Internal states and extrinsic factors both determine monkey vocal production

Liao, Diana A.; Zhang, Yisi; Cai, Lili; Ghazanfar, Asif A.

doi:10.1073/pnas.1722426115

Cited by 71 publications

(81 citation statements)

References 50 publications

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“…Turning first to primates, both monkeys and apes display relevant behavior. Marmosets, a New World monkey who engages in turn taking [62], uses different proportions of affiliative call types depending on social distance [63], as well as loudness relative to physical distance [64]. They can also convey identity through aspects of their calls [65].…”

Section: Box 3 Evidence Of Vocal Learning Abilities In Species Outsimentioning

confidence: 99%

Vocal learning: Beyond the continuum

Martins¹,

Boeckx²

2020

PLoS Biol

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Vocal learning is the ability to modify vocal output on the basis of experience. Traditionally, species have been classified as either displaying or lacking this ability. A recent proposal, the vocal learning continuum, recognizes the need to have a more nuanced view of this phenotype and abandon the yes-no dichotomy. However, it also limits vocal learning to production of novel calls through imitation, moreover subserved by a forebrain-to-phonatorymuscles circuit. We discuss its limitations regarding the characterization of vocal learning across species and argue for a more permissive view.

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Section: Box 3 Evidence Of Vocal Learning Abilities In Species Outsimentioning

confidence: 99%

Vocal learning: Beyond the continuum

Martins¹,

Boeckx²

2020

PLoS Biol

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“…Vocal flexibility during perturbing noise in marmoset monkeys. Current studies have control when [14], where [38], and what to vocalize [39]. In addition, recent studies revealed 232 that marmosets are able to modulate distinct call parameters in response to acoustic 233 feedback [18,40].…”

Section: Monkeys 190mentioning

confidence: 99%

Compensatory mechanisms affect sensorimotor integration during ongoing vocal-motor acts in marmoset monkeys

Pomberger

Loeschner

Hage

2019

Preprint

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1In vertebrates, any transmission of vocal signals faces the challenge of acoustic 2 interferences such as heavy rain, wind, animal, or urban sounds. Consequently, several 3 mechanisms and strategies have evolved to optimize the signal-to-noise ratio. Examples to 4 increase detectability are the Lombard effect, an involuntary rise in call amplitude in 5 response to masking ambient noise, which is often associated with several other vocal 6 changes such as call frequency and duration, as well as the animals' capability of limiting 7 calling to periods where noise perturbation is absent. Previous studies revealed rapid vocal 8 flexibility and various audio-vocal integration mechanisms in marmoset monkeys. Using 9 acoustic perturbation triggered by vocal behavior, we investigated whether marmoset 10 monkeys are capable of exhibiting changes in call structure when perturbing noise starts 11 after call onset or whether such effects only occur if noise perturbation starts prior to call 12 onset. We show that marmoset monkeys are capable of rapidly modulating call amplitude 13 and frequency in response to such perturbing noise bursts. Vocalizations swiftly increased 14 call frequency after noise onset indicating a rapid effect of perturbing noise on vocal motor 15 pattern production. Call amplitudes were also affected. Interestingly, however, the 16 marmosets did not exhibit the Lombard effect as previously reported but decreased their call 17 intensity in response to perturbing noise. Our findings indicate that marmosets possess a 18 general avoidance strategy to call in the presences of ambient noise and suggest that these 19 animals are capable of counteracting a previously thought involuntary audio-vocal 20 mechanism, the Lombard effect, presumably via cognitive control processes. 21 Keywords22 Audio-vocal integration; Callithrix jacchus; primate communication; vocal communication; 23 vocal flexibility 24

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“…Hence, it is plausible that the ability to associate emotional content to specific changes in the voice, which goes beyond the association between discrete units and their denotation, constitutes a fundamental evolutionary precursor of language. Future research shall further address this line of investigation, which will advance the study of the evolutionary vocal precursors of language, placing it into a fruitful perspective (see Liao, Zhang, Cai, & Ghazanfar, 2018).…”

Section: Biologically Universal Meanings At the Origins Of Languagementioning

confidence: 99%

“…Recent research on marmoset monkeys (Callithrix jacchus) investigated whether monkey calls are automatic reflexes intrinsically linked to internal states such as emotional arousal, or whether they result from a degree of volitional vocal control, and can thus be strategically used to manipulate the listeners' reactions (Liao et al, 2018). Interestingly, the authors found that physical distance from a conspecific and visual access to her/him affected the level of arousal, resulting into different vocal behaviors.…”

Section: Concluding Remarks: Social Interactions At the Origins Of Lamentioning

confidence: 99%

Emotion Communication Through Voice Modulation: Insights on Biological and Evolutionary Underpinnings of Language

Filippi

2019

THS

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The aim of this review is to enhance our understanding of the role of emotional communication in the emergence of language. I provide data on the following research topics: 1) Cross-species comparative approach to the anatomical principles governing emotional vocal production. 2) Analysis of acoustic parameters conveying emotional arousal and valence through voice modulation across human cultures and a wide variety of vocalizing nonhuman animals. On this regard, I will describe the evolutionary advantage of being able to identify emotional content in both heterospecific and conspecific vocalizations. 3) The relative salience of emotional voice modulation and verbal content in emotional meaning processing, as an indicator of the biological role of voice modulation in the emergence of language. Finally, I propose that co-evolutionary dynamics between genetic transmission of the cognitive mechanisms underpinning language and socio-cultural transmission of vocal behaviors are responsible for the emergence of the abilities involved in language.

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Internal states and extrinsic factors both determine monkey vocal production

Cited by 71 publications

References 50 publications

Vocal learning: Beyond the continuum

Vocal learning: Beyond the continuum

Compensatory mechanisms affect sensorimotor integration during ongoing vocal-motor acts in marmoset monkeys

Emotion Communication Through Voice Modulation: Insights on Biological and Evolutionary Underpinnings of Language

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