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Multifrequency geoacoustic imaging of fluid escape structures offshore Costa Rica: Implications for the quantification of seep processes

Multifrequency geoacoustic imaging of fluid escape structures offshore Costa Rica: Implications for the quantification of seep processes
Multifrequency geoacoustic imaging of fluid escape structures offshore Costa Rica: Implications for the quantification of seep processes
Quantification of fluid fluxes from cold seeps depends on accurate estimates of the spatial validity of flux measurements. These estimates are strongly influenced by the choice of geoacoustic mapping tools. Multibeam bathymetry, side-scan sonar, and Chirp subbottom profiler data of several mound-shaped cold seeps offshore central Costa Rica show great variety in morphology and structure although the features are only a few kilometers apart. Mound 11 (a 35 m high and 1000 m in diameter structure), situated in the SE of the study area, has an irregular morphology but a smooth surface on side-scan sonar data, while mound 12 (30 m high, 600 m across) is a cone of more regular outline but with a rough surface, and mound Grillo (5 m high, 500 m across) shows the same rough surface as mound 12 but without relief. Video observations and sediment cores indicate that the structures are formed by the precipitation of authigenic carbonates and indications for extensive mud extrusion are absent, except for one possible mudflow at mound 11. Different sonar frequencies result in variable estimates of the extent of these mounds with low frequencies suggesting much wider cold seeps, consequently overestimating fluid fluxes. The absence of mud volcanism compared to accretionary prisms where mud volcanism occurs is related to different tectonic styles: strong sediment overpressure and thrust faulting in typical accretionary prisms can generate mud volcanism, while subduction erosion and normal faulting (extension) of the overriding plate at the Costa Rican margin result in fluid venting driven by only slight fluid overpressures.
cold seeps, Costa Rica, side-scan sonar
1525-2027
Q04010
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Petersen, C. Jorg
27085ae4-59c7-40c2-b994-2c865fd75e36
Weinrebe, Wilhelm
a3e00ec0-efa5-41c7-b3e8-ed22c627bac8
Ranero, Cesar R.
1dce852c-182f-43e1-beeb-f756348d4c85
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Masson, Douglas G.
edd44c8b-38ca-45fb-8d0d-ac8365748a45
Petersen, C. Jorg
27085ae4-59c7-40c2-b994-2c865fd75e36
Weinrebe, Wilhelm
a3e00ec0-efa5-41c7-b3e8-ed22c627bac8
Ranero, Cesar R.
1dce852c-182f-43e1-beeb-f756348d4c85

Klaucke, Ingo, Masson, Douglas G., Petersen, C. Jorg, Weinrebe, Wilhelm and Ranero, Cesar R. (2008) Multifrequency geoacoustic imaging of fluid escape structures offshore Costa Rica: Implications for the quantification of seep processes. Geochemistry, Geophysics, Geosystems, 9, Q04010. (doi:10.1029/2007GC001708).

Record type: Article

Abstract

Quantification of fluid fluxes from cold seeps depends on accurate estimates of the spatial validity of flux measurements. These estimates are strongly influenced by the choice of geoacoustic mapping tools. Multibeam bathymetry, side-scan sonar, and Chirp subbottom profiler data of several mound-shaped cold seeps offshore central Costa Rica show great variety in morphology and structure although the features are only a few kilometers apart. Mound 11 (a 35 m high and 1000 m in diameter structure), situated in the SE of the study area, has an irregular morphology but a smooth surface on side-scan sonar data, while mound 12 (30 m high, 600 m across) is a cone of more regular outline but with a rough surface, and mound Grillo (5 m high, 500 m across) shows the same rough surface as mound 12 but without relief. Video observations and sediment cores indicate that the structures are formed by the precipitation of authigenic carbonates and indications for extensive mud extrusion are absent, except for one possible mudflow at mound 11. Different sonar frequencies result in variable estimates of the extent of these mounds with low frequencies suggesting much wider cold seeps, consequently overestimating fluid fluxes. The absence of mud volcanism compared to accretionary prisms where mud volcanism occurs is related to different tectonic styles: strong sediment overpressure and thrust faulting in typical accretionary prisms can generate mud volcanism, while subduction erosion and normal faulting (extension) of the overriding plate at the Costa Rican margin result in fluid venting driven by only slight fluid overpressures.

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More information

Published date: 2008
Keywords: cold seeps, Costa Rica, side-scan sonar
Organisations: National Oceanography Centre,Southampton

Identifiers

Local EPrints ID: 50408
URI: http://eprints.soton.ac.uk/id/eprint/50408
ISSN: 1525-2027
PURE UUID: 3e64d4e0-2bb6-4e18-a3d0-42d6c242afe8

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Date deposited: 25 Feb 2008
Last modified: 15 Mar 2024 10:06

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Contributors

Author: Ingo Klaucke
Author: Douglas G. Masson
Author: C. Jorg Petersen
Author: Wilhelm Weinrebe
Author: Cesar R. Ranero

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