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Melting during late-stage rifting in Afar is hot and deep

Melting during late-stage rifting in Afar is hot and deep
Melting during late-stage rifting in Afar is hot and deep
Investigations of a variety of continental rifts and margins world-wide have revealed that a considerable volume of melt can intrude into the crust during continental breakup1–8, modifying its composition and thermal structure. However, it is unclear whether the cause of voluminous melt production at volcanic rifts is primarily increased mantle temperature or plate thinning1,2,8–12. Also disputed is the extent to which plate stretching or thinning is uniform or varies with depth with the entire continental lithospheric mantle potentially being removed before plate rupture13–16. Here we show that the extensive magmatism during rifting along the southern Red Sea rift in Afar, a unique region of sub-aerial transition from continental to oceanic rifting, is driven by deep melting of hotter- than-normal asthenosphere. Petrogenetic modelling shows that melts are predominantly generated at depths greater than 80 kilometres, implying the existence of a thick upper thermo-mechanical boundary layer in a rift system approaching the point of plate rupture. Numerical modelling of rift development shows that when breakup occurs at the slow extension rates observed in Afar, the survival of a thick plate is an inevitable consequence of conductive cooling of the lithosphere, even when the underlying astheno-sphere is hot. Sustained magmatic activity during rifting in Afar thus requires persistently high mantle temperatures, which would allow melting at high pressure beneath the thick plate. If extensive plate thinning does occur during breakup it must do so abruptly at a late stage, immediately before the formation of the new ocean basin16.
0028-0836
70-73
Ferguson, D.J.
495bbc35-0cb0-46f7-8402-d59eaccaa245
Maclennan, J.
f4f7e89b-670f-48fd-ad34-376967ff603c
Bastow, I.D.
fa3f4d3f-8ec5-4dee-8de5-57d987d8d7ed
Pyle, D.M.
30f0cb90-7a4d-4219-9cff-1fabe2f0e4c1
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Blundy, J.D.
d38d64fc-a211-4ed7-9e05-0d55209a8b2a
Plank, T.
6b5f89ac-3054-4fbf-b562-3827f043ed5f
Yirgu, G.
728302b8-2a5f-4c48-82d3-a1fe64fe4add
Ferguson, D.J.
495bbc35-0cb0-46f7-8402-d59eaccaa245
Maclennan, J.
f4f7e89b-670f-48fd-ad34-376967ff603c
Bastow, I.D.
fa3f4d3f-8ec5-4dee-8de5-57d987d8d7ed
Pyle, D.M.
30f0cb90-7a4d-4219-9cff-1fabe2f0e4c1
Keir, Derek
5616f81f-bf1b-4678-a167-3160b5647c65
Blundy, J.D.
d38d64fc-a211-4ed7-9e05-0d55209a8b2a
Plank, T.
6b5f89ac-3054-4fbf-b562-3827f043ed5f
Yirgu, G.
728302b8-2a5f-4c48-82d3-a1fe64fe4add

Ferguson, D.J., Maclennan, J., Bastow, I.D., Pyle, D.M., Keir, Derek, Blundy, J.D., Plank, T. and Yirgu, G. (2013) Melting during late-stage rifting in Afar is hot and deep. Nature, 499 (7456), 70-73. (doi:10.1038/nature12292).

Record type: Article

Abstract

Investigations of a variety of continental rifts and margins world-wide have revealed that a considerable volume of melt can intrude into the crust during continental breakup1–8, modifying its composition and thermal structure. However, it is unclear whether the cause of voluminous melt production at volcanic rifts is primarily increased mantle temperature or plate thinning1,2,8–12. Also disputed is the extent to which plate stretching or thinning is uniform or varies with depth with the entire continental lithospheric mantle potentially being removed before plate rupture13–16. Here we show that the extensive magmatism during rifting along the southern Red Sea rift in Afar, a unique region of sub-aerial transition from continental to oceanic rifting, is driven by deep melting of hotter- than-normal asthenosphere. Petrogenetic modelling shows that melts are predominantly generated at depths greater than 80 kilometres, implying the existence of a thick upper thermo-mechanical boundary layer in a rift system approaching the point of plate rupture. Numerical modelling of rift development shows that when breakup occurs at the slow extension rates observed in Afar, the survival of a thick plate is an inevitable consequence of conductive cooling of the lithosphere, even when the underlying astheno-sphere is hot. Sustained magmatic activity during rifting in Afar thus requires persistently high mantle temperatures, which would allow melting at high pressure beneath the thick plate. If extensive plate thinning does occur during breakup it must do so abruptly at a late stage, immediately before the formation of the new ocean basin16.

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Published date: 4 July 2013
Organisations: Geology & Geophysics

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Local EPrints ID: 353990
URI: http://eprints.soton.ac.uk/id/eprint/353990
ISSN: 0028-0836
PURE UUID: 29753604-3b33-44b1-a6d5-f1f03c22e16f
ORCID for Derek Keir: ORCID iD orcid.org/0000-0001-8787-8446

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Date deposited: 27 Jun 2013 09:14
Last modified: 15 Mar 2024 03:38

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Contributors

Author: D.J. Ferguson
Author: J. Maclennan
Author: I.D. Bastow
Author: D.M. Pyle
Author: Derek Keir ORCID iD
Author: J.D. Blundy
Author: T. Plank
Author: G. Yirgu

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