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Rheological properties of the lower mantle have strong influence on the dynamics and evolution of Earth. By using the improved methods of quantitative deformation experiments at high pressures and temperatures, we deformed a mixture of bridgmanite and magnesiowüstite under the shallow lower mantle conditions. We conducted experiments up to about 100% strain at a strain rate of about 3 × 10(-5) second(-1). We found that bridgmanite is substantially stronger than magnesiowüstite and that magnesiowüstite largely accommodates the strain. Our results suggest that strain weakening and resultant shear localization likely occur in the lower mantle. This would explain the preservation of long-lived geochemical reservoirs and the lack of seismic anisotropy in the majority of the lower mantle except the boundary layers.

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Hydrolytic weakening of olivine at mantle pressure: Evidence of [100](010) slip system softening from single-crystal deformation experiments

Girard

Chen

Raterron

et al. 2013

Physics of the Earth and Planetary Interiors

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Pressure effect on forsterite dislocation slip systems: Implications for upper-mantle LPO and low viscosity zone

Raterron

Chen

Geenen

et al. 2011

Physics of the Earth and Planetary Interiors

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Activities of olivine slip systems in the upper mantle

Raterron

Girard

Chen

2012

Physics of the Earth and Planetary Interiors

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Jennifer Girard

Shear deformation of bridgmanite and magnesiowüstite aggregates at lower mantle conditions

Hydrolytic weakening of olivine at mantle pressure: Evidence of [100](010) slip system softening from single-crystal deformation experiments

Pressure effect on forsterite dislocation slip systems: Implications for upper-mantle LPO and low viscosity zone

Activities of olivine slip systems in the upper mantle

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