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  • This episode of SciShow is sponsored by Brilliant!

  • Go to Brilliant.org/SciShow to learn more.

  • [♪ INTRO]

  • In 1984, biologist Katharine Payne spent a week

  • observing elephants at a zoo in Oregon,

  • and she noticed something strange.

  • Every now and then, she could feel what she described

  • as a faint throbbing in the air, like silent thunder.

  • But it wasn't thunder she was feeling-

  • it was the elephants' secret language.

  • You might've heard elephants trumpeting and grunting before,

  • but those noises are just a fraction of the sounds they actually produce.

  • The rest are so low-pitched that our ears can't pick them up.

  • Elephants do most of their chatting at these low registers,

  • and it actually has some pretty big advantages for them.

  • Months after Payne first heard the rumbles,

  • she went back to the zoo and recorded the elephants.

  • When she and colleagues played the tapes

  • back at high speed and higher pitch, they could hear

  • that the elephants were as noisy as a bunch of cows on a farm!

  • We humans can only hear frequencies between about

  • 20 hertz and 20,000 hertz.

  • Sounds below that range are called infrasonic.

  • And that infrasonic range is where most elephant communication

  • happens, between around 14 and 35 hertz.

  • This secret banter isn't just good for talking about

  • other animals behind their backs, though.

  • Infrasound allows elephants to communicate

  • over impressively long distances.

  • Lower frequency sounds have longer wavelengths-

  • imagine widely-spaced ripples instead of closely-spaced ripples.

  • And since they vibrate more slowly, they lose energy

  • more slowly, too, meaning they can travel farther before fading out.

  • On top of that, high-frequency sounds tend to be blocked

  • or absorbed by obstacles like trees, but low-frequency

  • sound waves are larger than most barriers in their path,

  • so they can pass around them and keep going.

  • So those high-pitched trumpeting noises elephants make?

  • Those tend to peter out after traveling around 100 meters.

  • But infrasonic calls can travel much, much farther.

  • So Payne and other researchers started looking

  • for evidence that elephants communicate over long distances

  • and they found it!

  • By tracking the movements of elephants with radio collars,

  • the researchers observed that family groups

  • were able to spend days coordinating their movements

  • with each other, even when they were separated

  • by as much as five kilometers.

  • And when fertile female elephants belted out their

  • infrasonic mating calls, eager male elephants as far

  • as a kilometer out would start walking their way!

  • They can achieve this incredible long-distance

  • communication in part because infrasound just naturally travels far,

  • and also because elephants are ridiculously loud.

  • The loudest recorded elephant calls are around 117 decibels

  • that's about as loud as construction equipment or a rock concert.

  • Imagine being at a rock concert and not being able to hear

  • anything except maybe a faint rumble in the air!

  • Elephants also take advantage of environmental factors,

  • which can have a big impact on how far their voices carry.

  • In forests, their voices have to push through the trees

  • and compete with lots of other noises, so they usually

  • fade out in less than a kilometer.

  • They tend to do a lot more talking at quieter times of day,

  • like early evening, when a forest elephant's voice

  • might reach up to three kilometers.

  • But out on the savanna, with fewer obstacles

  • and less competing noise, the major limiting factor is the atmosphere!

  • During the day, the air over the ground is warmer

  • than the air higher up.

  • Since sound travels faster through warmer air,

  • the bottom of the sound wave moves faster

  • than the top of the sound wave, which causes it to bend upward.

  • So daytime sound waves only travel so far

  • before turning away from the ground.

  • But at night, the air near the ground cools down

  • much faster than the air above it.

  • Now the temperature gradient flips, creating what's called

  • a temperature inversion.

  • And instead of bending upward, sound waves

  • bend back toward the ground.

  • The layer of cool air basically becomes a channel

  • that sound can travel through for much longer distances.

  • Around sunset and sunrise, when the temperature

  • inversion is the strongest and the winds are calmest,

  • it's been estimated that elephant calls

  • could travel as far as 10 kilometers!

  • And while observing elephants in the wild,

  • researchers have seen that the animals will

  • occasionally raise their ears and stand still

  • to listen to the distant calls of other elephants.

  • Studies have shown that the inner ear structures

  • of elephants are extremely large, making them

  • especially good at gathering low-energy infrasonic sound waves.

  • But they might not just be listening to each other

  • they might also be listening to the sounds of Mother Nature.

  • Widespread legends in African and Indian cultures

  • say that if you see an elephant after several dry months,

  • it means the rain is finally coming.

  • And like a lot of folklore, it seems to have some truth to it.

  • See, rainstorms are very noisy, especially at low frequencies,

  • and there's evidence that elephants might be able

  • to use their super-hearing to forecast the weather.

  • Research in the early 2000s tracked elephant movements

  • across the seasons and found that elephants tend

  • to exhibit different movement patterns in wet conditions versus dry ones.

  • When the dry season turns to the rainy season

  • (or even when there's a particularly rainy day during the dry season)

  • elephants tend to switch from short-distance foraging

  • to long-distance migration or vice versa.

  • Exactly why they do this isn't totally clear,

  • but what is really interesting is that the elephants

  • usually changed their behavior days or weeks

  • before the rains even reached them.

  • It's like the elephants could hear the storm coming.

  • In many cases, the researchers saw that elephants

  • in different locations would simultaneously

  • react to the same distant storm.

  • In at least one instance, the animals responded

  • to a storm nearly 300 kilometers away!

  • So elephants are clearly tapped into a world of sound

  • that we've only recently started to appreciate.

  • And in a world where scientists are desperately trying

  • to protect these majestic animals from extinction,

  • their super-hearing may be key to understanding

  • how they fit into their ecosystems.

  • It takes a lot of different kinds of science working together

  • to understand how elephants communicate:

  • biology, atmospheric science, the physics of sound.

  • If you're interested in learning more about any

  • or all of these kinds of science, you might be interested

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  • [♪ OUTRO]

This episode of SciShow is sponsored by Brilliant!

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