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Alkali-carbonate melts from the base of cratonic lithospheric mantle: links to kimberlites

Golovin, AV, Sharygin, IS, Kamenetsky, VS ORCID: 0000-0002-2734-8790, Korsakov, AV and Yaxley, GM 2018 , 'Alkali-carbonate melts from the base of cratonic lithospheric mantle: links to kimberlites' , Chemical Geology, vol. 483 , pp. 261-274 , doi: 10.1016/j.chemgeo.2018.02.016.

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Abstract

Identification of the primary compositions of mantle-derived melts is crucial for understanding mantle compositions and physical conditions of mantle melting. However, these melts rarely reach the Earth's surface unmodified because of contamination, crystal fractionation and degassing, processes that occur almost ubiquitously after melt generation. Here we report snapshots of the melts preserved in sheared peridotite xenoliths from theUdachnaya-East kimberlite pipe, in the central part of the Siberian craton. These xenoliths are among the deepest mantle samples and were delivered by kimberlite magma from 180–230 km depth interval, i.e. from the base of the cratonic lithosphere. The olivine grains of the sheared peridotites contain secondary inclusions of the crystallized melt with bulk molar (Na + K)/Ca ~ 3.4. Various Na-K-Ca-, Na-Ca-, Na-Mg-, Ca-Mg- and Ca-carbonates,Na-Mg-carbonates with additional anions, alkali sulphates and halides are predominant among the daughter minerals in secondary melt inclusions, whereas silicates, oxides, sulphides and phosphates are subordinate. These inclusions can be considered as Cl–S-bearing alkali-carbonate melts. The presence of aragonite, a high-pressure polymorph of CaCO3, among the daughter minerals suggests a mantle origin for these melt inclusions.The secondary melt inclusions in olivine from the sheared peridotite xenoliths and the melt inclusions in phenocrystic olivines from the host kimberlites demonstrate similarities, in daughter minerals assemblages and trace-element compositions. Moreover, alkali-rich minerals (carbonates, halides, sulphates and sulphides) identified in the studied melt inclusions are also present in the groundmass of the host kimberlites. These datasuggests a genetic link between melt enclosed in olivine from the sheared peridotites and melt parental to the Udachnaya-East kimberlites. We suggest that the melt inclusions in olivine from mantle xenoliths may represent near primary, kimberlite melts. These results are new evidence in support of the alkali‑carbonate composition of kimberlite melts in their source regions, prior to the kimberlite emplacement into the crust, and are in starkcontrast to the generally accepted ultramafic silicate nature of parental kimberlite liquids.

Item Type: Article
Authors/Creators:Golovin, AV and Sharygin, IS and Kamenetsky, VS and Korsakov, AV and Yaxley, GM
Keywords: mantle xenoliths, kimberlites, carbonatite melts, mantle metasomatism, melt inclusions, aragonite
Journal or Publication Title: Chemical Geology
Publisher: Elsevier Science Bv
ISSN: 0009-2541
DOI / ID Number: 10.1016/j.chemgeo.2018.02.016
Copyright Information:

© 2018 Published by Elsevier B.V.

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