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Tectonic setting and geochemistry of Miocene alkalic basalts from the Jones Mountains, West Antarctica

Published online by Cambridge University Press:  12 May 2004

M. J. Hole
Affiliation:
Department of Geology and Petroleum Geology, University of Aberdeen, Meston Building, Aberdeen, AB92UE, Scotland, UK
B. C. Storey
Affiliation:
British Antarctic Survey, Natural Environment Research Council, High Cross, Madingley Road, Cambridge CB3 0ET, UK
W. E. LeMasurier
Affiliation:
Department of Geology, University of Colorado at Denver, PO Box 173364, Denver CO 80217-3364, USA

Abstract

Within the Jones Mountains, which form part of the Thurston Island crustal block, up to 700 m of Miocene (c. 10 Ma) pillow basalt and palagonitized volcaniclastic rocks unconformably overlie Jurassic granitic basement and Cretaceous volcanic rocks and dykes. New geochemical analyses demonstrate the alkalic nature of the basalts, which range in composition from alkali basalt to basanite. Unradiogenic Sr-isotope ratios (0.7031–0.7034), coupled with low LILE/HFSE ratios (e.g. Th/Ta c. 1.4, Rb/Nb 0.3–0.9) indicate a predominantly asthenospheric source for the basalts. The Jones Mountains basalts are geochemically similar to the alkalic basalts of Marie Byrd Land, but have consistently lower K/Ba and higher Ba/Nb ratios than Late Cenozoic alkalic basalts along the Antarctic Peninsula. These regional variations in geochemical composition apparently reflect differences in tectonic setting and are not the result of lithospheric interaction or partial melting/crystallization effects. The generation of alkalic magmas along the Antarctic Peninsula was causally related to the formation of slab windows following ridge crest-trench collision and the cessation of subduction, whereas the Jones Mountains alkalic basalts may represent the expression of the northward propagation of the head of the Marie Byrd Land plume.

Type
Papers—Earth Sciences and Glaciology
Copyright
© Antarctic Science Ltd 1994

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