Compositional Variations of Spinels from Ultramafic Lamprophyres of the Chadobets Complex (Siberian Craton, Russia)

Yazgul Nugumanova,Anastasiya Starikova,Anna Doroshkevich,Ilya Prokopyev

doi:10.3390/min11050456

Yazgul Nugumanova, Anastasiya Starikova + Show 2 more

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https://doi.org/10.3390/min11050456

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Abstract

Ultramafic lamprophyres (UMLs) are mantle rocks that provide important information about the composition of specific carbonate–silicate alkaline melts in the mantle as well as the processes contributing to their origin. Minerals of the spinel group typically occur in UMLs and have a unique “genetic memory.” Investigations of the spinel minerals from the UMLs of the Chadobets complex show the physicochemical and thermodynamic features of the alkaline rocks’ crystallization. The spinels of these UMLs have four stages of crystallization. The first spinel xenocrysts were found only in damtjernite pipes, formed from mantle peridotite, and were captured during the rising of the primary melt to the surface. The next stages of the spinel composition evolution are related to the high-chromium spinel crystallization, which changed to a high-alumina composition. The composition then changed to magnesian ulvöspinel–magnetites with strong decreases in the Al and Cr amounts caused by the release of carbon dioxide, rapid temperature changes, and crystallization of the main primary groundmass minerals such as phlogopite and carbonates. Melt inclusion analyses showed the predominance of aluminosilicate (phlogopite, clinopyroxene, and/or albite) and carbonate (calcite and dolomite) daughter phases in the inclusions that are consistent with the chemical evolution of the Cr-spinel trend. The further evolution of the spinels from magnesian ulvöspinel–magnetite to Ti-magnetite is accompanied by the formation of atoll structures caused by resorption of the spinel minerals.

Highlights

Ultramafic lamprophyres (UMLs) and kimberlites are deep mantle rocks that provide important information about the composition of carbonate–silicate alkaline melts, and their origin and classification are subjects of debate [1,2,3,4,5,6,7,8,9,10]
This study presents the macro- and microcomponent compositions of minerals of the spinel group and their inclusions from the groundmass spinels of UMLs of the Chadobets complex to determine the main factors responsible for variations in the composition of spinels and the characteristics of the crystallization process of these rocks
We have identified the following types of spinels: Cr-spinels (Cr-Spl), Cr-magnetites (Cr-Mgt), Ti-magnetites (Ti-Mgt), magnetites (Mgt), magnesian ulvöspinel–magnetites (Mum), and aluminum spinel (Al-Spl)

Summary

Introduction

Ultramafic lamprophyres (UMLs) and kimberlites are deep mantle rocks that provide important information about the composition of carbonate–silicate alkaline melts, and their origin and classification are subjects of debate [1,2,3,4,5,6,7,8,9,10]. In kimberlites and UMLs, spinels are represented by groundmass minerals, crystallizing directly from the parental melt, and spinel macrocrysts and xenocrysts, formed during the destruction of mantle xenoliths and captured by the melt while rising to the surface [17,18,19,20,21,22]. These groups of spinels differ in composition and texture [17,18,23,24,25,26]

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