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Recent sedimentary processes in the Prestige site area (Galicia Bank, NW Iberian Margin) evidenced by high-resolution marine geophysical methods

Recent sedimentary processes in the Prestige site area (Galicia Bank, NW Iberian Margin) evidenced by high-resolution marine geophysical methods
Recent sedimentary processes in the Prestige site area (Galicia Bank, NW Iberian Margin) evidenced by high-resolution marine geophysical methods
An echo-character analysis of the oil tanker Prestige wreck area was undertaken using high-resolution marine geophysical methods (TOPAS and airgun seismic-reflection profiles, multibeam echosounder and TOBI sidescan sonar). Integration and comparison of the results using all these methods is presented given some practical applications for indirect near-surface and seafloor interpretations. Ten different echo types were identified and grouped into four main classes: I) distinct; II) indistinct; III) irregular and IV) hyperbolic. Echo-character distribution enabled us to determine recent sedimentary processes in the area. Two major depositional systems can be found through the identification of these sedimentary processes: a) a slope depositional system (SDS) located in the eastern and central area, where mass-movement processes are dominant and b) a turbiditic Main Channel depositional system (TDS) located in the western area where channel-related processes are dominant. Both of these interact over the half-graben structure of the southwestern sector of the Galicia Bank, where the Prestige wreck is located. Within the SDS, erosive and depositional mass-movement processes characterised a complex depositional system. Erosive processes occur on the fault scarp, channels head, inter-lobe channels and distal part of the sedimentary lobes. Moreover, depositional processes take place on the top of the fault scarp, sedimentary wedges, sedimentary lobes, and on the west flank of the Main Channel. Both depositional systems interact, but the SDS should be more active during fault-scarp reactivation periods, through relief rejuvenation and new exposed deposits. Microearthquake activity would favour the available materials, being weathered, eroded and transported by mass-movements. In such a situation, the TDS acts as the main collector of eroded sediment derived from the fault scarp throughout the SDS being responsible for its evacuation into the Iberian Abyssal Plain. However, outside of fault reactivation periods, the SDS is less active (such as during the present situation).
Galicia Bank, echo-character analysis, high-resolution seismic profiles, swath bathymetry, TOBI sidescan sonar, sedimentary process
0025-3227
21-45
Hernández-Molina, F.J.
205a8443-6b36-416f-adfa-1b542b248817
Llave, E.
26291a98-36d2-4eb1-85d1-cfbbf452cefb
Ercilla, G.
fb4377fa-5b09-4b81-93bb-c393f902f814
Maestro, A.
e2eb771a-01bb-4b06-b298-b8b88d6abe36
Medialdea, T.
7976fc47-2870-4005-80b5-d0e85e8fb78f
Ferrin, A.
dcc87b73-2333-4969-a20c-7ea6cf1270b8
Somoza, L.
8fd6ed5a-7aff-4618-ae7d-8ece0afca675
Gràcia, E.
9f23d47f-159f-4619-a997-ee59e8b3edc4
Masson, D.G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
García, M.
ad553bd5-1094-4c10-9d12-4d1c3822e4e9
Vizcaino, A.
66d4cd1e-73de-46cf-afb4-f74cdf8f16ae
León, R.
d4865b25-2523-4595-bda0-0a9c2751581b
Hernández-Molina, F.J.
205a8443-6b36-416f-adfa-1b542b248817
Llave, E.
26291a98-36d2-4eb1-85d1-cfbbf452cefb
Ercilla, G.
fb4377fa-5b09-4b81-93bb-c393f902f814
Maestro, A.
e2eb771a-01bb-4b06-b298-b8b88d6abe36
Medialdea, T.
7976fc47-2870-4005-80b5-d0e85e8fb78f
Ferrin, A.
dcc87b73-2333-4969-a20c-7ea6cf1270b8
Somoza, L.
8fd6ed5a-7aff-4618-ae7d-8ece0afca675
Gràcia, E.
9f23d47f-159f-4619-a997-ee59e8b3edc4
Masson, D.G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
García, M.
ad553bd5-1094-4c10-9d12-4d1c3822e4e9
Vizcaino, A.
66d4cd1e-73de-46cf-afb4-f74cdf8f16ae
León, R.
d4865b25-2523-4595-bda0-0a9c2751581b

Hernández-Molina, F.J., Llave, E., Ercilla, G., Maestro, A., Medialdea, T., Ferrin, A., Somoza, L., Gràcia, E., Masson, D.G., García, M., Vizcaino, A. and León, R. (2008) Recent sedimentary processes in the Prestige site area (Galicia Bank, NW Iberian Margin) evidenced by high-resolution marine geophysical methods. Marine Geology, 249 (1-2), 21-45. (doi:10.1016/j.margeo.2007.09.011).

Record type: Article

Abstract

An echo-character analysis of the oil tanker Prestige wreck area was undertaken using high-resolution marine geophysical methods (TOPAS and airgun seismic-reflection profiles, multibeam echosounder and TOBI sidescan sonar). Integration and comparison of the results using all these methods is presented given some practical applications for indirect near-surface and seafloor interpretations. Ten different echo types were identified and grouped into four main classes: I) distinct; II) indistinct; III) irregular and IV) hyperbolic. Echo-character distribution enabled us to determine recent sedimentary processes in the area. Two major depositional systems can be found through the identification of these sedimentary processes: a) a slope depositional system (SDS) located in the eastern and central area, where mass-movement processes are dominant and b) a turbiditic Main Channel depositional system (TDS) located in the western area where channel-related processes are dominant. Both of these interact over the half-graben structure of the southwestern sector of the Galicia Bank, where the Prestige wreck is located. Within the SDS, erosive and depositional mass-movement processes characterised a complex depositional system. Erosive processes occur on the fault scarp, channels head, inter-lobe channels and distal part of the sedimentary lobes. Moreover, depositional processes take place on the top of the fault scarp, sedimentary wedges, sedimentary lobes, and on the west flank of the Main Channel. Both depositional systems interact, but the SDS should be more active during fault-scarp reactivation periods, through relief rejuvenation and new exposed deposits. Microearthquake activity would favour the available materials, being weathered, eroded and transported by mass-movements. In such a situation, the TDS acts as the main collector of eroded sediment derived from the fault scarp throughout the SDS being responsible for its evacuation into the Iberian Abyssal Plain. However, outside of fault reactivation periods, the SDS is less active (such as during the present situation).

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More information

Published date: 11 March 2008
Keywords: Galicia Bank, echo-character analysis, high-resolution seismic profiles, swath bathymetry, TOBI sidescan sonar, sedimentary process

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Local EPrints ID: 50398
URI: http://eprints.soton.ac.uk/id/eprint/50398
ISSN: 0025-3227
PURE UUID: 133d885e-68b8-45dd-a947-5cca630f0a55

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Date deposited: 22 Feb 2008
Last modified: 15 Mar 2024 10:05

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Contributors

Author: F.J. Hernández-Molina
Author: E. Llave
Author: G. Ercilla
Author: A. Maestro
Author: T. Medialdea
Author: A. Ferrin
Author: L. Somoza
Author: E. Gràcia
Author: D.G. Masson
Author: M. García
Author: A. Vizcaino
Author: R. León

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