TY - JOUR
T1 - The newly described Araguaian river dolphins, Inia araguaiaensis (Cetartiodactyla, Iniidae), produce a diverse repertoire of acoustic signals
AU - Melo-Santos, Gabriel
AU - Figueiredo Rodrigues, Angélica Lúcia
AU - Tardin, Rodrigo Hipólito
AU - Maciel, Israel de Sá
AU - Marmontel, Miriam
AU - da Silva, Maria Luisa
AU - May-Collado, Laura Johanna
N1 - This work was funded by the Rufford Foundation and Cetacean Society International. Gabriel Melo-Santos received a scholarship from the CAPES Foundation from the Brazilian Ministry of Education. Funding was also contributed by the Swarovski Foundation.
PY - 2019/4/19
Y1 - 2019/4/19
N2 - The recent discovery of the Araguaian river dolphin (Inia araguaiaensis)
highlights how little we know about the diversity and biology of river
dolphins. In this study, we described the acoustic repertoire of this
newly discovered species in concert with their behaviour. We analysed
frequency contours of 727 signals (sampled at 10 ms temporal
resolution). These contours were analyzed using an adaptive resonance
theory neural network combined with dynamic time-warping (ARTwarp).
Using a critical similarity value of 96%, frequency contours were
categorized into 237 sound-types. The most common types were emitted
when calves were present suggesting a key role in mother-calf
communication. Our findings show that the acoustic repertoire of river
dolphins is far from simple. Furthermore, the calls described here are
similar in acoustic structure to those produced by social delphinids,
such as orcas and pilot whales. Uncovering the context in which these
signals are produced may help understand the social structure of this
species and contribute to our understanding of the evolution of acoustic
communication in whales.
AB - The recent discovery of the Araguaian river dolphin (Inia araguaiaensis)
highlights how little we know about the diversity and biology of river
dolphins. In this study, we described the acoustic repertoire of this
newly discovered species in concert with their behaviour. We analysed
frequency contours of 727 signals (sampled at 10 ms temporal
resolution). These contours were analyzed using an adaptive resonance
theory neural network combined with dynamic time-warping (ARTwarp).
Using a critical similarity value of 96%, frequency contours were
categorized into 237 sound-types. The most common types were emitted
when calves were present suggesting a key role in mother-calf
communication. Our findings show that the acoustic repertoire of river
dolphins is far from simple. Furthermore, the calls described here are
similar in acoustic structure to those produced by social delphinids,
such as orcas and pilot whales. Uncovering the context in which these
signals are produced may help understand the social structure of this
species and contribute to our understanding of the evolution of acoustic
communication in whales.
KW - Boto
KW - Behavior
KW - Acoustic communication
KW - Mother-calf pairs
KW - Non-linear phenomena
U2 - 10.7717/peerj.6670
DO - 10.7717/peerj.6670
M3 - Article
SN - 2167-8359
VL - 7
JO - PeerJ
JF - PeerJ
M1 - e6670
ER -