Mesozoic to Paleoproterozoic diamond growth beneath Botswana recorded by Re-Os ages from individual eclogitic and websteritic inclusions

Michael U. Gress*, D. Graham Pearson, Ingrid L. Chinn, Emilie Thomassot, Gareth R. Davies

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Re-Os isotope systematics are reported from a suite of eclogitic and websteritic sulphide inclusions extracted from well-characterised diamond growth zones from the Orapa and Jwaneng kimberlite clusters. Re-Os ages (786 ± 250 Ma) are within uncertainty of previously determined Sm-Nd ages (853 ± 55 Ma), demonstrating isotopic equilibrium, at varying levels of completeness, across multiple isotopic systems in different minerals at the time of diamond formation and inclusion encapsulation. These data confirm the concept that inclusion isochron ages, when used with detailed textural/ growth zone control, reflect the timing of diamond crystallisation. Our data substantiate previous Re-Os and Sm-Nd inclusion ages of diamonds from Orapa and Jwaneng, indicating that major tectono-magmatic events formed discrete diamond populations of Paleo- (~ 2.0 to 1.7 Ga), Meso- (~ 1.2 to 1.1 Ga) and Neoproterozoic (~ 0.9 to 0.75 Ga) age. Some of these processes occurred simultaneously across the Kalahari Craton and can be traced over 100's of km illustrating the significance of diamond inclusions for monitoring continental tectonics. Inclusion ages indicating diamond formation that are younger than 300 Ma appear to be more common than previously recognised, consistent with evidence of relatively abundant, young, fluid-rich “fibrous” and polycrystalline diamonds at Jwaneng and Orapa. The increasingly widespread evidence for Mesozoic diamond-forming events in southern Africa and elsewhere appears closely linked with the kimberlite-related magmatism that affected these regions and subsequently transported diamonds to the surface. The inclusion isochron ages emphasise that diamond formation is a multi-stage and episodic process that can occur contemporaneously in disparate substrates and produce multiple diamond populations in the sub-continental lithospheric mantle.

Original languageEnglish
Article number106058
Pages (from-to)1-13
Number of pages13
JournalLithos
Volume388-389
Early online date17 Feb 2021
DOIs
Publication statusPublished - May 2021

Bibliographical note

Funding Information:
The authors sincerely thank Debswana and De Beers for providing access to run of mine production at DTCB and the generous supply of diamonds. MUG was funded through NWO project 824.14.004 (awarded to GRD) and De Beers Group Services . Sarah Woodland, Chiranjeeb Sakar and Pedro Waterton are thanked for support during Re-Os analysis. A Canada Excellence Research Chair award to DGP funded the Re-Os measurements. Carbon isotope analyses were partly funded by Europlanet 2020 RI that received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 654208 . Pieter Ouwerkerk and Gassan Diamond B.V. is thanked for assistance with polishing. The Dr. Schürmannfonds foundation provided support for field work to Botswana during which sample selection was made with support of Quint van den Heuvel, Ellen Schulten and Cas Nooitgedacht. Richard Smeets, Suzan Verdegaal-Warmerdam, Bas van der Wagt, Boris Versteegh, Sergei Matveev and Tilly Bouten are thanked for assistance with analyses. The manuscript benefitted from constructive comments of Karen Smit, an anonymous reviewer and editor Ben Harte.

Publisher Copyright:
© 2021 The Authors

Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.

Funding

The authors sincerely thank Debswana and De Beers for providing access to run of mine production at DTCB and the generous supply of diamonds. MUG was funded through NWO project 824.14.004 (awarded to GRD) and De Beers Group Services . Sarah Woodland, Chiranjeeb Sakar and Pedro Waterton are thanked for support during Re-Os analysis. A Canada Excellence Research Chair award to DGP funded the Re-Os measurements. Carbon isotope analyses were partly funded by Europlanet 2020 RI that received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 654208 . Pieter Ouwerkerk and Gassan Diamond B.V. is thanked for assistance with polishing. The Dr. Schürmannfonds foundation provided support for field work to Botswana during which sample selection was made with support of Quint van den Heuvel, Ellen Schulten and Cas Nooitgedacht. Richard Smeets, Suzan Verdegaal-Warmerdam, Bas van der Wagt, Boris Versteegh, Sergei Matveev and Tilly Bouten are thanked for assistance with analyses. The manuscript benefitted from constructive comments of Karen Smit, an anonymous reviewer and editor Ben Harte.

FundersFunder number
Horizon 2020 Framework Programme871149
Nederlandse Organisatie voor Wetenschappelijk Onderzoek824.14.004
Horizon 2020654208

    Keywords

    • Carbon, Nitrogen and Sulphur isotope
    • Eclogite
    • Inclusion dating
    • Zimbabwe and Kaapvaal Craton

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