In Our Time: Science

Echolocation

Jun 21, 2018

51:02

Snipd AI

Bats and dolphins use echolocation to navigate and find prey. Early natural historians doubted this ability. Bats produce high-frequency sounds with special muscles to prevent deafness. Prey have evolved ways to detect bat sounds, and fish can hear dolphin sounds. Also discusses how technology is being inspired by echolocation for assisting visual impairments.

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Quick takeaways

Bats use echolocation to navigate and find prey in the dark, emitting high-frequency sounds that bounce off objects.

Understanding how bats echolocate can inspire technological advancements in fields such as sonar and radar, benefiting conservation efforts and helping individuals with visual impairments navigate their surroundings.

Deep dives

Bats' Echolocation Abilities and Adaptations

Bats use echolocation to navigate and find prey in the dark. They emit high-frequency sounds that bounce off objects, allowing them to detect their surroundings. This skill evolved over time and was first observed in bats in the 18th century. Bats produce ultrasonic pulses at frequencies between 18 kHz and 200 kHz, allowing them to locate flying nocturnal insects. They have developed specialized vocal cords that produce these high-frequency calls. Bats can also adjust the intensity and frequency of their calls based on their proximity to objects. Their hearing is adapted to process echoes and distinguish between different prey types. Some moths have even evolved to hear and evade bat calls, while others have developed clicks or toxic defenses. The study of bats' echolocation abilities is ongoing, with researchers using tagging devices to better understand their behavior in the wild.

Introduction

2min

Understanding how owls and bats navigate at night

2min

The History of Bat Echolocation Research

11min

Bats and Echolocation

16min

Understanding Bat Calls and Species Differentiation

2min

Bats and Echolocation Abilities

17min

Exploring the Use of Sonar Technology and Radar Imagery for Assisting Visual Impairments

2min

Melvyn Bragg and guests discuss how some bats, dolphins and other animals emit sounds at high frequencies to explore their environments, rather than sight. This was such an unlikely possibility, to natural historians from C18th onwards, that discoveries were met with disbelief even into the C20th; it was assumed that bats found their way in the dark by touch. Not all bats use echolocation, but those that do have a range of frequencies for different purposes and techniques for preventing themselves becoming deafened by their own sounds. Some prey have evolved ways of detecting when bats are emitting high frequencies in their direction, and some fish have adapted to detect the sounds dolphins use to find them.

With

Kate Jones Professor of Ecology and Biodiversity at University College London

Gareth Jones Professor of Biological Sciences at the University of Bristol

And

Dean Waters Lecturer in the Environment Department at the University of York

Producer: Simon Tillotson.

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In Our Time: Science

Echolocation

Podcast summary created with Snipd AI

Quick takeaways

Deep dives

Bats' Echolocation Abilities and Adaptations

The Evolution of Echolocation and Challenges in Research

Implications of Echolocation for Conservation and Human Applications

The Remarkable Abilities of Echolocating Humans

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In Our Time: Science

Echolocation

Podcast summary created with Snipd AI

Quick takeaways

Deep dives

Bats' Echolocation Abilities and Adaptations

The Evolution of Echolocation and Challenges in Research

Implications of Echolocation for Conservation and Human Applications

The Remarkable Abilities of Echolocating Humans

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Save anymoment

Share& Export

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