限制白垩纪海洋缺氧事件（OAE-2：约9400万年前）之前的海洋脱氧速率。

Constraining the rate of oceanic deoxygenation leading up to a Cretaceous Oceanic Anoxic Event (OAE-2: ~94 Ma).

作者信息

Ostrander Chadlin M, Owens Jeremy D, Nielsen Sune G

机构信息

School of Earth and Space Exploration, Arizona State University, Tempe, AZ 85287, USA.

NIRVANA (Non-traditional Isotope Research on Various Advanced Novel Applications) Laboratories, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA.

出版信息

Sci Adv. 2017 Aug 9;3(8):e1701020. doi: 10.1126/sciadv.1701020. eCollection 2017 Aug.

DOI:10.1126/sciadv.1701020

PMID:28808684

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5550229/

Abstract

The rates of marine deoxygenation leading to Cretaceous Oceanic Anoxic Events are poorly recognized and constrained. If increases in primary productivity are the primary driver of these episodes, progressive oxygen loss from global waters should predate enhanced carbon burial in underlying sediments-the diagnostic Oceanic Anoxic Event relic. Thallium isotope analysis of organic-rich black shales from Demerara Rise across Oceanic Anoxic Event 2 reveals evidence of expanded sediment-water interface deoxygenation ~43 ± 11 thousand years before the globally recognized carbon cycle perturbation. This evidence for rapid oxygen loss leading to an extreme ancient climatic event has timely implications for the modern ocean, which is already experiencing large-scale deoxygenation.

摘要

导致白垩纪海洋缺氧事件的海洋脱氧速率尚未得到充分认识和界定。如果初级生产力的增加是这些事件的主要驱动因素，那么全球水域中氧气的逐渐流失应该早于下伏沉积物中碳埋藏的增加——这是海洋缺氧事件的诊断性遗迹。对横跨海洋缺氧事件2的德梅拉拉海隆富含有机质的黑色页岩进行铊同位素分析，发现了在全球公认的碳循环扰动之前约4.3±1.1万年沉积物-水界面脱氧范围扩大的证据。这一导致极端古代气候事件的快速氧气流失证据，对已经在经历大规模脱氧的现代海洋具有及时的启示意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/331f/5550229/ffae25e75bcd/1701020-F1.jpg

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Sulfur isotopes track the global extent and dynamics of euxinia during Cretaceous Oceanic Anoxic Event 2.硫同位素追踪白垩纪大洋缺氧事件 2 期间全球缺氧的范围和动态。

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限制白垩纪海洋缺氧事件（OAE-2：约9400万年前）之前的海洋脱氧速率。

Constraining the rate of oceanic deoxygenation leading up to a Cretaceous Oceanic Anoxic Event (OAE-2: ~94 Ma).

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