Granulite facies rocks on Else Platform in the northern Prince Charles Mountains, east Antarctica, consist of metasedimentary gneiss extensively intruded by granitic rocks. The dominant rock type is a layered garnetbiotite‐bearing gneiss intercalated with minor garnet‐cordierite‐sillimanite gneiss and calc‐silicate. Voluminous megacrystic granite intruded early during a mid‐Proterozoic (ca 1000 Ma) granulite event, M1, widely recognized in east Antarctica. Peak metamorphic conditions for M1 are in the range of 650–750 MPa at ∼800°C and were associated with the development of a gneissic foliation, S1 and steep east‐plunging lineation, L1. Strain partitioning during progressive non‐coaxial deformation formed large D2 granulite facies south‐dipping thrusts, with a steep, east‐plunging lineation. In areas of lower D2 strain, large‐scale upright, steep east‐plunging fold structures formed synchronously with the D2 high‐strain zones. Voluminous garnet‐bearing leucogneiss intruded at 940 ±20 Ma and was deformed in the D2 high‐strain zones. Textural relationships in pelitic rocks show that peak‐M2 assemblages formed during increasing temperatures via reactions such as biotite + sillimanite + quartz ± plagioclase = spinel + cordierite + ilmenite + K‐feldspar + melt. In biotite‐absent rocks, re‐equilibration of deformed M1 garnet‐sillimanite‐ilmenite assemblages occurred through decompressive reactions of the form, garnet + sillimanite + ilmenite = cordierite + spinel + quartz. Pressure/temperature estimates indicate that peak‐M2 conditions were 500–600 MPa and 700±50°C. At about 500 Ma, north‐trending granitic dykes intruded and were deformed during D3‐M3 at probable upper amphibolite facies conditions. Cooling from peak D3‐M3 conditions was associated with the formation of narrow greenschist facies shear zones, and the intrusion of pegmatite. Cross‐cutting all features are abundant north‐south trending alkaline mafic dykes that were emplaced over the interval ca 310–145 Ma, reflecting prolonged intrusive activity. Some of the dykes are associated with steeply dipping faults that may be related to basin formation during Permian times and later extension, synchronous with the formation of the Lambert Graben in the Cretaceous.
Australian Journal of Earth Sciences
An International Geoscience Journal of the Geological Society of Australia
Volume 41, 1994 - Issue 4
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