deoxygenation and the triggering mechanism behind the organic carbon burial leading to OAE 2 in the Neotethys Ocean remains less well-constrained. Here, we fill this gap by presenting high-resolution barium isotope (δ138Ba) data from the highly expanded Tibet OAE 2 section spanning the Cenomanian–Turonian boundary. We observed a large negative δ138Ba excursion that correlates with the positive δ13C shift. The onset of the negative δ138Ba excursion precedes that of δ13C by an estimated 400 kyr, indicating that ocean deoxygenation began 400 kyr before OAE 2 in the Neotethys Ocean. The δ138Ba values of the studied carbonates are significantly lower than those of surface seawater observed in the modern Atlantic and Pacific oceans, suggesting that export productivity levels in the pre-OAE 2 Neotethys Ocean were substantially lower than those in modern oceans. We thus provide new evidence that the burial of organic carbon during OAE 2 led to the observed positive δ13C excursion driven by extensive shallow-water anoxia, even when considering contributions from changes in marine primary productivity.

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来源期刊
Earth and Planetary Science Letters
Earth and Planetary Science Letters 地学-地球化学与地球物理
CiteScore
10.30
自引率
5.70%
发文量
475
审稿时长
2.8 months
期刊介绍: Earth and Planetary Science Letters (EPSL) is a leading journal for researchers across the entire Earth and planetary sciences community. It publishes concise, exciting, high-impact articles ("Letters") of broad interest. Its focus is on physical and chemical processes, the evolution and general properties of the Earth and planets - from their deep interiors to their atmospheres. EPSL also includes a Frontiers section, featuring invited high-profile synthesis articles by leading experts on timely topics to bring cutting-edge research to the wider community.
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