Affiliation:
1. Department of Earth, Atmospheric, and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
Abstract
Tomographic imaging indicates that slabs of subducted lithosphere can sink deep into Earth's lower mantle. The view that convective flow is stratified at 660-kilometer depth and preserves a relatively pristine lower mantle is therefore not tenable. However, a range of geophysical evidence indicates that compositionally distinct, hence convectively isolated, mantle domains may exist in the bottom 1000 kilometers of the mantle. Survival of these domains, which are perhaps related to local iron enrichment and silicate-to-oxide transformations, implies that mantle convection is more complex than envisaged by conventional end-member flow models.
Publisher
American Association for the Advancement of Science (AAAS)
Reference133 articles.
1. For recent reviews of whole-mantle tomography see
2. Montagner J.-P., Rev. Geophys. 32, 115 (1994);
3. Ritzwoller M. H., Lavely E. M., ibid. 33, 166 (1995).
4. Evidence for deep mantle circulation from global tomography
5. ; R. D. van der Hilst S. Widiyantoro K. C. Creager T. McSweeney in (24) pp. 5–20.
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