Fluid-rock interaction related to alpine subduction of Allalingabbro deduced from large-size μXRF element maps

IF 2.9 2区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Kurt Bucher , Peter Thomet , Rüdiger Kilian
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引用次数: 0

Abstract

Alpine subduction of a block of olivine gabbro produced a plethora of different assemblages and local structures typical of high-pressure and low-temperature metamorphism. However, gabbro with the locally well-preserved igneous assemblage olivine - augite - plagioclase occurs in some domains of a 2 km long outcrop (Allalinhorn, western Alps).

A large variety of hydrate minerals including zoisite, glaucophane, talc, Mg-chloritoid, chlorite, paragonite and muscovite formed during Alpine subduction of the metagabbro. The three primary igneous minerals have been replaced by hydration reactions during Eocene subduction. Talc, omphacite, and zoisite + jadeite and are the main minerals in the local domains after olivine, augite and plagioclase respectively. The rocks preserved the coarse grained igneous texture.

An excellent overview of the complex coarse textures of the eclogite facies rocks has been provided by element distribution maps produced from up to 25 cm large polished slabs of typical samples of Allalingabbro using a μXRF instrument. The RGB images suggest that the minerals formed at the high-pressure in the presence of an aqueous fluid. The pseudomorphing reactions progressed close to volume conservation. The hydration reactions required an H2O fluid containing dissolved solids. The mapped distribution of elements including trace elements provides important clues on the origin and mobility of these elements in the hydration fluid. The homogeneously distributed immobile Cr in omphacite portrays primary augite. The irregular patchy Sr distribution resulted from small-scale migration of components replacing plagioclase by Sr-bearing zoisite and jadeite. Coherent Ni signals are related to the presence of talc. The talc occurs as a late infill of structures produced by dissolving olivine. Mg-chloritoid, kyanite and mica coat the former grain-boundary of olivine and plagioclase suggesting that olivine dissolved at eclogite facies conditions. Talc formed at distinctly lower pressures, however, as implied by computed model reactions. The olivine replacement structures are often larger than the size thin section and can be excellently studied by the large size μXRF patterns used in this study.

The fractured surroundings of the locations of olivine provided the necessary hydraulic conductivity for hydration reactions to progress. The fractures and small veinlets contain late Ni-bearing talc. Cl is only present in very late vein amphibole suggesting that hydration fluids in the subduction zone transported dissolved components as hydrous complexes (and their dissociated ions). There is no evidence for the presence of a Cl-brine during subduction. In addition to primary olivine as a local Ni source, the element may also have partly been imported with the hydration fluid and originate from dehydration of ophiolitic serpentinites in the slab.

从大尺寸μXRF元素图中推断出与阿拉凌巴布罗高山俯冲有关的流体-岩石相互作用
阿尔卑斯山对橄榄辉长岩块体的俯冲作用产生了大量不同的组合和典型的高压低温变质作用的局部结构。然而,在一个 2 千米长的露头(阿尔卑斯山西部的阿拉林角)的某些区域,出现了具有当地保存完好的橄榄石-橄榄石-斜长石火成岩组合的辉长岩。在辉长岩的阿尔卑斯俯冲过程中,形成了种类繁多的水合物矿物,包括黝帘石、芒硝、滑石、镁绿泥石、绿泥石、辉石和麝香石。这三种原生火成岩矿物在始新世俯冲过程中被水化反应所取代。滑石、黝帘石和黝帘石+翡翠分别是橄榄石、辉石和斜长石之后的主要矿物。通过使用μXRF仪器对典型的安拉灵辉长岩样本中长达25厘米的大型抛光板块绘制元素分布图,可以很好地概括夕阳辉长岩复杂的粗大质地。RGB 图像表明,这些矿物是在高压和水性流体的作用下形成的。假形态反应的进展接近于体积守恒。水合反应需要含有溶解固体的 H2O 流体。包括微量元素在内的元素分布图为了解这些元素在水合流体中的来源和流动性提供了重要线索。辉绿岩中均匀分布的不流动铬是原生辉绿岩的特征。不规则的斑块状 Sr 分布是由含 Sr 的黝帘石和翡翠替代斜长石的成分的小规模迁移造成的。相干的 Ni 信号与滑石的存在有关。滑石是橄榄石溶解产生的结构的后期填充物。镁绿帘石、黝帘石和云母包裹在橄榄石和斜长石的前晶界上,这表明橄榄石是在斜长石面条件下溶解的。然而,滑石是在明显较低的压力下形成的,这也是计算模型反应所暗示的。橄榄石的置换结构往往比薄片的尺寸大,本研究中使用的大尺寸μXRF图可以对其进行很好的研究。橄榄石位置周围的断裂为水化反应的进行提供了必要的导水性。断裂和小矿脉中含有晚期含镍滑石。Cl只存在于很晚期的脉闪石中,这表明俯冲带的水合流体以水合复合物(及其离解离子)的形式运送溶解成分。没有证据表明在俯冲过程中存在Cl-碱液。除了原生橄榄石是当地的镍源之外,镍元素也可能部分随水合流体输入,并来源于板坯中蛇绿岩的脱水作用。
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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来源期刊
Lithos
Lithos 地学-地球化学与地球物理
CiteScore
6.80
自引率
11.40%
发文量
286
审稿时长
3.5 months
期刊介绍: Lithos publishes original research papers on the petrology, geochemistry and petrogenesis of igneous and metamorphic rocks. Papers on mineralogy/mineral physics related to petrology and petrogenetic problems are also welcomed.
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