Composition of diamond-forming media in cuboid diamonds from the V. Grib kimberlite pipe (Arkhangelsk province, Russia)

Microinclusions in cuboid diamonds represent the mantle-derived fluid or melt from which they crystallized. The low degree of N aggregation in diamonds with microinclusions (cuboid or coated diamonds) indicates a short mantle residence and suggests that they crystallized shortly before kimberlite er...

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Bibliographic Details
Published in:GEOCHEMICAL JOURNAL
Main Authors: Zedgenizov, Dmitry A., Malkovets, Vladimir G., Griffin, William L.
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
diamond
microinclusions
fluid
melt
kimberlite
mantle
Arkhangelsk
Online Access:https://researchers.mq.edu.au/en/publications/07a90023-9f92-4f2f-b413-4f180803750b
https://doi.org/10.2343/geochemj.2.0455
http://www.scopus.com/inward/record.url?scp=85020026107&partnerID=8YFLogxK
Description
Summary:Microinclusions in cuboid diamonds represent the mantle-derived fluid or melt from which they crystallized. The low degree of N aggregation in diamonds with microinclusions (cuboid or coated diamonds) indicates a short mantle residence and suggests that they crystallized shortly before kimberlite eruption. New data on the composition of microinclusions in cuboid diamonds from V. Grib kimberlite pipe (Arkhangelsk province, NW Russia) reveal two contrasting types: carbonatitic and hydrous-silicic. Significant variations in phase relations and in the ratios between different phases in the microinclusions of different diamonds are consistent with the potentially wider compositional variations expected for local volumes of diamond-forming fluids/melts. Compared to the host kimberlites, diamond microinclusions show a strong enrichment in K, a shallower REE profile, and pronounced depletion in Ti, Zr and Y. All microinclusions in diamonds from the V. Grib kimberlite pipe show enrichment in many incompatible elements, which supports their formation by partial melting of metasomatized mantle peridotites and eclogites. These data suggest that the diamonds have crystallized from carbonatesilicate fluids/melts that were derived from a source also common to kimberlites.

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