Why parrots can talk like humans

This is what a macaque monkey would sound
like if it suddenly proposed. Yeah, I hate it too. Let’s play it again: Now of course, that’s not a real monkey, it’s
a computer simulation that was part of a study on monkey vocal tracts.
And what it shows is that monkeys have a strikingly similar vocal structure to humans. But despite all these similarities, they can’t
speak So here’s a question.
Compared to monkeys, birds are nothing like us. Yet this bird’s talking to me right now. How? Birds don’t have lips. They don’t have
teeth, their “nose” is totally different from
ours, but they do have something we don’t. They actually have a different
kind of voice box than we do. It’s called a syrinx. This is Mya Thompson – She studies birds
at Cornell University. They actually have two independent voice boxes. In birds, and in humans, the lower respiratory system is shaped sort of like an upside down
slingshot. The top part is the trachea, or windpipe, the bottom part is the lungs, and
these two pieces move air in and out. In humans, the voice box is called the larynx,
and it’s located above the trachea. It contains vocal “folds” that vibrate when air flows
through to produce sound. And humans primarily shape that sound with
their mouths. But in birds, the voice box is called the
“syrinx”. And it’s at the bottom of the trachea. Instead of just sending air through vocal
folds like we do, birds actually control the muscles on the walls of the syrinx to shape
and produce sound. Take a look at this cardinal as it sings. You can actually see that the noise comes
directly from the chest. The bird extends and shortens its neck and opens or closes its
beak to refine the noise, but most of the control is actually happening in the syrinx. It’s a powerful sound for such a small animal,
but that’s not even the most impressive part: Cardinals tend to make these “whoop” notes and they go by very very quickly. They’re
able to produce more pitches than a piano in less than a tenth of a second. They’re actually switching from
one side of the syrinx to another seamlessly to make this very very incredible span of
pitches. The syrinx also lets some birds replicate
sounds with astonishing accuracy. For example, BBC Wildlife caught a lyrebird
perfectly imitating a camera in the wild And of course, some of them imitate us. Parrots are born communicators. From the start
their brains are wired for speech. So when they’re first hatched they’re learning right away and they’re learning from
everything around them. But speaking human is no easy feat. We’ve got our vowels
A – E – I – O – U. Our plosives
“Pocket”. And a variety of consonants – that we
even sometimes struggle to enunciate clearly So to pull off such clarity in human speech, parrots
really show off their ability to manipulate their vocal tract.
Plosives, for example, require using our lips. To make up for the lack of lips, parrots use something called esophageal speech – it’s almost
like burping that comes from within the trachea. The force of air replicates the plosive. As for vowels, where we use our lips, tongue and jaw,
researchers have found that parrots move their tongues forward and backward and adjust their
beak opening to alter the sound. It seems like they are the only
birds that are actually using their tongue like humans do to shape the sound that’s coming
out. Parrots have a natural desire to communicate.
In the wild they form strong bonds with their flocks, but in captivity, the parrot forms a social bond with you and they want to communicate with you and
they have the vocal anatomy to start mimicking you. When parrots live with us, we’re their flock and they’re determined to sing our song. So in this video I showed you some of the physiology that lets birds produce sounds. But I wanted a quick and easy way to show you some of the interesting background research on the neurology that allows some of them to speak. So I created a website with Wix, where I’ve compiled a bunch of extras, including research and related content that gets you inside the brains of these animals. It’s a super easy way to make a website, so click on the link below to make your own. Wix doesn’t directly impact editorial, but their support does make videos like this one possible, so go check them out.

100 thoughts on “Why parrots can talk like humans

  1. “Plosives, for example, require our lips.”
    Sorry that is just not correct. Plosives describe a manner of articulation where the airflow is temporarily stopped, such as /k/, /g/, /t/, /d/.
    Some plosives are produced with the lips, like /p/ and /b/, and these are called bilabial plosives, but to say all plosives require our lips is just misinformed.

  2. Parrots are highly intelligent, and if you really care about them, you should not have them in captivity. Every wild species deserves to be unbothered in their natural habitat.

  3. Here my question. Can a parrot, taught to vocalize human words, & taken back to the Amazon, TEACH SUBSEQUENT PROGENY down the GENERATIONS, TO SAY THOSE LEARNED WORDS?
    Now that would be an amazing discovery! ? ? are SO SMART!

  4. Vox: “… speaking human is no easy feat. We have our vowels: a, e, i, o, u…”
    Only provided example of parrot speaking: “Hello”

  5. That's the problem though. Parrots and Macaws don't have vocal cords. So it is a stunning feat of evolution and intelligence that they can even perform human speech.

  6. If dinosaurs and birds are very closely related, do you think a Tyrannosaurus rex could’ve been talking about his day at work

  7. This lady looks so happy, smiling like Joker all the time, complete opposite of my bulldog like face lol

  8. Parrots have been Alien’s spy communicator since 320 B.C. For y’all who don’t know they’re still travelling too.

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