How Animals Hear: Crash Course Zoology #7 - By CrashCourse
Transcript
| 00:0-1 | our environments are filled with information . Just think of | |
| 00:03 | all the stuff that comes at us each day , | |
| 00:06 | like light and sound and even objects . It's almost | |
| 00:10 | overwhelming when you think about it . But animals are | |
| 00:13 | pretty resourceful figuring out how to take it all in | |
| 00:16 | and weed out what's not important . In fact , | |
| 00:19 | we and other animals often put our whole bodies into | |
| 00:23 | it like heads , knees , legs , abdomens and | |
| 00:27 | 10 I wings . They're all body parts of animals | |
| 00:31 | used to learn about their environment just through hearing . | |
| 00:34 | So let's talk about what an ear even is , | |
| 00:37 | how it has evolved , how they work . And | |
| 00:40 | some of the cool ways animals have tweaked their ears | |
| 00:43 | to work for their lifestyle . Perk up whatever you | |
| 00:46 | use for hearing because I'm going to be sending vibrations | |
| 00:50 | your way for the next 10 ish minutes . I'm | |
| 00:53 | Ray Wynne Grant and this is crash course zoology , | |
| 01:06 | like all senses , hearing involves collecting information from the | |
| 01:10 | environment and processing that information into signals that the brain | |
| 01:14 | can understand specifically Hearing is the ability to interpret your | |
| 01:19 | environment using vibrations that move through air , water or | |
| 01:23 | even solid objects . Hearing organs like ears are just | |
| 01:27 | one way animals can interpret the sounds in their environment | |
| 01:31 | . And while we vertebrates trace all our ears to | |
| 01:34 | one ancestor , invertebrates have independently evolved ears over and | |
| 01:39 | over again over 24 times in just insects alone . | |
| 01:43 | So like vision , hearing is a spectrum . Some | |
| 01:47 | animals have very sensitive hearing and some don't here at | |
| 01:50 | all . For those of us who is hearing organs | |
| 01:53 | are ears . Ears have to minimum requirements to work | |
| 01:57 | a sensor that turns vibrations into nerve signals and the | |
| 02:01 | brain power to interpret those signals into different sound qualities | |
| 02:05 | . Most animals that here , even if they don't | |
| 02:08 | have what we call ears , rely on special hair | |
| 02:12 | cells which are named for the little hair like Tufts | |
| 02:14 | that come off of them called stereo cilia . Sound | |
| 02:18 | vibrations cause the stereo cilia to sway , which leads | |
| 02:22 | to the hair cell sending signals to nearby neurons that | |
| 02:25 | relay information to the brain . Our hair cells are | |
| 02:29 | in our internal ear , the part that does the | |
| 02:32 | actual hearing that sits behind a thin membrane or eardrum | |
| 02:36 | . The outside part called the pinna works like a | |
| 02:38 | satellite dish to amplify and direct sound into our internal | |
| 02:42 | ear . Pinna are very much a mammal thing . | |
| 02:46 | Some species pinna even move to track sounds . Many | |
| 02:50 | other vertebrates , like most reptiles and amphibians don't have | |
| 02:53 | pinna . Their external ears are simple openings and some | |
| 02:58 | animals like fish , have no external ears at all | |
| 03:01 | , hearing only the sounds that reach their internal ear | |
| 03:04 | after moving through their body . But some animals have | |
| 03:07 | gone a different route . Frogs and toads usually have | |
| 03:10 | internal ears , but there are over 200 species that | |
| 03:14 | have reduced or even lost many internal ear parts . | |
| 03:18 | These mostly fearless toads , can still hear some sounds | |
| 03:22 | like a crock by feeling vibrations which might be all | |
| 03:27 | they need to chat with their friends and detect predators | |
| 03:30 | . Like I said before . Unlike we learned about | |
| 03:32 | vision hearing and the organs we used to do it | |
| 03:35 | come in a whole spectrum and also like eyes . | |
| 03:39 | We can compare hearing organs based on what they can | |
| 03:42 | do . Most of our understanding of hearing is about | |
| 03:45 | how big ish animals handle . Far field sounds . | |
| 03:49 | Far field sounds are sounds that have traveled far enough | |
| 03:52 | away from the thing that makes the noise that they | |
| 03:55 | act like a typical wave very close to the sound | |
| 03:58 | source . The sound waves push on the air or | |
| 04:00 | water particles around them , so you get weird auditory | |
| 04:04 | effects as the particles bump into each other . Some | |
| 04:07 | invertebrates use this kind of sound called near field sound | |
| 04:10 | to communicate with each other and detect predators . Though | |
| 04:13 | the two aren't mutually exclusive , some arthropods can also | |
| 04:17 | make . And here far field sounds . We can | |
| 04:20 | also compare different animals . Hearing ranges which is the | |
| 04:24 | range of frequencies that an animal can detect frequencies are | |
| 04:28 | the number of times particles of a material vibrate in | |
| 04:31 | a certain time period . When a sound wave passes | |
| 04:34 | through it , one cycle of vibration in one second | |
| 04:37 | is called , one hurts us . Humans have a | |
| 04:40 | decent hearing range of about 20 to 20,000 hertz . | |
| 04:45 | We experience frequency as pitch or the loneliness or highness | |
| 04:50 | of a sound which we can also compare . But | |
| 04:52 | many animals can hear sounds under 20 hertz which we | |
| 04:55 | call infrasound or above 20,000 hertz . Which we call | |
| 05:00 | ultrasound . Like wax mouse can hear 300,000 hertz sounds | |
| 05:05 | squeaky er than any bat of course like best eyes | |
| 05:09 | or best brain . Best ears or hearing isn't really | |
| 05:13 | an award . We can give out . Animal hearing | |
| 05:15 | has evolved to pick up on the type range and | |
| 05:18 | pitch of sounds that they encounter and need to respond | |
| 05:21 | to in their environment . And as we'll see how | |
| 05:24 | animals here has changed a lot in the hundreds of | |
| 05:28 | millions of years they've been around but as for who | |
| 05:32 | can hear . Well it depends on what you call | |
| 05:36 | hearing and what you call an ear for us . | |
| 05:39 | Humans hearing usually means sounds moving in air but there | |
| 05:43 | are other ways vibrations can travel . As of 2021 | |
| 05:47 | we know a lot of arthropods keep their ears to | |
| 05:50 | the ground literally by sensing vibrations as they move through | |
| 05:54 | the earth and that's pretty much hearing even though they | |
| 05:57 | don't have ears that look anything like ours . Other | |
| 06:01 | invertebrates like jellyfish are trickier . They definitely have sensors | |
| 06:05 | that could detect waves . But since I live underwater | |
| 06:09 | , we can't tell if they're responding to sound waves | |
| 06:12 | or like normal water waves . So for a long | |
| 06:16 | time sociologists thought that only vertebrates could hear airborne sounds | |
| 06:21 | , since invertebrates don't have ears like ours , But | |
| 06:24 | that got thrown out with a series of meticulously designed | |
| 06:28 | experiments by high school teacher Charles . H . Turner | |
| 06:31 | . Let's go to the thought bubble . It's standard | |
| 06:34 | these days to account for extra factors that might influence | |
| 06:37 | research results . But in 1907 , when Turner published | |
| 06:41 | his first hearing study , his experimental design was revolutionary | |
| 06:45 | . First he insulated ant nests from ground vibrations with | |
| 06:50 | cotton batting and carefully controlled the lighting in the room | |
| 06:54 | . Then he used a dog whistle , organ pipes | |
| 06:57 | and his own voice from different distances . And he | |
| 07:00 | repeated the experiment many times , and even used heat | |
| 07:04 | filters to keep the animals from sensing the warmth of | |
| 07:07 | the lights . With all those controls , the ants | |
| 07:10 | scuttled away when he made noise , which Turner interpreted | |
| 07:13 | as evidence that his aunt's could here . Turner then | |
| 07:17 | investigated hearing in moths using a dog whistle again , | |
| 07:20 | Taking precautions at the animals weren't just responding to the | |
| 07:23 | site of the whistle or air movement . According to | |
| 07:26 | his results . Moths could here , too , he | |
| 07:29 | reported in 1914 that the moths responded to high but | |
| 07:33 | not low frequency sounds , and mused that moths might | |
| 07:38 | still be able to hear the lower sounds , but | |
| 07:41 | only responded to sounds that were important , like the | |
| 07:44 | high pitched whistle that sounded a bit like a bat | |
| 07:47 | . So he tested this idea by jostling the mobs | |
| 07:50 | when he made a low frequency sound . Soon the | |
| 07:54 | moths learned that low pitched noises were dangerous and fluttered | |
| 07:57 | their wings in response to just the low frequency sound | |
| 08:01 | . So not only did he prove moths could hear | |
| 08:03 | sound even if they didn't respond to them , but | |
| 08:06 | also that moths could learn thanks . Thought bubble Turner | |
| 08:11 | was a brilliant and productive scientist . He was the | |
| 08:14 | first african american to earn a PhD from the University | |
| 08:17 | of Chicago , but was excluded from professorships at white | |
| 08:21 | universities . Even today . Many black entomologists faced similar | |
| 08:25 | barriers , But Turner's work with Moss was one of | |
| 08:28 | the earliest examples of conditioning and insects and foundational to | |
| 08:33 | the work of many later scientists studying insect learning and | |
| 08:36 | behavior . In addition to Turner's moths and ants since | |
| 08:40 | 1907 , we've learned that lots of insects and at | |
| 08:43 | least some Iraq needs , like spiders can hear airborne | |
| 08:47 | sounds . Thanks to the work of many other scientists | |
| 08:50 | , Many insects even use hairs tuned to particular frequencies | |
| 08:55 | , sort of like stereo cilia . Other insects have | |
| 08:58 | a TIM panel organ in their legs , wings , | |
| 09:00 | abdomen and other places that vibrates and ends up sending | |
| 09:05 | signals to the brain . Invertebrate hearing evolved dozens of | |
| 09:09 | times in lots of different ways , which makes sense | |
| 09:13 | since there are 34 ish file of invertebrates out there | |
| 09:16 | . But vertebrate style hearing only evolved once in a | |
| 09:20 | fish ancestor , which was passed on to all tetrapods | |
| 09:25 | or animals with four limbs , like mammals , birds | |
| 09:28 | , reptiles and amphibians . We know that because even | |
| 09:31 | though vertebrate years vary widely , they always use the | |
| 09:35 | same hair , cell centered mechanism based on fossil evidence | |
| 09:39 | . We think that the earliest vertebrate years were entirely | |
| 09:43 | internal like fish years are today and evolved over 500 | |
| 09:48 | million years ago , which is probably why fish hear | |
| 09:51 | low frequency sounds best . They passed through the body | |
| 09:55 | more easily than high frequency sounds . Then , as | |
| 09:58 | vertebrates moved onto land roughly 400 million years ago , | |
| 10:02 | things got more complicated . Like if you've ever been | |
| 10:06 | swimming at a public pool , you might have noticed | |
| 10:08 | how much quieter everything seems underwater . That's because a | |
| 10:12 | lot of airborne sounds bounce off the water surface instead | |
| 10:16 | of traveling through the water . This same thing happened | |
| 10:19 | to those early land vertebrates but only had internal years | |
| 10:24 | . The sounds in the air bounced off their denser | |
| 10:26 | ear tissue and didn't reach the hair cells , so | |
| 10:29 | they probably only heard very loud , low frequency sounds | |
| 10:33 | that is until tim panic , middle ears or ears | |
| 10:37 | with an ear drum and obstacles evolved which they did | |
| 10:40 | independently . At least three times these external ears allowed | |
| 10:46 | sounds in the air to come into direct contact with | |
| 10:49 | the inner ear without traveling through the skull and other | |
| 10:52 | tissues . This made a huge difference in how well | |
| 10:56 | land animals could hear ears spread across meadows . Oh | |
| 10:59 | , a because just like eyes , they're super useful | |
| 11:03 | vertebrates probably first evolved hearing to gather more information about | |
| 11:08 | their environment and avoid hazards . Whereas insects evolved hearing | |
| 11:12 | so they could keep an ear out for vertebrate predators | |
| 11:15 | . Except for those noisy cicadas , They just wanted | |
| 11:18 | a way to talk to each other . Some of | |
| 11:19 | our biggest leaps and understanding how animals interact with sound | |
| 11:23 | . All happened very recently and I'm sure we'll learn | |
| 11:27 | even more interesting stuff soon . Next episode will get | |
| 11:31 | into the really old and weird ways animals sense their | |
| 11:34 | environment . Thanks for watching this episode of crash course | |
| 11:38 | ideology , which was produced by complexity in partnership with | |
| 11:41 | PBS and Nature . It's shot on the team Sandoval | |
| 11:44 | Pierre stage and made with the help of all of | |
| 11:46 | these nice people . If you'd like to help keep | |
| 11:49 | crash course free for everyone forever , you can join | |
| 11:51 | our community on patreon . Yeah . |
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