Crust and upper mantle of Kamchatka from teleseismic receiver functions

Teleseismic receiver functions (RFs) from a yearlong broadband seismological experiment in Kamchatka reveal regional variations in the Moho, anisotropy in the supra-slab mantle wedge, and, along the eastern coast, Ps converted phases from the steeply dipping slab. We analyze both radial- and transve...

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Bibliographic Details
Main Authors: Levin V., Park J., Brandon M., Lees J., Peyton V., Gordeev E., Ozerov A.
Format: Text
Language:English
Published: 2002
Subjects:
37.31.19 Сейсмология
38.17.91 Региональная тектоника
38.37.25 Вулканология
Pacific
Kamchatka
Online Access:http://repo.kscnet.ru/3468/
http://repo.kscnet.ru/3468/1/my_2002_f_en_Tectonophysics.pdf
id ftinstvs:oai:repo.kscnet.ru:3468
record_format openpolar
spelling ftinstvs:oai:repo.kscnet.ru:3468 2023-05-15T16:58:42+02:00 Crust and upper mantle of Kamchatka from teleseismic receiver functions Levin V. Park J. Brandon M. Lees J. Peyton V. Gordeev E. Ozerov A. 2002 text http://repo.kscnet.ru/3468/ http://repo.kscnet.ru/3468/1/my_2002_f_en_Tectonophysics.pdf en eng http://repo.kscnet.ru/3468/1/my_2002_f_en_Tectonophysics.pdf Levin V. <http://repo.kscnet.ru/view/creators/Levin=3AV=2E=3A=3A.html>, Park J. <http://repo.kscnet.ru/view/creators/Park=3AJ=2E=3A=3A.html>, Brandon M. <http://repo.kscnet.ru/view/creators/Brandon=3AM=2E=3A=3A.html>, Lees J. <http://repo.kscnet.ru/view/creators/Lees=3AJ=2E=3A=3A.html>, Peyton V. <http://repo.kscnet.ru/view/creators/Peyton=3AV=2E=3A=3A.html>, Gordeev E. <http://repo.kscnet.ru/view/creators/Gordeev=3AE=2E=3A=3A.html>, Ozerov A. <http://repo.kscnet.ru/view/creators/Ozerov=3AA=2E=3A=3A.html> (2002) Crust and upper mantle of Kamchatka from teleseismic receiver functions // Tectonophysics. No. 358. pp. 233-256. 37.31.19 Сейсмология 38.17.91 Региональная тектоника 38.37.25 Вулканология Статья PeerReviewed 2002 ftinstvs 2022-08-09T17:06:21Z Teleseismic receiver functions (RFs) from a yearlong broadband seismological experiment in Kamchatka reveal regional variations in the Moho, anisotropy in the supra-slab mantle wedge, and, along the eastern coast, Ps converted phases from the steeply dipping slab. We analyze both radial- and transverse-component RFs in bin-averaged epicentral and backazimuthal sweeps, in order to detect Ps moveout and polarity variations diagnostic of interface depth, interface dip, and anisotropic fabric within the shallow mantle and crust. At some stations, the radial RF is overprinted by near-surface resonances, but anisotropic structure can be inferred from the transverse RF. Using forward modeling to match the observed RFs, we find Moho depth to range between 30 and 40 km across the peninsula, with a gradational crust –mantle transition beneath some stations along the eastern coast. Anisotropy beneath the Moho is required to fit the transverse RFs at most stations. Anisotropy in the lower crust is required at a minority of stations. Modeling the amplitude and backazimuthal variation of the Ps waveform suggests that an inclined axis of symmetry and 5 – 10% anisotropy are typical for the crust and the shallow mantle. The apparent symmetry axes of the anisotropic layers are typically trench-normal, but trench-parallel symmetry axes are found for stations APA and ESS, both at the fringes of the central Kamchatka depression. Transverse RFs from east-coast stations KRO, TUM, ZUP and PET are fit well by two anisotropic mantle layers with trench-normal symmetry axes and opposing tilts. Strong anisotropy in the supraslab mantle wedge suggests that the mantle ‘‘lithosphere’’ beneath the Kamchatka volcanic arc is actively deforming, strained either by wedge corner flow at depth or by trenchward suction of crust as the Pacific slab retreats. Text Kamchatka Institute of Volcanology and Seismology, Petropavlovsk-Kamchatsky: IVS FEB RAS Repository Pacific
institution Open Polar
collection Institute of Volcanology and Seismology, Petropavlovsk-Kamchatsky: IVS FEB RAS Repository
op_collection_id ftinstvs
language English
topic 37.31.19 Сейсмология
38.17.91 Региональная тектоника
38.37.25 Вулканология
spellingShingle 37.31.19 Сейсмология
38.17.91 Региональная тектоника
38.37.25 Вулканология
Levin V.
Park J.
Brandon M.
Lees J.
Peyton V.
Gordeev E.
Ozerov A.
Crust and upper mantle of Kamchatka from teleseismic receiver functions
topic_facet 37.31.19 Сейсмология
38.17.91 Региональная тектоника
38.37.25 Вулканология
description Teleseismic receiver functions (RFs) from a yearlong broadband seismological experiment in Kamchatka reveal regional variations in the Moho, anisotropy in the supra-slab mantle wedge, and, along the eastern coast, Ps converted phases from the steeply dipping slab. We analyze both radial- and transverse-component RFs in bin-averaged epicentral and backazimuthal sweeps, in order to detect Ps moveout and polarity variations diagnostic of interface depth, interface dip, and anisotropic fabric within the shallow mantle and crust. At some stations, the radial RF is overprinted by near-surface resonances, but anisotropic structure can be inferred from the transverse RF. Using forward modeling to match the observed RFs, we find Moho depth to range between 30 and 40 km across the peninsula, with a gradational crust –mantle transition beneath some stations along the eastern coast. Anisotropy beneath the Moho is required to fit the transverse RFs at most stations. Anisotropy in the lower crust is required at a minority of stations. Modeling the amplitude and backazimuthal variation of the Ps waveform suggests that an inclined axis of symmetry and 5 – 10% anisotropy are typical for the crust and the shallow mantle. The apparent symmetry axes of the anisotropic layers are typically trench-normal, but trench-parallel symmetry axes are found for stations APA and ESS, both at the fringes of the central Kamchatka depression. Transverse RFs from east-coast stations KRO, TUM, ZUP and PET are fit well by two anisotropic mantle layers with trench-normal symmetry axes and opposing tilts. Strong anisotropy in the supraslab mantle wedge suggests that the mantle ‘‘lithosphere’’ beneath the Kamchatka volcanic arc is actively deforming, strained either by wedge corner flow at depth or by trenchward suction of crust as the Pacific slab retreats.
format Text
author Levin V.
Park J.
Brandon M.
Lees J.
Peyton V.
Gordeev E.
Ozerov A.
author_facet Levin V.
Park J.
Brandon M.
Lees J.
Peyton V.
Gordeev E.
Ozerov A.
author_sort Levin V.
title Crust and upper mantle of Kamchatka from teleseismic receiver functions
title_short Crust and upper mantle of Kamchatka from teleseismic receiver functions
title_full Crust and upper mantle of Kamchatka from teleseismic receiver functions
title_fullStr Crust and upper mantle of Kamchatka from teleseismic receiver functions
title_full_unstemmed Crust and upper mantle of Kamchatka from teleseismic receiver functions
title_sort crust and upper mantle of kamchatka from teleseismic receiver functions
publishDate 2002
url http://repo.kscnet.ru/3468/
http://repo.kscnet.ru/3468/1/my_2002_f_en_Tectonophysics.pdf
geographic Pacific
geographic_facet Pacific
genre Kamchatka
genre_facet Kamchatka
op_relation http://repo.kscnet.ru/3468/1/my_2002_f_en_Tectonophysics.pdf
Levin V. <http://repo.kscnet.ru/view/creators/Levin=3AV=2E=3A=3A.html>, Park J. <http://repo.kscnet.ru/view/creators/Park=3AJ=2E=3A=3A.html>, Brandon M. <http://repo.kscnet.ru/view/creators/Brandon=3AM=2E=3A=3A.html>, Lees J. <http://repo.kscnet.ru/view/creators/Lees=3AJ=2E=3A=3A.html>, Peyton V. <http://repo.kscnet.ru/view/creators/Peyton=3AV=2E=3A=3A.html>, Gordeev E. <http://repo.kscnet.ru/view/creators/Gordeev=3AE=2E=3A=3A.html>, Ozerov A. <http://repo.kscnet.ru/view/creators/Ozerov=3AA=2E=3A=3A.html> (2002) Crust and upper mantle of Kamchatka from teleseismic receiver functions // Tectonophysics. No. 358. pp. 233-256.
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