Seismic anisotropy predicted for 2-D plate-driven flow in the Lau Back-arc Basin
Seismic anisotropy predicted for 2-D plate-driven flow in the Lau Back-arc Basin
The Lau back-arc basin and spreading centers exhibit significant along-strike variations in plate motion rates and distance between the spreading centers and the Tonga trench. The mantle processes are expected to be complex in this region and seismic anisotropy offers a key constraint. Linked geodynamic and mineral alignment models of the mantle wedge predict the scale of anisotropic variation and underlying assumptions can be tested by comparison to observed anisotropy. Three cross-basin transects allow us to isolate the effects of trench-spreading center distance as well as rates of convergence and spreading. Lattice preferred orientations (LPO) corresponding to each transect’s 2-D flow field are calculated for peridotite polycrystals. Predicted P-wave anisotropy of several percent and shear-wave split times up to 3.5 s are determined, with measurable differences predicted between transects. Variation in the 2-D estimates of flow driven by each transect’s plate kinematics will induce along-strike flow in the mantle wedge. We find that the rate of such flow would likely not alter the subduction/spreading induced LPO sufficiently to explain the reported trench/arc parallel fast seismic directions in the Lau Basin; additional geodynamic factors must play a role.
Upper mantle anisotropy, Lau Basin, Back–arc mantle flow
88-94
Marcuson, Rachel
733cd3f4-d6ea-48ea-9077-e36bfc5125f4
Blackman, Donna K.
365fc28d-fac7-4d94-9f3a-b7111ead61cc
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
August 2014
Marcuson, Rachel
733cd3f4-d6ea-48ea-9077-e36bfc5125f4
Blackman, Donna K.
365fc28d-fac7-4d94-9f3a-b7111ead61cc
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Marcuson, Rachel, Blackman, Donna K. and Harmon, Nicholas
(2014)
Seismic anisotropy predicted for 2-D plate-driven flow in the Lau Back-arc Basin.
Physics of the Earth and Planetary Interiors, 233, .
(doi:10.1016/j.pepi.2014.06.007).
Abstract
The Lau back-arc basin and spreading centers exhibit significant along-strike variations in plate motion rates and distance between the spreading centers and the Tonga trench. The mantle processes are expected to be complex in this region and seismic anisotropy offers a key constraint. Linked geodynamic and mineral alignment models of the mantle wedge predict the scale of anisotropic variation and underlying assumptions can be tested by comparison to observed anisotropy. Three cross-basin transects allow us to isolate the effects of trench-spreading center distance as well as rates of convergence and spreading. Lattice preferred orientations (LPO) corresponding to each transect’s 2-D flow field are calculated for peridotite polycrystals. Predicted P-wave anisotropy of several percent and shear-wave split times up to 3.5 s are determined, with measurable differences predicted between transects. Variation in the 2-D estimates of flow driven by each transect’s plate kinematics will induce along-strike flow in the mantle wedge. We find that the rate of such flow would likely not alter the subduction/spreading induced LPO sufficiently to explain the reported trench/arc parallel fast seismic directions in the Lau Basin; additional geodynamic factors must play a role.
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Accepted/In Press date: 12 June 2014
Published date: August 2014
Keywords:
Upper mantle anisotropy, Lau Basin, Back–arc mantle flow
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 365775
URI: http://eprints.soton.ac.uk/id/eprint/365775
ISSN: 0031-9201
PURE UUID: d0a57d61-ab73-46a6-8496-c286a8207e12
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Date deposited: 16 Jun 2014 09:30
Last modified: 15 Mar 2024 03:33
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Author:
Rachel Marcuson
Author:
Donna K. Blackman
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