Journal article

He, Ne and Ar in peridotitic and eclogitic paragenesis diamonds from the Jwaneng kimberlite, Botswana-Implications for mantle evolution and diamond formation ages

M Honda, D Phillips, JW Harris, T Matsumoto

Earth and Planetary Science Letters | ELSEVIER SCIENCE BV | Published : 2011

Abstract

We have undertaken helium, neon and argon step-heating, isotopic analyses of eleven polycrystalline diamonds of known peridotite/eclogite paragenesis from the Jwaneng kimberlite pipe, Botswana. In contrast to the findings of crustal noble gases in framesites from the same kimberlite pipe (Honda et al., 2004. Unusual noble gas compositions in polycrystalline diamonds: preliminary results from the Jwaneng kimberlite, Botswana. Chem. Geol. 203, 347-358.), the Jwaneng polycrystalline diamonds appear to contain similar noble gas isotopic compositions (particularly Ne) to those representing a mantle source for MORBs. This implies that the Jwaneng polycrystalline diamonds may have formed in recent ..

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Funding Acknowledgements

De Beers Consolidated Mines are thanked for donating the diamond specimens for this project and for allowing the publication of this manuscript. Igor Yatsevich is thanked for technical assistance. We would like to thank Manuel Moreira and Ray Burgess for their insightful reviews. This work was partially supported by the ARC Discovery Program.