MANTLE ORIGIN OF THE ANTRONA SERPENTINITES (ANTRONA OPHIOLITE, PENNINE ALPS) AS INFERRED FROM MICROSTRUCTURAL, MICROCHEMICAL, AND NEUTRON DIFFRACTION QUANTITATIVE TEXTURE ANALYSIS

IF 1.2 4区地球科学 Q2 GEOLOGY

Ofioliti Pub Date : 2011-12-31 DOI:10.4454/OFIOLITI.V36.I2.4

P. Tartarotti, M. Zucali, M. Panseri, S. Lissandrelli, S. Capelli, B. Ouladdiaf

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引用次数: 9

Abstract

The Antrona ophiolite is located in the Italian side of Western Central Alps. In the Alpine nappe stack, it lies at low structural levels, being sandwiched between the overlying continental Monte Rosa Nappe (upper Penninic) and the underlying Camughera-Moncucco continental Unit (middle Penninic). The ophiolite sequence includes serpentinized ultramafites, metagabbros and mafic rocks covered by calcschists. The ultramafic portion of the Antrona ophiolite consists of serpentinized peridotites, with interbedded layers of various mafic/ultramafic rocks, and underlies the mafic rocks and metasediments. In spite of the Alpine tectonic and metamorphic evolution of the Antrona ophiolite and its heavy serpentinization, the ultramafic rocks preserve relict texture and mineralogy that allow discussing the nature of their protoliths. Olivine-clinopyroxene-spinel-bearing serpentinites still retain relict porphyroclastic texture, commonly attributed to mantle peridotites. This inference is supported by quantitative textural analysis of Lattice Preferred Orientation by neutron diffraction, performed for the first time in olivine crystals of Alpine ophiolites, suggesting T conditions > 800°C for the activation of slip systems. Mineral chemistry of fresh olivine, clinopyroxene and spinel also contribute to support the mantle nature of the serpentinite protolith. The Antrona ophiolite may thus be regarded as a fossilized fragment of oceanic lithosphere including mantle rocks, volcanics and deep-see sediments. Although their extention is smaller, the Antrona ophiolite seems to be comparable with a coherent ophiolitic slice, such as Zermatt Saas ophiolite more than with a serpentinite melange.

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通过显微结构、微化学和中子衍射定量织构分析，推断安特罗纳蛇纹岩(安特罗纳蛇绿岩、盘宁阿尔卑斯岩)的地幔成因

安特罗纳蛇绿岩位于阿尔卑斯山中部西部的意大利一侧。在阿尔卑斯推覆体中，它处于较低的构造水平，夹在上覆的大陆Monte Rosa推覆体(上冰原)和下覆的Camughera-Moncucco大陆单元(中冰原)之间。蛇绿岩层序包括蛇纹化超镁铁岩、变质辉长岩和被钙片岩覆盖的基性岩。安特罗纳蛇绿岩的超基性部分由蛇纹化橄榄岩组成，与各种基性/超基性岩互层，位于基性岩和变质沉积层之下。尽管安特罗纳蛇绿岩经历了阿尔卑斯构造和变质演化，并经历了严重的蛇纹岩化，但超镁铁质岩石保留了残余的结构和矿物学特征，从而可以讨论其原岩的性质。含橄榄石-斜辉石-尖晶石的蛇纹岩仍然保留着残留的斑岩碎屑结构，通常归因于地幔橄榄岩。这一推断得到了中子衍射对阿尔卑斯蛇绿岩橄榄石晶体晶格优选取向的定量结构分析的支持，该分析首次在阿尔卑斯蛇绿岩的橄榄石晶体中进行，表明滑移系统的激活条件为800°C。新鲜橄榄石、斜辉石和尖晶石的矿物化学特征也支持了蛇纹岩原岩的地幔性质。因此，安特罗纳蛇绿岩可以看作是包括地幔岩石、火山和深海沉积物在内的海洋岩石圈的化石碎片。虽然它们的延伸范围较小，但安特罗纳蛇绿岩似乎更像一个相干蛇绿岩片，如泽马特萨斯蛇绿岩，而不是蛇纹岩混杂岩。

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来源期刊

Ofioliti 地学-地质学

CiteScore

2.40

自引率

7.70%

发文量

期刊介绍： Since 1976, Ofioliti provides an international forum for original contributions and reviews in the field of the geodynamics, petrology, geochemistry, biostratigraphy, stratigraphy, tectonics and paleogeography applied to ophiolitic terrains and modern oceanic lithosphere, including their sedimentary cover. Studies of topics such as geodynamics of the mantle, the evolution of orogens including ophiolites and paleoceanography are also welcome