Specialized facial muscles support sonar beam forming by
free-tailed bats
Date: November 28, 2016
Source: Acoustical Society of America (ASA)
Echolocating bats are able to manipulate the acoustic
projection pattern of their sonar pulse emissions -- but how they do it remains
a largely unexplored mystery.
The Mexican free-tailed bat, Tadarida brasiliensis, appears to
do it by adjusting the shape of its mouth cavity, aka beam forming, similar to
the way humans purse their lips to create an "O" sound. While this is
usual for humans, it is unusual for animals. Flying Tadarida lift their nose
and lips before each echolocation pulse with a set of specialized facial muscles.
In a moment of serendipity while working on another project,
Samantha Trent, a doctoral candidate working with Michael Smotherman at the
Texas A&M Institute for Neuroscience, noticed a large group of muscles
running straight down the middle of the top of the bat's skull. A set of
muscles like this is quite unusual in size and location for a small mammal, so
she questioned their purpose.
During the 172nd Meeting of the Acoustical Society of America
and the 5th Joint Meeting with Acoustical Society of Japan, being held Nov.
28-Dec. 2, 2016, in Honolulu, Hawaii, Smotherman will present his work with
Trent exploring the muscle's complex activity patterns during sonar
performance, whether the muscle tissue displays necessary fast-twitch
specializations to accommodate echolocation, and how manipulations of mouth
shape altered 3-D beam patterns.
"It seems evident that this particular set of muscles is
involved in changing the shape of the bat's mouth -- especially during
echolocation," Trent said. "We think this aids the bat's ability to
change the shape of its outgoing echolocation pulse beam."
To put this to the test, they used a microphone array to
capture recordings from all around the bat's head to build a picture of the
beam shape of sound coming out its mouth. They also recorded electrical
activity from these muscles while the bats were freely echolocating to
determine how these muscles are involved in producing echolocation pulse
streams.
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