[MARMAM] New paper: Assessing spatial patterns and density of a dolphin population through signature whistles
Dear MARMAM colleagues, On behalf of my co-authors I would like to share our recent publication in Marine Mammal Science: Romeu, B., Daura-Jorge, F. G., Hammond, P. S., Castilho, P. V., & Simões-Lopes, P. C. (2023). Assessing spatial patterns and density of a dolphin population through signature whistles. Marine Mammal Science, 1–15. https://doi.org/10./mms.13070 Abstract Some dolphin species produce signature whistles, which may allow the identification of individual dolphins using passive acoustic monitoring (PAM). Identifying individuals by their sounds may enhance the opportunities for monitoring and addressing biological and ecological questions about these species. Here, we explored the potential of signature whistles to investigate ecological aspects of a resident bottlenose dolphin population. Using a limited data set, with few individuals recognized by signature whistles, combined with spatial capture-recapture (SCR) methods, we investigated how effective such approach is describing spatial use patterns and estimating density for this population. The data were collected using 4–6 stationary bottom-moored recorders. Since only eight signature whistles were identified, our density estimate may represent a subset of the entire population. However, even with only a few signature whistles identified, our results confirmed the center of the core area used by these dolphins as the area with the highest encounter probability. In addition, our results provided evidence that these dolphins have the same spatial use pattern at night as during the day. This study shows that SCR analysis of signature whistle data can improve our ecological knowledge and understanding of dolphin populations. Any question or information about this paper, please contact me: romeu.bia...@gmail.com Kind regards, -- *Bianca Romeu * CRBio 88562/03-D ^ | \ __ - | - \ __ _ _/ ---- \ __ _/ -- \ / @ ) _ / __-- ===> /_ __ -- _ _ _ _ -- -- / /| / / /|/ __/ /__ /__^__ / ___ MARMAM mailing list MARMAM@lists.uvic.ca https://lists.uvic.ca/mailman/listinfo/marmam
[MARMAM] New paper: Low-frequency sampling rates are effective to record bottlenose dolphins
Dear colleagues, My co-authors and I would like to share our recent publication: Low-frequency sampling rates are effective to record bottlenose dolphins The paper was published this week in the Royal Society Open Science and is available as an open access article here: https://royalsocietypublishing.org/doi/10.1098/rsos.201598 Abstract Acoustic monitoring in cetacean studies is an effective but expensive approach. This is partly because of the high sampling rate required by acoustic devices when recording high-frequency echolocation clicks. However, the proportion of echolocation clicks recorded at different frequencies is unknown for many species, including bottlenose dolphins. Here, we investigated the echolocation clicks of two subspecies of bottlenose dolphins in the western South Atlantic Ocean. The possibility of recording echolocation clicks at 24 and 48 kHz was assessed by two approaches. First, we considered the clicks in the frequency range up to 96 kHz. We found a loss of 0.95–13.90% of echolocation clicks in the frequency range below 24 kHz, and 0.01–0.42% below 48 kHz, to each subspecies. Then, we evaluated these recordings downsampled at 48 and 96 kHz and confirmed that echolocation clicks are recorded at these lower frequencies, with some loss. Therefore, despite reaching high frequencies, the clicks can also be recorded at lower frequencies because echolocation clicks from bottlenose dolphins are broadband. We concluded that ecological studies based on the presence–absence data are still effective for bottlenose dolphins when acoustic devices with a limited sampling rate are used. I am available to answer any questions regarding our work: romeu.bia...@gmail.com Best regards, -- *Bianca Romeu * CRBio 88562/03-D ^ | \ __ - | - \ __ _ _/ ---- \ __ _/ -- \ / @ ) _ / __-- ===> /_ __ -- _ _ _ _ -- -- / /| / / /|/ __/ /__ /__^__ / ___ MARMAM mailing list MARMAM@lists.uvic.ca https://lists.uvic.ca/mailman/listinfo/marmam
[MARMAM] New publication - Boats affect a dolphin-fisher cooperation
Dear colleagues, We would like to share with you the last article from our research group, published in Animal Conservation: "Boat disturbance affects the acoustic behaviour of dolphins engaged in a rare foraging cooperation with fishers" Link to the full article: https://zslpublications.onlinelibrary.wiley.com/doi/epdf/10./acv.12667 DOI: https://doi.org/10./acv.12667 Abstract Acoustic behaviour is a key component of specialized foraging tactics for many aquatic species, especially cetaceans. However, in recent decades the natural environment has been increasingly exposed to a variety of anthropogenic noise sources, with the potential to impact natural foraging specializations dependent on acoustic communication. Here we evaluated whether boat noise has the potential to impact a rare foraging tactic used by individuals from a small population of the vulnerable Lahille’s bottlenose dolphin (Tursiops truncatus gephyreus) specialized in cooperation with artisanal fishers in southern Brazil. We tested whether the presence of boats changed the acoustic behaviour of dolphins when engaged in this cooperative foraging. We found that whistles and echolocation click rates were lower when boats were present, suggesting that cooperative foraging may potentially be reduced or interrupted by the presence of boats. Whistle parameters changed in response to the number, type and speed of boats, indicating a behavioural change and acoustic masking. Locally, our results reinforce the need for boat traffic regulations to minimize their impacts on these endangered dolphins and their rare cooperative tactic. From a broad perspective, we demonstrate how nonlethal impacts such as vessel disturbance can manifest subtle changes in animals’ natural behaviour and, in this case, present an insidious threat to a unique foraging specialization. PDF requests can be sand to: romeu.bia...@gmail.com -- *Bianca Romeu * CRBio 88562/03-D ^ | \ __ - | - \ __ _ _/ ---- \ __ _/ -- \ / @ ) _ / __-- ===> /_ __ -- _ _ _ _ -- -- / /| / / /|/ __/ /__ /__^__ / ___ MARMAM mailing list MARMAM@lists.uvic.ca https://lists.uvic.ca/mailman/listinfo/marmam
[MARMAM] New publication in Ethology
Dear MARMAM readers, We are pleased to announce the article “Bottlenose dolphins that forage with artisanal fishermen whistle differently” that was recently published in Ethology. Romeu B, Cantor M, Bezamat C, Simões-Lopes PC, Daura-Jorge FG. Bottlenose dolphins that forage with artisanal fishermen whistle differently. Ethology . 2017;00:1–10. https://doi.org/10./eth.12665 *Abstract* Acoustic communication is a taxonomically widespread phenomenon, crucial for social animals. We evaluate social sounds from bottlenose dolphins (*Tursiops truncatus*) of Laguna, southern Brazil, whose social structure is organized around a cooperative foraging tactic with artisanal fishermen. This tactic involves stereotyped and coordinated behaviour by dolphins and fishermen and is performed by a subset of the dolphin population, splitting it into two distinct social communities. We compared the acoustic parameters and type of whistles emitted by dolphins of the “non-cooperative” and “cooperative” communities, both during their interactions with fishermen and in times where dolphins were engaged in other types of foraging. Our findings show how dolphins’ social sounds differ between foraging tactics and social communities. The frequencies of six whistle types (ascending, descending, concave, convex, multiple, flat) were significantly dependent on tactics and communities. Ascending whistles weremore common than expected during foraging without fishermen, and among dolphins of the non-cooperative community. Whistle acoustic parameters (duration, number of inclination changes and inflection points, and initial, final, maximum, minimum frequencies) also varied between social communities. In general, whistles emitted by cooperative dolphins, mainly when not interacting with fishermen, tended to be shorter, had higher frequency and more inflections than those emitted by non-cooperative dolphins. These results suggest that different whistles may convey specific information among dolphins related to foraging, which we hypothesize promote social cohesion among members of the same social community. These differences in acoustic repertoires add a new dimension of complexity to this unique human–animal interaction. Full text is available at: http://onlinelibrary.wiley.com/doi/10./eth.12665/full Or send an e-mail to: romeu.bia...@gmail.com Best regards, Bianca Romeu -- *Bianca Romeu * CRBio 88562/03-D \ __ -| \- __ _/ -- __ _/ -- / _ __ -- __@ ) / / -- _ _ __ --=== __//__ | / /__^__\|/ ___ MARMAM mailing list MARMAM@lists.uvic.ca https://lists.uvic.ca/mailman/listinfo/marmam