Mice court one another with ultrasonic love songs that are inaudible to the human ear. New research shows they make these unique high frequency sounds using a mechanism that has only previously been observed in supersonic jet engines.
Mice court one another with ultrasonic love songs that are inaudible to the human ear. New research shows they make these unique high frequency sounds using a mechanism that has only previously been observed in supersonic jet engines.
Mice seem to be doing something very complicated and clever to make ultrasound.
Anurag Agarwal
An international group of researchers have found that mice use a mechanism similar to that of a jet engine inside their throats in order to make high frequency whistles 鈥 the first time such a mechanism has been observed in any animal.
Mice, rats and many other rodents produce ultrasonic songs that they use for attracting mates and territorial defense. These 鈥榮inging鈥 mice are often used to study communication disorders in humans, such as stuttering. However, until now it was not understood how mice can make these ultrasonic sounds, which may aid in the development of more effective animal models for studying human speech disorders.
Now, new co-authored at the 探花直播 of Cambridge and published in the journal Current Biology has found that when mice 鈥榮ing鈥, they use a mechanism similar to that seen in the engines of supersonic jets.
鈥淢ice make ultrasound in a way never found before in any animal,鈥 said the study鈥檚 lead author Elena Mahrt, from Washington State 探花直播.
Previously, it had been thought that these 鈥楥langers鈥-style songs were either the result of a mechanism similar to that of a tea kettle, or of the resonance caused by the vibration of the vocal cords. In fact, neither hypothesis turned out to be correct.听Instead, mice听point a small air jet coming from the windpipe against the inner wall of the larynx, causing a resonance and producing an ultrasonic whistle.
Using ultra-high-speed video of 100,000 frames per second the researchers showed that the vocal folds remain completely still while ultrasound was coming from the mouse鈥檚 larynx.
鈥淭his mechanism is known only to produce sound in supersonic flow applications, such as vertical takeoff and landing with jet engines, or high-speed subsonic flows, such as jets for rapid cooling of electrical components and turbines,鈥 said Dr Anurag Agarwal, study co-author and head of the Aero-acoustics laboratories at Cambridge鈥檚 Department of Engineering. 鈥淢ice seem to be doing something very complicated and clever to make ultrasound.鈥
鈥淚t seems likely that many rodents use ultrasound to communicate, but very little is known about this - it is even possible that bats use this cool mechanism to echolocate,鈥 said the study鈥檚 senior author Dr Coen Elemans from the 探花直播 of Southern Denmark. 鈥淓ven though mice have been studied so intensely, they still have some cool tricks up their sleeves.鈥
Reference:
Elena Mahrt et al. 鈥.鈥 Current Biology (2016) DOI: 10.1016/j.cub.2016.08.032.
Adapted from a press release by the 探花直播 of Southern Denmark. 听
探花直播text in this work is licensed under a . For image use please see separate credits above.
