Evolution of the Archaean crust by delamination and shallow subduction (original) (raw)

References

1. Bickle, M. J., Nisbet, E. G. & Martin, A. Archean greenstone belts are not oceanic crust. J. Geol. 102, 121–138 (1994)
   Article Google Scholar
2. Green, D. H. & Ringwood, A. E. An experimental investigation of the gabbro to eclogite transformation and its petrological applications. Geochim. Cosmochim. Acta 31, 767–833 (1967)
   Article CAS Google Scholar
3. Schmidt, M. W. & Poli, S. Experimentally based water budgets for dehydrating slabs and consequences for arc magma generation. Earth Planet. Sci. Lett. 163, 361–379 (1998)
   Article CAS Google Scholar
4. Foley, F., Tiepolo, M. & Vannucci, R. Growth of early continental crust in subduction zones controlled by melting of amphibolite. Nature 417, 837–840 (2002)
   Article CAS Google Scholar
5. McCulloch, M. T. & Bennett, V. C. Progressive growth of the Earth's continental crust and depleted mantle: geochemical constraints. Geochim. Cosmochim. Acta 58, 4717–4738 (1994)
   Article CAS Google Scholar
6. Bennett, V. C., Nutman, A. P. & McCulloch, M. T. Nd isotopic evidence for transient, highly depleted mantle reservoirs in the early history of the Earth. Earth Planet. Sci. Lett. 119, 299–317 (1993)
   Article CAS Google Scholar
7. Martin, H. in Archean Crustal Evolution (ed. Condie, K. C.) 205–259 (Elsevier, Amsterdam, 1994)
   Book Google Scholar
8. Winther, K. T. & Newton, R. C. Experimental melting of hydrous low-K tholeiite: evidence on the origin of Archaean cratons. Bull. Geol. Soc. Denmark 39, 213–228 (1991)
   CAS Google Scholar
9. Rapp, R. P., Watson, E. B. & Miller, C. F. Partial melting of amphibolite/eclogite and the origin of Archean trondhjemites and tonalites. Precambr. Res. 51, 1–25 (1991)
   Article CAS Google Scholar
10. Zegers, T. E. & van Keken, P. E. Middle Archean continent formation by crustal delamination. Geology 29, 1083–1086 (2001)
    Article CAS Google Scholar
11. de Wit, M. J. & Ashwal, L. D. (eds) Greenstone Belts (Oxford Univ. Press, Oxford, 1996)
12. Jacob, D., Jagoutz, E., Lowry, D., Mattey, D. & Kudryatseva, G. Diamondiferous eclogites from Siberia: remnants of Archean oceanic crust. Geochim. Cosmochim. Acta 58, 5191–5207 (1994)
    Article CAS Google Scholar
13. Jacob, D. E. & Foley, S. F. Evidence for Archean oceanic crust with low high field strength element signature from diamondiferous eclogite xenoliths. Lithos 48, 317–336 (1999)
    Article CAS Google Scholar
14. Shirey, S. B. et al. Archean emplacement of eclogitic components into the lithospheric mantle during formation of the Kaapvaal craton. Geophys. Res. Lett. 28, 2509–2512 (2001)
    Article CAS Google Scholar
15. Farnetani, C. G., Richards, M. A. & Ghiorso, M. S. Petrological models of magma evolution and deep crustal structure beneath hotspots and flood basalt provinces. Earth Planet. Sci. Lett. 143, 81–94 (1996)
    Article CAS Google Scholar
16. Coogan, L. A., Thompson, G. & MacLeod, C. J. A textural and geochemical investigation of high level gabbros from the Oman ophiolite: implications for the role of the axial magma chamber at fast spreading ridges. Lithos 63, 67–82 (2002)
    Article CAS Google Scholar
17. Danyushevsky, L. V., Eggins, S. M., Falloon, T. J. & Christie, D. M. H2O abundance in depleted to moderately enriched mid-ocean ridge magmas; Part I: incompatible behaviour, implications for mantle storage, and origin of regional variations. J. Petrol. 41, 1329–1364 (2001)
    Article Google Scholar
18. Foley, S. F., Musselwhite, D. S. & van der Laan, S. R. in Proc. VIIth Kimberlite Conf. Vol. 1 (eds Gurney, J. J., Gurney, J. L., Pascoe, M. D. & Richardson, S. H.) 238–246 (Red Roof Design, Cape Town, 1999)
    Google Scholar
19. Karsten, J. L., Klein, E. M. & Sherman, S. B. Subduction zone geochemical characteristics in ocean ridge basalts from the southern Chile ridge: implications of modern ridge subduction systems for the Archean. Lithos 37, 143–161 (1996)
    Article CAS Google Scholar
20. Abbott, D. & Mooney, W. The structural and geochemical evolution of the continental crust: support for the oceanic plateau model of continental growth. Rev. Geophys. Suppl. 231–242 (1995)
21. Nutman, A. P., McGregor, V. R., Friend, C. R. L., Bennett, V. C. & Kinny, P. D. The Itsaq Gneiss Complex of southern west Greenland; the world's most extensive record of early crustal evolution (3900-3600 Ma). Precambr. Res. 78, 1–39 (1996)
    Article CAS Google Scholar
22. Oxburgh, E. R. & Parmentier, E. M. Compositional and density stratification in oceanic lithosphere—causes and consequences. J. Geol. Soc. Lond. 133, 343–355 (1977)
    Article Google Scholar
23. Christensen, U. R. Influence of chemical buoyancy on the dynamics of slabs in the transition zone. J. Geophys. Res. 102, 22435–22443 (1997)
    Article CAS Google Scholar
24. Niu, Y. & Batiza, R. Trace element evidence from seamounts for recycled oceanic crust in the Eastern Pacific mantle. Earth Planet. Sci. Lett. 148, 471–483 (1997)
    Article CAS Google Scholar
25. O'Nions, R. K., Evensen, N. M. & Hamilton, P. J. Differentiation and evolution of the mantle. Phil. Trans. R. Soc. Lond. A 297, 479–493 (1980)
    Article CAS Google Scholar
26. Widiyantoro, S. & van der Hilst, R. Structure and evolution of lithospheric slab beneath the Sunda arc, Indonesia. Science 271, 1566–1570 (1996)
    Article CAS Google Scholar
27. Kellogg, L. H., Hager, B. H. & van der Hilst, R. D. Compositional stratification in the deep mantle. Science 283, 1881–1884 (1999)
    Article CAS Google Scholar
28. Holland, T. J. B. & Powell, R. An internally consistent thermodynamic data set for phases of petrological interest. J. Metamorph. Geol. 16, 309–343 (1998)
    Article CAS Google Scholar
29. Liu, J., Bohlen, S. R. & Ernst, W. G. Stability of hydrous phases in subducting oceanic crust. Earth Planet. Sci. Lett. 143, 161–171 (1996)
    Article CAS Google Scholar
30. Wallace, M. E. & Green, D. H. The effect of bulk rock composition on the stability of amphibole in the upper mantle: implications for solidus positions and mantle metasomatism. Mineral. Petrol. 44, 1–19 (1991)
    Article CAS Google Scholar

Download references