Geochemistry Geophysics Geosystems (G3), 9(7), Q07002, doi:10.1029/2008GC002008, 2008
Core-mantle boundary topography estimated from numerical simulations of instantaneous mantle flow
Masaki Yoshida
Abstract
Core-mantle boundary (CMB) topography is estimated from numerical simulations of instantaneous
mantle flow in a three-dimensional spherical shell geometry. Density anomaly models of the
Earth's mantle are derived from geodynamic models constrained principally by seismic tomography
results. To account for the small (+- 1.5 km) CMB topographic relief inferred from recent
seismological results, lateral viscosity variations in the mantle, compositionally dense piles
in the deep mantle, and a low-viscosity D'' layer are all required for the numerical models.
Low-viscosity subducting slabs in the lower mantle serve to reduce the topographic amplitude
below high-velocity regions (i.e., the circum-Pacific belt). The existence of dense piles
may cause the local topographic depressions even below low-velocity regions (i.e., the South
Pacific and Atlantic Africa regions).