The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow

We present a shear wave model of the West Antarctic upper mantle to ∼200 km depth with enhanced regional resolution from the 2016-2018 UK Antarctic Seismic Network. The model is constructed from the combination of fundamental mode Rayleigh wave phase velocities extracted from ambient noise (periods...

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Published in:	Earth and Planetary Science Letters
Main Authors:	O'Donnell, J.P., Stuart, G.W., Brisbourne, A.M., Selway, K., Yang, Y., Nield, G.A., Whitehouse, P.L, Nyblade, A.A., Wiens, D.A., Aster, R.C., Anandakrishnan, S., Herta, A.D., Wilson, T., Winberry, J.P.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2019
Subjects:	Antarctic Ross Sea West Antarctica Transantarctic Mountains Pacific Byrd Pine Island Glacier Marie Byrd Land Island Bay Pine Island Bay Thwaites Glacier Antarc* Antarctica Ice Sheet Pine Island
Online Access:	http://nora.nerc.ac.uk/id/eprint/523463/ https://www.sciencedirect.com/science/article/pii/S0012821X19303632

id	ftnerc:oai:nora.nerc.ac.uk:523463
record_format	openpolar
spelling	ftnerc:oai:nora.nerc.ac.uk:523463 2023-12-24T10:10:13+01:00 The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow O'Donnell, J.P. Stuart, G.W. Brisbourne, A.M. Selway, K. Yang, Y. Nield, G.A. Whitehouse, P.L Nyblade, A.A. Wiens, D.A. Aster, R.C. Anandakrishnan, S. Herta, A.D. Wilson, T. Winberry, J.P. 2019-09-15 http://nora.nerc.ac.uk/id/eprint/523463/ https://www.sciencedirect.com/science/article/pii/S0012821X19303632 unknown O'Donnell, J.P.; Stuart, G.W.; Brisbourne, A.M. orcid:0000-0002-9887-7120 Selway, K.; Yang, Y.; Nield, G.A.; Whitehouse, P.L; Nyblade, A.A.; Wiens, D.A.; Aster, R.C.; Anandakrishnan, S.; Herta, A.D.; Wilson, T.; Winberry, J.P. 2019 The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow. Earth and Planetary Science Letters, 522. 219-233. https://doi.org/10.1016/j.epsl.2019.06.024 <https://doi.org/10.1016/j.epsl.2019.06.024> Publication - Article PeerReviewed 2019 ftnerc https://doi.org/10.1016/j.epsl.2019.06.024 2023-11-24T00:03:12Z We present a shear wave model of the West Antarctic upper mantle to ∼200 km depth with enhanced regional resolution from the 2016-2018 UK Antarctic Seismic Network. The model is constructed from the combination of fundamental mode Rayleigh wave phase velocities extracted from ambient noise (periods 8-25 s) and earthquake data by two-plane wave analysis (periods 20-143 s). We seek to (i) image and interpret structures against the tectonic evolution of West Antarctica, and (ii) extract information from the seismic model that can serve as boundary conditions in ice sheet and glacial isostatic adjustment modelling efforts. The distribution of low velocity anomalies in the uppermost mantle suggests that recent tectonism in the West Antarctic Rift System (WARS) is mainly concentrated beneath the rift margins and largely confined to the uppermost mantle (<180 km). On the northern margin of the WARS, a pronounced low velocity anomaly extends eastward from beneath the Marie Byrd Land dome toward Pine Island Bay, underlying Thwaites Glacier, but not Pine Island Glacier. If of plume-related thermal origin, the velocity contrast of ∼5% between this anomaly and the inner WARS translates to a temperature difference of ∼125-200 . However, the strike of the anomaly parallels the paleo-Pacific convergent margin of Gondwana, so it may reflect subduction-related melt and volatiles rather than anomalously elevated temperatures, or a combination thereof. Motivated by xenolith analyses, we speculate that high velocity zones imaged south of the Marie Byrd Land dome and in the eastern Ross Sea Embayment might reflect the compositional signature of ancient continental fragments. A pronounced low velocity anomaly underlying the southern Transantarctic Mountains (TAM) is consistent with a published lithospheric foundering hypothesis. Taken together with a magnetotelluric study advocating flexural support of the central TAM by thick, stable lithosphere, this points to along-strike variation in the tectonic history of the TAM. A high ... Article in Journal/Newspaper Antarc* Antarctic Antarctica Ice Sheet Marie Byrd Land Pine Island Pine Island Bay Pine Island Glacier Ross Sea Thwaites Glacier West Antarctica Natural Environment Research Council: NERC Open Research Archive Antarctic Ross Sea West Antarctica Transantarctic Mountains Pacific Byrd Pine Island Glacier ENVELOPE(-101.000,-101.000,-75.000,-75.000) Marie Byrd Land ENVELOPE(-130.000,-130.000,-78.000,-78.000) Island Bay ENVELOPE(-109.085,-109.085,59.534,59.534) Pine Island Bay ENVELOPE(-102.000,-102.000,-74.750,-74.750) Thwaites Glacier ENVELOPE(-106.750,-106.750,-75.500,-75.500) Earth and Planetary Science Letters 522 219 233
institution	Open Polar
collection	Natural Environment Research Council: NERC Open Research Archive
op_collection_id	ftnerc
language	unknown
description	We present a shear wave model of the West Antarctic upper mantle to ∼200 km depth with enhanced regional resolution from the 2016-2018 UK Antarctic Seismic Network. The model is constructed from the combination of fundamental mode Rayleigh wave phase velocities extracted from ambient noise (periods 8-25 s) and earthquake data by two-plane wave analysis (periods 20-143 s). We seek to (i) image and interpret structures against the tectonic evolution of West Antarctica, and (ii) extract information from the seismic model that can serve as boundary conditions in ice sheet and glacial isostatic adjustment modelling efforts. The distribution of low velocity anomalies in the uppermost mantle suggests that recent tectonism in the West Antarctic Rift System (WARS) is mainly concentrated beneath the rift margins and largely confined to the uppermost mantle (<180 km). On the northern margin of the WARS, a pronounced low velocity anomaly extends eastward from beneath the Marie Byrd Land dome toward Pine Island Bay, underlying Thwaites Glacier, but not Pine Island Glacier. If of plume-related thermal origin, the velocity contrast of ∼5% between this anomaly and the inner WARS translates to a temperature difference of ∼125-200 . However, the strike of the anomaly parallels the paleo-Pacific convergent margin of Gondwana, so it may reflect subduction-related melt and volatiles rather than anomalously elevated temperatures, or a combination thereof. Motivated by xenolith analyses, we speculate that high velocity zones imaged south of the Marie Byrd Land dome and in the eastern Ross Sea Embayment might reflect the compositional signature of ancient continental fragments. A pronounced low velocity anomaly underlying the southern Transantarctic Mountains (TAM) is consistent with a published lithospheric foundering hypothesis. Taken together with a magnetotelluric study advocating flexural support of the central TAM by thick, stable lithosphere, this points to along-strike variation in the tectonic history of the TAM. A high ...
format	Article in Journal/Newspaper
author	O'Donnell, J.P. Stuart, G.W. Brisbourne, A.M. Selway, K. Yang, Y. Nield, G.A. Whitehouse, P.L Nyblade, A.A. Wiens, D.A. Aster, R.C. Anandakrishnan, S. Herta, A.D. Wilson, T. Winberry, J.P.
spellingShingle	O'Donnell, J.P. Stuart, G.W. Brisbourne, A.M. Selway, K. Yang, Y. Nield, G.A. Whitehouse, P.L Nyblade, A.A. Wiens, D.A. Aster, R.C. Anandakrishnan, S. Herta, A.D. Wilson, T. Winberry, J.P. The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
author_facet	O'Donnell, J.P. Stuart, G.W. Brisbourne, A.M. Selway, K. Yang, Y. Nield, G.A. Whitehouse, P.L Nyblade, A.A. Wiens, D.A. Aster, R.C. Anandakrishnan, S. Herta, A.D. Wilson, T. Winberry, J.P.
author_sort	O'Donnell, J.P.
title	The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
title_short	The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
title_full	The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
title_fullStr	The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
title_full_unstemmed	The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
title_sort	uppermost mantle seismic velocity structure of west antarctica from rayleigh wave tomography: insights into tectonic structure and geothermal heat flow
publishDate	2019
url	http://nora.nerc.ac.uk/id/eprint/523463/ https://www.sciencedirect.com/science/article/pii/S0012821X19303632
long_lat	ENVELOPE(-101.000,-101.000,-75.000,-75.000) ENVELOPE(-130.000,-130.000,-78.000,-78.000) ENVELOPE(-109.085,-109.085,59.534,59.534) ENVELOPE(-102.000,-102.000,-74.750,-74.750) ENVELOPE(-106.750,-106.750,-75.500,-75.500)
geographic	Antarctic Ross Sea West Antarctica Transantarctic Mountains Pacific Byrd Pine Island Glacier Marie Byrd Land Island Bay Pine Island Bay Thwaites Glacier
geographic_facet	Antarctic Ross Sea West Antarctica Transantarctic Mountains Pacific Byrd Pine Island Glacier Marie Byrd Land Island Bay Pine Island Bay Thwaites Glacier
genre	Antarc* Antarctic Antarctica Ice Sheet Marie Byrd Land Pine Island Pine Island Bay Pine Island Glacier Ross Sea Thwaites Glacier West Antarctica
genre_facet	Antarc* Antarctic Antarctica Ice Sheet Marie Byrd Land Pine Island Pine Island Bay Pine Island Glacier Ross Sea Thwaites Glacier West Antarctica
op_relation	O'Donnell, J.P.; Stuart, G.W.; Brisbourne, A.M. orcid:0000-0002-9887-7120 Selway, K.; Yang, Y.; Nield, G.A.; Whitehouse, P.L; Nyblade, A.A.; Wiens, D.A.; Aster, R.C.; Anandakrishnan, S.; Herta, A.D.; Wilson, T.; Winberry, J.P. 2019 The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow. Earth and Planetary Science Letters, 522. 219-233. https://doi.org/10.1016/j.epsl.2019.06.024 <https://doi.org/10.1016/j.epsl.2019.06.024>
op_doi	https://doi.org/10.1016/j.epsl.2019.06.024
container_title	Earth and Planetary Science Letters
container_volume	522
container_start_page	219
op_container_end_page	233
_version_	1786214100953464832

The uppermost mantle seismic velocity structure of West Antarctica from Rayleigh wave tomography: insights into tectonic structure and geothermal heat flow

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