Abstract: Stirring in 3-d spherical models of convection in the Earth's mantle
K.-D. Gottschaldt, U. Walzer, R. Hendel, D. R. Stegman, J. R. Baumgardner, and H.-B. Mühlhaus. Stirring in 3-d spherical models of convection in the Earth's mantle. Philosophical Magazine, 86: 3175-3204, 2006. Stirring in 3-D Spherical Models of Convection in the Earth's Mantle
Abstract
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from intraplate volcanism. The observed geochemical heterogeneity argues strongly for the existence of distinct reservoirs in the Earth's mantle. It is an unresolved problem of geodynamics how these findings can be reconciled with large-scale convection. We review observational constraints and investigate stirring properties of numerical models of mantle convection. Conditions in the early Earth may have supported layered convection with rapid stirring in the upper layers. Material that has been altered near the surface is transported downwards by small-scale convection. Thereby a layer of homogeneous depleted material develops above pristine mantle. As the mantle cools over Earth history, the effects leading to layering become reduced and models show the large-scale convection favoured for the Earth today. Laterally averaged, the upper mantle below the lithosphere is least affected by material that has experienced near-surface differentiation. The geochemical signature obtained during the previous episode of small-scale convection may be preserved there for the longest time. Additionally stirring is less effective in the high viscosity layer of the central lower mantle (Walzer et al., 2003, 2004a), supporting the survival of medium-scale heterogeneities there. These models are the first, using 3-d spherical geometry and Earth-like parameters, to address the suggested change of convective style. Although the models are still far from reproducing our planet, we find that proposal might be helpful towards reconciling geochemical and geophysical constraints.
Key words: Earth, mantle, convection, mantle convection, stirring, spherical model, geochemical heterogeneity, pristine mantle, reservoirs, plate tectonics, viscosity contrasts, numerics, radial profiles, cutaway views, Terra.
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