Evidence of transient oxygenation in the Mesoproterozoic ocean from the Yanshan Basin, North China

•Negative Ce anomaly in the Gaoyuzhuang and Hongshuizhuang formations provides the evidence of transient oxygenation of the Mesoproterozoic ocean.•The proposed Ce anomaly depth model provide a quantitative constrain the surface environment of the Yanshan Basin.•Transient oxygenations could have prov...

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Veröffentlicht in:Precambrian research 2022-11, Vol.382, p.106880, Article 106880
Hauptverfasser: Chen, Xiaoyan, Li, Menghan, Zong, Keqing, Liu, Yongsheng, Zhang, Tonggang, Shen, Yanan
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Sprache:eng
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Zusammenfassung:•Negative Ce anomaly in the Gaoyuzhuang and Hongshuizhuang formations provides the evidence of transient oxygenation of the Mesoproterozoic ocean.•The proposed Ce anomaly depth model provide a quantitative constrain the surface environment of the Yanshan Basin.•Transient oxygenations could have provided vital niches for the evolution of eukaryotes. Predominantly anoxic conditions with a heterogeneous stratified water column are widely accepted for the Mesoproterozoic ocean. However, transient and episodic oxygenation during the Mesoproterozoic has been recently hypothesized, which may have been an important trigger for eukaryote evolution. In this study, we analyzed the Ce anomalies of the Gaoyuzhuang and Hongshuizhuang formations in North China, to investigate the Earth’s surface environment during the Mesoproterozoic. Our data of negative Ce anomalies in the Gaoyuzhuang and Hongshuizhuang formations, reaching 0.73 and 0.84, respectively, suggest transient oxygenations of the surface environment. We applied a CeN/CeN* depth model to quantify these transient oxygenations and the results suggest that the atmospheric oxygen level would have increased by 0.01–0.03% present atmospheric level (PAL), 0.02–0.05% PAL, and 0.1–0.4% PAL, with the respective initial levels of 0.05% PAL, 0.1% PAL, and 1% PAL, in the Gaoyuzhuang and Hongshuizhuang formations. Our results suggest that although oxygen levels in the Mesoproterozoic were low, transient oxygenation may have occurred in the surface ocean, which would have provided vital niches for the evolution of eukaryotes.
ISSN:0301-9268
1872-7433
DOI:10.1016/j.precamres.2022.106880