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Low-velocity zone atop the 410-km seismic discontinuity in the northwestern United States T.-R.A. Song, D.V. Helmberger, S.P. Grand Nature 427, 2004 Pei-Ying.

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Presentation on theme: "Low-velocity zone atop the 410-km seismic discontinuity in the northwestern United States T.-R.A. Song, D.V. Helmberger, S.P. Grand Nature 427, 2004 Pei-Ying."— Presentation transcript:

1 Low-velocity zone atop the 410-km seismic discontinuity in the northwestern United States T.-R.A. Song, D.V. Helmberger, S.P. Grand Nature 427, 2004 Pei-Ying Patty Lin Earthscope Seminar, Feb.12, 2007

2 DATA Song et al., Nature 427, 530 (2004). XL XK XM TriNet

3 Method Song et al., Nature 427, 530 (2004).

4 Profile A(d:14~17 o ) Song et al., Nature 427, 530 (2004). Thickness of LVZ(km) 0 40 20 Topography depression(km) 60 0 20 TriNet

5 Triplication curves Song et al., Nature 427, 530 (2004). record section B record section A

6 Profile C,F,D,E(d:21~24 o ) Song et al., Nature 427, 530 (2004). H of LVZ(km) 20 70 90 90 Topo (km) 20 20 60 60

7 Results Song et al., Nature 427, 530 (2004). Patches: White: no detected LVZ Red with dashed outline: a possible LVZ Red with solid outline: clear LVZ dots: (receiver functions) White: no negative pulse above 410 and relative strong simple 410 peaks Red: strong negative pulse above 410 119 o ~115 o W 41.5 o 40.2 o 116 o ~114 o W 38.9 o 37.5 o Preferred model 20~90 km thick with 5% S-wave velocity reduction

8 Interpretation Bercovici and Karato, Nature 425, 39 (2003). high Water solubility low Water solubility low Water solubility

9 Additional Thoughts  Which one is the best-fit velocity model?  A  LVZ atop the 410 exists in some regions but may be too thin to be detected.  Is there a possibility of detecting the LVZ with short-period data?

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