Mineral-scale Sr isotope variation in plutonic rocks – a tool for unravelling the evolution of magma systems

Transactions of the Royal Society of Edinburgh: earth sciences Pub Date : 2006-12-01 DOI:10.1017/S0263593300001504

J. Davidson, L. Font, B. Charlier, F. Tepley

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引用次数: 35

Abstract

ABSTRACT Isotope ratios of elements such as Sr, Nd, Pb and Hf can be used as tracers of magmatic sources and processes. Analytical capabilities have evolved so that isotope ratios can now be analysed in situ, and isotopic tracers can therefore be used within single minerals to track the changing magmatic environment in which a given mineral grew. This contribution shows that Sr isotope ratios in feldspars that make up plutonic rocks will typically preserve initial isotopic variations, provided precise and accurate age corrections can be applied. Variations in initial isotope ratio can give a core-to-rim record of magmatic evolution and can be used to diagnose open system events such as contamination and magma recharge and mixing. New single grain Sr isotope data are presented from the Dais Intrusion, Antarctica, which reflect an open system origin for the crystals. The crystal cargo appears to be aggregated and assembled during transport and emplacement. This model, as opposed to a magma body crystallising post emplacement, may be more applicable to plutonic rocks in general, and is testable using the in situ isotopic determination methods described here.

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深部岩体中矿物尺度的Sr同位素变化——揭示岩浆系统演化的工具

Sr、Nd、Pb、Hf等元素的同位素比值可以作为岩浆源和岩浆过程的示踪剂。分析能力的发展使得同位素比率现在可以在现场进行分析，因此同位素示踪剂可以在单一矿物中使用，以跟踪特定矿物生长的岩浆环境的变化。这一贡献表明，如果能够应用精确的年龄校正，构成深部岩石的长石中的Sr同位素比率通常会保留初始同位素变化。初始同位素比值的变化可以给出岩浆演化的核缘记录，并可用于诊断污染、岩浆补给和混合等开放系统事件。在南极Dais岩体中获得了新的单粒Sr同位素数据，反映了该晶体的开放体系成因。水晶货物似乎是在运输和安置期间聚集和组装的。与岩浆体在侵位后结晶不同，这个模型可能更适用于一般的深部岩石，并且可以使用本文描述的原位同位素测定方法进行测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Transactions of the Royal Society of Edinburgh: earth sciences

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