Evidences of early to late fluid migration from an Upper Miocene turbiditic channel revealed by 3D seismic coupled to geochemical sampling within seafloor pockmarks, Lower Congo Basin
Evidences of early to late fluid migration from an Upper Miocene turbiditic channel revealed by 3D seismic coupled to geochemical sampling within seafloor pockmarks, Lower Congo Basin
Using high quality 3D seismic data within the Lower Congo Basin (LCB), we have identified pockmarks that are aligned above the sinuous belt of a buried turbiditic palaeo-channel, 1000 m beneath the seafloor. Geochemical analyses on cores (GC traces), taken in the centre of four of these pockmarks along this channel, show no clear evidence for migrated oil. But, some features of the GC traces, including elevated baselines (UCM>34 ?g/g) and a broad molecular weight range of n-alkanes with little odd–even preference, may be interpreted as indicating the presence of thermogenic hydrocarbons in the cores.
Seismic profiles show that these pockmarks developed above two main features representative of pore fluid escape during early compaction: (1) closely spaced normal faults affecting the upper 0–800 ms TWT of the sedimentary column. This highly faulted interval (HFI) appears as a hexagonal network in plane view, which is characteristic of a volumetrical contraction of sediments in response to pore fluid escape. (2) Buried palaeo-pockmarks and their underlying chimneys seem to be rooted at the channel–levee interface. The chimneys developed during early stages of burial and are now connected to the HFI.
This study shows that the buried turbiditic channel now concentrates thermogenic fluids that can migrate through early chimneys and polygonal faults to reach the seafloor within some pockmarks. Using a multidisciplinary approach within the Lower Congo Basin, combining 3D seismic data and geochemical analyses on cores, we trace the fluid history from early compaction expelling pore fluids to later migration of thermogenic hydrocarbons.
pockmarks, turbiditic channels, fluid migration, polygonal faults, seismic chimneys, pipes
387-399
Gay, A.
c494a4f5-b9d6-4122-9d47-b3e697e69897
Lopez, M.
86a1f90a-7862-480a-bc69-474c5757d39a
Cochonat, P.
605daa4e-5b58-4084-97f0-292ba93ef274
Sermondadaz, G.
600337ef-e3b5-4d10-bea1-29d34c9f0e28
Seranne, M.
f3a47fdf-7cd0-4b0a-8f4e-11231351bfab
2006
Gay, A.
c494a4f5-b9d6-4122-9d47-b3e697e69897
Lopez, M.
86a1f90a-7862-480a-bc69-474c5757d39a
Cochonat, P.
605daa4e-5b58-4084-97f0-292ba93ef274
Sermondadaz, G.
600337ef-e3b5-4d10-bea1-29d34c9f0e28
Seranne, M.
f3a47fdf-7cd0-4b0a-8f4e-11231351bfab
Gay, A., Lopez, M., Cochonat, P., Sermondadaz, G. and Seranne, M.
(2006)
Evidences of early to late fluid migration from an Upper Miocene turbiditic channel revealed by 3D seismic coupled to geochemical sampling within seafloor pockmarks, Lower Congo Basin.
Marine and Petroleum Geology, 23 (3), .
(doi:10.1016/j.marpetgeo.2006.02.004).
Abstract
Using high quality 3D seismic data within the Lower Congo Basin (LCB), we have identified pockmarks that are aligned above the sinuous belt of a buried turbiditic palaeo-channel, 1000 m beneath the seafloor. Geochemical analyses on cores (GC traces), taken in the centre of four of these pockmarks along this channel, show no clear evidence for migrated oil. But, some features of the GC traces, including elevated baselines (UCM>34 ?g/g) and a broad molecular weight range of n-alkanes with little odd–even preference, may be interpreted as indicating the presence of thermogenic hydrocarbons in the cores.
Seismic profiles show that these pockmarks developed above two main features representative of pore fluid escape during early compaction: (1) closely spaced normal faults affecting the upper 0–800 ms TWT of the sedimentary column. This highly faulted interval (HFI) appears as a hexagonal network in plane view, which is characteristic of a volumetrical contraction of sediments in response to pore fluid escape. (2) Buried palaeo-pockmarks and their underlying chimneys seem to be rooted at the channel–levee interface. The chimneys developed during early stages of burial and are now connected to the HFI.
This study shows that the buried turbiditic channel now concentrates thermogenic fluids that can migrate through early chimneys and polygonal faults to reach the seafloor within some pockmarks. Using a multidisciplinary approach within the Lower Congo Basin, combining 3D seismic data and geochemical analyses on cores, we trace the fluid history from early compaction expelling pore fluids to later migration of thermogenic hydrocarbons.
This record has no associated files available for download.
More information
Published date: 2006
Keywords:
pockmarks, turbiditic channels, fluid migration, polygonal faults, seismic chimneys, pipes
Identifiers
Local EPrints ID: 43887
URI: http://eprints.soton.ac.uk/id/eprint/43887
ISSN: 0264-8172
PURE UUID: 23a4bd6c-2ddf-4fb1-9fd2-44a264b24669
Catalogue record
Date deposited: 31 Jan 2007
Last modified: 15 Mar 2024 08:58
Export record
Altmetrics
Contributors
Author:
A. Gay
Author:
M. Lopez
Author:
P. Cochonat
Author:
G. Sermondadaz
Author:
M. Seranne
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics