Long-term measurements of fish backscatter from Saildrone unmanned surface vehicles and comparison with observations from a noise-reduced research vessel

Abstract Two Saildrone unmanned surface vehicles (USVs) were instrumented with echosounders and deployed in the Bering Sea to make acoustic observations of walleye pollock for 103 days. The Saildrones proved to be a suitable platform for measurement of fish backscatter: they produced high-quality me...

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Bibliographic Details
Published in:ICES Journal of Marine Science
Main Authors: De Robertis, Alex, Lawrence-Slavas, Noah, Jenkins, Richard, Wangen, Ivar, Mordy, Calvin W, Meinig, Christian, Levine, Mike, Peacock, Dave, Tabisola, Heather
Other Authors: Godø, Olav Rune, NOAA’s offices of Oceanic and Atmospheric Research, Marine and Aviation Operations, National Marine Fisheries Service, University of Washington’s Joint Institute for the study of the Atmosphere and Ocean, JISAO
Format: Article in Journal/Newspaper
Language:English
Published: Oxford University Press (OUP) 2019
Subjects:
Ecology
Aquatic Science
Ecology, Evolution, Behavior and Systematics
Oceanography
Bering Sea
Online Access:http://dx.doi.org/10.1093/icesjms/fsz124
http://academic.oup.com/icesjms/article-pdf/76/7/2459/31678821/fsz124.pdf
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Summary:Abstract Two Saildrone unmanned surface vehicles (USVs) were instrumented with echosounders and deployed in the Bering Sea to make acoustic observations of walleye pollock for 103 days. The Saildrones proved to be a suitable platform for measurement of fish backscatter: they produced high-quality measurements at wind speeds of <10 m s−1. Pollock backscatter measured from the Saildrones was compared to backscatter measured by a noise-reduced research vessel during two “follow-the-leader” comparisons. In a location where pollock were shallowly distributed (30–100 m), there was evidence of depth-dependent avoidance reactions to the ship. This behaviour was not evident in a second comparison, where the fish were primarily deeper than 90 m. Opportunistic comparisons indicate that backscatter where the ship and USVs crossed paths was similar. However, the Saildrones observed higher densities of shallow fish, which is consistent with the diving response inferred in the first follow-the-leader comparison. USVs equipped with echosounders, like all platforms, have inherent strengths (endurance) and limitations (species identification) that should be carefully considered for a given application. USVs can complement traditional ship-based surveys by increasing the spatial and temporal extent of acoustic observations, and their use is likely to become more widespread.

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