Pup Directed Vocalizations of Adult Females and Males in a Vocal Learning Bat

Fernandez, Ahana Aurora; Knörnschild, Mirjam

doi:10.3389/fevo.2020.00265

Cited by 17 publications

(10 citation statements)

References 42 publications

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“…Infant attention is captured by certain kinds of vocalizations, reinforcing altered vocal production from adults toward their offspring. For example, female greater sac-winged bats (Saccopteryx bilineata), a species with vocal production learning, direct vocalizations to their pups that have different timbre and pitch, as compared to vocalizations directed toward other adults (Fernandez & Knornschild, 2020). Zebra finches also produce pupil-directed song that results in increased juvenile attention (Chen et al 2016).…”

Section: Infants Play An Active Role In Their Own Developmentmentioning

confidence: 99%

The Origins of Social Knowledge in Altricial Species

Faust

Carouso-Peck

Elson

et al. 2020

Annu. Rev. Dev. Psychol.

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Human infants are altricial, born relatively helpless and dependent on parental care for an extended period of time. This protracted time to maturity is typically regarded as a necessary epiphenomenon of evolving and developing large brains. We argue that extended altriciality is itself adaptive, as a prolonged necessity for parental care allows extensive social learning to take place. Human adults possess a suite of complex social skills, such as language, empathy, morality, and theory of mind. Rather than requiring hardwired, innate knowledge of social abilities, evolution has outsourced the necessary information to parents. Critical information for species-typical development, such as species recognition, may originate from adults rather than from genes, aided by underlying perceptual biases for attending to social stimuli and capacities for statistical learning of social actions. We draw on extensive comparative findings to illustrate that, across species, altriciality functions as an adaptation for social learning from caregivers. Expected final online publication date for the Annual Review of Developmental Psychology, Volume 2 is December 15, 2020. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Section: Infants Play An Active Role In Their Own Developmentmentioning

confidence: 99%

The Origins of Social Knowledge in Altricial Species

Faust

Carouso-Peck

Elson

et al. 2020

Annu. Rev. Dev. Psychol.

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“…Combining classical acoustic parameters and LFCCs can enhance the success of bat species identification in situations that have been challenging in the past and can help to make the most of acoustic monitoring. The combination of classical acoustic parameters and cepstral coefficients has led to convincing classification results for other species such as fish (Noda et al, 2016 ) and insects (Noda et al, 2019 ) and it has also been used to discriminate between individuals or contexts (giant otters: Mumm & Knörnschild, 2017 ; bats: Araya‐Salas et al, 2020 ; Fernandez & Knörnschild, 2020 ; Knörnschild et al, 2017 ). In contrast to our test data, all those studies are based on sound recordings containing vocalizations of one individual or one particular species.…”

Section: Discussionmentioning

confidence: 99%

The soundscape of swarming: Proof of concept for a noninvasive acoustic species identification of swarming Myotis bats

Bergmann

Burchardt

Wimmer

et al. 2022

Ecology and Evolution

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Bats emit echolocation calls to orientate in their predominantly dark environment. Recording of species‐specific calls can facilitate species identification, especially when mist netting is not feasible. However, some taxa, such as Myotis bats can be hard to distinguish acoustically. In crowded situations where calls of many individuals overlap, the subtle differences between species are additionally attenuated. Here, we sought to noninvasively study the phenology of Myotis bats during autumn swarming at a prominent hibernaculum. To do so, we recorded sequences of overlapping echolocation calls ( N = 564) during nights of high swarming activity and extracted spectral parameters (peak frequency, start frequency, spectral centroid) and linear frequency cepstral coefficients (LFCCs), which additionally encompass the timbre (vocal “color”) of calls. We used this parameter combination in a stepwise discriminant function analysis (DFA) to classify the call sequences to species level. A set of previously identified call sequences of single flying Myotis daubentonii and Myotis nattereri , the most common species at our study site, functioned as a training set for the DFA. 90.2% of the call sequences could be assigned to either M. daubentonii or M. nattereri , indicating the predominantly swarming species at the time of recording. We verified our results by correctly classifying the second set of previously identified call sequences with an accuracy of 100%. In addition, our acoustic species classification corresponds well to the existing knowledge on swarming phenology at the hibernaculum. Moreover, we successfully classified call sequences from a different hibernaculum to species level and verified our classification results by capturing swarming bats while we recorded them. Our findings provide a proof of concept for a new noninvasive acoustic monitoring technique that analyses “swarming soundscapes” by combining classical acoustic parameters and LFCCs, instead of analyzing single calls. Our approach for species identification is especially beneficial in situations with multiple calling individuals, such as autumn swarming.

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“…The pup-directed vocalizations reported in 60 from 13 female pups -which evidently contain a high timbre variability -must be expected to result in poor classification performance and this result directly replicates findings for human speech 61 and our results from the within register tests -ADS-ADS and IDS-IDS -in which the higher variability of IDS has disadvantages over ADS recognition (see above). Hence, a lower acoustic variability in adultdirected bat vocalizations would mean that their classification rates should be higher compared to pup-directed vocalizations (classification results not reported in 60 ). Bat pups, however, are evidently good at identifying their caregivers 62 and in the light of the results reported here, it is plausible that this performance is supported by the higher variability vocalizations reported in 60 .…”

Section: Discussionmentioning

confidence: 99%

“…Hence, a lower acoustic variability in adultdirected bat vocalizations would mean that their classification rates should be higher compared to pup-directed vocalizations (classification results not reported in 60 ). Bat pups, however, are evidently good at identifying their caregivers 62 and in the light of the results reported here, it is plausible that this performance is supported by the higher variability vocalizations reported in 60 . We predict that using pup-directed bat vocalizations as training material for a recognition task would show similar training advantages to the human data reported here.…”

Section: Discussionmentioning

confidence: 99%