Researchers at the UC Davis Center for Neuroscience mapped the brain regions controlling movements in Egyptian fruit bats. Large regions of motor cortex are dedicated to the tongue, which makes sonar ...

High-frequency ultrasound significantly reduces the size of the face and modifies the internal bones of the ear in bats.

Bats are some of the most highly specialized mammals to have ever evolved. This includes not only the evolution of active ...

Learn how echolocation has shaped the skulls of bats that emit high-frequency sounds through their mouths and noses.

Acoustic jamming during bat emergence is weaker than expected because signal redundancy, echo integration, and simple movement rules enable robust navigation, as demonstrated by an agent‑based sensory ...

(CN) — Bats might not lead the most exciting lives, but they do have one real-life superpower that aids in their evening hunts for insect dinners: echolocation. In a new study published by the ...

Blind as a bat? Hardly. All bats can see to some degree, and certain species possess prominent eyes and a keen sense of vision. Take the Egyptian fruit bat (Rousettus aegyptiacus). This species is ...

Blind as a bat? Hardly. All bats can see to some degree, and certain species possess prominent eyes and a keen sense of vision. Take the Egyptian fruit bat (Rousettus aegyptiacus). This species is ...

Biologists attached tiny recording devices that looked like mini backpacks to bats. What they found revealed a surprising ...

A new study shows how the brains of Egyptian fruit bats are highly specialized for echolocation and flight, with motor areas of the cerebral cortex that are dedicated to sonar production and wing ...