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Multiple seismic discontinuities near the base of the transition zone in the Earth's mantle

N. A. Simmons and H. Gurrola
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N. A. Simmons: Texas Tech University
H. Gurrola: Texas Tech University

Nature, 2000, vol. 405, issue 6786, 559-562

Abstract: Abstract The seismologically defined boundary between the transition zone in the Earth's mantle (410–660 km depth) and the underlying lower mantle is generally interpreted to result from the breakdown of the γ-spinel phase of olivine1 to magnesium-perovskite and magnesiowustite2. Laboratory measurements of these transformations of olivine have determined that the phase boundary has a negative Clapeyron slope and does indeed occur near pressures corresponding to the base of the transition zone2,3. But a computational study has indicated that, because of the presence of garnet minerals, multiple seismic discontinuities might exist near a depth of 660 km (ref. 4), which would alter the simple negative correlation of changes in temperature with changes in the depth of the phase boundary. In particular, garnet minerals undergo exothermic transformations near this depth, acting to complicate the phase relations5,6,7,8,9 and possibly effecting mantle convection processes in some regions9. Here we present seismic evidence that supports the existence of such multiple transitions near a depth of 660 km beneath southern California. The observations are consistent with having been generated by garnet transformations coupling with the dissociation of the γ-spinel phase of olivine. Temperature anomalies calculated from the imaged discontinuity depths—using Clapeyron slopes determined for the various transformations4—generally match those predicted from an independent P-wave velocity model of the region.

Date: 2000
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DOI: 10.1038/35014589

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