Do We Really Need Mantle Components to Define Mantle Composition?

doi:10.1093/petrology/egl078

Journal of Petrology Advance Access originally published online on February 15, 2007
Journal of Petrology 2007 48(4):693-709; doi:10.1093/petrology/egl078

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Do We Really Need Mantle Components to Define Mantle Composition?

Pietro Armienti and Daniela Gasperini^*

Dipartimento Di Scienze Della Terra, Università Di Pisa, 56126 Pisa, Italy

RECEIVED AUGUST 3, 2006; ACCEPTED DECEMBER 18, 2006

Abstract

We discuss the concept of components in the Earth's mantle startingfrom a petrological and geochemical approach, but adopting anew method of projection of geochemical and isotopic data. Thisallows the compositional variability of magmatic associationsto be evaluated in multi-dimensional space, thus simultaneouslyaccounting for a large number of compositional variables. Wedemonstrate that ocean island basalts (OIB) and mid-ocean ridgebasalts (MORB) are derived from a marble-cake mantle, in whichdifferent degrees of partial melting of recycled lithosphere,which are heterogeneous in age and composition, contribute tothe magma genesis. This view is supported by the variabilityin the geochemical and isotopic signatures of OIB that are observedon the scale of a single ocean island as well as on that ofan ocean, mostly varying between two extreme compositions, thatare not strictly related to the commonly accepted mantle components(DMM, EMI, EMII, HIMU). Rather they are a distinctive featureof the mantle source sampled at each ocean island and are stronglydependent on the Pb isotope system. We recommend a change inperspective in studies of MORB–OIB geochemistry from onebased on physically distinct mantle components to a model basedon the existence of a marble-cake-like upper mantle. Althoughresembling the statistical upper mantle, this model impliesthat geochemical homogenization can be attained only withinthe limits of local mantle composition, so that a world-wideuniform depleted reservoir cannot be sampled by simply extendingthe volume of the region undergoing partial melting.

KEY WORDS: geochemistry; isotope; mantle; OIB

*Corresponding author. E-mail: d.gasperini{at}dst.unipi.it

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