An evaluation of deep-sea benthic megafauna length measurements obtained with laser and stereo camera methods
An evaluation of deep-sea benthic megafauna length measurements obtained with laser and stereo camera methods
The 25 year time-series collected at Station M, ~4000 m on the Monterey Deep-sea Fan, has substantially improved understanding of the role of the deep-ocean benthic environment in the global carbon cycle. However, the role of deep-ocean benthic megafauna in carbon bioturbation, remineralization and sequestration is relatively unknown. It is important to gather both accurate and precise measurements of megafaunal community abundance, size distribution and biomass to further define their role in deep-sea carbon cycling and possible sequestration. This study describes initial results from a stereo camera system attached to a remotely operated vehicle and analyzed using the EventMeasure photogrammetric measurement software to estimate the density, length and biomass of 10 species of mobile epibenthic megafauna. Stereo length estimates were compared to those from a single video camera system equipped with sizing lasers and analyzed using the Monterey Bay Aquarium Research Institute’s Video Annotation and Reference System. Both camera systems and software were capable of high measurement accuracy and precision (<±1 mm measurement error and precision). However, the oblique angle of the single video camera caused the spatial scale of the image perspective to change with distance from the camera, resulting in error when measurements were not parallel or vertical to two horizontal-oriented scaling lasers. Analysis showed that the stereo system recorded longer lengths and higher biomass estimates than the single video camera system for the majority of the 10 megafauna species studied. The stereo image analysis process took substantially longer than the video analysis and the value of the EventMeasure software tool would be improved with developments in analysis automation. The stereo system is less influenced by object orientation and height, and is potentially a useful tool to be mounted on an autonomous underwater vehicle and for measuring deep-sea pelagic animals where the use of lasers is not feasible.
Deep-sea megafauna, Benthic communities, Stereo camera, Biomass
38-48
Dunlop, Katherine M.
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Kuhnz, Linda A.
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Ruhl, Henry A.
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Huffard, Christine L.
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Caress, David W.
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Henthorn, Richard G.
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Hobson, Brett W.
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McGill, Paul
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Smith, Kenneth L.
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February 2015
Dunlop, Katherine M.
d7079b8b-8821-45d2-9622-7b494c5af344
Kuhnz, Linda A.
befd3e56-3c8f-442b-9080-bb9de02fc9df
Ruhl, Henry A.
177608ef-7793-4911-86cf-cd9960ff22b6
Huffard, Christine L.
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Caress, David W.
eaccbe95-0341-4ff1-9b1c-4bd2a5097ea3
Henthorn, Richard G.
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Hobson, Brett W.
c0a82468-fbfc-4b2e-b074-7ededd695b64
McGill, Paul
cc88f2e5-7118-4455-a789-8c82052b1ac3
Smith, Kenneth L.
c282f721-59cf-4caa-a344-f4a26f6b534c
Dunlop, Katherine M., Kuhnz, Linda A., Ruhl, Henry A., Huffard, Christine L., Caress, David W., Henthorn, Richard G., Hobson, Brett W., McGill, Paul and Smith, Kenneth L.
(2015)
An evaluation of deep-sea benthic megafauna length measurements obtained with laser and stereo camera methods.
Deep Sea Research Part I: Oceanographic Research Papers, 96, .
(doi:10.1016/j.dsr.2014.11.003).
Abstract
The 25 year time-series collected at Station M, ~4000 m on the Monterey Deep-sea Fan, has substantially improved understanding of the role of the deep-ocean benthic environment in the global carbon cycle. However, the role of deep-ocean benthic megafauna in carbon bioturbation, remineralization and sequestration is relatively unknown. It is important to gather both accurate and precise measurements of megafaunal community abundance, size distribution and biomass to further define their role in deep-sea carbon cycling and possible sequestration. This study describes initial results from a stereo camera system attached to a remotely operated vehicle and analyzed using the EventMeasure photogrammetric measurement software to estimate the density, length and biomass of 10 species of mobile epibenthic megafauna. Stereo length estimates were compared to those from a single video camera system equipped with sizing lasers and analyzed using the Monterey Bay Aquarium Research Institute’s Video Annotation and Reference System. Both camera systems and software were capable of high measurement accuracy and precision (<±1 mm measurement error and precision). However, the oblique angle of the single video camera caused the spatial scale of the image perspective to change with distance from the camera, resulting in error when measurements were not parallel or vertical to two horizontal-oriented scaling lasers. Analysis showed that the stereo system recorded longer lengths and higher biomass estimates than the single video camera system for the majority of the 10 megafauna species studied. The stereo image analysis process took substantially longer than the video analysis and the value of the EventMeasure software tool would be improved with developments in analysis automation. The stereo system is less influenced by object orientation and height, and is potentially a useful tool to be mounted on an autonomous underwater vehicle and for measuring deep-sea pelagic animals where the use of lasers is not feasible.
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Published date: February 2015
Keywords:
Deep-sea megafauna, Benthic communities, Stereo camera, Biomass
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 374522
URI: http://eprints.soton.ac.uk/id/eprint/374522
ISSN: 0967-0637
PURE UUID: e0b9437f-10e8-4011-8f67-377c97971de0
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Date deposited: 18 Feb 2015 16:46
Last modified: 14 Mar 2024 19:08
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Contributors
Author:
Katherine M. Dunlop
Author:
Linda A. Kuhnz
Author:
Henry A. Ruhl
Author:
Christine L. Huffard
Author:
David W. Caress
Author:
Richard G. Henthorn
Author:
Brett W. Hobson
Author:
Paul McGill
Author:
Kenneth L. Smith
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