ICDP Oman Drilling Project: varitextured gabbros from the dike–gabbro transition within drill core GT3A

IF 1.8 3区地球科学 Q2 MINERALOGY

European Journal of Mineralogy Pub Date : 2022-12-12 DOI:10.5194/ejm-34-603-2022

Artur Engelhardt, J. Koepke, Chao Zhang, D. Garbe‐Schönberg, A. Jesus

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Abstract

Abstract. The Oman ophiolite (Samail massif, Sultanate of Oman) is the largest sub-aerial exposure of oceanic lithosphere on Earth and provides the opportunity to study the accretion and alteration of oceanic lithosphere formed under fast-spreading conditions. Drill hole GT3A (23∘06′50.7′′ N, 58∘12′42.2′′ E) of the ICDP (International Continental Scientific Drilling Program) Oman Drilling Project with a length of 400 m aimed at penetrating the dike–gabbro transition of the Samail ophiolite paleocrust in order to shed light on the role of the axial melt lens (AML) during accretion of the lower plutonic crust. AMLs beneath fast-spreading mid-ocean ridges are sandwiched between the sheeted dike complex and the uppermost gabbros and are believed to feed the upper crust and, at least partially, the underlying crystal mush. Typical gabbroic rocks from dike–gabbro transitions of fast-spreading systems are the so-called “varitextured gabbros”, often showing considerable variations in mineral mode, texture and grain size, which are regarded as the frozen fillings of axial melt lenses. Here, we present a detailed petrographic, microanalytical and bulk-chemical investigation of 36 mafic rocks from the drill hole GT3A, which represent mostly varitextured gabbros, revealing a complex formation with several evolution stages. Poikilitic domains formed first, corresponding to an early crystallization stage, where only plagioclase and clinopyroxene of more primitive composition crystallized. Later, domains of granular textures containing also interstitial amphibole and Fe–Ti oxide were formed. This stage is characterized by a magma evolution that underwent crystal fractionation established by lower temperatures due to more efficient hydrothermal cooling at the margin of the AML. A last stage is characterized by pervasive hydrothermal alteration, where all primary minerals have been altered under temperature conditions, varying from the magmatic regime down to greenschist facies. A highlight of this stage is amphiboles showing noticeable compositional zoning. The observation of peculiar microgranular domains, representing relics of stoped exogenic material from the sheeted dike complex, documents the upward migration of an AML in a replenishment event, forcing the AML to burn through previously altered sheeted dikes. This process is responsible for significant assimilation of hydrothermally altered components, indicated by a marked Cl enrichment in the outer zones of magmatic amphiboles. Petrological modeling involving gabbros and basalts revealed that the GT3A rock suite followed a fractional crystallization evolution trend, with a primitive MORB as parental melt with an estimated water content of 0.2 wt % to 0.8 wt %. The modeled liquid lines of descent suggest a magmatic evolution via fractional crystallization, where the basalts correspond to frozen liquids, while the gabbros, especially the more primitive ones, show a significant cumulate component.

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ICDP阿曼钻探项目：GT3A岩芯内岩脉-辉长岩过渡带的变结构辉长岩

摘要阿曼蛇绿岩(阿曼苏丹国Samail地块)是地球上最大的海洋岩石圈空中暴露，为研究快速扩张条件下形成的海洋岩石圈的增生和蚀变提供了机会。ICDP(国际大陆科学钻探计划)阿曼钻探项目的GT3A(23°06′50.7”N, 58°12′42.2”E)钻孔长度为400°，旨在穿透Samail蛇绿岩-辉长岩的岩脉过渡，以阐明轴向熔融透镜(AML)在下深部地壳的增厚过程中的作用。在快速扩张的洋中脊之下的aml夹在片状岩脉复合体和最上面的辉长岩之间，被认为是上层地壳的养料，至少部分是下面的晶体浆液的养料。快速扩张体系脉—辉长岩过渡的典型辉长岩是所谓的“变质辉长岩”，其矿物模式、结构和粒度往往表现出相当大的变化，被认为是轴向熔融透镜体的冻结充填物。本文对GT3A钻孔36块基性岩进行了详细的岩石学、显微分析和体化学研究，揭示了其多期演化的复杂地层特征。较早的结晶阶段，只有成分较原始的斜长石和斜辉石结晶。随后，形成了含有间隙角闪孔和Fe-Ti氧化物的颗粒结构域。这一阶段的特点是岩浆演化经历了结晶分馏，这是由于在AML边缘更有效的水热冷却而形成的较低温度。最后一个阶段的特征是普遍的热液蚀变，所有原生矿物都在低温条件下被蚀变，从岩浆状态到绿片岩相都有所不同。这一阶段的一个亮点是角闪石显示出明显的成分分带。观察到特殊的微颗粒结构域，代表了片状二元复合体中停止的外源物质的遗迹，记录了AML在补充事件中的向上迁移，迫使AML烧毁先前改变的片状脉。这一过程对热液蚀变组分有重要的同化作用，岩浆角闪岩外带明显富集Cl。含辉长岩和玄武岩的岩石学模拟结果表明，GT3A岩组遵循分数结晶演化趋势，原始MORB为母熔体，估计含水量为0.2 wt % ~ 0.8 wt %。模拟的液体下降线表明岩浆的演化是通过分离结晶进行的，其中玄武岩对应于冻结的液体，而辉长岩，特别是较原始的辉长岩，则显示出明显的堆积成分。

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来源期刊

European Journal of Mineralogy 地学-矿物学

CiteScore

2.80

自引率

9.50%

发文量

审稿时长

6-12 weeks

期刊介绍： EJM was founded to reach a large audience on an international scale and also for achieving closer cooperation of European countries in the publication of scientific results. The founding societies have set themselves the task of publishing a journal of the highest standard open to all scientists performing mineralogical research in the widest sense of the term, all over the world. Contributions will therefore be published primarily in English. EJM publishes original papers, review articles and letters dealing with the mineralogical sciences s.l., primarily mineralogy, petrology, geochemistry, crystallography and ore deposits, but also biomineralogy, environmental, applied and technical mineralogy. Nevertheless, papers in any related field, including cultural heritage, will be considered.