Role of recycled oceanic basalt and sediment in generating the Hf–Nd mantle array (original) (raw)
References
Kellogg, L. H., Hager, B. H. & van der Hilst, R. D. Compositional stratification in the deep mantle. Science283, 1881–1884 (1999). Article Google Scholar
Hofmann, A. W. & White, W. M. Mantle plumes from ancient oceanic crust. Earth Planet. Sci. Lett.57, 421–436 (1982). Article Google Scholar
Kelley, K. A., Plank, T., Farr, L., Ludden, J. & Staudigel, H. Subduction cycling of U, Th, and Pb. Earth Planet. Sci. Lett.234, 369 (2005). Article Google Scholar
Niu, Y. & O’Hara, M. J. Origin of ocean island basalts: A new perspective from petrology, geochemistry, and mineral physics considerations. J. Geophys. Res.108, 2209 (2003). Google Scholar
Blichert-Toft, J. & Albarède, F. The Lu–Hf isotope geochemistry of chondrites and the evolution of the mantle-crust system. Earth Planet. Sci. Lett.148, 243–258 (1997). Article Google Scholar
Bouvier, A., Vervoort, J. D. & Patchett, P. J. The Lu–Hf CHUR value. Goldschmidt Conf. Abstracts 2007 A116 (2007).
van de Flierdt, T. et al. Global neodymium-hafnium isotope systematics—revisited. Earth Planet. Sci. Lett.259, 432 (2007). Article Google Scholar
Plank, T. & Langmuir, C. H. The chemical composition of subducting sediment and its consequences for the crust and mantle. Chem. Geol.145, 325–394 (1998). Article Google Scholar
Carpentier, M., Chauvel, C. & Mattielli, N. Strong relationship between Hf–Nd–Pb isotopes in atlantic sediments and the Lesser Antilles arc composition. Eos Trans. AGU 87, 52 Fall Meeting Suppl., Abstract U21A-0804 (2006).
Godfrey, L. V. et al. The Hf isotopic composition of ferromanganese nodules and crusts and hydrothermal manganese deposits: Implications for seawater Hf. Earth Planet. Sci. Lett.151, 91–105 (1997). Article Google Scholar
Albarède, F., Simonetti, A., Vervoort, J. D., Blichert-Toft, J. & Abouchami, W. A Hf–Nd isotopic correlation in ferromanganese nodules. Geophys. Res. Lett.25, 3895–3898 (1998). Article Google Scholar
Plank, T., Kelley, K. A., Murray, R. W. & Quintin Stern, L. Chemical composition of sediments subducting at the Izu-Bonin trench. Geochem. Geophys. Geosyst.8, Q04I16 (2007). Article Google Scholar
Chauvel, C., Lewin, E., Carpentier, M. & Marini, J.-C. Recycled oceanic material controls the Hf–Nd OIB array. Eos Trans. AGU 87, 52 Fall Meeting Suppl., Abstract U14B-07 (2006).
Patchett, P. J., White, W. M., Feldmann, H., Kielinczuck, S. & Hofmann, A. W. Hafnium/rare earth element fractionation in the sedimentary system and crustal recycling into the Earth’s mantle. Earth Planet. Sci. Lett.69, 365–378 (1984). Article Google Scholar
Salters, V. J. M. & White, W. M. Hf isotope constraints on mantle evolution. Chem. Geol.145, 447–460 (1998). Article Google Scholar
Hofmann, A. W. Chemical differentiation of the Earth: The relationship between mantle, continental crust and oceanic crust. Earth Planet. Sci. Lett.90, 297–314 (1988). Article Google Scholar
Su, Y. J. Mid-ocean Ridge Basalt Trace Element Systematics: Constraints From Database Management, ICP-MS Analyses, Global Data Compilation and Petrologic Modeling. Thesis, Columbia Univ., 472pp (2002).
Vervoort, J. D., Patchett, P. J., Blichert-Toft, J. & Albarède, F. Relationships between Lu–Hf and Sm–Nd isotopic systems in the global sedimentary system. Earth Planet. Sci. Lett.168, 79–99 (1999). Article Google Scholar
Taylor, S. R. & McLennan, S. M. The Continental Crust: Its Composition and Evolution (Blackwell Scientific, Oxford, 1985). Google Scholar
Richards, A. et al. Himalayan architecture constrained by isotopic tracers from clastic sediments. Earth Planet. Sci. Lett.236, 773–796 (2005). Article Google Scholar
Ben Othman, D., White, W. M. & Patchett, J. The geochemistry of marine sediments, island arc magma genesis, and crust-mantle recycling. Earth Planet. Sci. Lett.94, 1–21 (1989). Article Google Scholar
McLennan, S. M., Taylor, S. R., Culloch, M. T. M. & Maynard, J. B. Geochemical and Nd-Sr isotopic composition of deep-sea turbidites: Crustal evolution and plate tectonic associations. Geochim. Cosmochim. Acta54, 2015–2050 (1990). Article Google Scholar
White, W. M., Dupré, B. & Vidal, P. Isotope and trace element geochemistry of sediments from the Barbados Ridge-Demera Plain region, Atlantic Ocean. Geochim. Cosmochim. Acta49, 1875–1886 (1985). Article Google Scholar
Pearce, J. A., Kempton, P. D., Nowell, G. M. & Noble, S. R. Hf–Nd element and isotope perspective on the nature and provenance of mantle and subduction components in Western Pacific arc-basin systems. J. Petrol.40, 1579–1611 (1999). Article Google Scholar
Woodhead, J. D., Hergt, J. M., Davidson, J. P. & Eggins, S. M. Hafnium isotope evidence for ‘conservative’ element mobility during subduction zone processes. Earth Planet. Sci. Lett.192, 331–346 (2001). Article Google Scholar
David, K., O’Nions, R. K., Belshaw, N. S. & Arden, J. W. The Hf isotope composition of global seawater and the evolution of Hf isotopes in the deep Pacific Ocean from Fe–Mn crusts. Chem. Geol.178, 23–42 (2001). Article Google Scholar
Vlastelic, I., Carpentier, M. & Lewin, E. Miocene climate change recorded in the chemical and isotopic (Pb, Nd, Hf) signature of Southern Ocean sediments. Geochem. Geophys. Geosyst.6, Q03003 (2005). Google Scholar
Jacobsen, S. B. & Wasserburg, G. J. Sm-Nd isotopic evolution of chondrites and achondrites. Earth Planet. Sci. Lett.67, 137–150 (1984). Article Google Scholar
McLennan, S. M. Relationships between the trace element composition of sedimentary rocks and upper continental crust. Geochem. Geophys. Geosyst.2, 2000GC000109 (2001). Article Google Scholar
Gallet, S., Jahn, B.-M., Lanoë, B. V. V., Dia, A. & Rossello, E. Loess geochemistry and its implications for particle origin and composition of the upper continental crust. Earth Planet. Sci. Lett.156, 157–172 (1998). Article Google Scholar