1 00:00:06,979 --> 00:00:11,559 To human eyes, the world at night is a formless canvas of grey. 2 00:00:11,559 --> 00:00:14,313 Many nocturnal animals, on the other hand, 3 00:00:14,313 --> 00:00:19,599 experience a rich and varied world bursting with details, shapes, and colors. 4 00:00:19,599 --> 00:00:23,490 What is it, then, that separates moths from men? 5 00:00:23,490 --> 00:00:26,398 Moths and many other nocturnal animals see at night 6 00:00:26,398 --> 00:00:30,148 because their eyes are adapted to compensate for the lack of light. 7 00:00:30,148 --> 00:00:32,909 All eyes, whether nocturnal or not, 8 00:00:32,909 --> 00:00:36,757 depend on photoreceptors in the retina to detect light particles, 9 00:00:36,757 --> 00:00:38,938 known as photons. 10 00:00:38,938 --> 00:00:42,969 Photoreceptors then report information about these photons to other cells 11 00:00:42,969 --> 00:00:44,869 in the retina and brain. 12 00:00:44,869 --> 00:00:48,429 The brain sifts through that information and uses it to build up an image 13 00:00:48,429 --> 00:00:50,691 of the environment the eye perceives. 14 00:00:50,691 --> 00:00:54,399 The brighter the light is, the more photons hit the eye. 15 00:00:54,399 --> 00:00:55,729 On a sunny day, 16 00:00:55,729 --> 00:01:00,259 upwards of 100 million times more photons are available to the eye 17 00:01:00,259 --> 00:01:02,650 than on a cloudy, moonless night. 18 00:01:02,650 --> 00:01:05,420 Photons aren't just less numerous in darkness, 19 00:01:05,420 --> 00:01:08,890 but they also hit the eye in a less reliable way. 20 00:01:08,890 --> 00:01:11,839 This means the information that photoreceptors collect 21 00:01:11,839 --> 00:01:13,450 will vary over time, 22 00:01:13,450 --> 00:01:15,600 as will the quality of the image. 23 00:01:15,600 --> 00:01:20,620 In darkness, trying to detect the sparse scattering of randomly arriving photons 24 00:01:20,620 --> 00:01:24,010 is too difficult for the eyes of most daytime animals. 25 00:01:24,010 --> 00:01:27,841 But for night creatures, it's just a matter of adaptation. 26 00:01:27,841 --> 00:01:31,391 One of these adaptations is size. 27 00:01:31,391 --> 00:01:35,980 Take the tarsier, whose eyeballs are each as big as its brain, 28 00:01:35,980 --> 00:01:39,990 giving it the biggest eyes compared to head size of all mammals. 29 00:01:39,990 --> 00:01:45,461 If humans had the same brain to eye ratio, our eyes would be the size of grapefruits. 30 00:01:45,461 --> 00:01:48,830 The tarsier's enlarged orbs haven't evolved to make it cuter, however, 31 00:01:48,830 --> 00:01:51,881 but to gather as much light as possible. 32 00:01:51,881 --> 00:01:55,041 Bigger eyes can have larger openings, called pupils, 33 00:01:55,041 --> 00:01:56,561 and larger lenses, 34 00:01:56,561 --> 00:01:59,831 allowing for more light to be focused on the receptors. 35 00:01:59,831 --> 00:02:04,223 While tarsiers scan the nocturnal scene with their enormous peepers, 36 00:02:04,223 --> 00:02:08,432 cats use gleaming eyes to do the same. 37 00:02:08,432 --> 00:02:12,352 Cats' eyes get their shine from a structure called the tapetum lucidum 38 00:02:12,352 --> 00:02:14,791 that sits behind the photoreceptors. 39 00:02:14,791 --> 00:02:18,733 This structure is made from layers of mirror-like cells containing crystals 40 00:02:18,733 --> 00:02:22,336 that send incoming light bouncing back towards the photoreceptors 41 00:02:22,336 --> 00:02:24,062 and out of the eye. 42 00:02:24,062 --> 00:02:25,812 This results in an eerie glow, 43 00:02:25,812 --> 00:02:30,342 and it also gives the photoreceptors a second chance to detect photons. 44 00:02:30,342 --> 00:02:35,973 In fact, this system has inspired the artificial cats' eyes we use on our roads. 45 00:02:35,973 --> 00:02:39,653 Toads, on the other hand, have adapted to take it slow. 46 00:02:39,653 --> 00:02:41,376 They can form an image 47 00:02:41,376 --> 00:02:45,701 even when just a single photon hits each photoreceptor per second. 48 00:02:45,701 --> 00:02:47,846 They accomplish this with photoreceptors 49 00:02:47,846 --> 00:02:51,353 that are more than 25 times slower than human ones. 50 00:02:51,353 --> 00:02:54,486 This means toads can collect photons for up to four seconds, 51 00:02:54,486 --> 00:02:57,362 allowing them to gather many more than our eyes do 52 00:02:57,362 --> 00:02:59,743 at each visual time interval. 53 00:02:59,743 --> 00:03:03,762 The downside is that this causes toads to react very slowly 54 00:03:03,762 --> 00:03:08,034 because they're only receiving an updated image every four seconds. 55 00:03:08,034 --> 00:03:11,474 Fortunately, they're accustomed to targeting sluggish prey. 56 00:03:11,474 --> 00:03:14,793 Meanwhile, the night is also buzzing with insects, 57 00:03:14,793 --> 00:03:16,792 such as hawk moths, 58 00:03:16,792 --> 00:03:21,254 which can see their favorite flowers in color, even on a starlit night. 59 00:03:21,254 --> 00:03:23,383 They achieve this by a surprising move - 60 00:03:23,383 --> 00:03:26,213 getting rid of details in their visual perception. 61 00:03:26,213 --> 00:03:29,754 Information from neighboring photoreceptors is grouped in their brains, 62 00:03:29,754 --> 00:03:32,244 so the photon catch of each group is higher 63 00:03:32,244 --> 00:03:34,745 compared to individual receptors. 64 00:03:34,745 --> 00:03:38,422 However, grouping photoreceptors loses details in the image, 65 00:03:38,422 --> 00:03:42,014 as fine details require a fine grid of photoreceptors, 66 00:03:42,014 --> 00:03:45,784 each detecting photons from one small point in space. 67 00:03:45,784 --> 00:03:49,574 The trick is to balance the need for photons with the loss of detail 68 00:03:49,574 --> 00:03:51,243 to still find their flowers. 69 00:03:51,243 --> 00:03:54,194 Whether eyes are slow, enormous, shiny, or coarse, 70 00:03:54,194 --> 00:03:57,245 it's the combination of these biological adaptations 71 00:03:57,245 --> 00:04:00,956 that gives nocturnal animals their unique visual powers. 72 00:04:00,956 --> 00:04:03,907 Imagine what it might be like to witness through their eyes 73 00:04:03,907 --> 00:04:06,676 the world that wakes up when the Sun goes down.