Seismic anisotropy indicates organized melt beneath the Mid-Atlantic Ridge aids seafloor spreading
Seismic anisotropy indicates organized melt beneath the Mid-Atlantic Ridge aids seafloor spreading
Lithospheric plates diverge at mid-ocean ridges and asthenospheric mantle material rises in response. The rising material decompresses, which can result in partial melting, potentially impacting the driving forces of the system. Yet the geometry and spatial distribution of the melt as it migrates to the ridge axis are debated. Organized melt fabrics can cause strong seismic anisotropy, which can be diagnostic of melt, although this is typically not found at ridges. We present anisotropic constraints from an array of 39 ocean-bottom seismometers deployed on 0–80 Ma lithosphere from March 2016 to March 2017 near the equatorial Mid-Atlantic Ridge (MAR). Local and SKS measurements show anisotropic fast directions away from the ridge axis, which are consistent with strain and associated fabric caused by plate motions with short delay times, δt (<1.1 s). Near the ridge axis, we find several ridge-parallel fast splitting directions, φ, with SKS δt that are much longer (1.7–3.8 s). This is best explained by ridge-parallel sub-vertical orientations of sheet-like melt pockets. This observation is much different than anisotropic patterns observed at other ridges, which typically reflect fabric related to plate motions. One possibility is that thicker sub-ridge lithosphere with steep subridge topography beneath slower spreading centers focuses melt into vertical, ridge-parallel melt bands, which effectively weakens the plate. Associated buoyancy forces elevate the subridge plate, providing greater potential energy and enhancing the driving forces of the plates.
968-972
Kendall, J.M.
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Schlaphorst, D.
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Rychert, C.A.
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Harmon, N.
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Agius, M.
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Tharimena, S.
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4 August 2023
Kendall, J.M.
f0429caa-72b0-4055-8592-2bd12322eff0
Schlaphorst, D.
ce763c91-8236-4eac-b256-b35a8613d62b
Rychert, C.A.
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, N.
10d11a16-b8b0-4132-9354-652e72d8e830
Agius, M.
f81a820d-4479-4f89-88e7-426583377332
Tharimena, S.
6b51b904-230b-43e2-be2d-03b6e02eb7e3
Kendall, J.M., Schlaphorst, D., Rychert, C.A., Harmon, N., Agius, M. and Tharimena, S.
(2023)
Seismic anisotropy indicates organized melt beneath the Mid-Atlantic Ridge aids seafloor spreading.
Geology, 51 (10), .
(doi:10.1130/G51550.1).
Abstract
Lithospheric plates diverge at mid-ocean ridges and asthenospheric mantle material rises in response. The rising material decompresses, which can result in partial melting, potentially impacting the driving forces of the system. Yet the geometry and spatial distribution of the melt as it migrates to the ridge axis are debated. Organized melt fabrics can cause strong seismic anisotropy, which can be diagnostic of melt, although this is typically not found at ridges. We present anisotropic constraints from an array of 39 ocean-bottom seismometers deployed on 0–80 Ma lithosphere from March 2016 to March 2017 near the equatorial Mid-Atlantic Ridge (MAR). Local and SKS measurements show anisotropic fast directions away from the ridge axis, which are consistent with strain and associated fabric caused by plate motions with short delay times, δt (<1.1 s). Near the ridge axis, we find several ridge-parallel fast splitting directions, φ, with SKS δt that are much longer (1.7–3.8 s). This is best explained by ridge-parallel sub-vertical orientations of sheet-like melt pockets. This observation is much different than anisotropic patterns observed at other ridges, which typically reflect fabric related to plate motions. One possibility is that thicker sub-ridge lithosphere with steep subridge topography beneath slower spreading centers focuses melt into vertical, ridge-parallel melt bands, which effectively weakens the plate. Associated buoyancy forces elevate the subridge plate, providing greater potential energy and enhancing the driving forces of the plates.
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g51550.1
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Accepted/In Press date: 18 July 2023
Published date: 4 August 2023
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Local EPrints ID: 503350
URI: http://eprints.soton.ac.uk/id/eprint/503350
ISSN: 0091-7613
PURE UUID: a81dee7d-8c13-41b4-98f2-b728c9722e0f
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Date deposited: 29 Jul 2025 16:58
Last modified: 22 Aug 2025 02:01
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Author:
J.M. Kendall
Author:
D. Schlaphorst
Author:
M. Agius
Author:
S. Tharimena
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