Rare Earth Element Behaviour During Evolution and Alteration of the Dartmoor Granite, SW England |
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| Authors: | WARD C D; MCARTHUR J M; WALSH J N |
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| Institution: | 1Department of Geology, Royal Holloway and Bedford New College Egham Hill, Egham, Surrey TW20 OEX, UK
2Department of Geological Sciences, University College London Gower Street, London, WCIE 6BT, UK |
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| Abstract: | The distribution of rare earth elements (REE) within the compositionallyzoned Dartmoor pluton is used to constrain models of graniteevolution and to assess the effects of pervasive hydrothermalalteration on REE mobility. The main process of magma evolutionwas crystal fractionation of early plagioclase, biotite, andaccessory minerals (apatite, monazite, zircon, and xenotime).Concentrations of REE (particularly LREE and Eu) and other elements(Fe2O3t, MgO, CaO, TiO2, Zr, Ba, and Sr) decrease strongly withevolution of the pluton from 71 to 74% SiO2. These trends, andthe inward zoning of the pluton, are compatible with differentiationby crystal fractionation at the level of emplacement, a processthat gave rise to a marginal cumulate granite (CGM) modifiedby country rock assimilation, a body of inner granite (PM),and a late-stage evolved granite (FG) that intruded the earliertypes. REE modelling of the Dartmoor granite types by fractionalcrystallization of REE-enriched accessory minerals from a parentPM-granite shows that the FG-granite cannot have formed froma residual liquid left by crystallization of the CGM-granite.Two discrete stages of crystallization occurred; side-wall cumulateCGM-granite crystallization dominated by LREE-en-riched monazitefractionation followed by a late-stage mobile residual FG-granitein which fractionation was dominated by HREE-enriched apatiteand zircon. Modelling supports the idea that large-scale assimilationof country rock was not the dominant process during Dartmoorgranite evolution. Pervasive hydrothermal alteration locally affected all Dartmoorgranite types, altering primary plagioclase, biotite, apatite,monazite, and, to a lesser extent, zircon and xenotime. Duringpervasive sericitization, chloritization, and tourmalinization,REE were mobilized over distances of centimetres only and redistributedinto the secondary alteration products seridte, chlorite, tourmaline,allanite, and sphene. Whole-rock REE abundances were not affected |
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