Magmatism-dominated intracontinental rifting in the Mesoproterozoic: The Ngaanyatjarra Rift,central Australia |
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| Institution: | 1. School of Earth and Environmental Sciences, University of Wollongong, 2522, NSW, Australia;2. Research School of Earth Sciences, Australian National University, 2601, ACT, Australia;1. Ottawa-Carleton Geoscience Centre, Department of Earth Sciences, Carleton University, 1125 Colonel By Drive, Ottawa, ON K1S 5B6, Canada;2. Department of Earth Sciences, University of Toronto, Toronto, ON M5S 3B1, Canada;3. Department of Geology, Lund University, Sölvegatan 12, SE-223 62 Lund, Sweden;4. Faculty of Geology and Geography, Tomsk State University, Tomsk 634050, Russia;5. Division of Earth Sciences, National Science Foundation, Alexandria, VA 22314, United States;6. Geological Survey of South Australia, GPO Box 320, Adelaide, SA 5000, Australia.;7. Department of Earth Sciences, School of Physical Sciences, University of Adelaide, SA 5005, Australia.;8. Department of Earth Sciences, Simon Fraser University, 8888 University Drive, Burnaby, BC V5A 1S6, Canada;1. Géosciences Montpellier, Université de Montpellier & CNRS, Place E. Bataillon, 34095 Montpellier Cedex 05, France;2. Instituto de Geociências, Universidade de São Paulo, Rua do Lago, 562, 05508-080 São Paulo, Brazil |
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| Abstract: | The Late Mesoproterozoic (1085–1040 Ma) Ngaanyatjarra Rift, previously referred to as the Giles Event, is the dominant component of the Warakurna Large Igneous Province (LIP) that affected much of central and western Australia. This rift is well preserved and provides excellent examples of rift structure at a variety of crustal levels and times in the rift's evolution. Geological knowledge is integrated with geophysical interpretations and models to understand the crustal structure and evolution of this rift. Two phases are identified: an early rift stage (1085–1074 Ma) that is characterised by voluminous magmatism within the upper crust and relatively little tectonic deformation; and a late rift stage that is characterised by tectonic deformation, synchronous with the deposition of a thick pile of volcanic and sedimentary rocks (1074–1040 Ma). Compared to modern rift examples, this rift is unusual in that the crust was thickened by ~ 15 km and overall extension was very limited. However, its structure and evolution are very similar to the near-contemporaneous Midcontinent Rift, which shows the addition of a similar quantity of magmatic material as well as crustal thickening and limited extension. For these Mesoproterozoic rifts, we suggest that magmatism was the dominant process, and that the extension observed was a response to magmatism-induced crustal thickening and the gravitational collapse of the crustal column. Other Proterozoic rifts show similar characteristics (e.g. Transvaal Rift), whereas most Phanerozoic rifts are dissimilar, showing instead a dominance of extension, with magmatism largely a result of this extension. This change in the style of rifting from the Precambrian to the Phanerozoic may relate to the influence of a typically cooler and stronger lithosphere, which has caused stronger strain localisation and a greater role for extension as the controlling factor in rift evolution. |
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