Assessing the potential of autonomous submarine gliders for ecosystem monitoring across multiple trophic levels (plankton to cetaceans) and pollutants in shallow shelf seas
Assessing the potential of autonomous submarine gliders for ecosystem monitoring across multiple trophic levels (plankton to cetaceans) and pollutants in shallow shelf seas
A combination of scientific, economic, technological and policy drivers is behind a recent upsurge in the use of marine autonomous systems (and accompanying miniaturized sensors) for environmental mapping and monitoring. Increased spatial–temporal resolution and coverage of data, at reduced cost, is particularly vital for effective spatial management of highly dynamic and heterogeneous shelf environments. This proof-of-concept study involves integration of a novel combination of sensors onto buoyancy-driven submarine gliders, in order to assess their suitability for ecosystem monitoring in shelf waters at a variety of trophic levels. Two shallow-water Slocum gliders were equipped with CTD and fluorometer to measure physical properties and chlorophyll, respectively. One glider was also equipped with a single-frequency echosounder to collect information on zooplankton and fish distribution. The other glider carried a Passive Acoustic Monitoring system to detect and record cetacean vocalizations, and a passive sampler to detect chemical contaminants in the water column. The two gliders were deployed together off southwest UK in autumn 2013, and targeted a known tidal-mixing front west of the Isles of Scilly. The gliders’ mission took about 40 days, with each glider travelling distances of >1000 km and undertaking >2500 dives to depths of up to 100 m. Controlling glider flight and alignment of the two glider trajectories proved to be particularly challenging due to strong tidal flows. However, the gliders continued to collect data in poor weather when an accompanying research vessel was unable to operate. In addition, all glider sensors generated useful data, with particularly interesting initial results relating to subsurface chlorophyll maxima and numerous fish/cetacean detections within the water column. The broader implications of this study for marine ecosystem monitoring with submarine gliders are discussed.
Autonomous underwater vehicles, Submarine glider, Slocum, Ecosystem monitoring, Multiple trophic levels
70-89
Suberg, Lavinia
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Wynn, Russell
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van der Kooij, Jeroen
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Fernand, Liam
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Fielding, Sophie
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Guihen, Damien
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Gillespie, Douglas
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Johnson, Mark
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Gkikopoulo, Kalliopi C.
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Allan, Ian J.
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Vrana, Branislab
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Miller, Peter I.
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Smeed, David
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Jones, Alice R.
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September 2014
Suberg, Lavinia
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Wynn, Russell
72ccd765-9240-45f8-9951-4552b497475a
van der Kooij, Jeroen
308d4b25-b066-456b-aec5-e579f2982316
Fernand, Liam
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Fielding, Sophie
b6810aca-528b-41d9-b23e-3e05647c5fab
Guihen, Damien
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Gillespie, Douglas
bd154eb4-02b9-485f-8b14-331398eec520
Johnson, Mark
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Gkikopoulo, Kalliopi C.
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Allan, Ian J.
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Vrana, Branislab
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Miller, Peter I.
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Smeed, David
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Jones, Alice R.
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Suberg, Lavinia, Wynn, Russell, van der Kooij, Jeroen, Fernand, Liam, Fielding, Sophie, Guihen, Damien, Gillespie, Douglas, Johnson, Mark, Gkikopoulo, Kalliopi C., Allan, Ian J., Vrana, Branislab, Miller, Peter I., Smeed, David and Jones, Alice R.
(2014)
Assessing the potential of autonomous submarine gliders for ecosystem monitoring across multiple trophic levels (plankton to cetaceans) and pollutants in shallow shelf seas.
Methods in Oceanography, 10, .
(doi:10.1016/j.mio.2014.06.002).
Abstract
A combination of scientific, economic, technological and policy drivers is behind a recent upsurge in the use of marine autonomous systems (and accompanying miniaturized sensors) for environmental mapping and monitoring. Increased spatial–temporal resolution and coverage of data, at reduced cost, is particularly vital for effective spatial management of highly dynamic and heterogeneous shelf environments. This proof-of-concept study involves integration of a novel combination of sensors onto buoyancy-driven submarine gliders, in order to assess their suitability for ecosystem monitoring in shelf waters at a variety of trophic levels. Two shallow-water Slocum gliders were equipped with CTD and fluorometer to measure physical properties and chlorophyll, respectively. One glider was also equipped with a single-frequency echosounder to collect information on zooplankton and fish distribution. The other glider carried a Passive Acoustic Monitoring system to detect and record cetacean vocalizations, and a passive sampler to detect chemical contaminants in the water column. The two gliders were deployed together off southwest UK in autumn 2013, and targeted a known tidal-mixing front west of the Isles of Scilly. The gliders’ mission took about 40 days, with each glider travelling distances of >1000 km and undertaking >2500 dives to depths of up to 100 m. Controlling glider flight and alignment of the two glider trajectories proved to be particularly challenging due to strong tidal flows. However, the gliders continued to collect data in poor weather when an accompanying research vessel was unable to operate. In addition, all glider sensors generated useful data, with particularly interesting initial results relating to subsurface chlorophyll maxima and numerous fish/cetacean detections within the water column. The broader implications of this study for marine ecosystem monitoring with submarine gliders are discussed.
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Accepted/In Press date: July 2014
Published date: September 2014
Keywords:
Autonomous underwater vehicles, Submarine glider, Slocum, Ecosystem monitoring, Multiple trophic levels
Organisations:
Marine Systems Modelling, Geology & Geophysics, Marine Geoscience
Identifiers
Local EPrints ID: 367010
URI: http://eprints.soton.ac.uk/id/eprint/367010
ISSN: 2211-1220
PURE UUID: e1703c83-d538-47cb-a2dc-9bceba349d3c
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Date deposited: 17 Jul 2014 10:43
Last modified: 14 Mar 2024 17:21
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Contributors
Author:
Lavinia Suberg
Author:
Russell Wynn
Author:
Jeroen van der Kooij
Author:
Liam Fernand
Author:
Sophie Fielding
Author:
Damien Guihen
Author:
Douglas Gillespie
Author:
Mark Johnson
Author:
Kalliopi C. Gkikopoulo
Author:
Ian J. Allan
Author:
Branislab Vrana
Author:
Peter I. Miller
Author:
David Smeed
Author:
Alice R. Jones
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