A new approach to identify mammals good at learning sounds

A new approach to identify mammals good at learning sounds

PGLS regressions representing acoustic allometry relationships between acoustic features and body mass (all variables log-transformed). Clockwise, from top-left, MaxDF, RangeDF, MeanDF, and MinDF. VPL species are indicated in red, while non-VPL species are indicated in black. Outliers (see defining criteria in Methods) are indicated by empty diamonds, while non-outliers are indicated by filled triangles. Apart from the regression involving frequency range (top-right panel), all regressions showed that acoustic features are significantly predicted by body mass (see electronic supplementary material, table S2). Credit: DOI: 10.1098/rstb.2020.0394

Why are some animals good at learning sounds? Did this skill appear when animals started “faking” their body size by lowering calls? In a new study on a wide range of mammals, Andrea Ravignani from the Max Planck Institute for Psycholinguistics and Maxime Garcia from the University of Zurich revisit this question. Surprisingly, many animals who are skilled vocalists (such as dolphins and seals) actually sound higher than would be expected for their body size.

Some —such as red deer—sound bigger than they really are. This means that their calls are lower than you would expect based on their body size. Biologists think that faking body size in such a way might be a strategy to impress the other sex. In a recent study, Garcia and Ravignani noticed that animals who can fake their body size by changing their calls also tend to be good at learning sounds—an ability known as . Could be the behind both faking body size and learning sounds? If true, this idea would have important implications for the evolution of speech.

To further explore the relationship between faking body size and vocal learning, Ravignani and Garcia expanded their earlier analyses of a wide range of mammals. Would the relation between faking body size and learning sounds turn out to be a systematic evolutionary pattern?

What they found was surprising. Contrary to expectations, most vocal learners—such as dolphins, whales and seals—sounded higher than you would expect based on their size, not lower. Ravignani explains: “There might be an alternative evolutionary scenario in vocal learners, where selective pressures favor individuals that can change their tone of voice from low to high.”

In other words, good vocal learners are those animals that can hit the high notes. Vocal learners who sounded lower than expected often had anatomical adaptations that could explain the lowered voice (such as a longer nose). Garcia adds: “Of course, there are exceptions, and we do not claim that all vocal learner species sound higher than expected for their . But there is a general trend, and this may help us to better characterize vocal communication in mammals.”

According to Ravignani and Garcia, their new framework may help predict which species are vocal . For instance, the manatee (or sea cow) is an animal that hasn’t yet shown vocal learning. However, as its calls are higher than expected, the sea cow may have hidden vocal talents. Likewise, non-vocalists who sound lower than expected, such as the Juan Fernandez fur seal, may turn out to have evolved specific anatomical adaptations.

Animals who try to sound ‘bigger’ are good at learning sounds

More information:
Andrea Ravignani et al, A cross-species framework to identify vocal learning abilities in mammals, Philosophical Transactions of the Royal Society B: Biological Sciences (2021). DOI: 10.1098/rstb.2020.0394

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Max Planck Institute for Psycholinguistics

A new approach to identify mammals good at learning sounds (2021, November 16)
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