The Marinoan cap carbonate of Svalbard: Syngenetic marine dolomite with 17O-anomalous carbonate-associated sulphate

Two cap carbonates overlying Cryogenian panglacial deposits are found in North-East Svalbard of which the younger (635 Ma) forms the base of the Ediacaran Period. It is represented by a transgressive succession in which laminated dolostone, typically around 20 m thick (Member D1), is succeeded transitionally by a similar thickness of impure carbonates (Member D2). In Spitsbergen, there is evidence of microbially influenced sediment stabilisation and carbonate precipitation in the lower part of D1, whilst the upper part of D1 and D2 show centimetre-decimetre-scale graded units with undulatory lamination interpreted as evidence of storm activity. Carbonate originated as possible freshwater whitings, as well as microbial precipitates. Exhumed and eroded hardgrounds display replacive 10-30 mu m dolomite crystals with cathodoluminescence characteristics consistent with early diagenetic manganese and iron reduction. Regionally, carbon isotope values consistently decrease by around 2 parts per thousand from around -3 parts per thousand over 30 m of section which is both a temporal and a bathymetric signal, but not a global one. An exponential decline in carbonate production predicted by box models is fitted by a semi-quantitative sedimentation model. A mass-anomalous O-17 depletion in carbonate-associated sulphate in dolomite, inherited from precursor calcite, decreases from -0.6 to -0.3 parts per thousand in the basal 15 m of section and then approaches background values. The post-glacial anomalous O-17 depletion in carbonate-associated sulphate and barite elsewhere has been interpreted in terms of ultra-high pCO(2) at the onset of deglaciation. Such anomalies, with larger amplitude, have been reported in Svalbard from underlying lacustrine and tufaceous limestones representing a hyperarid glacial environment. The anomalous sulphate could be produced contemporarily, or the internally drained landscape may have continued to release O-17-anomalous sulphate as it was transgressed during cap carbonate deposition. The late Cryogenian to earliest Ediacaran record in Svalbard provides the most complete record of the basal O-17-depletion event in the world.

Automated summary

Two cap carbonates overlying Cryogenian panglacial deposits are found in North-East Svalbard, providing insights into the sedimentation process and the O-17 depletion event as well as the presence of ultra-high pCO(2) during the deposition of the cap carbonates.