1. A. M. Bobrov and V. P. Trubitsyn, “Viscous Stresses and Topography of Continental Margins Associated with the Motion of a Continent: An Isothermal Model,” Fiz. Zemli, No. 12, 30–39 (2001) [Izvestiya, Phys. Solid Earth 37, 995–1003 (2001)].

2. A. M. Bobrov and V. P. Trubitsyn, “Evolution of Viscous Stresses in the Mantle and in Moving Continents in the Process of the Formation and Breakup of a Supercontinent,” Fiz. Zemli, No. 12, 3–13 (2003) [Izvestiya, Phys. Solid Earth 39, 963–973 (2003)].

3. A. M. Bobrov and V. P. Trubitsyn, “A Numerical Model of the Evolution of Mantle Flows during the Formation and Breakup of a Supercontinent: Changes in Seafloor Topography and the Transfer of Oceanic Lithosphere Matter,” in Computational Seismology 36, 5–28 (2005) [in Russian].

4. D. Brunet and P. Machetel, “Large-Scale Feature Induced by Mantle Avalanches with Phase, Temperature, and Pressure Lateral Variations of Viscosity,” J. Geophys. Res. 103, 4929–4945 (1998).

5. H. P. Bunge, M. A. Richards, and J. R. Baumgardner, “A Sensitivity Study of Three-Dimensional Spherical Mantle Convection at 108 Rayleigh Number: Effects of Depth-Dependent Viscosity, Heating Mode, and an Endothermic Phase Change,” J. Geophys. Res. 102, 11 991–12 007 (1997).