Abstract
While rat ultrasonic vocalizations (USVs) are known to vary with anticipation of an aversive vs. positive stimulus, little is known about USVs in adult mice in relation to behaviors. We recorded the calls of adult C57BL/6J male mice under different environmental conditions by exposing mice to both novel and familiar environments that varied in stress intensity through the addition of bright light or shallow water. In general, mouse USVs were significantly more frequent and of longer duration in novel environments. Particularly, mice in dimly-lit novel environments performed more USVs while exhibiting unsupported rearing and walking behavior, and these calls were mostly at high frequency. In contrast, mice exhibited more low frequency USVs when engaging in supported rearing behavior in novel environments. These findings are consistent with data from rats suggesting that low-frequency calls are made under aversive conditions and high-frequency calls occur in non-stressful conditions. Our findings increase understanding of acoustic signals associated with exploratory behaviors relevant to cognitive and motivational aspects of behavior.
Highlights
Exploration is an essential aspect of behavior, but is risky and avoidance behavior may occur in organisms encountering novel stimuli (Berlyne, 1960)
We first quantified and analyzed the number and features of ultrasonic vocalizations (USVs) emitted in the five different treatment conditions: ND, NB, FD, familiar bright light (FB), and filled with shallow water (FW) (Figure 1)
We explored mouse USVs in non-social contexts, manipulating the level of aversive condition by adding a bright light or shallow water to the experimental chamber
Summary
Exploration is an essential aspect of behavior, but is risky and avoidance behavior may occur in organisms encountering novel stimuli (Berlyne, 1960). Approach or avoidance is one of the most basic behavioral decisions for animals encountering novel environments. Approaching new environments is thought to be driven by foraging or mating needs. The initial motivation to approach new environments can be independent of foraging or reproduction, as observed in mice given a choice of novelty vs food without social cues (Chance and Mead, 1955). A critical question in animal behavior is, what motivates approach behavior and what are the behavioral and neurobiological mechanisms that support such explorative behavior? It is currently unknown how to reliably measure motivations or affective states related to approach or avoidance behavior, which is not associated with food or reproduction. We have tried to establish the qualitative and reliable measurement for such phenomenon by analyzing ultrasonic vocalizations (USVs)
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