G. L. Kosarev scite author profile

Seismic data from central Tibet have been combined to image the subsurface structure and understand the evolution of the collision of India and Eurasia. The 410- and 660-kilometer mantle discontinuities are sharply defined, implying a lack of a subducting slab beneath the plateau. The discontinuities appear slightly deeper beneath northern Tibet, implying that the average temperature of the mantle above the transition zone is about 300 degrees C hotter in the north than in the south. There is a prominent south-dipping converter in the uppermost mantle beneath northern Tibet that might represent the top of the Eurasian mantle lithosphere underthrusting the northern margin of the plateau.

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Seismic Evidence for a Detached Indian Lithospheric Mantle Beneath Tibet

Kosarev

Kind

Sobolev

et al. 1999

Science

388

262

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P-to-S converted teleseismic waves recorded by temporary broadband networks across Tibet show a north-dipping interface that begins 50 kilometers north of the Zangbo suture at the depth of the Moho (80 kilometers) and extends to a depth of 200 kilometers beneath the Bangong suture. Under northern Tibet a segmented south-dipping structure was imaged. These observations suggest a different form of detachment of the Indian and Asian lithospheric mantles caused by differences in their composition and buoyancy.

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Receiver function tomography of the central Tien Shan

Vinnik

Reigber

Aleshin

et al. 2004

Earth and Planetary Science Letters

169

141

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The lithosphere‐asthenosphere boundary in the Tien Shan‐Karakoram region from S receiver functions: Evidence for continental subduction

Kumar

Yuan

Kind

et al. 2005

Geophysical Research Letters

166

145

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Receiver functions at the stations of the German Regional Seismic Network (GRSN)

1995

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S U M M A R YSeveral years of broad-band teleseismic data from the GRSN stations have been analysed for crustal structure using P -t o 4 converted waves at the crustal discontinuities. An inversion technique was developed which applies the ThomsonHaskell formalism for plane waves without slowness integration. The main phases observed are Moho conversions, their multiples in the crust, and conversions at the base of the sediments. The crustal thickness derived from these data is in good agreement with results from other studies. For the Grafenberg stations, we have made a more detailed comparison of our model with a previously published model obtained from refraction seismic experiments. The refraction seismic model contains boundaries with strong velocity contrasts and a significant low-velocity zone, resulting in teleseismic waveforms that are too complicated as compared to the observed simple waveforms. The comparison suggests that a significant low-velocity zone is not required and that internal crustal boundaries are rather smooth.

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G. L. Kosarev

Seismic Images of Crust and Upper Mantle Beneath Tibet: Evidence for Eurasian Plate Subduction

Seismic Evidence for a Detached Indian Lithospheric Mantle Beneath Tibet

Receiver function tomography of the central Tien Shan

The lithosphere‐asthenosphere boundary in the Tien Shan‐Karakoram region from S receiver functions: Evidence for continental subduction

Receiver functions at the stations of the German Regional Seismic Network (GRSN)

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