2022
DOI: 10.1007/s00265-022-03224-3
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From collocations to call-ocations: using linguistic methods to quantify animal call combinations

Abstract: Emerging data in a range of non-human animal species have highlighted a latent ability to combine certain pre-existing calls together into larger structures. Currently, however, the quantification of context-specific call combinations has received less attention. This is problematic because animal calls can co-occur with one another simply through chance alone. One common approach applied in language sciences to identify recurrent word combinations is collocation analysis. Through comparing the co-occurrence o… Show more

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Cited by 4 publications
(1 citation statement)
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“…In 90% of cases, for any given call the next call was produced within 2.31 s ((median = 0.656 s; IQR =1 s)), so as a precaution towards excluding temporally independent signalling events, the upper 10% of the call transition times (>2.31 s) were omitted from subsequent analysis. To examine the occurrence of different call-category pairs we adopted the multiple distinctive collocation analysis (MDCA) described in Bosshard et al [49] and used it for quantifying ‘collocations’ (grammatical constructions) in human [50] and animal [51] communication. Briefly, the method calculates binomial probabilities for every possible call category combination (accounting for sample size) and log-transforms them for estimation of under- or over-representative combinations (the greater the value, the stronger the association between call categories in the combination).…”
Section: Methodsmentioning
confidence: 99%
“…In 90% of cases, for any given call the next call was produced within 2.31 s ((median = 0.656 s; IQR =1 s)), so as a precaution towards excluding temporally independent signalling events, the upper 10% of the call transition times (>2.31 s) were omitted from subsequent analysis. To examine the occurrence of different call-category pairs we adopted the multiple distinctive collocation analysis (MDCA) described in Bosshard et al [49] and used it for quantifying ‘collocations’ (grammatical constructions) in human [50] and animal [51] communication. Briefly, the method calculates binomial probabilities for every possible call category combination (accounting for sample size) and log-transforms them for estimation of under- or over-representative combinations (the greater the value, the stronger the association between call categories in the combination).…”
Section: Methodsmentioning
confidence: 99%