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Journal of Petrology | Volume 39 | Number 11-12 | Pages 1987-1996 | 1998
© Oxford University Press 1998

Radiogenic Isotope Constraints on Relationships between Carbonatites and Associated Silicate Rocks—a Brief Review

Keith Bell

Ottawa-Carleton Geoscience Centre, Department of Earth Sciences, Carleton University Ottawa, Ont., Canada, K1S 5B6

Received September 30, 1997; Revised typescript accepted June 12, 1998


  Abstract

The diversity of silicate rocks in alkaline–carbonatite complexes cannot be attributed to differentiation of parent magmas operating under closed chemical conditions. Constraints imposed by Nd, Pb and Sr isotope data require discrete partial melting events coupled, in some cases, with open-system behaviour that involves mixing either with other mantle melts or sources, or with lower continental crust. Patterns shown by isotope ratio diagrams for carbonatites and some nephelinites from East Africa indicate mixing dominated by two mantle end-members (broadly similar to HIMU and EMI), first recognized in oceanic basalts. Mixing is on a scale sufficient to generate: (1) coherent but variable ratios in carbonatites from much of East Africa, and (2) variable isotope ratios among some of the silicate rocks from the same eruptive centre (e.g. Oldoinyo Lengai, Shombole). Overlapping isotope ratios between carbonatites and some nephelinites from complexes from East Africa and elsewhere are consistent with magmatic differentiation (crystal fractionation, liquid immiscibility), or the melting of the same or isotopically similar sources. The wide isotopic variation shown by the ijolites, phonolites, syenites and even some of the nephelinites requires the involvement of other mantle components and/or continental crust.

KEY WORDS: isotopes; silicate rocks; carbonatites

* Telephone: 613-520-2600 (ext. 4419). Fax: 613-520-4900. e-mail: kbell{at}ccs.carleton.ca


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