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  • Thanks to the Monterey Bay Aquarium and  their research and technology partner

  • MBARI for partnering with us  on this episode of SciShow.

  • They hope that you LARVA this episode!

  • [♪ INTRO]

  • This is a giant larvacean. Sorry, let  me zoom in. THIS is a giant larvacean.

  • The huge structure around it is it's home —  a palace it built for itselfout of snot.

  • It's a magnificent feat of engineering,

  • especially for a smalltadpole-y looking creature.

  • And these mansions make larvaceans  a key part of the ocean ecosystem.

  • But the weirdest thing is thatas alien as they might seem,

  • larvaceans are actually among our  closest living boneless relatives!

  • And because of that, they can help us  understand ourselves a little better.

  • Larvaceans are tiny compared  to their mucus mansions.

  • A snot palace can easily be  a meter wide in some species,

  • while the architect inside is  less than 10 centimeters long!

  • These structures have to be so big because  they act as filters to catch all the little

  • bits of food that rain down from  abovewhat scientists call marine snow.

  • But whilegiant snot palace”  looks and sounds messy,

  • there's complex structure hidden within.

  • This was only recently uncovered by scientistsas these balls of snot are too fragile

  • to be brought up from the  depths without damaging them.

  • Researchers at MBARI actually  designed a way to scan the houses

  • in their natural environment using lasers  attached to a remotely operated vehicle.

  • They then used the scans to generate  three dimensional visualizations

  • which one can enter and fly through  using a virtual reality headset!

  • This revealed that each palace is full  of intricate chambers and passageways!

  • We don't fully understand how this sophisticated  plumbing works, but the gist is that

  • the critter inside flaps its tail to move  water through multiple layers of filters.

  • The outer filter catches anything  that's too big for the animal to eat,

  • while the inner ones channel ideally-sized  food into the animal's mouth.

  • And those tubes and such mean that this  water movement happens without giving

  • away the location of the actual animal to  anything prowling the ocean for a meal.

  • Here's what's really mind  blowing about all this, though:

  • each massive, intricate snot palace  may only last for a day or less.

  • After that it becomes so clogged that  the animal abandons the entire thing!

  • But no worries, it can whip up  a new one in less than an hour.

  • It just oozes snot out of  some cells on its head region

  • and inflates the chambers like  balloonsand tada! Instant house!

  • Figuring out exactly how they pull  that off could help us improve our

  • 3D printing skills, or speedily build  structures underwater or on other worlds.

  • But regardless, the discarded  houses don't go to waste.

  • The food-filled snot ball sinks  as fast as 800 meters a day!

  • So these empty mansions soon  become tasty snacks for creatures

  • that hang out in deeper waters and for  sea floor scavengers like sea cucumbers.

  • They also make larvaceans big  players in the global carbon cycle.

  • You see, every living thing in  the ocean is built from carbon

  • that has entered the water as carbon dioxide.

  • When those creatures die, the carbon in  them has the chance to return to the air.

  • But sinking larvacean snot  palaces trap this carbon,

  • speeding it to the deep instead, where it  can be locked up for millions of years.

  • In fact, in some places, they might  transfer more carbon to the ocean floor

  • than any other kind of plankton!

  • And removing carbon from seawater means  more CO2 from the air can dissolve in

  • so they are doing their part to lower  the carbon dioxide of our atmosphere!

  • That's not the only way  they're helping us out either.

  • They've also recently emerged as model organisms.

  • That's because, like us, they're  part of a group called chordates!

  • So they share a decent amount in common with us,

  • especially when it comes to which  genes are active early on in life,

  • when we also kind of look like tadpoles.

  • They also grow fast and have clear bodies,

  • all of which makes them useful for  studying how genes affect development.

  • So these deep sea architects  are inspiring engineers

  • and developmental researchers alike!

  • And there's still a lot  more we can learn from them.

  • Thanks again to MBARI and  the Monterey Bay Aquarium

  • for collaborating with us  on this episode of SciShow.

  • You can follow MBARI's research and technology

  • on their very amazing and  fun-to-watch YouTube channel.

  • I love it. How do I — is it clear?

  • And you can help support the Monterey  Bay Aquarium's ongoing animal care

  • and operations by making a gift  at montereybayaquarium.org/donate.

  • [♪ OUTRO]

Thanks to the Monterey Bay Aquarium and  their research and technology partner

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