Novel acoustic technology for studying free-ranging shark social behaviour by recording individuals' interactions

Group behaviours are widespread among fish but comparatively little is known about the interactions between free-ranging individuals and how these might change across different spatio-temporal scales. This is largely due to the difficulty of observing wild fish groups directly underwater over long e...

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Veröffentlicht in:	PloS one 2010-02, Vol.5 (2), p.e9324-e9324
Hauptverfasser:	Guttridge, Tristan L, Gruber, Samuel H, Krause, Jens, Sims, David W
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic emission Acoustics Animal behavior Animals Bahamas Body Size - physiology Ecology/Behavioral Ecology Ecology/Marine and Freshwater Ecology Female Fish Fishes Geography Group dynamics Male Marine and Aquatic Sciences/Fisheries Marine animals Marine organisms Negaprion brevirostris Proximity Receivers Scales Seawater Sexual Behavior, Animal - physiology Sharks Sharks - physiology Social Behavior Social networks Technology Technology application Telecommunications equipment Telemetry - instrumentation Telemetry - methods Time Factors Transmitters Underwater Underwater acoustics
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creator	Guttridge, Tristan L Gruber, Samuel H Krause, Jens Sims, David W
description	Group behaviours are widespread among fish but comparatively little is known about the interactions between free-ranging individuals and how these might change across different spatio-temporal scales. This is largely due to the difficulty of observing wild fish groups directly underwater over long enough time periods to quantify group structure and individual associations. Here we describe the use of a novel technology, an animal-borne acoustic proximity receiver that records close-spatial associations between free-ranging fish by detection of acoustic signals emitted from transmitters on other individuals. Validation trials, held within enclosures in the natural environment, on juvenile lemon sharks Negaprion brevirostris fitted with external receivers and transmitters, showed receivers logged interactions between individuals regularly when sharks were within 4 m ( approximately 4 body lengths) of each other, but rarely when at 10 m distance. A field trial lasting 17 days with 5 juvenile lemon sharks implanted with proximity receivers showed one receiver successfully recorded association data, demonstrating this shark associated with 9 other juvenile lemon sharks on 128 occasions. This study describes the use of acoustic underwater proximity receivers to quantify interactions among wild sharks, setting the scene for new advances in understanding the social behaviours of marine animals.
doi_str_mv	10.1371/journal.pone.0009324
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subjects	Acoustic emission Acoustics Animal behavior Animals Bahamas Body Size - physiology Ecology/Behavioral Ecology Ecology/Marine and Freshwater Ecology Female Fish Fishes Geography Group dynamics Male Marine and Aquatic Sciences/Fisheries Marine animals Marine organisms Negaprion brevirostris Proximity Receivers Scales Seawater Sexual Behavior, Animal - physiology Sharks Sharks - physiology Social Behavior Social networks Technology Technology application Telecommunications equipment Telemetry - instrumentation Telemetry - methods Time Factors Transmitters Underwater Underwater acoustics
title	Novel acoustic technology for studying free-ranging shark social behaviour by recording individuals' interactions
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