Katy Donegan scite author profile

Katy Donegan

5Publications

98Citation Statements Received

247Citation Statements Given

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Bottlenose dolphins can understand their partner's role in a cooperative task

Jaakkola¹,

Guarino²,

Donegan³

et al. 2018

Proc. R. Soc. B.

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In recent decades, a number of studies have examined whether various non-human animals understand their partner's role in cooperative situations. Yet the relatively tolerant timing requirements of these tasks make it theoretically possible for animals to succeed by using simple behavioural strategies rather than by jointly intended coordination. Here we investigated whether bottlenose dolphins could understand a cooperative partner's role by testing whether they could learn a button-pressing task requiring precise behavioural synchronization. Specifically, members of cooperative dyads were required to swim across a lagoon and each press their own underwater button simultaneously (within a 1 s time window), whether sent together or with a delay between partners of 1–20 s. We found that dolphins were able to work together with extreme precision even when they had to wait for their partner, and that their coordination improved over the course of the study, with the time between button presses in the latter trials averaging 370 ms. These findings show that bottlenose dolphins can learn to understand their partner's role in a cooperative situation, and suggest that the behavioural synchronization evident in wild dolphins' synchronous movement and coordinated alliance displays may be a generalized cognitive ability that can also be used to solve novel cooperative tasks.

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Evidence that bottlenose dolphins can communicate with vocal signals to solve a cooperative task

King

Guarino²,

Donegan³

et al. 2021

R. Soc. open sci.

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Cooperation experiments have long been used to explore the cognition underlying animals' coordination towards a shared goal. While the ability to understand the need for a partner in a cooperative task has been demonstrated in a number of species, there has been far less focus on cooperation experiments that address the role of communication. In humans, cooperative efforts can be enhanced by physical synchrony, and coordination problems can be solved using spoken language. Indeed, human children adapt to complex coordination problems by communicating with vocal signals. Here, we investigate whether bottlenose dolphins can use vocal signals to coordinate their behaviour in a cooperative button-pressing task. The two dolphin dyads used in this study were significantly more likely to cooperate successfully when they used whistles prior to pressing their buttons, with whistling leading to shorter button press intervals and more successful trials. Whistle timing was important as the dolphins were significantly more likely to succeed if they pushed their buttons together after the last whistle, rather than pushing independently of whistle production. Bottlenose dolphins are well known for cooperating extensively in the wild, and while it remains to be seen how wild dolphins use communication to coordinate cooperation, our results reveal that at least some dolphins are capable of using vocal signals to facilitate the successful execution of coordinated, cooperative actions.

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Further insights into postpartum signature whistle use in bottlenose dolphins (Tursiops truncatus)

King¹,

Guarino²,

Donegan³

et al. 2016

Marine Mammal Science

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Do dolphins really have a rightward lateralization for action? The importance of behavior-specific and orientation-neutral coding

Jaakkola¹,

Loyer²,

Guarino³

et al. 2021

Behavioural Brain Research

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Data from: Bottlenose dolphins can understand their partner’s role in a cooperative task

Jaakkola¹,

Guarino²,

Donegan³

et al. 2018

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Katy Donegan

Bottlenose dolphins can understand their partner's role in a cooperative task

Evidence that bottlenose dolphins can communicate with vocal signals to solve a cooperative task

Further insights into postpartum signature whistle use in bottlenose dolphins (Tursiops truncatus)

Do dolphins really have a rightward lateralization for action? The importance of behavior-specific and orientation-neutral coding

Data from: Bottlenose dolphins can understand their partner’s role in a cooperative task

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