Evolution of the continental crust

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    432 Citations (Scopus)

    Abstract

    The continental crust covers nearly a third of the Earth's surface. It is buoyant - being less dense than the crust under the surrounding oceans - and is compositionally evolved, dominating the Earth's budget for those elements that preferentially partition into silicate liquid during mantle melting. Models for the differentiation of the continental crust can provide insights into how and when it was formed, and can be used to show that the composition of the basaltic protolith to the continental crust is similar to that of the average lower crust. From the late Archaean to late Proterozoic eras ( some 3 - 1 billion years ago), much of the continental crust appears to have been generated in pulses of relatively rapid growth. Reconciling the sedimentary and igneous records for crustal evolution indicates that it may take up to one billion years for new crust to dominate the sedimentary record. Combining models for the differentiation of the crust and the residence time of elements in the upper crust indicates that the average rate of crust formation is some 2 - 3 times higher than most previous estimates.

    Original languageEnglish
    Pages (from-to)811-817
    Number of pages7
    JournalNature
    Volume443
    Issue number7113
    DOIs
    Publication statusPublished - 19 Oct 2006

    Keywords

    • HF-ISOTOPE EVIDENCE
    • DETRITAL ZIRCONS
    • DEPLETED MANTLE
    • U-PB
    • NEODYMIUM ISOTOPES
    • SUBDUCTION ZONES
    • OXYGEN ISOTOPES
    • WEST GREENLAND
    • GROWTH
    • HAFNIUM

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