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Details for article 20 of 20 found articles
| Title: |
The geology, geochemistry and origin of late-Silurian high-Si igneous rocks of the Upper Murray Valley, NE Victoria |
| Author: |
Price, R.C. Brown, W.M. Woolard, C.A. |
| Appeared in: |
Australian journal of earth sciences |
| Paging: | Volume 30 (1983) nr. 3-4 pages 443-459 |
| Year: |
1983-12 |
| Contents: |
In the Upper Murray Valley, Victoria, Late Silurian, high-Si igneous rocks, which are closely associated with alkalic, basaltic dykes, were emplaced at high crustal levels following the peak of the Benambran Orogeny, which deformed and metamorphosed the Wagga Zone in Late Ordovician-Early Silurian times. These rocks, which are informally termed 'the Upper Murray high-Si magmatic suite', include leucogranites, rhyolite dykes and flows, and ash-flow tuffs characterised by the following features. They are transitional from mildly peraluminous to mildly metaluminous; they represent relatively anhydrous magmas, in which halides were important volatile constituents; they have high Si, total alkalies, Rb, Th, U, Nb, Sn and heavy rare earth elements; and they are relatively repleted in Mg, Ca, Sr, Eu, V, Cr and Ni. In these respects and in their post-orogenic setting and close association with alkalic basalts, they resemble many post-orogenic granitoids from elsewhere. Such granitoids appear to have formed as partial melts during crustal extension following major episodes of deformation and high-Si magmatism. A residual granulitic crust, from which an earlier generation of granitoid magmas had been extracted, is argued to be the source rock-type for these post-orogenic magmas. Tectonic extension, affecting such a crust, was accompanied by deep fracturing and basaltic vol-canism. Mantle-derived, CO2- and halide-rich fluids moved into the residual crust, causing widespread metasomatism, and emplacement of basaltic magma caused temperatures to rise until melting took place and a second group of magmas was produced. This model explains most aspects of the trace and major element chemistry of post-orogenic, high-Si igneous rocks and, for the Upper Murray high-Si suite it also provides an explanation for variations in trace elements and isotopic characteristics. Other processes, such as crystal fractionation, magma mixing, thermogravi-tational diffusion, and separation and loss of a volatile phase, provide explanations for variations within individual units of the suite, but they do not explain overall variations or the highly fractionated nature of the suite. |
| Publisher: |
Taylor & Francis |
| Source file: |
Elektronische Wetenschappelijke Tijdschriften |
Details for article 20 of 20 found articles
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