First occurrences of Ni-phosphides in chromitites from the ophiolite complexes of Alapaevsk, Russia and Gerakini-Ormylia, Greece

IF 1.2 4区地球科学 Q2 GEOLOGY

Ofioliti Pub Date : 2018-01-20 DOI:10.4454/OFIOLITI.V43I1.456

Alkiviadis Sideridis, F. Zaccarini, T. Grammatikopoulos, P. Tsitsanis, B. Tsikouras, E. Pushkarev, G. Garuti, K. Hatzipanagiotou

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引用次数: 9

Abstract

Small grains, approximately 15 μm in size, of a Ni-phosphide, have been discovered in two chromite deposits associated with altered mantle peridotite: (i) in Bakanov Kluch, Alapaesk ophiolite, Russia and (ii) in Agios Dimitrios, Gerakini-Ormylia ophiolite, Greece. On the basis of the chromite composition, both the Bakanov Kluch and the Agios Dimitrios chromitites are classified as Cr-rich chromitites with a boninitic affinity. Under reflected-light optical microscope, the Ni-phosphides are yellow in colour and isotropic. Their calculated stoichiometry, based on the average of 20 electron microprobe analyses, approaches the ideal formula (Ni,Fe) 5 P. One essential condition for the formation of terrestrial minerals in the Ni-Fe-P system is the presence of a highly reducing local geochemical environment. Serpentinization of oceanic peridotites produces reducing fluids containing dissolved H 2 resulting from the reduction of H 2 O. Therefore, we suggest that the (Ni,Fe) 5 P from the Alapaevsk and Gerakini-Ormylia were very likely formed after the precipitation of the host chromitites during the serpentinization process at low temperatures. Nickel may have been released during the alteration of olivine and phosphorous may represent an alteration product of apatite. The (Ni,Fe) 5 P grains analyzed in the present work contain the highest value of Ni and they are characterized by the highest Ni to P ratio reported so far from similar minerals. Their stoichiometry indicates that the (Ni,Fe) 5 P grains found in the Alapaevsk and Gerakini-Ormylia chromitites represent a new mineral species. However, their small size prevents the acquisition of crystallographic data to support this assumption.

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在俄罗斯Alapaevsk和希腊Gerakini-Ormylia的蛇绿岩复合体中首次发现镍磷化物

在两个与蚀变地幔橄榄岩有关的铬铁矿矿床中发现了磷化镍的小颗粒，大小约为15 μm:(i)在俄罗斯的Bakanov Kluch, Alapaesk蛇绿岩中发现;(ii)在希腊的Agios Dimitrios, Gerakini-Ormylia蛇绿岩中发现。根据铬铁矿组成，Bakanov Kluch铬铁矿和Agios Dimitrios铬铁矿均属于富铬铬铁矿，具有硼系亲和关系。在反射光光学显微镜下，镍磷化物呈黄色，各向同性。基于20次电子探针分析的平均值，他们计算出的化学计量接近理想公式(Ni,Fe) 5p。在Ni-Fe- p系统中形成陆生矿物的一个必要条件是存在高度还原的局部地球化学环境。海洋橄榄岩的蛇纹石化过程中，由于h2o的还原作用，产生了含有溶解h2的还原性流体，因此我们认为Alapaevsk和Gerakini-Ormylia的(Ni,Fe) 5p很可能是在低温蛇纹石化过程中，由宿主铬铁矿沉淀而形成的。镍可能是在橄榄石蚀变过程中释放出来的，磷可能是磷灰石蚀变产物。本文分析的(Ni,Fe) 5p颗粒含Ni值最高，且具有同类矿物中最高的Ni / P比值。它们的化学计量学表明，在Alapaevsk和Gerakini-Ormylia铬铁矿中发现的(Ni,Fe) 5p颗粒是一种新的矿物。然而，它们的小尺寸阻碍了晶体学数据的获取来支持这一假设。

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

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