Integrative bioacoustics discrimination of eight delphinid species in the western South Atlantic Ocean.

This study presents an integrative bioacoustics approach to discriminate eight species of odontocetes found on the outer continental shelf and slope of the western South Atlantic Ocean. Spinner, Atlantic spotted, rough-toothed, Risso's, bottlenose, short-beaked common dolphins, killer and long-...

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Bibliographic Details
Published in:PLOS ONE
Main Authors: Thiago Orion Simões Amorim, Franciele Rezende de Castro, Juliana Rodrigues Moron, Bruna Ribeiro Duque, Juliana Couto Di Tullio, Eduardo Resende Secchi, Artur Andriolo
Format: Article in Journal/Newspaper
Language:English
Published: Public Library of Science (PLoS) 2019
Subjects:
Medicine
R
Science
Q
South Atlantic Ocean
Online Access:https://doi.org/10.1371/journal.pone.0217977
https://doaj.org/article/8401140e85b044d48d9945f899c0979d
Description
Summary:This study presents an integrative bioacoustics approach to discriminate eight species of odontocetes found on the outer continental shelf and slope of the western South Atlantic Ocean. Spinner, Atlantic spotted, rough-toothed, Risso's, bottlenose, short-beaked common dolphins, killer and long-finned pilot whales were visually confirmed during recordings with a 3-element omnidirectional hydrophone array. Spectral and time parameters of whistles and echolocation clicks were used in a discriminant function analysis and a classification tree model. As a first step, whistles and clicks were analysed separately; a further analysis consisted of both vocalisations jointly classified. All species showed species-specific properties in their vocalisations. Whistles had greater misclassification rates when compared to clicks. The correct classification was enhanced by the joint step, given the 5.8% error in the discriminant function analysis and a misclassification rate of 18.8% in the tree model. In addition, Receiver Operating Characteristic curves resulting from the tree algorithm analysis exhibited better model efficiency for all species in the joint classification. These findings on acoustical discrimination of such abundant and cosmopolitan species contribute to delphinid classification systems.

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