Assembling Australia: Proterozoic building of a continent

Peter Anthony Cawood, R. J. Korsch

Research output: Contribution to journalReview articlepeer-review

Abstract

The western two-thirds of Australia is underlain by Precambrian rocks that are divisible into three Archean to Paleoproterozoic cratons, the West Australian, North Australian and South Australian cratons, separated by Paleoproterozoic to Mesoproterozoic orogens. Prior to about 1500 Ma, the North Australian and South Australian (along with extensions into Antarctica) cratons show a similar geological history and are herein assumed to have evolved as a single entity, termed the Diamantina Craton. The temporal and spatial record of Proterozoic rock units and orogenic events documents accretion and assembly of Precambrian proto-Australia. The Archean Yilgarn and Pilbara cratons were assembled into the West Australian Craton along the Capricorn Orogen during the late Paleoproterozoic (2000 Ma) Glenburgh Orogeny, which then combined with the North Australian segment of the Diamantina Craton along the Paterson Crogen during the 1800-1765 Ma Yapungku Orogeny to form proto-Australia. It was bounded throughout most of the late Paleoproterozoic to earliest Mesoproterozoic along its south western and probably its north eastern margins by subduction zones such that much of the craton occupied an upper plate, backarc basin environment. After similar to 1500 Ma, proto-Australia differentiated into two cratonic masses, the combined North Australian and West Australian cratons and the Mawson Craton, consisting of the South Australian Craton and extensions into Antarctica. This breakup, through rotation and lateral translation of the Mawson Craton, resulted in convergence and collisional suturing with the West Australian Craton along the 1345-1140 Ma Albany-Fraser Orogen. The integrated continental assemblage of West Australian, North Australian and South Australian (including parts of Antarctica) cratons are herein referred to as the Great Southern Continent, which persisted until final breakup of Pangea associated with the current northward drift of Australia. The Pinjarra Orogen developed along the margin of the West Australian Craton and records late Mesoproterozoic to Neoproterozoic strike-slip juxtaposition of India within an assembling Gondwana. The Neoproterozoic record of the Terra Australis Orogen, which extends along the eastern side of Precambrian Australia, records rifting and continental breakup within the supercontinent of Rodinia.

Australian Proterozoic rocks host significant mineral resources, including world class banded iron-formations in the West Australian Craton (Hamersley), and iron oxide copper gold deposits (Olympic Dam), Pb-Zn-Ag systems (Mount Isa and Broken Hill) and uranium deposits in the Diamantina Craton. (C) 2008 Elsevier B.V. All rights reserved.

Original languageEnglish
Pages (from-to)1-35
JournalPrecambrian Research
Volume166
Issue number1-4
DOIs
Publication statusPublished - 30 Oct 2008

Keywords

  • Australia
  • Proterozoic
  • Accretion
  • Tectonics
  • Backarc
  • Craton
  • West Australian Craton
  • North Australian Craton
  • South Australian Craton
  • Diamantina Craton
  • Proto-Australia
  • Great Southern Continent
  • Orogen
  • Orogeny
  • Capricorn
  • Paterson
  • Halls Creek
  • Musgrave
  • Albany-Fraser
  • Pinjarra
  • Terra Australis
  • U-PB ZIRCON
  • ALBANY-FRASER OROGEN
  • MT ISA INLIER
  • HALLS CREEK OROGEN
  • GRANULITE-FACIES METAMORPHISM
  • HIGH-GRADE METAMORPHISM
  • TRANSPRESSIVE SHEAR ZONE
  • SOUTH-CENTRAL AUSTRALIA
  • LARGE IGNEOUS PROVINCE
  • BANDED IRON-FORMATION

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