Humpback whale adult females and calves balance acoustic contact with vocal crypsis during periods of increased separation ...

Acoustic communication is important for animals with dependent young, particularly when they are spatially separated. Maternal humpback whales (Megaptera novaeangliae) use acoustic calling to help minimise the risk of separation from their young calves during migration. These pairs also use acoustic...

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Bibliographic Details
Main Authors: Indeck, Katherine, Noad, Michael, Dunlop, Rebecca
Format: Dataset
Language:English
Published: Dryad 2021
Subjects:
acoustic crypsis
active space
behavioural states
communication strategy
contact calling
parent-offspring interaction
separation
FOS Natural sciences
Humpback Whale
Megaptera novaeangliae
Online Access:https://dx.doi.org/10.5061/dryad.98sf7m0jd
https://datadryad.org/stash/dataset/doi:10.5061/dryad.98sf7m0jd
Description
Summary:Acoustic communication is important for animals with dependent young, particularly when they are spatially separated. Maternal humpback whales (Megaptera novaeangliae) use acoustic calling to help minimise the risk of separation from their young calves during migration. These pairs also use acoustic crypsis to minimise detection by males. How they balance a restricted active space with the need to maintain acoustic contact during periods of separation is not yet understood. Here, we analysed movement metrics of tagged adult female-calf pairs during migration to identify two behavioural states, ‘resting/milling’ and ‘travelling’. When travelling, these pairs dived synchronously and exhibited little to no spatial separation. Alternatively, adult females had significantly longer dive durations (p < 0.01) when resting, and while they spent prolonged times at depth, calves would surface several times independently. This demonstrated that these pairs are frequently separated during periods of rest. We then ... : This dataset was collected using animal-borne recording tags and accompanying boat- and land-based visual observations, as well as recordings from a moored hydrophone array. The non-hierarchical partitioning clustering method ‘k-means’ was used to determine adult female-calf behavioural states; a glmer was used to examine whether fine-scale dive parameters of the adult females were significantly different between behavioural states; GLMM's were used to determine if call rate (calls per hour) varied per individual between behavioural states; an lmer was used to determine if adult females modified their received call levels (dB re 1 µPa) in response to the behavioural state of the pair; and a site-specific frequency- and distance-dependent transmission loss equation was used to determine the communication active space of adult female-calf vocal signals, while a glmer was used to determine whether these pairs modified this active space in response to their behavioural state. ...

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