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Bottlenose dolphin communication during a role-specialized group foraging task

Hamilton, Rebecca A. ; Gazda, Stefanie K. ; King, Stephanie L. ; Starkhammar, Josefin LU and Connor, Richard C. (2022) In Behavioural Processes 200.
Abstract

A division of labor with role specialization is defined as individuals specializing in a subtask during repetitions of a group task. While this behavior is ubiquitous among humans, there are only four candidates found among non-eusocial mammals: lions, mice, chimpanzees, and bottlenose dolphins. Bottlenose dolphins in the Cedar Keys, Florida, engage in role specialized “driver-barrier feeding”, where a “driver” dolphin herds mullet towards “barrier” dolphins. Thus trapped, the mullet leap out of the water where the dolphins catch them in air. To investigate whether dolphins use acoustic cues or signals to coordinate this behavior, vocalizations were recorded before and during driver-barrier feeding. Results of fine-scale audio and video... (More)

A division of labor with role specialization is defined as individuals specializing in a subtask during repetitions of a group task. While this behavior is ubiquitous among humans, there are only four candidates found among non-eusocial mammals: lions, mice, chimpanzees, and bottlenose dolphins. Bottlenose dolphins in the Cedar Keys, Florida, engage in role specialized “driver-barrier feeding”, where a “driver” dolphin herds mullet towards “barrier” dolphins. Thus trapped, the mullet leap out of the water where the dolphins catch them in air. To investigate whether dolphins use acoustic cues or signals to coordinate this behavior, vocalizations were recorded before and during driver-barrier feeding. Results of fine-scale audio and video analysis during 81 events by 7 different driver individuals suggest that barrier animals coordinate movements during these events by cueing on the driver's echolocation. Analysis of dolphin whistle occurrence before driving events versus another foraging technique, which does not involve role specialization, revealed significantly higher whistle production immediately prior to driver-barrier events. Possible whistle functions include signaling motivation, recruiting individuals to participate, and/or behavioral coordination. While the use of cues and signals is common in humans completing role-specialized tasks, this is the first study to investigate the use of vocalizations in the coordination of a role-specialized behavior in a non-human mammal.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Bottlenose dolphins, Cetaceans, Communication, Division of labor, Driver-barrier feeding, Role specialization
in
Behavioural Processes
volume
200
article number
104691
publisher
Elsevier
external identifiers
  • scopus:85133397030
  • pmid:35750114
ISSN
0376-6357
DOI
10.1016/j.beproc.2022.104691
language
English
LU publication?
yes
id
d9791dd4-9bcc-43d5-bb91-ceca87e24248
date added to LUP
2022-09-07 14:59:45
date last changed
2024-05-16 17:31:48
@article{d9791dd4-9bcc-43d5-bb91-ceca87e24248,
  abstract     = {{<p>A division of labor with role specialization is defined as individuals specializing in a subtask during repetitions of a group task. While this behavior is ubiquitous among humans, there are only four candidates found among non-eusocial mammals: lions, mice, chimpanzees, and bottlenose dolphins. Bottlenose dolphins in the Cedar Keys, Florida, engage in role specialized “driver-barrier feeding”, where a “driver” dolphin herds mullet towards “barrier” dolphins. Thus trapped, the mullet leap out of the water where the dolphins catch them in air. To investigate whether dolphins use acoustic cues or signals to coordinate this behavior, vocalizations were recorded before and during driver-barrier feeding. Results of fine-scale audio and video analysis during 81 events by 7 different driver individuals suggest that barrier animals coordinate movements during these events by cueing on the driver's echolocation. Analysis of dolphin whistle occurrence before driving events versus another foraging technique, which does not involve role specialization, revealed significantly higher whistle production immediately prior to driver-barrier events. Possible whistle functions include signaling motivation, recruiting individuals to participate, and/or behavioral coordination. While the use of cues and signals is common in humans completing role-specialized tasks, this is the first study to investigate the use of vocalizations in the coordination of a role-specialized behavior in a non-human mammal.</p>}},
  author       = {{Hamilton, Rebecca A. and Gazda, Stefanie K. and King, Stephanie L. and Starkhammar, Josefin and Connor, Richard C.}},
  issn         = {{0376-6357}},
  keywords     = {{Bottlenose dolphins; Cetaceans; Communication; Division of labor; Driver-barrier feeding; Role specialization}},
  language     = {{eng}},
  publisher    = {{Elsevier}},
  series       = {{Behavioural Processes}},
  title        = {{Bottlenose dolphin communication during a role-specialized group foraging task}},
  url          = {{http://dx.doi.org/10.1016/j.beproc.2022.104691}},
  doi          = {{10.1016/j.beproc.2022.104691}},
  volume       = {{200}},
  year         = {{2022}},
}