Behavioural response of female Lewis rats toward 31-kHz ultrasonic calls

IF 1.3 4区 生物学 Q4 BEHAVIORAL SCIENCES
Shota Okabe , Yuki Takayanagi , Ryosuke O. Tachibana , Ayumu Inutsuka , Masahide Yoshida , Tatsushi Onaka
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引用次数: 0

Abstract

Rodent ultrasonic vocalisations can be used to assess social behaviour and have attracted increasing attention. Rats emit 50-kHz and 22-kHz calls during appetitive and aversive states, respectively. These calls induce behavioural and neural responses in the receiver by transmitting the internal states of the rats, thus serving communicative functions. Recently, we discovered that female Lewis rats emit 31-kHz calls under social isolation and inequality conditions; however, the biological significance of 31-kHz calls remains unknown. In the present study, we conducted three playback experiments to examine the behavioural effects of 31-kHz calls. In the first experiment, Lewis female rats were exposed to four types of sound: 22-kHz, 50-kHz, 31-kHz calls, and environmental noise. As a result, rats stayed significantly longer in the area with a sound-producing speaker, regardless of the sound type, than in the silent speaker area. The duration spent around the sound-producing speaker was particularly extended during the 50-kHz or 31-kHz call playback, compared to the environmental noise or 22-kHz call playback. In the second experiment, rats were exposed to refined versions of sound stimuli that were synthesised to preserve prominent frequency components while removing background noise from original calls. Rats significantly preferred to stay around the speaker for the synthesised 50-kHz and 31-kHz sounds, but not for the synthesised 22-kHz sound. However, in the third experiment, additional 31-kHz sound synthesised from calls emitted by a different rat did not elicit a significant preference for the source side. These results suggest that the rats paid attention to the 31-kHz call, although it is plausible that acoustic variability in the 31-kHz USV may affect their approach behaviour.
雌性路易斯大鼠对 31 千赫超声波呼叫的行为反应
啮齿类动物的超声波发声可用于评估社会行为,并已引起越来越多的关注。大鼠在食欲和厌恶状态下分别发出 50 千赫和 22 千赫的叫声。这些叫声通过传递大鼠的内部状态,诱发接收者的行为和神经反应,从而起到交流的作用。最近,我们发现雌性刘易斯大鼠在社会隔离和不平等条件下会发出31-kHz的叫声,但31-kHz叫声的生物学意义仍不清楚。在本研究中,我们进行了三次回放实验来研究31-kHz鸣叫的行为效应。在第一个实验中,刘易斯雌鼠暴露于四种声音:22-kHz、50-kHz、31-kHz 呼声和环境噪声。结果是,无论声音类型如何,大鼠在有发声扬声器的区域逗留的时间都明显长于在无声扬声器区域逗留的时间。与环境噪声或 22 千赫的呼叫播放相比,50 千赫或 31 千赫的呼叫播放时,大鼠在发声扬声器周围逗留的时间尤其长。在第二项实验中,大鼠暴露于经过改进的声音刺激,这些声音刺激是经过合成的,保留了突出的频率成分,同时消除了原始叫声中的背景噪声。对于合成的 50 千赫兹和 31 千赫兹声音,大鼠明显更喜欢待在扬声器周围,而对于合成的 22 千赫兹声音,大鼠则不喜欢待在扬声器周围。然而,在第三个实验中,由另一只大鼠发出的叫声合成的额外 31 千赫声音并没有引起大鼠对声源方的明显偏好。这些结果表明,大鼠注意的是 31 千赫的叫声,尽管 31 千赫 USV 的声学变化可能会影响它们的接近行为。
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来源期刊
Behavioural Processes
Behavioural Processes 生物-动物学
CiteScore
2.70
自引率
7.70%
发文量
144
审稿时长
4-8 weeks
期刊介绍: Behavioural Processes is dedicated to the publication of high-quality original research on animal behaviour from any theoretical perspective. It welcomes contributions that consider animal behaviour from behavioural analytic, cognitive, ethological, ecological and evolutionary points of view. This list is not intended to be exhaustive, and papers that integrate theory and methodology across disciplines are particularly welcome.
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