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  • Humans have done a pretty good job of exploring the Earth thus far, climbing mountains and

  • crossing continents and planting our flags all over the place in the name of science.

  • But one part of the world that has remained pretty mysterious to us also happens to cover more

  • than 70% of its surface: the ocean.

  • Yes , weve sailed across it plenty of times. And drilled for oil in it. And managed to

  • create reality shows about fishing in it.

  • But, from glowing oceans to massive deep-sea creatures, and underwater ecosystems with

  • thousands of undiscovered, basically-alien species -- we still have a lot to learn about it.

  • Probably more than any place on Earth, the ocean is full of fascinating stuff that we

  • just don’t know.

  • Not yet.

  • [Music Playing]

  • Number One: What’s the ocean floor like?

  • Fact is, we still don’t know exactly what the ocean floor looks like in most places.

  • The National Oceanic and Atmospheric Administration says that 95% of the ocean's bottom remains

  • unseen by humans.

  • As a result, we have a way better picture of the surfaces of other planets than we do of

  • most of the seafloor.

  • In 2014, a team of scientists created a map of the seafloor using data from satellites

  • equipped with special sensors called radar altimeters.

  • These instruments could precisely measure the distance from the satellite to the surface

  • of the ocean below.

  • Essentially, any large mountains or canyons on the ocean floor have a slight gravitational

  • effect on the ocean surface, creating bumps and dips, respectively.

  • These variations are of course too subtle to be detected by human eyes, but they can be measured

  • by these ultra-precise satellite altimeters -- and, after adjusting for the effect of

  • waves and tides, tell scientists what’s on the seafloor.

  • This map spans the entire ocean floor, which is awesome, and were all glad that it exists,

  • but it only has a resolution of about 5 kilometers, which is pretty low.

  • By comparison, most of the surface of Mars, Venus, and the Moon have been mapped to resolutions

  • of 100 meters or less.

  • So, if we want to know what’s going on down there and really explore the ocean, detecting

  • life, specific mineral formations, or wrecks, were gonna need a better map.

  • Number Two: What’s under the seafloor?

  • OK, probably thinking that you know what’s down there: rock.

  • Yes. But not just rock.

  • In 2015, scientists reported that they had drilled down about 2 and a half kilometers

  • below the seafloor off the coast of Japan, and discovered living microbes.

  • There were only about 10 to 10,000 microorganisms in a cubic centimeter of sediment that they

  • studied, compared to like billions that you’d find in the same amount of dirt from your

  • garden.

  • But still: There's life down there, even in the intense heat and pressure many kilometers

  • below where the ocean stops.

  • And the genomes of these under-sea microbes showed that they were actually more similar

  • to the kind you’d find in forest soil, rather than the ones in seafloor sediments.

  • So it’s possible that these microbes are descendants of terrestrial ones from 20 million

  • years ago, that just adapted when their habitat began to get buried way beneath the ocean.

  • So, who knows what other kinds of life could exist in deep marine sediments, or what

  • they could tell us about what life on Earth used to be like?

  • Number Three: Brine pools.

  • Weve all seen lakes and rivers on land, but what about lakes that areunderwater?

  • Sounds a little bit unreal, like maybe it’s from a Sponge Bob episode but these features actually exist

  • -- pockets of seawater that have a different composition than the surrounding ocean: because

  • theyre super salty.

  • Theyre known as brine pools, and they seem to have formed when layers of salt from evaporated

  • oceans millions of years ago got buried under layers of sediment.

  • Seawater can reach these deposits and mix with the salt, forming a dense brine that

  • flows out of the seafloor, sometimes filled with oils or methane gas.

  • Some brine pools, like those found deep in the Gulf of Mexico, are four times as salty

  • as the ocean water around it.

  • And the brine is so dense that submersibles can evenfloaton top of it, like a

  • boat on a lake.

  • All of this salt makes brine pools lethal to larger animals.

  • But colonies of halophilic -- or salt-loving -- microorganisms can flourish there, usually

  • in much higher concentrations than the nearby normal seawater.

  • Some pools are even lined with mussels that have symbiotic bacteria in their gills, which

  • use the methane in the brine to make energy for the mussels.

  • But there’s a ton that we don’t know about these weird underwater salt lakes -- like

  • how brine pools can be so different from each other -- and why some have mussels and others

  • don’t -- and even how many there are!

  • Number Four: Milky seas.

  • Also known as mareel, this is a phenomenon in which thousands of square kilometers

  • of the ocean’s surface glow a brilliant whitish-blue.

  • It lasts for such a short time, and there have been so few recorded sightings, that

  • these glowing seas were thought to be a myth made up by crazy sailors

  • until 2005 -- when a group of researchers was studying satellite pictures of a swath

  • of the Indian Ocean from 1995.

  • These pictures showed an area of about 15,000 kilometers-square, around the size of Connecticut,

  • glowing for 3 nights.

  • It was the first scientific evidence of the phenomenon, but the glowing waters are still

  • not very well understood.

  • Some have suggested that the glow is caused by a mass of tiny dinoflagellates

  • called Noctiluca scintillans known assea sparkles

  • for the way they glow when disturbed.

  • These protists are what cause the picturesque glittering waves along coastlines in some

  • parts of the world.

  • But the 2005 study found that it wasunlikely, if not impossiblethat the short-lived

  • glowing of dinoflagellates was what scientists had been seeing from space.

  • The prevailing theory these days is that milky seas are caused by massive colonies of bioluminescent

  • bacteria that are growing on top of an algal bloom.

  • But were still not sure how or why these ephemeral masses of bacteria gather, glow, and disappear.

  • Number Five: The 52 hertz whale.

  • You’d think we would know a lot about whales.

  • I mean, theyre big, and we have their skeletons, and we can observe their migratory patterns.

  • But one thing we still have a lot more to learn about is their songs -- from why some whales

  • make them, to how an animal without vocal cordsor lipsmanages to make song-like sounds.

  • And then there’s this question -- what whale is producing the 52 hertz song, and why?

  • This whale song was first noted by a technician on December 7th, 1992 in the Northeast Pacific Ocean.

  • It sounded like a blue whale, but blue whale cries usually are somewhere between 15 and

  • 20 hertz in pitch.

  • So, blue whales in the Pacific typically sound like this:

  • [Blue Whale Cry Playing]

  • But this whale song, played at the same speed, sounded like this:

  • [52 Hertz Song Playing]

  • This high-pitch noise seemed to be unique to one animal -- a whale that became known

  • as 52 Blue.

  • This raises a lot of questions, and we have to know more about whales to be able to answer

  • some of them, like, why does this one whale sound different? And can others even hear it?

  • And if they can hear it, do they understand?

  • Some people latched onto to the idea that 52 Blue is a lonely whale crying out to others

  • that might not hear it or wouldn’t call back.

  • But several scientists have rejected this lonely narrative, and think that other whales

  • may be able to understand its call, even if they can’t make that call themselves.

  • Also, 52 blue seems to migrate independently from any other whales.

  • But its migratory patterns do look kind of like those of blue whales -- scientists

  • have been tracking it up and down the North Pacific from Alaska to Mexico for years now.

  • So some researchers think it might have some malformation that has changed how it sings,

  • or maybe it’s even a hybrid between a blue whale and another species.

  • Whether or not it’s a lonely whale, 52 Blue is an oddity that people seem to love.

  • Number Six: Upsweep.

  • Now, ocean sounds are practically their own field of study, NOAA has been monitoring

  • acoustics in the ocean for decades now.

  • Instead of microphones, which are used to collect sound in air, NOAA uses hydrophones

  • to record underwater sounds.

  • Mostly, these hydrophones are used to listen to the ambient sound of the ocean, to see

  • how humans might interfere with it, and to listen for things like earthquakes and whale calls.

  • And sometimes, they record things that are hard to explain, at least for a while.

  • In 1997, for example, there was what was known as The Bloop, an extremely loud, low-frequency

  • sound heard by hydrophones some 5,000 kilometers apart.

  • Oceanographers recently determined that it was the result of an icequake -- the cracking

  • and collapse of glaciers into the ocean, in this case on the coast of Antarctica.

  • But there’s another mystery sound from the ocean, known as Upsweep.

  • Recorded in August 1991, it sounds like a repeatingboopthat picks up at the

  • end -- sweeping up -- kind of like thered alertsound effect you hear on spaceships

  • in sci-fi movies.

  • But instead of trying to describe it, I could just play it for you.

  • [Boop Playing]

  • Since 1991, this sound has been heard regularly in the Pacific Ocean, and it seems to be seasonal,

  • usually becoming more common in spring and fall.

  • Researchers have tracked the sound to a part of the Pacific that has lots of volcanic

  • and seismic activity, which seem to be important clues.

  • But according to NOAA, “the origin of the sound is unresolved.”

  • Number Seven: Why are deep-sea creatures so huge?

  • From the Kraken to sea dragons, all of our favorite mythical sea monsters are gigantic.

  • And the fact is, in real life, many deep-sea creatures are unusually huge.

  • This phenomenon is called deep-sea gigantism.

  • But what drives it isyou guessed it! … unknown!

  • In the deep sea, and especially near the polar oceans, some animals seem to get really huge

  • -- like colossal squids, giant isopods, and Japanese spider crabs.

  • Scientists aren’t sure why, but they do have some guesses.

  • There’s Bergmann’s Rule, for example, which suggests that temperature may influence

  • gigantism.

  • This might be because larger animals have less surface area relative to volume, so they

  • radiate less heat based on their mass and stay warmer in colder climates.

  • And then there’s Klieber’s Law, which states that more massive animals generally

  • have lower metabolic rates -- and therefore need less high-quality food --- to survive.

  • Still other theories suggest that gigantism may help organisms resist increased pressure

  • of the deep sea.

  • But we don’t really have conclusive biological reasons why these giant creatures exist.

  • So, the ocean is just full o’ mysteries, maybe because it’s so huge and dark and deep.

  • But just so you know that were not hyping you -- were not saying that these 7 topics

  • are things that Science Can’t Explain.

  • Instead, you should just think of them as reminders of how much we still have to learn about

  • the ocean.

  • As our technology improves, and our access to the ocean takes us to new depths, well

  • be able to see and hear and sample more stuff than we ever have before.

  • So in time, these puzzles will be solved, and new creatures will be discovered, and

  • our understanding of our planet, and the life on it, will be that muchdeeper.

  • Thank you for watching this SciShow List Show, and thanks especially to all of our patrons

  • on Patreon who make this show possible. If you want to help us keep making shows like this, you can go to

  • patreon.com/scishow­. And don’t forget to go to youtube.com/scishow and subscribe!

Humans have done a pretty good job of exploring the Earth thus far, climbing mountains and

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海について知らない7つのこと (7 Things We Don't Know About the Ocean)

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    YSI に公開 2021 年 01 月 14 日
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