Silver, bighead, and common carp orient to acoustic particle motion when avoiding a complex sound

Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and pa...

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Published inPloS one Vol. 12; no. 6; p. e0180110
Main Authors Zielinski, Daniel P., Sorensen, Peter W.
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 27.06.2017
Public Library of Science (PLoS)
Subjects
Acceleration
Acoustics
Animals
Aquatic life
Avoidance
Avoidance behavior
Axes (reference lines)
Behavior
Behavior, Animal - physiology
Bioacoustics
Biology and Life Sciences
Broadband
Carp
Carps
Carps - physiology
Conservation biology
Cues
Darkness
Deterrents
Enclosures
Fish
Fisheries
Fishing
Invasive fish
Medicine and Health Sciences
Motor task performance
Noise
Orientation
Orientation - physiology
Orientation behavior
Particle acceleration
Particle motion
Phonotaxis
Physical Sciences
Pressure
Rivers
Sound
Sound fields
Sound Localization - physiology
Sound pressure
Studies
Swimming
Swimming - physiology
Trajectory analysis
Visual perception
Visual stimuli
Wildlife conservation
United States > US
Minnesota
Online AccessGet full text
ISSN1932-6203
1932-6203
DOI10.1371/journal.pone.0180110

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Abstract Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 μPa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.
AbstractList Behavioral responses of silver carp ( Hypopthalmichthys molitrix ), bighead carp ( H . nobilis ), and common carp ( Cyprinus carpio ) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 μPa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.
Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 μPa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 μPa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.
Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 [mu]Pa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.
Behavioral responses of silver carp ( Hypopthalmichthys molitrix ), bighead carp ( H . nobilis ), and common carp ( Cyprinus carpio ) to a complex, broadband sound were tested in the absence of visual cues to determine whether these species are negatively phonotaxic and the roles that sound pressure and particle motion might play mediating this response. In a dark featureless square enclosure, groups of 3 fish were tracked and the distance of each fish from speakers and their swimming trajectories relative to sound pressure and particle acceleration were analyzed before, and then while an outboard motor sound was played. All three species exhibited negative phonotaxis during the first two exposures after which they ceased responding. The median percent time fish spent near the active speaker for the first two trials decreased from 7.0% to 1.3% for silver carp, 7.9% to 1.1% for bighead carp, and 9.5% to 3% for common carp. Notably, when close to the active speaker fish swam away from the source and maintained a nearly perfect 0° orientation to the axes of particle acceleration. Fish did not enter sound fields greater than 140 dB (ref. 1 μPa). These results demonstrate that carp avoid complex sounds in darkness and while initial responses may be informed by sound pressure, sustained oriented avoidance behavior is likely mediated by particle motion. This understanding of how invasive carp use particle motion to guide avoidance could be used to design new acoustic deterrents to divert them in dark, turbid river waters.
Audience Academic
Author Zielinski, Daniel P.
Sorensen, Peter W.
AuthorAffiliation Department of Fisheries, Wildlife, and Conservation Biology, University of Minnesota, St. Paul, Minnesota, United States of America
University of Auckland, NEW ZEALAND
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  surname: Sorensen
  fullname: Sorensen, Peter W.
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28654676$$D View this record in MEDLINE/PubMed
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Competing Interests: The authors have declared that no competing interests exist.
Current address: Great Lakes Fishery Commission, Millersburg, Michigan, United States of America
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crossref_primary_10_1371_journal_pone_0180110
crossref_citationtrail_10_1371_journal_pone_0180110
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19062793 - J Acoust Soc Am. 2008 Oct;124(4):EL243-7
20557617 - J Fish Biol. 2010 May;76(7):1576-91
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SSID ssj0053866
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Snippet Behavioral responses of silver carp (Hypopthalmichthys molitrix), bighead carp (H. nobilis), and common carp (Cyprinus carpio) to a complex, broadband sound...
Behavioral responses of silver carp ( Hypopthalmichthys molitrix ), bighead carp ( H . nobilis ), and common carp ( Cyprinus carpio ) to a complex, broadband...
Behavioral responses of silver carp ( Hypopthalmichthys molitrix ), bighead carp ( H . nobilis ), and common carp ( Cyprinus carpio ) to a complex, broadband...
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StartPage e0180110
SubjectTerms Acceleration
Acoustics
Animals
Aquatic life
Avoidance
Avoidance behavior
Axes (reference lines)
Behavior
Behavior, Animal - physiology
Bioacoustics
Biology and Life Sciences
Broadband
Carp
Carps
Carps - physiology
Conservation biology
Cues
Darkness
Deterrents
Enclosures
Fish
Fisheries
Fishing
Invasive fish
Medicine and Health Sciences
Motor task performance
Noise
Orientation
Orientation - physiology
Orientation behavior
Particle acceleration
Particle motion
Phonotaxis
Physical Sciences
Pressure
Rivers
Sound
Sound fields
Sound Localization - physiology
Sound pressure
Studies
Swimming
Swimming - physiology
Trajectory analysis
Visual perception
Visual stimuli
Wildlife conservation
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Title Silver, bighead, and common carp orient to acoustic particle motion when avoiding a complex sound
URI https://www.ncbi.nlm.nih.gov/pubmed/28654676
https://www.proquest.com/docview/1914149072
https://www.proquest.com/docview/1914580491
https://pubmed.ncbi.nlm.nih.gov/PMC5487063
https://doaj.org/article/2cf697f593034aed871b652ef1ca744a
http://dx.doi.org/10.1371/journal.pone.0180110
Volume 12
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