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• W2316072405 abstract "MEPS Marine Ecology Progress Series Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections MEPS 492:285-302 (2013) - DOI: https://doi.org/10.3354/meps10482 REVIEW Acoustic deterrent devices to prevent pinniped depredation: efficiency, conservation concerns and possible solutions Thomas Götz*, Vincent M. Janik Sea Mammal Research Unit, Scottish Oceans Institute, University of St Andrews, East Sands, St Andrews, Fife KY16 8LB, UK *Email: tg45@st-and.ac.uk ABSTRACT: Acoustic deterrent devices (ADDs) to prevent pinniped predation on fish farms and fisheries are widely used, but show highly varying success. Recently, ADDs have also been highlighted as a conservation concern due to their adverse impact on toothed whales. We review the available literature on the efficiency of commercial ADDs, evaluate the unintended impact on behaviour, communication and hearing of marine life, and suggest solutions based on psycho-physiological predictions. The main problems associated with ADDs are a lack of long-term efficiency, introduction of substantial noise pollution to the marine environment and long-term effects on target and non-target species. Odontocetes have more sensitive hearing than pinnipeds at the frequencies where most ADDs operate, which may explain the reported large-scale habitat exclusion of odontocetes when ADDs are used. Furthermore, long-term exposure to ADDs may damage the hearing of marine mammals. Fish and invertebrates have less sensitive hearing than marine mammals and fewer efforts have been made to quantify the effects of noise on these taxa. Solutions can be found by decreasing sound exposure, exploiting neuronal reflex arcs associated with flight behaviour and making use of differences in species’ hearing abilities to increase target specificity. To minimise adverse effects, environmental impact assessments should be carried out before deploying ADDs and only effective and target-specific devices should be used. KEY WORDS: Acoustic deterrent device · ADD · Noise pollution · Predation · Seal · Hearing damage · Aquaculture · Fisheries · Temporary threshold shift · Permanent threshold shift Full text in pdf format Supplementary material PreviousCite this article as: Götz T, Janik VM (2013) Acoustic deterrent devices to prevent pinniped depredation: efficiency, conservation concerns and possible solutions. Mar Ecol Prog Ser 492:285-302. https://doi.org/10.3354/meps10482 Export citation RSS - Facebook - Tweet - linkedIn Cited by Published in MEPS Vol. 492. Online publication date: October 31, 2013 Print ISSN: 0171-8630; Online ISSN: 1616-1599 Copyright © 2013 Inter-Research." @default.
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• W2316072405 date "2013-10-31" @default.
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• W2316072405 title "Acoustic deterrent devices to prevent pinniped depredation: efficiency, conservation concerns and possible solutions" @default.
• W2316072405 cites W1557748579 @default.
• W2316072405 cites W1607260470 @default.
• W2316072405 cites W1638181049 @default.
• W2316072405 cites W169872482 @default.
• W2316072405 cites W1965093219 @default.
• W2316072405 cites W1969203219 @default.
• W2316072405 cites W1971902014 @default.
• W2316072405 cites W1972403633 @default.
• W2316072405 cites W1973297520 @default.
• W2316072405 cites W1976496503 @default.
• W2316072405 cites W1981571933 @default.
• W2316072405 cites W1982265878 @default.
• W2316072405 cites W1986488947 @default.
• W2316072405 cites W1986713095 @default.
• W2316072405 cites W1987319675 @default.
• W2316072405 cites W1991781763 @default.
• W2316072405 cites W1996235270 @default.
• W2316072405 cites W1998916530 @default.
• W2316072405 cites W1999854131 @default.
• W2316072405 cites W2004820003 @default.
• W2316072405 cites W2008907807 @default.
• W2316072405 cites W2012841536 @default.
• W2316072405 cites W2013205813 @default.
• W2316072405 cites W2014273174 @default.
• W2316072405 cites W2014330124 @default.
• W2316072405 cites W2016161036 @default.
• W2316072405 cites W2017339170 @default.
• W2316072405 cites W2017493347 @default.
• W2316072405 cites W2018503400 @default.
• W2316072405 cites W2019020880 @default.
• W2316072405 cites W2021554529 @default.
• W2316072405 cites W2025836754 @default.
• W2316072405 cites W2029417533 @default.
• W2316072405 cites W2029586491 @default.
• W2316072405 cites W2030881383 @default.
• W2316072405 cites W2030970751 @default.
• W2316072405 cites W2034101922 @default.
• W2316072405 cites W2038920793 @default.
• W2316072405 cites W2040312364 @default.
• W2316072405 cites W2046720895 @default.
• W2316072405 cites W2058227292 @default.
• W2316072405 cites W2059326467 @default.
• W2316072405 cites W2069217618 @default.
• W2316072405 cites W2071202054 @default.
• W2316072405 cites W2076700103 @default.
• W2316072405 cites W2077100847 @default.
• W2316072405 cites W2080823521 @default.
• W2316072405 cites W2083660934 @default.
• W2316072405 cites W2083882537 @default.
• W2316072405 cites W2085111054 @default.
• W2316072405 cites W2088835946 @default.
• W2316072405 cites W2090045503 @default.
• W2316072405 cites W2092236741 @default.
• W2316072405 cites W2098099895 @default.
• W2316072405 cites W2098303215 @default.
• W2316072405 cites W2099040207 @default.
• W2316072405 cites W2101034654 @default.
• W2316072405 cites W2110826726 @default.
• W2316072405 cites W2111686669 @default.
• W2316072405 cites W2118409307 @default.
• W2316072405 cites W2118942835 @default.
• W2316072405 cites W2119758442 @default.
• W2316072405 cites W2121820203 @default.
• W2316072405 cites W2124320283 @default.
• W2316072405 cites W2130300938 @default.
• W2316072405 cites W2130302677 @default.
• W2316072405 cites W2131402429 @default.
• W2316072405 cites W2137811662 @default.
• W2316072405 cites W2137951529 @default.
• W2316072405 cites W2141082980 @default.
• W2316072405 cites W2141410860 @default.
• W2316072405 cites W2149410051 @default.
• W2316072405 cites W2150343224 @default.
• W2316072405 cites W2151897737 @default.
• W2316072405 cites W2161616654 @default.
• W2316072405 cites W2203897280 @default.
• W2316072405 cites W2326604230 @default.
• W2316072405 cites W2477624992 @default.
• W2316072405 cites W3023135942 @default.
• W2316072405 cites W4231842885 @default.
• W2316072405 cites W4235133917 @default.
• W2316072405 cites W4249614481 @default.
• W2316072405 cites W4320578731 @default.
• W2316072405 cites W620783196 @default.
• W2316072405 cites W66276121 @default.
• W2316072405 doi "https://doi.org/10.3354/meps10482" @default.
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