Acoustic discrimination in the grey bamboo shark Chiloscyllium griseum

Cognitive abilities of sharks are well developed and comparable to teleosts and other vertebrates. Most studies exploring elasmobranch cognitive abilities have used visual stimuli, assessing a wide range of discrimination tasks, memory retention and spatial learning abilities. Some studies using aco...

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Bibliographic Details
Published in:Scientific reports 2022-04, Vol.12 (1), p.6520-6520, Article 6520
Main Authors: Poppelier, Tamar, Bonsberger, Jana, Berkhout, Boris Woody, Pollmanns, Reneé, Schluessel, Vera
Format: Article
Language:English
Subjects:
631/378/2649/1723
631/601
631/601/18
Acoustics
Animals
Anthropogenic factors
Auditory Perception
Bamboo
Chiloscyllium griseum
Chiloscyllium plagiosum
Cognitive ability
Discrimination, Psychological
Fish conservation
Go/no-go discrimination learning
Humanities and Social Sciences
Learning
multidisciplinary
Science
Science (multidisciplinary)
Sharks
Sound
Spatial discrimination learning
Spatial memory
Visual discrimination
Visual stimuli
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Summary:Cognitive abilities of sharks are well developed and comparable to teleosts and other vertebrates. Most studies exploring elasmobranch cognitive abilities have used visual stimuli, assessing a wide range of discrimination tasks, memory retention and spatial learning abilities. Some studies using acoustic stimuli in a cognitive context have been conducted, but a basic understanding of sound induced behavioural changes and the underlying mechanisms involved are still lacking. This study explored the acoustic discrimination abilities of seven juvenile grey bamboo sharks ( Chiloscyllium griseum ) using a Go/No-Go method, which so far had never been tested in sharks before. After this, the smallest frequency difference leading to a change in behaviour in the sharks was studied using a series of transfer tests. Our results show that grey bamboo sharks can learn a Go/No-Go task using both visual and acoustic stimuli. Transfer tests elucidated that, when both stimulus types were presented, both were used. Within the tested range of 90–210 Hz, a frequency difference of 20–30 Hz is sufficient to discriminate the two sounds, which is comparable to results previously collected for sharks and teleosts. Currently, there is still a substantial lack of knowledge concerning the acoustic abilities and sound induced behaviours of sharks while anthropogenic noise is constantly on the rise. New insights into shark sound recognition, detection and use are therefore of the utmost importance and will aid in management and conservation efforts of sharks.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-022-10257-1