Journal
GEOLOGICAL MAGAZINE
Volume 160, Issue 7, Pages 1321-1344Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1017/S0016756823000390
Keywords
detrital zircon; geochronology; Sturtian; stratigraphy; provenance; tectonics; Rb-Sr geochronology
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The glaciogenic nature of the Yudnamutana Subgroup and its global significance have been recognized for over a century, leading to the Sturtian Glaciation and Snowball Earth theory. However, debates on the origin and timing of these rocks have persisted. This study presents a detrital zircon study, compiles existing global geochronology, and revises the lithostratigraphic framework of the Yudnamutana Subgroup, showing that the Sturt Formation was deposited within the globally defined Sturtian Glaciation time span.
The glaciogenic nature of the Yudnamutana Subgroup was first recognized over a century ago, and its global significance was recognized shortly after, with the eventual postulation of a global Sturtian Glaciation and Snowball Earth theory. Much debate on the origin and timing of these rocks, locally and globally, has ensued in the years since. A significant corpus of research on the lithology, sedimentology, geochronology and formal lithostratigraphy of these sequences globally has attempted to resolve many of these debates. In the type area for the Sturtian Glaciation, South Australia's Adelaide Superbasin, the lithostratigraphy and sedimentology are well understood; however, formal stratigraphic nomenclature has remained complicated and contested. Absolute dates on the stratigraphy are also extremely sparse in this area. The result of these longstanding issues has been disagreement as to whether the sedimentary rocks of the Yudnamutana Subgroup are truly correlative throughout South Australia, and if they were deposited in the same time span recently defined for Sturtian glacial rocks globally, c. 717 Ma to c. 660 Ma. This study presents a large detrital zircon study, summarizes and compiles existing global geochronology for the Sturtian Glaciation and revises the formal lithostratigraphic framework of the Yudnamutana Subgroup. We show equivalence of the rocks that comprise the revised Sturt Formation, the main glaciogenic unit of the Yudnamutana Subgroup, and that it was deposited within the time span globally defined for the Sturtian Glaciation.
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