2018
DOI: 10.1029/2018jb015926
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Seismic Anisotropy Beneath the Pamir and the Hindu Kush: Evidence for Contributions From Crust, Mantle Lithosphere, and Asthenosphere

Abstract: We use local and teleseismic earthquakes to analyze shear wave splitting within the Pamir‐Hindu Kush region, north of the western syntaxis of the India‐Asia collision zone. These two data sets allowed us to map the distribution of azimuthal anisotropy, to put constraints on the depth range where it is accumulated, and to deduce characteristics of ongoing deformation. From 1,073 SKS (core‐mantle refracted phases) measurements at 107 stations, we derived time delays of 0.7–2.25 s and dominantly ENE‐WSW oriented … Show more

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Cited by 16 publications
(17 citation statements)
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References 92 publications
(173 reference statements)
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“…Two opposing subduction slabs (i.e., the Indian and Asian slabs) may have interacted under the Pamir, inducing horizontal mantle flow squeezed by two strong slabs outward from the Pamir to its flank (Figure 11a), which is also supported by the strong positive radial anisotropy at the depths of Moho-205 km (Figures 6c-6i) in the Pamir arc. Horizontal mantle flow (in lithospheric mantle and asthenosphere) could result in deformed fabrics with a NE-SW extension in an arc shape (Peng et al, 2020), consistent with the observations of ENE-WSW trending azimuthal anisotropy from shear wave splitting (Kufner et al, 2018) and Pn wave tomography (Zhou & Lei, 2015;Lü et al, 2017) in an arc shape in the Pamir region. We also notice that deep earthquakes with focal depths > 100 km widely locate at the boundary of two high velocity anomaly.…”
Section: 1029/2020gc009041supporting
confidence: 85%
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“…Two opposing subduction slabs (i.e., the Indian and Asian slabs) may have interacted under the Pamir, inducing horizontal mantle flow squeezed by two strong slabs outward from the Pamir to its flank (Figure 11a), which is also supported by the strong positive radial anisotropy at the depths of Moho-205 km (Figures 6c-6i) in the Pamir arc. Horizontal mantle flow (in lithospheric mantle and asthenosphere) could result in deformed fabrics with a NE-SW extension in an arc shape (Peng et al, 2020), consistent with the observations of ENE-WSW trending azimuthal anisotropy from shear wave splitting (Kufner et al, 2018) and Pn wave tomography (Zhou & Lei, 2015;Lü et al, 2017) in an arc shape in the Pamir region. We also notice that deep earthquakes with focal depths > 100 km widely locate at the boundary of two high velocity anomaly.…”
Section: 1029/2020gc009041supporting
confidence: 85%
“…As shown in the cross sections (Figures 8 and 9), the high velocity anomaly shows as a horizontal plate that prostrates beneath the South Pamir with its deep interface down to~180 km depth, consistent with the observations from receiver function (Kumar et al, 2005) and body wave tomography (Sippl, Schurr, Yuan, Figure 6. (a-i) Map of radial anisotropy models; pink lines indicate the results of SKS splitting (Kufner et al, 2018); black dots denote seismicity at corresponding depths; panel (i) show the location of cross sections A-D ( Figure 7) of radial anisotropy models.…”
Section: Progressive Break-off Of the Indian Slab From East To West Umentioning
confidence: 99%
“…The Moho shallows from 39 to 38.5°N and deepens again to 38°N. Strong crustal deformation has been inferred in this region from seismic anisotropy (Kufner, Eken, et al, ). The thinning of the Pamir crust at 38.5°N can be explained by the buckling effect due to the delamination and rollback of the cratonic Asian lithosphere beneath the thick crust and lithosphere of the Pamir.…”
Section: Discussionmentioning
confidence: 88%
“…However, the obtained results are usually inconsistent with each other, probably due to differences in the analysis method, parameter selection, and data set used. Kufner et al (2018) pointed out that the splitting time, δt, is sensitive to the averaging method adopted.…”
Section: 1029/2019jb018575mentioning
confidence: 99%