Magmatic and Crustal Differentiation History of Granitic Rocks from Hf-O Isotopes in Zircon

Magmatic and Crustal Differentiation History of Granitic Rocks from Hf-O Isotopes in Zircon

Granitic plutonism is the principal agent of crustal differentiation, but linking granite emplacement to crust formation requires knowledge of the magmatic evolution, which is notoriously difficult to reconstruct from bulk rock compositions. We unlocked the plutonic archive through hafnium (Hf) and...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2007-02, Vol.315 (5814), p.980-983
Hauptverfasser: Kemp, A.I.S, Hawkesworth, C.J, Foster, G.L, Paterson, B.A, Woodhead, J.D, Hergt, J.M, Gray, C.M, Whitehouse, M.J
Format: Artikel
Sprache:eng
Schlagworte:
Basalt
Crusts
Crystalline rocks
Crystals
Differentiation
Earth
Earth sciences
Earth, ocean, space
Evolution
Exact sciences and technology
Gasoline
Geochronology
Geology
Granite
Hafnium
Igneous and metamorphic rocks petrology, volcanic processes, magmas
Isotope geochemistry. Geochronology
Isotopes
Magma
Mineralogy
Minerals
Petrology
Plutons
Rocks
Signatures
Zircon
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Zusammenfassung:Granitic plutonism is the principal agent of crustal differentiation, but linking granite emplacement to crust formation requires knowledge of the magmatic evolution, which is notoriously difficult to reconstruct from bulk rock compositions. We unlocked the plutonic archive through hafnium (Hf) and oxygen (O) isotope analysis of zoned zircon crystals from the classic hornblende-bearing (I-type) granites of eastern Australia. This granite type forms by the reworking of sedimentary materials by mantle-like magmas instead of by remelting ancient metamorphosed igneous rocks as widely believed. I-type magmatism thus drives the coupled growth and differentiation of continental crust.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1136154