0:00:00.200,0:00:03.256 Greg Gage: If I asked you[br]to think of a ferocious killer animal, 0:00:03.280,0:00:04.776 you'd probably think of a lion, 0:00:04.800,0:00:07.616 and for all the wonderful[br]predatory skills that a lion has, 0:00:07.640,0:00:11.336 it still only has about a 20 percent[br]success rate at catching a meal. 0:00:11.360,0:00:13.376 Now, one of the most successful hunters 0:00:13.400,0:00:15.456 in the entire animal kingdom[br]is surprising: 0:00:15.480,0:00:16.736 the dragonfly. 0:00:16.760,0:00:18.536 Now, dragonflies are killer flies, 0:00:18.560,0:00:20.136 and when they see a smaller fly, 0:00:20.160,0:00:23.136 they have about a 97 percent[br]chance of catching it for a meal. 0:00:23.160,0:00:24.416 And this is in mid-flight. 0:00:24.440,0:00:27.616 But how can such[br]a small insect be so precise? 0:00:27.640,0:00:29.496 In this episode, we're going to see 0:00:29.520,0:00:33.200 how the dragonfly's brain is highly[br]specialized to be a deadly killer. 0:00:33.224,0:00:36.455 [DIY Neuroscience] 0:00:36.480,0:00:39.496 So what makes the dragonfly[br]one of the most successful predators 0:00:39.520,0:00:40.736 in the animal kingdom? 0:00:40.760,0:00:42.016 One, it's the eyes. 0:00:42.040,0:00:43.896 It has near 360-degree vision. 0:00:43.920,0:00:45.336 Two, the wings. 0:00:45.360,0:00:47.176 With individual control of its wings, 0:00:47.200,0:00:49.576 the dragonfly can move[br]precisely in any direction. 0:00:49.600,0:00:51.976 But the real secret[br]to the dragonfly's success 0:00:52.000,0:00:55.096 is how its brain coordinates[br]this complex information 0:00:55.120,0:00:56.656 between the eyes and the wings 0:00:56.680,0:00:59.256 and turns hunting into a simple reflex. 0:00:59.280,0:01:01.661 To study this, Jaimie's been[br]spending a lot of time 0:01:01.685,0:01:03.336 socializing with dragonflies. 0:01:03.360,0:01:05.296 What do you need to do your experiments? 0:01:05.319,0:01:07.656 Jaimie Spahr: First of all,[br]you need dragonflies. 0:01:07.680,0:01:10.136 Oliver: I have a mesh cage[br]to catch the dragonflies. 0:01:10.160,0:01:13.296 JS: The more I worked with them,[br]the more terrified I got of them. 0:01:13.320,0:01:16.096 They're actually very scary,[br]especially under a microscope. 0:01:16.120,0:01:19.256 They have really sharp mandibles,[br]are generally pretty aggressive, 0:01:19.280,0:01:22.016 which I guess also helps them[br]to be really good predators. 0:01:22.040,0:01:25.176 GG: In order to learn what's going on[br]inside the dragonfly's brain 0:01:25.200,0:01:26.416 when it sees a prey, 0:01:26.440,0:01:28.576 we're going to eavesdrop in[br]on a conversation 0:01:28.600,0:01:30.136 between the eyes and the wings, 0:01:30.160,0:01:32.922 and to do that, we need[br]to anesthetize the dragonfly on ice 0:01:32.946,0:01:36.336 and make sure we protect its wings[br]so that we can release it afterwards. 0:01:36.360,0:01:40.016 Now, the dragonfly's brain is made up[br]of specialized cells called neurons 0:01:40.040,0:01:42.216 and these neurons[br]are what allow the dragonfly 0:01:42.240,0:01:43.896 to see and move so quickly. 0:01:43.920,0:01:46.976 The individual neurons form circuits[br]by connecting to each other 0:01:47.000,0:01:49.616 via long, tiny threads called axons 0:01:49.640,0:01:52.896 and the neurons communicate[br]over these axons using electricity. 0:01:52.920,0:01:56.376 In the dragonfly, we're going to place[br]little metal wires, or electrodes, 0:01:56.400,0:01:57.656 along the axon tracks, 0:01:57.680,0:01:59.176 and this is what's really cool. 0:01:59.200,0:02:01.216 In the dragonfly, there's only 16 neurons; 0:02:01.240,0:02:02.496 that's eight per eye 0:02:02.520,0:02:04.976 that tell the wings[br]exactly where the target is. 0:02:05.000,0:02:08.216 We've placed the electrodes[br]so that we can record from these neurons 0:02:08.240,0:02:09.936 that connect the eyes to the wings. 0:02:09.960,0:02:12.816 Whenever a message is being passed[br]from the eye to the wing, 0:02:12.840,0:02:16.576 our electrode intercepts that conversation[br]in the form of an electrical current, 0:02:16.600,0:02:17.816 and it amplifies it. 0:02:17.840,0:02:20.896 Now, we can both hear it and see it[br]in the form of a spike, 0:02:20.920,0:02:23.176 which we also call an action potential. 0:02:23.200,0:02:24.456 Now let's listen in. 0:02:24.480,0:02:27.936 Right now, we have the dragonfly[br]flipped upside down, 0:02:27.960,0:02:30.576 so he's looking down towards the ground. 0:02:30.600,0:02:33.576 We're going to take a prey,[br]or what we sometimes call a target. 0:02:33.600,0:02:36.096 In this case, the target's[br]going to be a fake fly. 0:02:36.120,0:02:38.640 We're going to move it[br]into the dragonfly's sights. 0:02:40.640,0:02:42.296 (Buzzing) 0:02:42.320,0:02:43.520 Oh! 0:02:44.720,0:02:45.920 Oh, look at that. 0:02:50.040,0:02:52.240 Look at that, but it's only[br]in one direction. 0:02:52.840,0:02:54.080 Oh, yes! 0:02:54.640,0:02:56.696 You don't see any spikes[br]when I go forward, 0:02:56.720,0:02:58.616 but they're all when I come back. 0:02:58.640,0:03:00.096 In our experiments, 0:03:00.120,0:03:02.616 we were able to see[br]that the neurons of the dragonfly 0:03:02.640,0:03:05.896 fired when we moved the target[br]in one direction but not the other. 0:03:05.920,0:03:07.176 Now, why is that? 0:03:07.200,0:03:09.058 Remember when I said that the dragonfly 0:03:09.082,0:03:11.136 had near 360-degree vision. 0:03:11.160,0:03:13.656 Well, there's a section[br]of the eye called the fovea 0:03:13.680,0:03:16.576 and this is the part[br]that has the sharpest visual acuity, 0:03:16.600,0:03:19.296 and you can think of it as its crosshairs. 0:03:19.320,0:03:23.496 Remember when I told you the dragonfly had[br]individual precise control of its wings? 0:03:23.520,0:03:27.576 When a dragonfly sees its prey,[br]it trains its crosshairs on it 0:03:27.600,0:03:30.976 and along its axons[br]it sends messages only to the neurons 0:03:31.000,0:03:32.696 that control the parts of the wings 0:03:32.720,0:03:35.056 that are needed[br]to keep that dragonfly on target. 0:03:35.080,0:03:38.056 So if the prey is[br]on the left of the dragonfly, 0:03:38.080,0:03:41.856 only the neurons that are tugging[br]the wings to the left are fired. 0:03:41.880,0:03:44.376 And if the prey moves[br]to the right of the dragonfly, 0:03:44.400,0:03:47.576 those same neurons are not needed,[br]so they're going to remain quiet. 0:03:47.600,0:03:49.536 And the dragonfly speeds toward the prey 0:03:49.560,0:03:52.816 at a fixed angle that's communicated[br]by this crosshairs to the wings, 0:03:52.840,0:03:54.856 and then boom, dinner. 0:03:54.880,0:03:58.576 Now, all this happens in a split second,[br]and it's effortless for the dragonfly. 0:03:58.600,0:04:00.176 It's almost like a reflex. 0:04:00.200,0:04:04.296 And this whole incredibly efficient[br]process is called fixation. 0:04:04.320,0:04:06.936 But there's one more[br]story to this process. 0:04:06.960,0:04:09.056 We saw how the neurons[br]respond to movements, 0:04:09.080,0:04:12.000 but how does the dragonfly know[br]that something really is prey? 0:04:12.880,0:04:14.216 This is where size matters. 0:04:14.240,0:04:16.760 Let's show the dragonfly a series of dots. 0:04:29.000,0:04:30.216 Oh, yeah! 0:04:30.240,0:04:32.456 JS: Yeah, it prefers that one. 0:04:32.480,0:04:33.736 GG: Out of all the sizes, 0:04:33.760,0:04:37.280 we found that the dragonfly responded[br]to smaller targets over larger ones. 0:04:37.680,0:04:41.736 In other words, the dragonfly[br]was programmed to go after smaller flies 0:04:41.760,0:04:44.096 versus something much larger, like a bird. 0:04:44.120,0:04:46.696 And as soon as it recognizes[br]something as prey, 0:04:46.720,0:04:49.536 that poor little fly[br]only has seconds to live. 0:04:49.560,0:04:52.136 Today we got to see[br]how the dragonfly's brain works 0:04:52.160,0:04:53.840 to make it a very efficient killer. 0:04:54.440,0:04:58.176 And let's be thankful[br]that we didn't live 300 million years ago 0:04:58.200,0:05:01.080 when dragonflies were the size of cats.