Comparison between ROV video and Agassiz trawl methods for sampling deep water fauna of submarine canyons in the Northwestern Mediterranean Sea with observations on behavioural reactions of target species

Comparison between ROV video and Agassiz trawl methods for sampling deep water fauna of submarine canyons in the Northwestern Mediterranean Sea with observations on behavioural reactions of target species

In this paper we present a comparison between Remotely Operated Vehicle (ROV) and Agassiz trawling methods for sampling deep-water fauna in three submarine canyons of the Northwestern Mediterranean Sea and describe the behavioural reactions of fishes and crustacean decapods to ROV approach. 10 ROV d...

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Bibliographic Details
Published in:Deep-sea research. Part I, Oceanographic research papers Vol. 114; pp. 149 - 159
Main Authors: Ayma, A., Aguzzi, J., Canals, M., Lastras, G., Bahamon, N., Mecho, A., Company, J.B.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-08-2016
Pergamon Press Inc
Subjects:
Abundance
Agassiz trawl
Animal behavior
Animal behaviour
Aquatic life
Autonomous vehicles
Bathypterois dubius
Brackish
Canyons
Coelorinchus
Comparative analysis
Crustaceans
Deep-sea
Ecologia marina
Fauna marina
Fish
Geryon longipes
Lepidion lepidion
Marine
Marine ecology
Marine fauna
Marine geology
Mediterranean Sea
Mediterranean Sea (northwest)
Mediterrània (Mar : nord-oest)
Munida
Nezumia aequalis
Northwestern Mediterranean Sea
Oceanography
Pagurus
Polyacanthonotus rissoanus
Remotely operated vehicles
ROV observations
Sampling
Submarine canyon
Submarine valleys
Trawls
Valls submarines
Mediterranean Sea
MED, Western Mediterranean
MED
Deep-sea
Animal behaviour
Submarine canyon
Agassiz trawl
Northwestern Mediterranean Sea
ROV observations
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Summary:In this paper we present a comparison between Remotely Operated Vehicle (ROV) and Agassiz trawling methods for sampling deep-water fauna in three submarine canyons of the Northwestern Mediterranean Sea and describe the behavioural reactions of fishes and crustacean decapods to ROV approach. 10 ROV dives, where 3583 individuals were observed and identified to species level, and 8 Agassiz trawls were carried out in a depth range of 750–1500m. As noticed in previous studies, abundances of fishes and decapod crustaceans were much higher in the ROV videos than in Agassiz trawl samples, as the latter are designed for the retrieval of benthic, less motile species in permanent contact with the bottom. In our observations fish abundance was one order of magnitude higher with ROV (4110.22ind/km2) than with Agassiz trawl (350.88ind/km2), whereas decapod crustaceans were six times more abundant in ROV videos (6362.40ind/km2) than in Agassiz samples (1364.52ind/km2). The behaviour of highly motile fishes was analysed in terms of stationary positioning over the seafloor and avoidance or attraction to ROV approach. The most frequently occurring fish species Coelorinchus mediterraneus, Nezumia aequalis, Bathypterois dubius, Lepidion lepidion, Trachyrincuss scabrus and Polyacanthonotus rissoanus did not react to the presence of the ROV in most cases (>50%). Only B. dubius (11%), Lepidion lepidion (14.8%), P. rissoanus (41%) and T. scabrus (14.3%) reacted to ROV approach. More than 60% of less motile species, such as crustacean decapods, did not respond to ROV presence either. Only 33.3% of Geryon longipes, 36.2% of Munida spp. and 29.79% of Pagurus spp. were observed avoiding or defensively reacting to the ROV. The comparison of results obtained with ROV and trawl sampling is of ecological relevance since ROV can report observations in areas where trawling is technically unfeasible. The lack of reaction by most fish and crustacean decapod specimens further confirms that ROV surveying is an efficient technique to assess abundance and species composition in deep-sea waters for these motile species and questions trawl-based estimations. •A comparison between Remotely Operated Vehicle (ROV) and Agassiz trawling methods is presented.•The behaviour of deep-sea fishes and invertebrates of the Northwestern Mediterranean submarine canyons was studied by ROV imaging.•The comparison between ROV sampling efficiency and Agassiz trawling highlighted that fish captures were 20 times higher with the ROV, with a lower efficiency for epibenthic invertebrates.•Ethological observations for fishes showed minor response to the ROV presence and new insights on decapods behaviour were obtained.•ROV surveying is an efficient technique to assess abundance and species composition in deep-sea waters for these motile species and questions trawl-based estimations.
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ISSN:0967-0637
1879-0119
DOI:10.1016/j.dsr.2016.05.013