Reconstructions of the Mediterranean Outflow Water during the quaternary based on the study of changes in buried mounded drift stacking pattern in the Gulf of Cadiz
Reconstructions of the Mediterranean Outflow Water during the quaternary based on the study of changes in buried mounded drift stacking pattern in the Gulf of Cadiz
Contourite deposits in the central sector of the middle slope of the Gulf of Cadiz have been studied using a comprehensive acoustic, seismic and core database. Buried, mounded, elongated and separated drifts developed under the influence of the lower core of the Mediterranean Outflow Water are preserved in the sedimentary record. These are characterised by depositional features in an area where strong tectonic and erosive processes are now dominant. The general stacking pattern of the depositional system is mainly influenced by climatic changes through the Quaternary, whereas changes in the depositional style observed in two, buried, mounded drifts, the Guadalquivir and Huelva Drifts, are evidence of a tectonic control. In the western Guadalquivir Drift, the onset of the sheeted drift construction (aggrading QII unit) above a mounded drift (prograding QI unit) resulted from a new Lower Mediterranean Core Water hydrodynamic regime. This change is correlated with a tectonic event coeval with the Mid Pleistocene Revolution (MPR) discontinuity that produced new irregularities of the seafloor during the Mid- to Late-Pleistocene. Changes in the Huelva Drift from a mounded to a sheeted drift geometry during the Late-Pleistocene, and from a prograding drift (QI and most part of QII) to an aggrading one (upper seismic unit of QII), highlight a new change in oceanographic conditions. This depositional and then oceanographic change is associated with a tectonic event, coeval with the Marine Isotope Stage (MIS) 6 discontinuity, in which a redistribution of the diapiric ridges led to the development of new local gateways, three principal branches of the Mediterranean Lower Core Water, and associated contourite channels. As a result, these buried contourite drifts hold a key palaeoceanographic record of the evolution of Mediterranean Lower Core Water, influenced by both neotectonic activity and climatic changes during the Quaternary. This study is an example of how contourite deposits and erosive elements in the marine environment can provide evidence for the reconstruction of palaeoceanographic and recent tectonic changes.
Contourite deposits, Gulf of Cadiz, Mediterranean Outflow Water, Quaternary, Seismic stratigraphy, Neotectonics, Diapirism, Palaeoceanography
379-394
Llave, E.
26291a98-36d2-4eb1-85d1-cfbbf452cefb
Hernandez-Molina, F.J.
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Stow, D.A.V.
434350cd-0ae5-4bb3-b71f-e1da90587f74
Fernandez-Puga, M.C.
3426f9a4-91eb-474c-bd95-cf0b9f2f0a00
Garcia, M.
dc16c469-ee98-4ecb-b7ee-a2338d783a8e
Vazquez, J.T.
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Maestro, A.
e2eb771a-01bb-4b06-b298-b8b88d6abe36
Somoza, L.
8fd6ed5a-7aff-4618-ae7d-8ece0afca675
Diaz del Rio, V.
6449766d-ed97-47bb-b7b6-dcfa0199519f
December 2007
Llave, E.
26291a98-36d2-4eb1-85d1-cfbbf452cefb
Hernandez-Molina, F.J.
4d387318-9f3a-42c6-96e7-dde3a55f0f94
Stow, D.A.V.
434350cd-0ae5-4bb3-b71f-e1da90587f74
Fernandez-Puga, M.C.
3426f9a4-91eb-474c-bd95-cf0b9f2f0a00
Garcia, M.
dc16c469-ee98-4ecb-b7ee-a2338d783a8e
Vazquez, J.T.
45db66b3-7814-4c91-b1d8-2277d0e91b59
Maestro, A.
e2eb771a-01bb-4b06-b298-b8b88d6abe36
Somoza, L.
8fd6ed5a-7aff-4618-ae7d-8ece0afca675
Diaz del Rio, V.
6449766d-ed97-47bb-b7b6-dcfa0199519f
Llave, E., Hernandez-Molina, F.J., Stow, D.A.V., Fernandez-Puga, M.C., Garcia, M., Vazquez, J.T., Maestro, A., Somoza, L. and Diaz del Rio, V.
(2007)
Reconstructions of the Mediterranean Outflow Water during the quaternary based on the study of changes in buried mounded drift stacking pattern in the Gulf of Cadiz.
Marine Geophysical Researches, 28 (4), .
(doi:10.1007/s11001-007-9040-7).
Abstract
Contourite deposits in the central sector of the middle slope of the Gulf of Cadiz have been studied using a comprehensive acoustic, seismic and core database. Buried, mounded, elongated and separated drifts developed under the influence of the lower core of the Mediterranean Outflow Water are preserved in the sedimentary record. These are characterised by depositional features in an area where strong tectonic and erosive processes are now dominant. The general stacking pattern of the depositional system is mainly influenced by climatic changes through the Quaternary, whereas changes in the depositional style observed in two, buried, mounded drifts, the Guadalquivir and Huelva Drifts, are evidence of a tectonic control. In the western Guadalquivir Drift, the onset of the sheeted drift construction (aggrading QII unit) above a mounded drift (prograding QI unit) resulted from a new Lower Mediterranean Core Water hydrodynamic regime. This change is correlated with a tectonic event coeval with the Mid Pleistocene Revolution (MPR) discontinuity that produced new irregularities of the seafloor during the Mid- to Late-Pleistocene. Changes in the Huelva Drift from a mounded to a sheeted drift geometry during the Late-Pleistocene, and from a prograding drift (QI and most part of QII) to an aggrading one (upper seismic unit of QII), highlight a new change in oceanographic conditions. This depositional and then oceanographic change is associated with a tectonic event, coeval with the Marine Isotope Stage (MIS) 6 discontinuity, in which a redistribution of the diapiric ridges led to the development of new local gateways, three principal branches of the Mediterranean Lower Core Water, and associated contourite channels. As a result, these buried contourite drifts hold a key palaeoceanographic record of the evolution of Mediterranean Lower Core Water, influenced by both neotectonic activity and climatic changes during the Quaternary. This study is an example of how contourite deposits and erosive elements in the marine environment can provide evidence for the reconstruction of palaeoceanographic and recent tectonic changes.
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Published date: December 2007
Keywords:
Contourite deposits, Gulf of Cadiz, Mediterranean Outflow Water, Quaternary, Seismic stratigraphy, Neotectonics, Diapirism, Palaeoceanography
Identifiers
Local EPrints ID: 50535
URI: http://eprints.soton.ac.uk/id/eprint/50535
ISSN: 0025-3235
PURE UUID: 0216c7aa-b0d6-4578-9eab-a7470493bfab
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Date deposited: 27 Feb 2008
Last modified: 15 Mar 2024 10:06
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Contributors
Author:
E. Llave
Author:
F.J. Hernandez-Molina
Author:
D.A.V. Stow
Author:
M.C. Fernandez-Puga
Author:
M. Garcia
Author:
J.T. Vazquez
Author:
A. Maestro
Author:
L. Somoza
Author:
V. Diaz del Rio
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