Abstract
Mouse ultrasonic vocalizations (USVs) have variable spectrotemporal features, which researchers use to parse them into different categories. USVs may be important for communication, but it is unclear whether the categories that researchers have developed are relevant to the mice. Instead, other properties such as the number, rate, peak frequency, or bandwidth of the vocalizations may be important cues that the mice are using to interpret the nature of the social interaction. To investigate this, a comprehensive catalog of the USVs that mice are producing across different social contexts must be created. Forty male and female adult CBA/CaJ mice were recorded in isolation for five minutes following either a one-hour period of isolation or an exposure to a same- or opposite-sex mouse. Vocalizations were separated into nine categories based on the frequency composition of each USV. Additionally, USVs were quantified based on the bandwidth, duration, peak frequency, total number, and proportion of vocalizations produced. Results indicate that mice differentially produce their vocalizations across social encounters. There were significant differences in the number of USVs that mice produce across exposure conditions, the proportional probability of producing the different categories of USVs across sex and conditions, and the features of the USVs across conditions. In sum, there are sex-specific differences in production of USVs by laboratory mice, and prior social experiences matter for vocalization production. Furthermore, this study provides critical evidence that female mice probably produce vocalizations in opposite-sex interactions, which is important because this is an often overlooked variable in mouse communication research.
Highlights
Many animals rely on acoustic communication for transferring important social or environmental information from a sender to a receiver [1]
There was no significant effect of sex on the median number of ultrasonic vocalizations (USVs) produced (Z = 1.34, p = .176) (Fig 4), but the number of USVs did differ across exposure conditions (H = 21.385, df = 2, p < .001) (Fig 5a)
The number of vocalizations produced in the isolated condition differed from the same-sex condition (p < .001) and the isolated condition differed from the opposite-sex condition (p < .001), but the same- and opposite-sex exposure conditions did not differ from each other (p > .05)
Summary
Many animals rely on acoustic communication for transferring important social or environmental information from a sender to a receiver [1]. Signals vary with both environmental and behavioral contexts, in order to convey information about species and kin identification, hierarchical status, and sexual attraction [1]. Mice have emerged as a valuable model to study acoustic communication and communication disorders, since they produce ultrasonic vocalizations (USVs) in a variety of circumstances. CBA/CaJ mouse ultrasonic vocalizations convey individuality and kinship [3]. The research on context specificity has implied that USVs are important for the mouse courtship sequence [4,5], with particular vocalizations being emitted during specific stages of the mating sequence [2,6]
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