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The initiation of segmented buoyancy-driven melting during continental breakup

The initiation of segmented buoyancy-driven melting during continental breakup
The initiation of segmented buoyancy-driven melting during continental breakup
Melting of the mantle during continental breakup leads to magmatic intrusion and volcanism, yet our understanding of the location and dominant mechanisms of melt generation in rifting environments is impeded by a paucity of direct observations of mantle melting. It is unclear when during the rifting process the segmented nature of magma supply typical of seafloor spreading initiates. Here, we use Rayleigh-wave tomography to construct a high-resolution absolute three-dimensional shear-wave velocity model of the upper 250?km beneath the Afar triple junction, imaging the mantle response during progressive continental breakup. Our model suggests melt production is highest and melting depths deepest early during continental breakup. Elevated melt production during continental rifting is likely due to localized thinning and melt focusing when the rift is narrow. In addition, we interpret segmented zones of melt supply beneath the rift, suggesting that buoyancy-driven active upwelling of the mantle initiates early during continental rifting.
Gallacher, R.
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Keir, D.
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Harmon, N.
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Stuart, G.
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Leroy, S.
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Hammond, J.O.S.
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Kendall, J-M.
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Ayele, A.
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Goitom, B.
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Ogubazghi, G.
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Ahmed, A.
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Gallacher, R.
689f755f-b4a0-4a3b-9959-93c2fae0ac2c
Keir, D.
5616f81f-bf1b-4678-a167-3160b5647c65
Harmon, N.
10d11a16-b8b0-4132-9354-652e72d8e830
Stuart, G.
c7791a71-27ef-4751-ba4c-41dd809027a5
Leroy, S.
627c503b-1036-41fc-a24c-3d09954fab0a
Hammond, J.O.S.
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Kendall, J-M.
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Ayele, A.
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Goitom, B.
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Ogubazghi, G.
468612ef-14a9-4332-a841-5733d556340c
Ahmed, A.
29a81242-835e-4661-bffd-3831f02ee2b6

Gallacher, R., Keir, D., Harmon, N., Stuart, G., Leroy, S., Hammond, J.O.S., Kendall, J-M., Ayele, A., Goitom, B., Ogubazghi, G. and Ahmed, A. (2016) The initiation of segmented buoyancy-driven melting during continental breakup. Nature Communications, 7, [13110]. (doi:10.1038/ncomms13110).

Record type: Article

Abstract

Melting of the mantle during continental breakup leads to magmatic intrusion and volcanism, yet our understanding of the location and dominant mechanisms of melt generation in rifting environments is impeded by a paucity of direct observations of mantle melting. It is unclear when during the rifting process the segmented nature of magma supply typical of seafloor spreading initiates. Here, we use Rayleigh-wave tomography to construct a high-resolution absolute three-dimensional shear-wave velocity model of the upper 250?km beneath the Afar triple junction, imaging the mantle response during progressive continental breakup. Our model suggests melt production is highest and melting depths deepest early during continental breakup. Elevated melt production during continental rifting is likely due to localized thinning and melt focusing when the rift is narrow. In addition, we interpret segmented zones of melt supply beneath the rift, suggesting that buoyancy-driven active upwelling of the mantle initiates early during continental rifting.

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Accepted/In Press date: 26 August 2016
e-pub ahead of print date: 18 October 2016
Published date: 18 October 2016
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 401880
URI: http://eprints.soton.ac.uk/id/eprint/401880
DOI: doi:10.1038/ncomms13110
PURE UUID: cbe23d59-879b-491d-ae6c-e3b29dadd697
ORCID for D. Keir: ORCID iD orcid.org/0000-0001-8787-8446
ORCID for N. Harmon: ORCID iD orcid.org/0000-0002-0731-768X

Catalogue record

Date deposited: 21 Oct 2016 15:46
Last modified: 15 Mar 2024 03:38

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Contributors

Author: R. Gallacher
Author: D. Keir ORCID iD
Author: N. Harmon ORCID iD
Author: G. Stuart
Author: S. Leroy
Author: J.O.S. Hammond
Author: J-M. Kendall
Author: A. Ayele
Author: B. Goitom
Author: G. Ogubazghi
Author: A. Ahmed

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