Welcome to vnonline.co.uk

vnonline.co.uk provides the veterinary nursing profession with the latest news and industry developments, as well as events, resources, learning materials and careers.

Our website is dedicated to veterinary nurses and we strive to provide a platform where you can voice and explore your interests.

Not a member yet? Sign up for free!

Register for free with vnonline.co.uk to gain unlimited access to news, resources, jobs and much more!



Click here to become a member






Log in to vnonline

Forgot your password?

Posted: 1st April 2015

Bats obey traffic rules, study shows
Bat
Bats abide by their own set of 'traffic rules': they chase each other, perform tandem turns and even slow down to avoid collision.
Bats turn, chase and avoid collisions at high speed

Bats hunting for food obey their own set of 'traffic rules', turning, chasing and avoiding collisions at high speed, according to a study by the University of Bristol.

Dr Marc Holderied from the School of Biological Sciences studied pairs of Daubenton's bats foraging low over water for stranded insects, at a site close to the village of Barrow Gurney in Somerset.

“Collective movements of flocking birds or shoaling fish are amongst the most fascinating natural phenomena, and everyone has experienced the challenges of walking through a moving crowd," said Marc. "What information individuals use for movement coordination is, however, very difficult to know – except in the case of echolocating bats.”

Because biosonar imaging in bats is much sparser in information than vision, Dr Holderied was able to accurately measure the biosonar calls of the interacting bats before calculating what each of the individuals perceived.

The results revealed that bats abide by their own set of 'traffic rules': they chase each other, perform tandem turns and even slow down to avoid collision.

The researchers discovered that bats use one simple trick to create their interactive behaviours - they swap leader-follower roles and perform chases by copying the route a nearby individual was using up to 500 milliseconds earlier -  almost as fast as the blink of a human eye.

Dr Holderied said: “The bats seem to have adopted a simple trick:  once another individual is close enough for your biosonar to pick up its echo, copy this individual’s flight direction within four to five of your own wingbeats.”

His research team believe the discovery could have wider implications, such as helping to improve the efficiency of search and rescue missions, and surveillance operations in the emerging market of flying drones and autonomous moving vehicles.

The study, ‘Delayed Response and Biosonar Perception Explain Movement Coordination in Trawling Bats’ by Luca Giuggioli, Thomas J. McKetterick and Marc Holderied, is published in PLOS Computation Biology.




Become a member or log in to add this story to your CPD history



Latest news | Careers | Events | Resources | Contact us | Terms and conditions | Data Protection and Privacy |Cookie policy | About us | Copyright
© 2024 Vision Media, all rights reserved. vnonline.co.uk is not responsible for the content of external websites.