Building
Blocks of Bird Babble Identified
University of Zurich
 |
| Chestnut-crowned babbler (Wikipedia) |
Investigating whether animals share this basic combinatorial ability has been complicated by difficulties in identifying whether animal vocalizations are made from smaller, meaningless sounds, or building blocks.
New research by scientists at the Universities of Zurich, Exeter, Warwick, Macquarie and New South Wales has addressed this question in the calls of the chestnut-crowned babbler (Pomatostomus ruficeps) – a highly social bird from the Australian Outback.
Previous research
demonstrated that chestnut-crowned babbler calls seemed to be composed of two
different sounds “A” and “B” in different arrangements when performing specific
behaviors. When flying, the birds produced a flight call “AB”, but when feeding
chicks in the nest they emitted “BAB” provisioning calls.
In the current study, the authors used playback experiments, previously used to test speech-sound discrimination in human infants, to probe the perception of the sound elements in babblers.
“Through systematic comparisons we tested which of the elements babblers perceived as equivalent or different sounds. In doing so, we were able to confirm that the calls could be broken up into two perceptually distinct sounds that are shared across the calls in different arrangements,” explains Sabrina Engesser from the University of Zurich, lead author on the study.
“Furthermore, none of the comprising elements carried the meaning of the calls, confirming the elements are meaningless,” she adds.
In the current study, the authors used playback experiments, previously used to test speech-sound discrimination in human infants, to probe the perception of the sound elements in babblers.
“Through systematic comparisons we tested which of the elements babblers perceived as equivalent or different sounds. In doing so, we were able to confirm that the calls could be broken up into two perceptually distinct sounds that are shared across the calls in different arrangements,” explains Sabrina Engesser from the University of Zurich, lead author on the study.
“Furthermore, none of the comprising elements carried the meaning of the calls, confirming the elements are meaningless,” she adds.
“This system is
reminiscent of the way humans use sounds to form meaningful words,” says
co-author Andy Russell from the University of Exeter. The research findings,
which are published in the journal Proceedings of the National Academy
of Sciences, reveal a potential early step in the emergence of the
elaborate combinatorial sound system characterizing human language.
Understanding the
evolution of communication
Last author Simon
Townsend from the University of Zurich and the University of Warwick says:
“This is the first time that the meaning-generating building blocks of a
non-human communication system have been experimentally identified.”
He concludes: “Although the building blocks in the babbler system may be of a very simple kind, it might still help us understand how combinatoriality initially evolved in humans.”
He concludes: “Although the building blocks in the babbler system may be of a very simple kind, it might still help us understand how combinatoriality initially evolved in humans.”
These findings raise the
exciting possibility that the capacity to generate meaning from meaningless
building blocks is widespread in animals. However, the authors caution that
there are still considerable differences between such systems and word
generation in language.
They emphasize that a focus on the acoustic distinctiveness of sounds in meaningful animal vocalizations offers a promising approach to investigate the building blocks of non-human animal communication systems.
They emphasize that a focus on the acoustic distinctiveness of sounds in meaningful animal vocalizations offers a promising approach to investigate the building blocks of non-human animal communication systems.
Literature:
Sabrina Engesser,
Jennifer Holub, Louis O'Neill, Andrew Russell, Simon Townsend. Chestnut-crowned
babbler calls are composed of meaningless shared building blocks. PNAS.
September 9, 2019. DOI: 10.1073/pnas.1819513116
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