RUSSIAN JOURNAL OF EARTH SCIENCES, VOL. 15, ES3001, doi:10.2205/2015ES000552, 2015

Figure 3. Calculated structure of mantle convection at the average Rayleigh number $1.1 \times 10^4$. Dimensionless temperature is shown in color and velocities are shown by arrows. Viscosity jumps at the base of highly viscous continent and at the boundary of the upper and lower mantle are shown by white lines. (a) – convection with a supercontinent at the time of inclusion of the spherical $D"$ layer. (b) – established convection with break-up of the $D"$ layer into two piles.

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Citation: Trubitsyn V. P., M. N. Evseev, A. P. Trubitsyn (2015), Influence of continents and lithospheric plates on the shape of D$''$ layer and the spatial distribution of mantle plumes, Russ. J. Earth Sci., 15, ES3001, doi:10.2205/2015ES000552.

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