锶侵入配合物:岩石学、热压测量法和钛矿对残余熔体化学的影响

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
T. J. Matthews, M. Loader, J. Wilkinson, Y. Buret, S. Large, Elliott A Birt
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引用次数: 1

摘要

尽管岩浆系统中残余熔体的演化控制着它们的可分解性和成矿潜力,但它们的成分在深成岩中被长期的近固相线演化和间隙玻璃的缺失所掩盖。在这里,我们利用与角闪石边缘共生的角闪石和钛矿的微量元素化学,追踪了苏格兰锶侵入杂岩岩石中残余熔体成分的演变。激光烧蚀测绘揭示了角闪石边缘中某些微量元素的突然变化,Eu/Eu*和Sr/Y急剧增加,稀土元素、Ta、Nb和Ta/Nb比率下降。钛铁矿中这些元素的核边缘变化与角闪石中的变化相同,但更为平缓。通过使用结构观测和热气压估计重建锶质岩浆的结晶序列,我们确定角闪石核心在钛矿饱和之前结晶,但角闪石边缘与钛矿同时结晶。利用矿物相的微量元素组成及其在岩石中的模态丰度,并与全岩化学进行比较,我们确定钛酸岩承载了岩石中大部分的稀土和高场强元素预算。因此,我们提出,钛矿结晶的开始对锶天晚期残余熔体的微量元素组成产生了深远影响,这些微量元素由角闪石边缘和随后的钛矿继承。瑞利分数结晶模型支持了这一点,该模型表明,如果没有钛酸盐的影响,就无法解释角闪石边缘的组成。因此,我们表明,岩浆中富含微量元素相的饱和度代表了中硅化岩浆岩石成因中的一个重要地球化学事件。这对试图从矿物成分中重建大块岩石成分的物源研究具有启示意义,因为这些矿物结晶的残余熔体可以通过后期副相结晶而与宿主岩浆形成明显不同的成分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Strontian Intrusive Complex: Petrography, Thermobarometry and the Influence of Titanite on Residual Melt Chemistry
Although the evolution of residual melts in magmatic systems controls their eruptability and ore-forming potential, their compositions are obscured in plutonic rocks by a protracted near-solidus evolution, and the absence of interstitial glass. Here, we trace the evolution of residual melt compositions in rocks from the Strontian Intrusive Complex, Scotland, using the trace element chemistry of amphiboles and titanites which are intergrown with amphibole rims. Laser ablation mapping reveals an abrupt change in certain trace elements in the amphibole rims, with sharp increases in Eu/Eu* and Sr/Y, and decreases in rare earth elements, Ta, Nb, and Ta/Nb ratios. Core-rim variations in these elements in titanite show the same variations as in amphibole, but are more gradual. By reconstructing the crystallisation sequence of the Strontian magmas using textural observations and thermobarometric estimates, we determine that amphibole cores crystallised prior to titanite saturation, but amphibole rims crystallised simultaneously with titanite. Using the trace element composition of the mineral phases and their modal abundance in the rock, with comparison to the whole-rock chemistry, we determine that titanite hosts the majority of the rare earth and high field strength element budget of the rocks. We therefore propose that the onset of titanite crystallisation had a profound effect on the trace element composition of late-stage residual melts at Strontian, which were inherited by the amphibole rims and subsequent titanites. This is supported by Rayleigh fractional crystallisation modelling which demonstrates that the composition of amphibole rims cannot be explained without the influence of titanite. We therefore show that the saturation of trace element rich phases in magmas represents a significant geochemical event in the petrogenesis of intermediate to silicic magmas. This has implications for provenance studies which attempt to reconstruct bulk rock compositions from mineral compositions, as the residual melts from which those minerals crystallise can be driven to significantly different compositions from the host magma by late-stage accessory phase crystallisation.
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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