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Sulfate triple-oxygen-isotope evidence confirming oceanic oxygenation 570 million years ago

Haiyang Wang, Yongbo Peng, Chao Li, Xiaobin Cao, Meng Cheng, Huiming Bao

2023Nature Communications36 citationsDOIOpen Access PDF

Abstract

Abstract The largest negative inorganic carbon isotope excursion in Earth’s history, namely the Ediacaran Shuram Excursion (SE), closely followed by early animal radiation, has been widely interpreted as a consequence of oceanic oxidation. However, the primary nature of the signature, source of oxidants, and tempo of the event remain contested. Here, we show that carbonate-associated sulfate (CAS) from three different paleocontinents all have conspicuous negative 17 O anomalies (Δ′ 17 O CAS values down to −0.53‰) during the SE. Furthermore, the Δ′ 17 O CAS varies in correlation with its corresponding δ 34 S CAS and δ 18 O CAS as well as the carbonate δ 13 C carb , decreasing initially followed by a recovery over the ~7-Myr SE duration. In a box-model examination, we argue for a period of sustained water-column ventilation and consequently enhanced sulfur oxidation in the SE ocean. Our findings reveal a direct involvement of mass-anomalously 17 O-depleted atmospheric O 2 in marine sulfate formation and thus a primary global oceanic oxygenation event during the SE.

Topics & Concepts

SulfateCarbonateExcursionGeologySulfurIsotopes of carbonIsotopes of oxygenOxygenWater columnOceanographyCarbon fibersPaleontologyEnvironmental chemistryChemistryGeochemistryTotal organic carbonMaterials scienceComposite numberLawOrganic chemistryComposite materialPolitical sciencePaleontology and Stratigraphy of FossilsGeology and Paleoclimatology ResearchIsotope Analysis in Ecology
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