Journal article
Kimberlites reveal 2.5-billion-year evolution of a deep, isolated mantle reservoir
J Woodhead, J Hergt, A Giuliani, R Maas, D Phillips, DG Pearson, G Nowell
Nature | NATURE PORTFOLIO | Published : 2019
Abstract
The widely accepted paradigm of Earth's geochemical evolution states that the successive extraction of melts from the mantle over the past 4.5 billion years formed the continental crust, and produced at least one complementary melt-depleted reservoir that is now recognized as the upper-mantle source of mid-ocean-ridge basalts1. However, geochemical modelling and the occurrence of high 3He/4He (that is, primordial) signatures in some volcanic rocks suggest that volumes of relatively undifferentiated mantle may reside in deeper, isolated regions2. Some basalts from large igneous provinces may provide temporally restricted glimpses of the most primitive parts of the mantle3,4, but key questions..
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Funding Acknowledgements
We thank the De Beers Group, S. Graham, B. Kjarsgaard and H. O'Brien for access to samples; M. Felgate and A Greig for technical assistance; D. Sandiford for advice on the use of GPlates; and S. Shirey for suggestions. R. Chesler and M. Felgate produced the Tanzania perovskite and Brazilian kimberlite data, respectively. J.W. and A.G. acknowledge funding from the Australian Research Council.