Dwarf mongoose alarm calls: investigating a complex non-human animal call

Collier, Katie; Radford, Andrew N.; Stoll, Sabine; Watson, Stuart K.; Manser, Marta B.; Bickel, Balthasar; Townsend, Simon W.

doi:10.1098/rspb.2019.2514

Cited by 16 publications

(19 citation statements)

References 48 publications

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“…We carried out a permutated discriminant function analysis (pDFA; R function by Roger Mundry, based on the lda function of the 'MASS' R package version 7.5-53; Venables and Ripley 2002;Mundry and Sommer 2007) to check the classification in the three attributed call types (i.e., 'kroo', 'tcha', 'kow') with call type as test variable and the trial ID as control factor (pDFA1). The pDFA allows to control for the non-independence of data due to repeated measurements (i.e., control factor), unlike conventional DFAs, and is now commonly used for acoustic analyses of animal vocal repertoires (e.g., Collier et al 2020;Keenan et al 2020). We also analysed inter-individual variation by running another pDFA (pDFA2) on N = 6 different males (i.e., six different trials, selected based on home range estimates and time of recording; see Online Resource 1, Table S4), who produced a minimum of 22 'kroo' calls of good acoustic quality (range: 22-55 calls).…”

Section: Call Classificationmentioning

confidence: 99%

“…General alarm calls have already been described for other primate and non-primate species, such as Gunnison's prairie dogs (Cynomys gunnisoni) 'bark' calls for different predator types (Loughry et al 2019) or woolly monkey (Lagothrix lagothricha) 'eolk' calls to predatory and non-predatory disturbances (Casamitjana 2002). Different functional explanations have been offered for general alarm calls (Dezecache and Berthet 2018), such as providing callers with the option to create a semantic contrast to predator-specific alarm calls, typically aerial alarm calls (e.g., dwarf mongoose (Helogale parvula), Collier et al 2020;putty-nosed monkeys, Price et al 2009), or to issue a behavioural imperative (e.g., 'hide!') to warn other group members or, in exceptional cases, deceptively, to gain access to food (Flower et al 2014).…”

Section: 'Kroo' Calls As General Alarmsmentioning

confidence: 99%

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Lesser spot-nosed monkeys coordinate alarm call production with associated Campbell’s monkeys

Floch

Bouchard

Gallot

et al. 2021

Behav Ecol Sociobiol

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Forest monkeys often form semi-permanent mixed-species associations to increase group-size related anti-predator benefits without corresponding increases in resource competition. In this study, we analysed the alarm call system of lesser spot-nosed monkeys, a primate that spends most of its time in mixed-species groups while occupying the lowest and presumably most dangerous part of the forest canopy. In contrast to other primate species, we found no evidence for predator-specific alarm calls. Instead, males gave one general alarm call type (‘kroo’) to three main dangers (i.e., crowned eagles, leopards and falling trees) and a second call type (‘tcha-kow’) as a coordinated response to calls produced in non-predatory contexts (‘boom’) by associated male Campbell’s monkeys. Production of ‘kroo’ calls was also strongly affected by the alarm calling behaviour of male Campbell’s monkeys, suggesting that male lesser spot-nosed monkeys adjust their alarm call production to another species’ vocal behaviour. We discuss different hypotheses for this unusual phenomenon and propose that high predation pressure can lead to reliance on other species vocal behaviour to minimise predation. Significance statement Predation can lead to the evolution of acoustically distinct, predator-specific alarm calls. However, there are occasional reports of species lacking such abilities, despite diverse predation pressure, suggesting that evolutionary mechanisms are more complex. We conducted field experiments to systematically describe the alarm calling behaviour of lesser spot-nosed monkeys, an arboreal primate living in the lower forest strata where pressure from different predators is high. We found evidence for two acoustically distinct calls but, contrary to other primates in the same habitat, no evidence for predator-specific alarms. Instead, callers produced one alarm call type (‘kroo’) to all predator classes and another call type (‘tcha-kow’) to non-predatory dangers, but only as a response to a specific vocalisation of Campbell’s monkeys (‘boom’). The production of both calls was affected by the calling behaviour of Campbell’s monkeys, suggesting that lesser spot-nosed monkey vocal behaviour is dependent on the antipredator behaviour of other species. Our study advances the theory of interspecies interactions and evolution of alarm calls.

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Section: Call Classificationmentioning

confidence: 99%

Section: 'Kroo' Calls As General Alarmsmentioning

confidence: 99%

Lesser spot-nosed monkeys coordinate alarm call production with associated Campbell’s monkeys

Floch

Bouchard

Gallot

et al. 2021

Behav Ecol Sociobiol

View full text Add to dashboard Cite

show abstract

“…Over the last 20 years, there has been a growing interest into the combinatorial abilities of animals, namely the propensity to sequence context-specific calls (i.e. meaning-bearing units, see Suzuki and Zuberbühler 2019 ) into larger potentially meaningful structures (Arnold and Zuberbühler 2006 ; Ouattara et al 2009 ; Engesser et al 2016 ; Suzuki et al 2016 ; Collier et al 2020 ). Combinatoriality is one mechanism that can increase the expressive potential of a finite vocal repertoire (Nowak et al 2000 ).…”

Section: Introductionmentioning

confidence: 99%

From collocations to call-ocations: using linguistic methods to quantify animal call combinations

Bosshard

Leroux

Lester

et al. 2022

Behav Ecol Sociobiol

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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 of two words with how each word combines with other words within a corpus, collocation analysis can highlight above chance, two-word combinations. Here, we demonstrate how this approach can also be applied to non-human animal signal sequences by implementing it on artificially generated data sets of call combinations. We argue collocation analysis represents a promising tool for identifying non-random, communicatively relevant call combinations and, more generally, signal sequences, in animals. Significance statement Assessing the propensity for animals to combine calls provides important comparative insights into the complexity of animal vocal systems and the selective pressures such systems have been exposed to. Currently, however, the objective quantification of context-specific call combinations has received less attention. Here we introduce an approach commonly applied in corpus linguistics, namely collocation analysis, and show how this method can be put to use for identifying call combinations more systematically. Through implementing the same objective method, so-called call-ocations, we hope researchers will be able to make more meaningful comparisons regarding animal signal sequencing abilities both within and across systems.

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“…Combinatoriality is one mechanism that can increase the expressive potential of a finite vocal repertoire. It therefore provides important comparative insights into the complexity of animal vocal systems and the selective pressures such systems have been exposed to (Collier et al, 2020). These data also hold great promise in furthering our understanding of the similarities between animal communication and human language given that, for many years, it was assumed that the systematic concatenation of meaning-bearing units (i.e., syntax) was a phenomenon unique to language (Hurford, 2012).…”

Section: Introductionmentioning

confidence: 99%

“…Over the last 20 years there has been growing interest into the combinatorial abilities of animals, namely the propensity to sequence context-specific calls (i.e. meaning-bearing units, see (Suzuki & Zuberbühler, 2019) into larger potentially meaningful structures (Arnold & Zuberbühler, 2006; Collier et al, 2020; Engesser, Ridley, & Townsend, 2016; Ouattara, Lemasson, & Zuberbühler, 2009; Suzuki, Wheatcroft, & Griesser, 2016). Combinatoriality is one mechanism that can increase the expressive potential of a finite vocal repertoire.…”

Section: Introductionmentioning

confidence: 99%

Dwarf mongoose alarm calls: investigating a complex non-human animal call

Cited by 16 publications

References 48 publications

Lesser spot-nosed monkeys coordinate alarm call production with associated Campbell’s monkeys

Lesser spot-nosed monkeys coordinate alarm call production with associated Campbell’s monkeys

From collocations to call-ocations: using linguistic methods to quantify animal call combinations

From collocations to call-ocations: using linguistic methods to quantify animal call combinations

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