Abundant sulphate in the Neoproterozoic ocean: implications of constant 34S of barite in the Aberfeldy SEDEX deposits, Scottish Dalradian

Moles, N. R., Boyce, A. J. and Fallick, A. (2015) Abundant sulphate in the Neoproterozoic ocean: implications of constant 34S of barite in the Aberfeldy SEDEX deposits, Scottish Dalradian. Geological Society, London, Special Publications, 393, pp. 189-212. (doi: 10.1144/SP393.7)

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Abstract

The timing and extent of ocean oxygenation is controversial. Proterozoic sulphur isotope datasets often show marked fluctuations over small stratigraphic intervals, suggesting that oceanic sulphate concentrations were much lower than modern values. A large accumulation of Neoproterozoic sulphate (.8 million tonnes preserved), as stratiform barite rock, is located in the Grampian Highlands near Aberfeldy. Diagenetic/metamorphic alteration has caused pronounced d34S variations near bed margins. This aside, barite throughout the deposits shows a narrow range in d34S, mean 36+1.5‰. We infer that this is representative of contemporaneous seawater sulphate, and that d34Sseawater was constant during deposition of a stratigraphical thickness .250 m of mostly fine-grained clastic sediments. Uniformity of d34Sseawater during barite precipitation, even in thick (.10 m) beds and with the co-occurrence of abundant sulphides incorporating bacteriogenically reduced sulphur, implies no limit to availability of seawater sulphate during hydrothermal exhalative events. Our data, combined with previous d34S research on Dalradian metasediments, suggest a stability, abundance and constancy of ocean sulphate in the Neoproterozoic. This contrasts with isotopic data using trace sulphate in limestones. It appears that, around the time of the Marinoan glaciation (c. 635 Ma), the ocean, although stratified at least locally, comprised a substantial reservoir of sulphate-bearing oxygenated seawater.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Boyce, Professor Adrian and Fallick, Professor Anthony
Authors: Moles, N. R., Boyce, A. J., and Fallick, A.
College/School:College of Science and Engineering > Scottish Universities Environmental Research Centre
Journal Name:Geological Society, London, Special Publications
Publisher:Geological Society
ISSN:0305-8719
ISSN (Online):2041-4927

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