Seabed characterization through a range of high-resolution acoustic systems - a case study offshore Oman
Seabed characterization through a range of high-resolution acoustic systems - a case study offshore Oman
This study uses three acoustic instruments (different in their operating frequencies, 13, 3.5, and 6–10 kHz, and deployment type, hull-mounted, surface-towed and deep-towed) to investigate and characterize the acoustic response of seafloor NE of Oman in a frequency-independent manner. High-resolution control was achieved by having selected areas of our acoustic transects groundtruthed by sampling and/or sea-floor photography. On the regional scale, the greatest degree of change in backscatter amplitude was correlated with major changes of seabed morphology and lithology. However, small-scale roughness had the biggest effect on amplitude on the local scale, i.e. within each area of specific seafloor type. The study also shows that seafloor reflection amplitude changes are far more easily detected by deep-towed instrument than by surface-towed or hull-mounted systems. Whilst there are significant changes in bioturbation types and density along the transects, the suite of instruments deployed was not able to pick up the effect of the bioturbation on acoustic signals.
3.5 kHz sediment profiler, acoustic characterization, backscatter, bioturbation, deep-tow CHIRP, EM12 multibeam, Oman
167-180
Szuman, M.
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Berndt, C.
231544d4-f681-44a2-ae6e-74385e588bf6
Jacobs, C.
7982225d-7049-486c-9f28-8e8dc5d802b5
Best, A.
cad03726-10f8-4f90-a3ba-5031665234c9
2006
Szuman, M.
0aaa67bd-7c45-46ff-8310-ef98522d29c6
Berndt, C.
231544d4-f681-44a2-ae6e-74385e588bf6
Jacobs, C.
7982225d-7049-486c-9f28-8e8dc5d802b5
Best, A.
cad03726-10f8-4f90-a3ba-5031665234c9
Szuman, M., Berndt, C., Jacobs, C. and Best, A.
(2006)
Seabed characterization through a range of high-resolution acoustic systems - a case study offshore Oman.
Marine Geophysical Researches, 27 (3), .
(doi:10.1007/s11001-005-5999-0).
Abstract
This study uses three acoustic instruments (different in their operating frequencies, 13, 3.5, and 6–10 kHz, and deployment type, hull-mounted, surface-towed and deep-towed) to investigate and characterize the acoustic response of seafloor NE of Oman in a frequency-independent manner. High-resolution control was achieved by having selected areas of our acoustic transects groundtruthed by sampling and/or sea-floor photography. On the regional scale, the greatest degree of change in backscatter amplitude was correlated with major changes of seabed morphology and lithology. However, small-scale roughness had the biggest effect on amplitude on the local scale, i.e. within each area of specific seafloor type. The study also shows that seafloor reflection amplitude changes are far more easily detected by deep-towed instrument than by surface-towed or hull-mounted systems. Whilst there are significant changes in bioturbation types and density along the transects, the suite of instruments deployed was not able to pick up the effect of the bioturbation on acoustic signals.
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Published date: 2006
Keywords:
3.5 kHz sediment profiler, acoustic characterization, backscatter, bioturbation, deep-tow CHIRP, EM12 multibeam, Oman
Identifiers
Local EPrints ID: 41419
URI: http://eprints.soton.ac.uk/id/eprint/41419
ISSN: 0025-3235
PURE UUID: e9ff815e-37b2-4d11-8048-56511bfec7f0
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Date deposited: 03 Oct 2006
Last modified: 15 Mar 2024 08:29
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Contributors
Author:
M. Szuman
Author:
C. Berndt
Author:
C. Jacobs
Author:
A. Best
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