The 660-km discontinuity within the subducting NW-Pacifc lithospheric slab
Publication date
2002
Authors
Lebedev, Sergei
Chevrot, Sébastien
Hilst, R.D. van der
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DOI
Document Type
Article
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Abstract
The 660-km seismic discontinuity (660) in Earth’s mantle is generally attributed to the breakdown of the
ringwoodite phase of olivine, but other mineral reactions are also thought to occur near 660-km depth. Recently, complex arrivals of P660s waves (converted from P to s at the 660) in active and recently active subduction zones have been interpreted as evidence for additional seismic discontinuities caused by the garnet-perovskite and garnet ilmenite-perovskite phase transformations (gt->pv, gt->il->pv) at relatively low temperatures. Here we show that the P660s phases converting at the 660 within the subducting NW-Pacific slab beneath the station MDJ in Northeast
China are clear and coherent, with no additional arrivals in the vicinity. P660s waves that convert near the boundaries
of the area where the 660 occurs within the slab produce distinctly more complex, multiple arrivals, but they are more
likely to be caused by small-scale topography rather than 'multiplicity' of the 660. Our observations suggest that the
gtCpv transformation and the gt->il->pv, if it occurs in the mantle, are spread over tens of kilometers and do not
have sharp onsets visible to short-period seismic waves.
Keywords
transition zone, phase transformations, converted waves, heterogeneity, topography