Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:01,110 --> 00:00:06,550 Octopuses—yes, that is an appropriate plural—are some of the most beautiful, 2 00:00:06,550 --> 00:00:10,180 mysterious, and absurdly intelligent creatures on this planet. 3 00:00:10,180 --> 00:00:15,429 They can change color. They can change shape and texture. They strategize, play, and solve 4 00:00:15,429 --> 00:00:21,490 puzzles. They've got three hearts, their skin can see, their blood is blue, their magic 5 00:00:21,490 --> 00:00:27,000 trick is disappearing, and over half of their brain is not in their head. Instead, it’s 6 00:00:27,000 --> 00:00:30,670 in these things. No, they’re not tentacles. They’re arms! 7 00:00:30,670 --> 00:00:35,040 And because they’re some of the most fascinating arms in the animal kingdom, today, we’re 8 00:00:35,040 --> 00:00:36,780 gonna wrestle with those. 9 00:00:39,060 --> 00:00:41,680 So, first, a quick taxonomic rundown. In the 10 00:00:41,680 --> 00:00:48,220 cephalopoda class, you’ve got squid, octopuses, and cuttlefish. Cephalopod literally means 11 00:00:48,220 --> 00:00:50,740 “head foot” in Greek, and I mean, it kinda works. 12 00:00:50,740 --> 00:00:56,200 Octopuses are a bit different from other cephalopods: squid and cuttlefish actually do have tentacles. 13 00:00:56,200 --> 00:01:00,670 Two of those bad boys, specifically, which they use for hunting. Tentacles are often 14 00:01:00,670 --> 00:01:04,360 longer and kinda slimy, with suckers or hooks at their tips. 15 00:01:04,360 --> 00:01:10,430 All those other lanky limbs are arms, used for grappling, grasping, galloping, and generally 16 00:01:10,430 --> 00:01:14,040 getting up to mischief. The first thing it’s important to know about 17 00:01:14,040 --> 00:01:18,770 octopus arms is that they can think on their own. While that might not sound too surprising 18 00:01:18,770 --> 00:01:23,140 when it comes to the third-right arm that, incidentally, functions like a penis, it’s 19 00:01:23,140 --> 00:01:27,950 a complete departure from how most animals that we consider “intelligent” operate. 20 00:01:27,950 --> 00:01:33,720 Look at your hand. Before you pick up a snack, you think about it. And then your hangry brain 21 00:01:33,720 --> 00:01:38,090 sends messages through your spinal cord to your hand, and your fingertips use their few 22 00:01:38,090 --> 00:01:41,000 hundred mechanical receptors to achieve the task. 23 00:01:41,000 --> 00:01:46,260 Now, if you were an octopus, your fingers would first find the snack, sniff it, decide 24 00:01:46,260 --> 00:01:50,240 if it’s worth your time, and grab ahold of it, and then, maybe, be kind enough to inform 25 00:01:50,240 --> 00:01:55,000 your brain about the entire thing. Well, the rest of your brain, that is. 26 00:01:55,000 --> 00:02:00,200 See, about two thirds of what we call an octopus’s “brain,” or its neurons at least, are 27 00:02:00,200 --> 00:02:06,659 located in its eight arms. For them, this means “thinking” is a full-body experience. 28 00:02:06,659 --> 00:02:11,650 Compared to those few hundred mechanical receptors in your fingertip, each sucker on an octopus 29 00:02:11,650 --> 00:02:17,531 has tens of thousands of both chemical and mechanical receptors. This means that 30 00:02:17,531 --> 00:02:22,150 they can essentially taste an object as well as feel its texture and weight, and decide 31 00:02:22,150 --> 00:02:26,510 what to do with it without waiting for a command from the central brain. 32 00:02:26,510 --> 00:02:31,069 While the amount varies, the average number of suckers on each arm is over two hundred. 33 00:02:31,069 --> 00:02:36,720 So, do a little math and that’s hundreds of millions of sensory cells to explore the world. 34 00:02:36,720 --> 00:02:41,400 That’s a lot of information! Each sucker is made of two regions: the disk-like 35 00:02:41,400 --> 00:02:46,420 part you can see is the infundibulum, while the center cavity is called the acetabulum. 36 00:02:46,420 --> 00:02:51,440 When an octopus reaches for something, the infundibulum will flatten to feel the surface first. 37 00:02:51,440 --> 00:02:55,780 The octopus uses its sucker’s acetabulum to attach to the object, 38 00:02:55,780 --> 00:02:57,560 with a combination of radial and 39 00:02:57,560 --> 00:03:02,709 meridional muscles and tiny hairs that maintain the connection like velcro. 40 00:03:02,709 --> 00:03:06,879 This makes the animal’s grip so strong that the largest suckers out there can lift about 41 00:03:06,880 --> 00:03:15,240 one Dolores worth of weight… each. And oh, um, did I mention their arms can regenerate, too? 42 00:03:15,240 --> 00:03:17,490 With all of their incredible abilities, humans 43 00:03:17,490 --> 00:03:22,690 are looking to octopuses to not only better understand intelligence and consciousness, 44 00:03:22,690 --> 00:03:28,209 but to inspire innovations in materials science, medicine, and especially, soft robotics. 45 00:03:28,209 --> 00:03:33,989 There's so many challenging questions in the engineering side that we don't know the answers. 46 00:03:33,989 --> 00:03:40,050 Nature has already figured it out. So, in particular, regarding octopus, they've 47 00:03:40,050 --> 00:03:45,159 got eight arms, of course. Think about each of these arms have technically infinite 48 00:03:45,159 --> 00:03:50,770 degrees of freedom. And controlling even a single arm with so many degrees of freedom 49 00:03:50,770 --> 00:03:57,240 is a very challenging task for us as engineers. That’s why Hamid and his team are working 50 00:03:57,240 --> 00:04:02,569 on developing robots made of hydrogel, which mimic the structure of an octopus’ arm. 51 00:04:02,569 --> 00:04:08,410 The interesting thing about hydrogel is you can make it so that it responds to light, 52 00:04:08,410 --> 00:04:12,940 mechanical, electrical and chemical stimulation, just like an octopus. And then what 53 00:04:12,940 --> 00:04:20,899 we proposed was to 3D print the entire structure using hydrogel, in one shot, with embedded 54 00:04:20,899 --> 00:04:23,770 neurons made of silver. 55 00:04:23,770 --> 00:04:29,309 If they’re successful, this octo-bot could make huge strides in fields from manufacturing 56 00:04:29,309 --> 00:04:34,960 to medicine. Think sensitive, flexible machines that could assist with assembly or surgery. 57 00:04:34,960 --> 00:04:39,699 So, let’s take care of our oceans today to make sure they’re healthy for generations 58 00:04:39,699 --> 00:04:45,599 to come. Because with so many incredible, strange creatures with such amazing capabilities, 59 00:04:45,599 --> 00:04:48,379 who knows where the mysteries of the deep will take us next? 60 00:04:48,379 --> 00:04:52,849 Thanks for joining us for this first season of Tusks to Tails. Keep coming back to Seeker 61 00:04:52,849 --> 00:04:55,800 for all your science deep-dives, and we’ll see you next time! 6965