This is actually not so much about flight but to feel air movements caused by large insects so that the bat can grab the insect. Besides there is no sign of this anywhere else either among birds. That is negative evidence but then a bat which hunts at night needs all the help it can get.
I think we will find that sonic detection breaks down close in the the bat. This system allows close in detection of moths in particular.
All surprising and interesting.
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New understanding of bat wings could lead to advances in aviation
Touch receptors in bat wings may inspire similar sensors in aircraft wings
www.gizmag.com/bat-wing-touch-receptors/37305/
If you've ever seen a bat in flight, then you'll know how
quickly and precisely they can maneuver. Scientists from Johns Hopkins
University, Columbia University and the University of Maryland have now
uncovered one of the key factors that allows them to do so – and it
could have applications in the design of aircraft.
Led by Johns Hopkins neuroscientist Prof. Cynthia F.
Moss, the researchers studied the sensory receptors of the big brown
bat. More specifically, they studied an array of those receptors, which
are clustered in groups around the base of tiny hairs on the bat's
wings. As the animal is in flight, those hairs are ruffled by changes in
airflow. The receptors allow the bat to feel those changes through its
sense of touch, so it can respond by adjusting its flight path as
needed.
A microscope image of a bat's sensory neurons (Image: Kara Marshall/Columbia University Medical Center and Ben Falk/John Hopkins University)
In order to test this observation, the scientists
subjected bats' hairs to short puffs of air. The animals' primary
somatosensory cortex responded with very focused but also quick bursts
of activity, suggesting that the system is optimized for making very
fast maneuvers. It is now hoped that the findings could be applied to
guidance systems for aircraft such as autonomous drones, allowing them
to avoidance obstacles by reading the air turbulence flowing around
them.
A paper on the research was recently published in the journal Cell Reports.
The video below from Columbia University Medical Center discusses the findings.
Source: Johns Hopkins University
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