Long-lived, autochthonous development of the archean murchison domain, and implications for yilgarn craton tectonics
MetadataShow full item record
Map, geochemical, and geochronological data are used to develop anewstratigraphic scheme and unravel the Archean tectonic evolution of the Murchison Domain of the Yilgarn Craton. Greenstones are divided into four groups: (1) c. 2960- 2935Ma Mount Gibson Group of mafic and felsic volcanic and volcaniclastic rocks, in the southern part of the domain; (2) the widespread 2825-2805MaNorie Group ofmaficvolcanic rocks, felsic volcaniclastic sandstones and banded iron-formation; (3) 2800-2735Ma Polelle Group of mafic-ultramafic volcanic rocks, intermediate to felsic volcanic and volcaniclastic sedimentary rocks, and banded iron-formation; (4) the 2735-2700Ma Glen Group of coarse clastic sedimentary rocks, komatiitic basalt, and minor rhyolite. Younger groups each have an unconformable relationship with older, underlying, greenstones, whereas the base of the Mount Gibson Group is intruded by younger granites. Very large layered mafic-ultramafic complexes of the Meeline and Boodanoo suites (e.g. Windimurra Igneous Complex) accompanied eruption of the Norie Group during crustal extension at 2825-2805 Ma. Less voluminous mafic-ultramafic intrusive suites accompanied eruption of the Polelle and Glen groups. Common c. 2950Ma xenocrystic zircons in these rocks, combined with similar-age detrital zircons in 2820-2720Ma greenstones, implies autochthonous development of post 2820Ma greenstones on older crust. Greenstone belt volcanism was accompanied by widespread intrusion of syn-volcanic plutons and outlasted by 110Maof widespread and voluminous granitic magmatism, from 2720 to 2600 Ma, including 2640-2600Ma post-tectonic granites. All granites are crustal melts, indicating an extremely long period of crustal melting and thus an external thermal input, with or without the effects of thermal blanketing from newly erupted greenstones. Deformation consists of four events, including two early periods of greenstone tilting (D1 = 2930-2825 Ma; D2 = 2735 Ma) - possibly associated with crustal extension - and two later (c. 2680-2640 Ma) periods of deformation resulting in tight to isoclinal folding of greenstones. D3 structures include steeply-plunging, east-west trending folds of greenstones and open domes of granitic rocks, which formed during a period of inferred partial convective overturn of dense greenstone upper crust and partially molten granitic middle crust at c. 2675 Ma. Overprinting D4 structures developed in response to strong east-west compression, resulting in broad, splayed, north-northeast striking dextral shear zones, upright, north- to north-northeast trending folds, and minor north-northwest striking sinistral shear zones. Gold mineralization tends to be focussed in regions of D4 dextral shear and/or low-pressure domains in fold interference structures. Much of the late history of the domain, from 2720 to 2630 Ma, is similar and contemporaneous with events that also affected the Eastern Goldfield Superterrane (EGS) of the craton. Shared events include komatiitic-basaltic volcanism at c. 2720 Ma, followed by widespread felsic magmatism (2690-2660 Ma), early deformation at 2675 Ma, shear-hosted gold mineralisation at 2660-2630 Ma, and post-tectonic granites at c. 2630 Ma. In addition, the whole craton experienced a period of mafic-ultramafic magmatism (komatiitic-basaltic volcanic rocks, layered mafic-ultramafic complexes, and gabbros) at c. 2810 Ma, indicating a shared early history. These findings, together with the low overall metamorphic grade (prehnite-pumpellyite to upper greenschist facies), lack of evidence for significant thrusting, and lack of passive margin/foreland basin/accretionary prism successions suggest that a re-evaluation of subductionaccretion tectonic models for craton development is warranted.
Showing items related by title, author, creator and subject.
Age and significance of voluminous mafic-ultramafic magmatic events in the Murchison Domain, Yilgarn CratonIvanic, T.; Wingate, M.; Kirkland, Chris; van Kranendonk, M.; Wyche, S. (2010)Mafic-ultramafic rocks in structurally dismembered layered intrusions comprise approximately 40% by volume of greenstones in the Murchison Domain of the Youanmi Terrane, Yilgarn Craton. Mafic- ultramafic rocks in the ...
Spatio-temporal constraints on lithospheric development in the southwest-central Yilgarn Craton, Western AustraliaMole, D.; Fiorentini, M.; Thebaud, N.; McCuaig, T.; Cassidy, K.; Kirkland, Chris; Wingate, M.; Romano, S.; Doublier, M.; Belousova, E. (2012)The Archean western Yilgarn Craton contains an extensive record of supracrustal formation from ca 3730 to ca 2675 Ma, as well as evidence of an ensialic crustal component as old as ca 4400 Ma. These features make the ...
De Waele, Bert (2004)The Irumide belt is an elongate crustal province characterised by Mesoproterozoic tectonism and magmatism that stretches over a distance of approximately 900 kilometers from central Zambia to the Zambia-Tanzania border ...