1 00:00:02,040 --> 00:00:07,040 Speaker 1: Welcome to brain Stuff from How Stuff Works, Hey, brain Stuff, 2 00:00:07,080 --> 00:00:10,680 Speaker 1: Lauren Vogel bomb here cuttlefish, these cephalopods, known for their 3 00:00:10,680 --> 00:00:14,120 Speaker 1: stunning ability to instantly change color and texture to blend 4 00:00:14,160 --> 00:00:18,840 Speaker 1: into their surroundings, have another newly discovered trick. Researchers have 5 00:00:18,880 --> 00:00:22,720 Speaker 1: found that these squidgy creatures can freeze their camouflage palette 6 00:00:22,760 --> 00:00:24,639 Speaker 1: and lock it in place for up to an hour 7 00:00:24,920 --> 00:00:28,720 Speaker 1: without any energy consuming input from their main nervous system. 8 00:00:28,800 --> 00:00:31,680 Speaker 1: That superpower allows them to hold their disguise for long 9 00:00:31,760 --> 00:00:35,160 Speaker 1: periods to avoid being detected and thus to avoid being eaten. 10 00:00:35,640 --> 00:00:37,879 Speaker 1: It also helps them snatch their own prey, as they 11 00:00:37,920 --> 00:00:41,839 Speaker 1: can remain essentially invisible as they lie in wait. The finding, 12 00:00:41,960 --> 00:00:44,800 Speaker 1: published in the journal I Science, not only reveals yet 13 00:00:44,840 --> 00:00:48,559 Speaker 1: another clever strategy of these ocean floor dwelling masters of disguise, 14 00:00:48,960 --> 00:00:52,200 Speaker 1: It also lends further guidance for engineers hoping to borrow 15 00:00:52,240 --> 00:00:55,080 Speaker 1: from the animal's tricks to develop new technologies, such as 16 00:00:55,400 --> 00:00:58,480 Speaker 1: maps that can spring into three dimensions and soft bodied 17 00:00:58,560 --> 00:01:01,840 Speaker 1: robots that could say around a human leg to provide support. 18 00:01:02,840 --> 00:01:06,119 Speaker 1: As with many discoveries, scientists stumbled upon this one nearly 19 00:01:06,160 --> 00:01:09,560 Speaker 1: by accident. The researchers were working at the Marine Biological 20 00:01:09,640 --> 00:01:13,280 Speaker 1: Laboratory in Woods Hole, Massachusetts. They were trying to trace 21 00:01:13,319 --> 00:01:16,640 Speaker 1: how the cuttlefish's nervous system directs its skin to transform 22 00:01:16,720 --> 00:01:19,200 Speaker 1: its three D texture within seconds to blend into the 23 00:01:19,240 --> 00:01:22,920 Speaker 1: background of say kelp or a rock. When they sliced 24 00:01:22,959 --> 00:01:25,199 Speaker 1: through one of the two main nerves that runs along 25 00:01:25,240 --> 00:01:27,640 Speaker 1: the side of a cuttlefish, they expected the animal would 26 00:01:27,680 --> 00:01:30,639 Speaker 1: lose its camouflage on the corresponding side of that nerve, 27 00:01:31,160 --> 00:01:34,120 Speaker 1: but instead, the three dimensional texture provided by nodes on 28 00:01:34,160 --> 00:01:37,880 Speaker 1: the skin of the cuttlefish, called papela, stayed intact. We 29 00:01:37,920 --> 00:01:40,480 Speaker 1: spoke with Trevor Wardill, co author of the study and 30 00:01:40,560 --> 00:01:43,959 Speaker 1: a neuroscientist at the University of Cambridge. He said, it 31 00:01:44,040 --> 00:01:47,320 Speaker 1: was really quite surprising. In fact, when we first saw it. Generally, 32 00:01:47,319 --> 00:01:49,840 Speaker 1: when you cut input to a muscle, it just relaxes 33 00:01:49,920 --> 00:01:51,760 Speaker 1: and that's the end of it. We thought we did 34 00:01:51,800 --> 00:01:55,280 Speaker 1: something wrong, but repeat takes of the procedures showed the 35 00:01:55,280 --> 00:01:58,160 Speaker 1: phenomenon was no fluke. The animals, by the way, we're 36 00:01:58,240 --> 00:02:00,600 Speaker 1: not killed by the procedure and we're a to continue 37 00:02:00,600 --> 00:02:04,080 Speaker 1: swimming and feeding in a tank at the MBL facility, 38 00:02:04,280 --> 00:02:06,480 Speaker 1: the team's finding is the first time this kind of 39 00:02:06,600 --> 00:02:09,560 Speaker 1: lock or catch muscle, as it's known, has been detected 40 00:02:09,560 --> 00:02:12,920 Speaker 1: in any cephalopod. Wardell says they believe it's similar to 41 00:02:13,000 --> 00:02:15,640 Speaker 1: a kind of locking mechanism used by clams and muscles 42 00:02:15,680 --> 00:02:19,280 Speaker 1: to seal shut without expending energy. For the cuttlefish, which, 43 00:02:19,320 --> 00:02:22,320 Speaker 1: as any wild animal, relies on every calorie it consumes 44 00:02:22,320 --> 00:02:25,440 Speaker 1: to survive, having a way to maintain its disguise without 45 00:02:25,480 --> 00:02:29,360 Speaker 1: constantly pumping out energy is an ingenious survival strategy. Like 46 00:02:29,440 --> 00:02:31,640 Speaker 1: an e reader that only uses energy when you turn 47 00:02:31,720 --> 00:02:34,280 Speaker 1: the page, you expend way less energy than with a 48 00:02:34,320 --> 00:02:39,240 Speaker 1: tablet that's constantly refreshing its screen. The researchers suspect that squid, 49 00:02:39,280 --> 00:02:42,160 Speaker 1: which hang out in the ocean's upper water columns, may 50 00:02:42,200 --> 00:02:45,440 Speaker 1: have the same ability. Squid don't transform the texture of 51 00:02:45,480 --> 00:02:48,280 Speaker 1: their skin as cuttlefish do, likely because the increase in 52 00:02:48,360 --> 00:02:50,840 Speaker 1: drag would make such rough surfaces more of a liability 53 00:02:50,880 --> 00:02:54,880 Speaker 1: than an advantage, but these cephalopods blend in by shifting 54 00:02:54,880 --> 00:02:58,119 Speaker 1: the ear doesn't quality of their skin, effectively changing how 55 00:02:58,160 --> 00:03:01,440 Speaker 1: the sun's light reflects off of their bodies. Observations have 56 00:03:01,480 --> 00:03:04,560 Speaker 1: shown that squid even use their eardescence to hypnotize prey 57 00:03:04,639 --> 00:03:09,000 Speaker 1: such as crabs in their sites. In investigating the cuttlefish's neurotransmitters, 58 00:03:09,200 --> 00:03:12,480 Speaker 1: they found striking similarities to neural circuits used by squid 59 00:03:12,680 --> 00:03:16,240 Speaker 1: to manipulate their eridescence, so they suspect squid may have 60 00:03:16,280 --> 00:03:19,200 Speaker 1: a similar ability to lock in a certain air doescn 61 00:03:19,240 --> 00:03:22,679 Speaker 1: to look. Wardell said, the same nerve controls appeared to 62 00:03:22,680 --> 00:03:26,680 Speaker 1: control papela in cuttlefish and aridescence in squid. We suspect 63 00:03:26,720 --> 00:03:29,280 Speaker 1: they must have a common ancestor for this control system, 64 00:03:29,440 --> 00:03:33,079 Speaker 1: but the jury is still out. Word that scientists have 65 00:03:33,160 --> 00:03:36,160 Speaker 1: uncovered yet another neat cephalopod trick is exciting news to 66 00:03:36,240 --> 00:03:39,840 Speaker 1: people like James Pickle, and assistant professor in the Department 67 00:03:39,880 --> 00:03:43,840 Speaker 1: of Mechanical Engineering and Applied Mechanics at the University of Pennsylvania. 68 00:03:44,040 --> 00:03:46,960 Speaker 1: Pickle's research group recently borrowed from previous studies on the 69 00:03:47,000 --> 00:03:51,200 Speaker 1: cephalopods to mimic the cuttlefish's quick changing textural camouflage in 70 00:03:51,240 --> 00:03:55,840 Speaker 1: synthetic form using silicon and fiber mesh rings. He envisions 71 00:03:55,880 --> 00:03:59,400 Speaker 1: building on the cuttlefish's dynamic texture changing ability to generate 72 00:03:59,440 --> 00:04:02,040 Speaker 1: a GPS map that could lie flat in a vehicle 73 00:04:02,080 --> 00:04:05,200 Speaker 1: and then, upon command, spring into three dimensions to offer 74 00:04:05,240 --> 00:04:09,000 Speaker 1: a vivid, fully contoured view of the driver's route. Pickle 75 00:04:09,080 --> 00:04:12,680 Speaker 1: also predicts endless medical applications that could borrow from the cephalopod, 76 00:04:12,960 --> 00:04:16,520 Speaker 1: including soft robots that could instantly bend and conform to 77 00:04:16,680 --> 00:04:19,719 Speaker 1: mold around a patient's injury, or even envelope and support 78 00:04:19,760 --> 00:04:23,680 Speaker 1: a beating heart. To accomplish those visions, Pickle foreseas taking 79 00:04:23,720 --> 00:04:26,680 Speaker 1: inspiration and guidance from the cuttlefish and then advancing it. 80 00:04:27,040 --> 00:04:30,919 Speaker 1: He conceives, for example, of developing individual artificial papale that 81 00:04:31,000 --> 00:04:34,520 Speaker 1: could not only be activated or deactivated to match a surrounding, 82 00:04:34,760 --> 00:04:37,360 Speaker 1: but also be prompted to take on a specific shape 83 00:04:37,520 --> 00:04:40,960 Speaker 1: to create a surface that's even more fine tuned. The 84 00:04:41,040 --> 00:04:43,080 Speaker 1: latest research on the cuttle fish was funded by the 85 00:04:43,120 --> 00:04:46,240 Speaker 1: Air Force Office of Scientific Research. War Dale points out 86 00:04:46,279 --> 00:04:49,240 Speaker 1: that the military's interest in the animals goes beyond camouflage. 87 00:04:49,560 --> 00:04:53,040 Speaker 1: He said, they're also interested because of material science. You 88 00:04:53,080 --> 00:04:55,719 Speaker 1: can imagine you can take a very flat structure and 89 00:04:55,760 --> 00:04:58,800 Speaker 1: by activating it form a three dimensional shape. That ability 90 00:04:58,880 --> 00:05:01,120 Speaker 1: could be really helpful if you to transport a structure 91 00:05:01,120 --> 00:05:04,839 Speaker 1: flat to a location and then expanded out. Pickle said 92 00:05:05,480 --> 00:05:08,120 Speaker 1: nature has already begun the design process, so we don't 93 00:05:08,120 --> 00:05:10,599 Speaker 1: have to start at zero, but ultimately we want to 94 00:05:10,600 --> 00:05:18,880 Speaker 1: go beyond what even these amazing animals can do. Today's 95 00:05:18,880 --> 00:05:21,920 Speaker 1: episode was written by Amanda Onion and produced by Tristan McNeil. 96 00:05:22,200 --> 00:05:24,599 Speaker 1: For more on this and lots of other animal topics, 97 00:05:24,680 --> 00:05:38,479 Speaker 1: visit our home planet to stuff works dot com