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Acoustic behaviour in bottlenose dolphins during two different target discrimination tasks

Echolocation is an active sensory system that gives an acoustic representation of the surroundings by the animal emitting clicks, detecting and analysing echoes. However, little is known about dolphin biosonar in moving animals, as well as of the process of controlling click emissions, and the cues...

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Bibliographic Details
Published in:The Journal of the Acoustical Society of America 2023-10, Vol.154 (4_supplement), p.A47-A47
Main Authors: Torres Ortiz, Sara, Hernandez Sanchez, Ariana, Jakobsen, Freja, Almunia, Javier, Wahlberg, Magnus
Format: Article
Language:English
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Summary:Echolocation is an active sensory system that gives an acoustic representation of the surroundings by the animal emitting clicks, detecting and analysing echoes. However, little is known about dolphin biosonar in moving animals, as well as of the process of controlling click emissions, and the cues used by the animal to discriminate between different targets. We studied how bottlenose dolphins may use their dynamic sound production and hearing abilities, along with head and body movements, to detect and classify objects through echolocation. We designed two different experiments with blindfolded bottlenose dolphins (Tursiups truncatus) swimming freely along the pool and actively discriminating between two targets of three different materials, and a second one to determine the capability to discriminate wall thickness differences in cylindrical targets of the same material. By means of synchronized cameras and hydrophones, we observed clear differences between individuals of the same species in terms of ability to discriminate, but similar performance with the harbor porpoises in relation to the materials chosen with the difficulty of the task. Studying how the dolphins solved a simplified echolocation task, allow a better understanding of the processes behind target detection and discrimination capabilities during natural biosonar circumstances .
ISSN:0001-4966
1520-8524
DOI:10.1121/10.0022754