Crustal structure of the Gulf of Aden southern margin: Evidence from receiver functions on Socotra Island (Yemen)
Crustal structure of the Gulf of Aden southern margin: Evidence from receiver functions on Socotra Island (Yemen)
Breakup of continents in magma-poor setting occurs primarily by faulting and plate thinning. Spatial and temporal variations in these processes can be influenced by the pre-rift basement structure as well as by early syn-rift segmentation of the rift. In order to better understand crustal deformation and influence of pre-rift architecture on breakup we use receiver functions from teleseismic recordings from Socotra which is part of the subaerial Oligo-Miocene age southern margin of the Gulf of Aden. We determine variations in crustal thickness and elastic properties, from which we interpret the degree of extension related thinning and crustal composition. Our computed receiver functions show an average crustal thickness of ~ 28 km for central Socotra, which decreases westward along the margin to an average of ~ 21 km. In addition, the crust thins with proximity to the continent–ocean transition to ~ 16 km in the northwest. Assuming an initial pre-rift crustal thickness of 35 km (undeformed Arabian plate), we estimate a stretching factor in the range of ~ 2.1–2.4 beneath Socotra. Our results show considerable differences between the crustal structure of Socotra's eastern and western sides on either side of the Hadibo transfer zone; the east displays a clear intracrustal conversion phase and thick crust when compared with the western part. The majority of measurements across Socotra show Vp/Vs ratios of between 1.70 and 1.77 and are broadly consistent with the Vp/Vs values expected from the granitic and carbonate rock type exposed at the surface. Our results strongly suggest that intrusion of mafic rock is absent or minimal, providing evidence that mechanical thinning accommodated the majority of crustal extension. From our observations we interpret that the western part of Socotra corresponds to the necking zone of a classic magma-poor continental margin, while the eastern part corresponds to the proximal domain.
Magma-poor margin, Crustal deformation, Margin segmentation, Necking zone, Gulf of Aden, Receiver function
251-267
Ahmed, A.
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Leroy, S.
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Keir, D.
5616f81f-bf1b-4678-a167-3160b5647c65
Korostelev, F.
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Khanbari, K.
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Rolandone, F.
40fb5457-7502-4c51-b170-b47b9cbcdd91
Stuart, G.
c7791a71-27ef-4751-ba4c-41dd809027a5
Obrebski, M.
86aae298-b934-4975-b67c-d4a0cc609b28
10 December 2014
Ahmed, A.
29a81242-835e-4661-bffd-3831f02ee2b6
Leroy, S.
627c503b-1036-41fc-a24c-3d09954fab0a
Keir, D.
5616f81f-bf1b-4678-a167-3160b5647c65
Korostelev, F.
717ae901-2fe4-4416-971f-7ee1bb180844
Khanbari, K.
3b7e33b9-bb14-49e4-aa0e-e9cfe7c544d1
Rolandone, F.
40fb5457-7502-4c51-b170-b47b9cbcdd91
Stuart, G.
c7791a71-27ef-4751-ba4c-41dd809027a5
Obrebski, M.
86aae298-b934-4975-b67c-d4a0cc609b28
Ahmed, A., Leroy, S., Keir, D., Korostelev, F., Khanbari, K., Rolandone, F., Stuart, G. and Obrebski, M.
(2014)
Crustal structure of the Gulf of Aden southern margin: Evidence from receiver functions on Socotra Island (Yemen).
Tectonophysics, 637, .
(doi:10.1016/j.tecto.2014.10.014).
Abstract
Breakup of continents in magma-poor setting occurs primarily by faulting and plate thinning. Spatial and temporal variations in these processes can be influenced by the pre-rift basement structure as well as by early syn-rift segmentation of the rift. In order to better understand crustal deformation and influence of pre-rift architecture on breakup we use receiver functions from teleseismic recordings from Socotra which is part of the subaerial Oligo-Miocene age southern margin of the Gulf of Aden. We determine variations in crustal thickness and elastic properties, from which we interpret the degree of extension related thinning and crustal composition. Our computed receiver functions show an average crustal thickness of ~ 28 km for central Socotra, which decreases westward along the margin to an average of ~ 21 km. In addition, the crust thins with proximity to the continent–ocean transition to ~ 16 km in the northwest. Assuming an initial pre-rift crustal thickness of 35 km (undeformed Arabian plate), we estimate a stretching factor in the range of ~ 2.1–2.4 beneath Socotra. Our results show considerable differences between the crustal structure of Socotra's eastern and western sides on either side of the Hadibo transfer zone; the east displays a clear intracrustal conversion phase and thick crust when compared with the western part. The majority of measurements across Socotra show Vp/Vs ratios of between 1.70 and 1.77 and are broadly consistent with the Vp/Vs values expected from the granitic and carbonate rock type exposed at the surface. Our results strongly suggest that intrusion of mafic rock is absent or minimal, providing evidence that mechanical thinning accommodated the majority of crustal extension. From our observations we interpret that the western part of Socotra corresponds to the necking zone of a classic magma-poor continental margin, while the eastern part corresponds to the proximal domain.
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Accepted/In Press date: November 2014
Published date: 10 December 2014
Keywords:
Magma-poor margin, Crustal deformation, Margin segmentation, Necking zone, Gulf of Aden, Receiver function
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 371647
URI: http://eprints.soton.ac.uk/id/eprint/371647
ISSN: 0040-1951
PURE UUID: 6bb84844-0e4f-42d9-a556-709f02ced0e0
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Date deposited: 11 Nov 2014 09:35
Last modified: 15 Mar 2024 03:38
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Contributors
Author:
A. Ahmed
Author:
S. Leroy
Author:
F. Korostelev
Author:
K. Khanbari
Author:
F. Rolandone
Author:
G. Stuart
Author:
M. Obrebski
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