First record of 1.2 Ga quartz dioritic magmatism in the Archaean Yilgarn Craton, Western Australia, and its significance

• Published in: Australian journal of earth sciences Vol. 46; no. 3; pp. 421 - 428
• Main Authors: Qiu, Y., McNaughton, N. J., Groves, D. I., Dunphy, J. M.
• Format: Journal Article
• Language: English
• Published: Melbourne, Australia Taylor & Francis Group 01.06.1999; Blackwell Science Pty
• Subjects: Archaean; diorite; lead isotopes; Mesoproterozoic; neodymium isotopes; Yilgarn Craton
• ISSN: 0812-0099; 1440-0952
• DOI: 10.1046/j.1440-0952.1999.00715.x

Ion microprobe (SHRIMP) U-Pb zircon dating, Pb-Nd isotope tracer studies and major, trace and rare-earth element analyses have identified, for the first time, a Mesoproterozoic (1.2 Ga) quartz diorite intrusion in the central part of the Archaean Yilgarn Craton, Western Australia. The quartz diorite is characterised by intergrowths of quartz and plagioclase, having low A/CNK (0.8), low K 2 O (0.28 wt%), Ba (54 ppm), Rb (11 ppm), Sr (92 ppm), Pb (13 ppm), U (1.7 ppm) and Th (6 ppm) contents, high Nd (41 ppm), Sm (10.5 ppm), Zr (399 ppm), Nb (18.5 ppm), Y (57.5 ppm) and Sc (19 ppm) contents, a low Pb isotope two-stage model μ value (6.3), and a primitive initial ϵ Nd value (+3.4) at 1.2 Ga. It is interpreted that the 1.2 Ga quartz diorite was derived from a predominantly mantle source, with minor crustal contamination, possibly from the surrounding Archaean monzogranites or their source region, during magma ascent. The age (1215 ± 11 Ma) of the intrusion overlaps with the timing of a major continental collisional orogeny in the Albany-Fraser Orogen, about 400 km south, and is broadly coeval with the diamond-bearing Argyle lamproites in the east Kimberley Block. This study extends the history of granitoid magmatism in the central craton by more than 1.0 billion years (2.6 to 1.2 Ga), and has implications for isotopic data interpretations of tectonothermal events in the craton.