Seismic imaging beneath Cascadia shows shallow mantle flow patterns guide lower mantle upwellings
Seismic imaging beneath Cascadia shows shallow mantle flow patterns guide lower mantle upwellings
The mantle transition zone (MTZ) plays an important role in modulating material transport between the upper mantle and the lower mantle. Constraining this transport is essential for understanding geochemical reservoirs, hydration cycles, and the evolution of the Earth. Slabs and hotspots are assumed to be the dominant locations of transport. However, the degree of material transport in other areas is debated. We apply P-to-S receiver functions to an amphibious data set from Cascadia to image the MTZ discontinuities beneath mid-ocean ridges, a hotspot, and a subduction zone. We find a MTZ thinned by 10 ± 6 km beneath the ridges and by 8 ± 4 km beneath the base of the slab, closely resembling the 660 discontinuity topography. Depressions on the 410 discontinuity are smaller, 5 ± 2 km on average, focused in the north and the south and accompanied by supra-410 discontinuity melt phases. The depressions occur away from locations of uplifted 660 discontinuity, but near slow seismic velocity anomalies imaged in the upper mantle. This suggests lower mantle upwellings occur beneath ridges and beneath the base of slabs but stall in the transition zone, with upper mantle convection determining upward material transport from the transition zone. Therefore, upper mantle dynamics play a larger role in determining transfer than typically assumed.
Dai, Yuhang
81b3f9b9-2faa-49d0-97e5-c4907a194810
Rychert, Catherine A.
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
September 2023
Dai, Yuhang
81b3f9b9-2faa-49d0-97e5-c4907a194810
Rychert, Catherine A.
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Dai, Yuhang, Rychert, Catherine A. and Harmon, Nicholas
(2023)
Seismic imaging beneath Cascadia shows shallow mantle flow patterns guide lower mantle upwellings.
Journal of Geophysical Research: Solid Earth, 128 (9), [e2023JB026374].
(doi:10.1029/2023JB026374).
Abstract
The mantle transition zone (MTZ) plays an important role in modulating material transport between the upper mantle and the lower mantle. Constraining this transport is essential for understanding geochemical reservoirs, hydration cycles, and the evolution of the Earth. Slabs and hotspots are assumed to be the dominant locations of transport. However, the degree of material transport in other areas is debated. We apply P-to-S receiver functions to an amphibious data set from Cascadia to image the MTZ discontinuities beneath mid-ocean ridges, a hotspot, and a subduction zone. We find a MTZ thinned by 10 ± 6 km beneath the ridges and by 8 ± 4 km beneath the base of the slab, closely resembling the 660 discontinuity topography. Depressions on the 410 discontinuity are smaller, 5 ± 2 km on average, focused in the north and the south and accompanied by supra-410 discontinuity melt phases. The depressions occur away from locations of uplifted 660 discontinuity, but near slow seismic velocity anomalies imaged in the upper mantle. This suggests lower mantle upwellings occur beneath ridges and beneath the base of slabs but stall in the transition zone, with upper mantle convection determining upward material transport from the transition zone. Therefore, upper mantle dynamics play a larger role in determining transfer than typically assumed.
Text
JGR Solid Earth - 2023 - Dai - Seismic Imaging Beneath Cascadia Shows Shallow Mantle Flow Patterns Guide Lower Mantle
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Accepted/In Press date: 28 August 2023
e-pub ahead of print date: 22 September 2023
Published date: September 2023
Identifiers
Local EPrints ID: 496586
URI: http://eprints.soton.ac.uk/id/eprint/496586
ISSN: 2169-9356
PURE UUID: 94422cf0-fc8f-47eb-abfa-98fed47281fe
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Date deposited: 19 Dec 2024 17:46
Last modified: 20 Dec 2024 02:42
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