Journal
AUSTRALIAN JOURNAL OF EARTH SCIENCES
Volume 52, Issue 2, Pages 205-215Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/08120090500139414
Keywords
Arunta Inlier; geochronology; granulite; Huckitta Granodiorite; Inkamulla Granodiorite; Ledan Schist; Mendip Metamorphics; metamorphism; SHRIMP; Strangways Metamorphic Complex; uranium-lead dating; zircon
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Deformation, metamorphism and magmatism during the Strangways Orogeny in the eastern Arunta Inlier of central Australia appears to be a result of plate-margin-related tectonism along the southern margin of the North Australian Craton. SHRIMP zircon dating of basement and cover sequences in the Strangways Metamorphic Complex indicates that the Strangways Orogeny consisted of two distinct tectonothermal cycles between ca 1.79 and ca 1.71 Ga. Sedimentary protoliths of the Mt Bleechmore Granulite were deposited after co 1.8 Ga and probably metamorphosed at ca 1.78 Ga (the Early Strangways Event). These rocks were subsequently exhumed and eroded, forming a basement on which the Ledan Package (Mendip Metamorphics, Ledan Schist and Utopia Quartzite) was deposited after co 1.77 Ga. Metamorphic zircon overgrowths (1723 +/- 9 Ma) and a pegmatite intrusion (11730 4 Ma) in the Mendip Metamorphics record a second phase of deformation and metamorphism (the Late Strangways Event). The arc-like Huckitta and Inkamulla Granodiorites in the eastern Strangways Metamorphic Complex were intruded at 1762 +/- 3 Ma and 1773 +/- 4 Ma, respectively, suggesting that the Early Strangways Event was associated with subduction along the southern margin of the North Australian Craton. Exhumation and basin formation between the two periods of contraction was possibly a consequence of extension after the Early Strangways Event and related to A-type magmatism at co 1.74 Ga in the eastern Strangways Metamorphic Complex. Metamorphic zircon overgrowths in the Huckitta Granodiorite have an age of 332 +/- 3 Ma and record a phase of relatively high-grade metamorphism towards the end of the Alice Springs Orogeny.
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