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Adelaide Geosyncline
Lateral Facies Variability Along the Margin of an Outcropping Salt-Withdrawal Minibasin, South Australia
‘SNOWBALL EARTH’: THE EARLY CONTRIBUTION FROM SOUTH AUSTRALIA
Lead Isotope Constraints on the Origin of Nonsulfide Zinc and Sulfide Zinc-Lead Deposits in the Flinders Ranges, South Australia
Origin of the secondary REE -minerals at the Paratoo copper deposit near Yunta, South Australia
Re-Os geochronology of postglacial black shales in Australia: Constraints on the timing of “Sturtian” glaciation
The Timing and Duration of the Delamerian Orogeny: Correlation with the Ross Orogen and Implications for Gondwana Assembly
Paratooite-(La), a new lanthanum-dominant rare-earth copper carbonate from Paratoo, South Australia
Neoproterozoic sulfur isotopes, the evolution of microbial sulfur species, and the burial efficiency of sulfide as sedimentary pyrite
Marine origin for Precambrian, carbonate-hosted magnesite?
Mantle plume uplift in the sedimentary record: origin of kilometre-deep canyons within late Neoproterozoic successions, South Australia
Development of the early Paleozoic Pacific margin of Gondwana from detrital-zircon ages across the Delamerian orogen
Stratigraphy, sedimentology, and isotopic geochemistry of Australian Neoproterozoic postglacial cap dolostones; deglaciation, delta 13 C excursions, and carbonate precipitation
Long expected sponges from the Neoproterozoic Ediacara fauna of South Australia
Are Neoproterozoic glacial deposits preserved on the margins of Laurentia related to the fragmentation of two supercontinents?
Hydrothermal alteration of middle Proterozoic basalts, Stuart Shelf, South Australia; a possible source for Cu mineralization
Neoproterozoic glaciation in the Broken Hill area, New South Wales, Australia
In the North Flinders Basin, which is the northern portion of the Adelaide “geosyncline,” late Proterozoic (Sturtian), glacigenic deposits lie unconformably on older Proterozoic sedimentary rocks of the Adelaidean succession or on crystalline basement. The glacigenic succession is highly variable in thickness and includes sections as much as 6,000 m thick. A four-fold regional stratigraphic subdivision (Units 1–4) contains two diamictite-laminated mudstone cycles. In the more distal, northern part of the basin, Unit 1 is mainly stratified diamictite, possibly formed by rain-out from floating ice while submarined) glacial erosion was taking place in more proximal settings. As the ice receded, a blanket of diamictons and associated glaciofluvial meltwater deposits was laid down in the south-central part of the basin. Locally, great thicknesses accumulated in paleovalleys. Unit 2 formed as a result of recession of the glacial ice. The dominant rock type is laminated mudstone, probably the result of deposition from widespread suspended sediment plumes distributed by meltwaters. Coarser material was introduced by traction and turbidity currents and as sporadic ice-rafted debris. Unit 3 is a widespread, thick, crudely stratified diamictite, produced largely by rain-out in a glacial marine setting, and is thought to represent a second ice advance to a tidewater position. Unit 4, like Unit 2, is mainly mudstones, with some coarser interbeds and dropstone-bearing horizons, reflecting glacial marine deposition during the final wasting of the Sturtian ice sheets. Overlying dark gray laminated shales of the Tapley Hill Formation formed in a post-glacial transgression. The Sturtian succession in this area is tentatively interpreted as having formed in a rift basin under a temperate climatic regime. It records two glacial advance-retreat cycles.