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| Detailed Reference Information |
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Calver, C.R. (2000). Isotope stratigraphy of the Ediacarian (Neoproterozoic III) of the Adelaide Rift Complex, Australia, and the overprint of water column stratification. Precambrian Research 100(1-3): 121-150. |
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This study establishes a high resolution delta(13)C-chemostratigraphic framework for the type Ediacarian (terminal Proterozoic) section in the Adelaide Rift Complex, a framework that contributes to the emerging global chronostratigraphic synthesis of a period that saw momentous changes in the Earth's surface environment. Only 15m of the 3.5 km thick type section consists of shallow-water carbonates of the kind that have formed the basis of most previous studies of Neoproterozoic chemostratigraphy. However, the organic (delta(13)C(org)) record reveals a surprising richness of information and shows excellent utility in correlation between sections in the Adelaide Rift Complex. Lateral variations in delta(13)C(org) profiles correspond to expected diachronous patterns of basin fill. With the addition of Sr-87/Sr-86 data, correlation can also be made to the Officer and Amadeus Basins, consistent with known lithostratigraphic and sequence-stratigraphic constraints. Sublittoral micritic carbonates of the upper Nuccaleena Formation ('cap dolostone') and lower and middle Wonoka Formation show strong basinwide C-13 depletion (delta(13)C(carb) = -3 to -10 parts per thousand) despite compelling evidence for preservation of depositional delta(13)C(carb) (such as good textural preservation, evidence for sea floor lithification, and in the Wonoka Formation, pristine Sr-87/Sr-86 and low Mn/Sr). Associated with the depleted carbonates are rare subaqueous evaporite, relatively heavy delta(13)C(org) and anomalously C-13-depleted organic carbon of benthic microbial mat origin, and a common cause - salinity stratification of the water column - is postulated. The indicated palaeogeographic setting - an evaporative Mediterranean-like basin tenuously connected to the world ocean - is entirely consistent with previous suggestions of one or more Messinian-type desiccation events to explain very deep (1 km) incised valleys or canyons in the Adelaide Rift Complex and Officer Basin, at horizons within the Wonoka Formation and correlates. Positive excursions in delta(13)C(org) during basin stratification may in part be due to C-12 depletion of surface waters by photosynthetic carbon fixation. Despite the proposed semi-isolation of Australian Ediacarian basins from the world ocean, major delta(13)C excursions - which can to some extent be differentiated by the monotonic rise in Ediacarian marine Sr-87/Sr-86 - appear to be correlatable to the upper Windermere Supergroup, northwest Canada. (C) 2000 Elsevier Science B.V. All rights reserved. |
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| BACKGROUND DATA FILES |
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Abstract |
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Appendix A1 |
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Appendix A2 |
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Appendix A3 |
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Appendix A4 |
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Appendix A5 |
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Appendix A6 |
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Appendix B1 |
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Appendix B2 |
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Sampling |
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Carbonate C Isotopes |
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Organic C Isotopes |
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Strontium Isotopes |
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Keywords
australia, carbon isotopes, correlation, neoproterozoic, strontium isotopes, upper proterozoic successions, earth history, south-australia, officer basin, carbon, seawater, geosyncline, diagenesis, evolution, fractionation |
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Publisher
Elsevier Science
P.O. Box 211
1000 AE Amsterdam
The Netherlands
(+31) 20 485 3757
(+31) 20 485 3432
nlinfo-f@elsevier.com |
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