WEBVTT 00:00:07.040 --> 00:00:09.664 It's the first sense you use when you're born. 00:00:09.688 --> 00:00:12.855 One out of every fifty of your genes is dedicated to it. 00:00:12.879 --> 00:00:14.585 It must be important, right? 00:00:14.609 --> 00:00:17.226 Okay, take a deep breath through your nose. 00:00:17.250 --> 00:00:18.759 It's your sense of smell, 00:00:18.783 --> 00:00:20.679 and it's breathtakingly powerful. 00:00:20.703 --> 00:00:24.223 As an adult, you can distinguish about 10,000 different smells. 00:00:24.247 --> 00:00:25.733 Here's how your nose does it. 00:00:25.757 --> 00:00:29.119 Smell starts when you sniff molecules from the air into your nostrils. 00:00:29.143 --> 00:00:30.822 95% of your nasal cavity 00:00:30.846 --> 00:00:33.981 is used just to filter that air before it hits your lungs. 00:00:34.005 --> 00:00:35.577 But at the very back of your nose 00:00:35.601 --> 00:00:37.956 is a region called the olfactory epithelium, 00:00:37.980 --> 00:00:40.695 a little patch of skin that's key to everything you smell. 00:00:40.719 --> 00:00:43.917 The olfactory epithelium has a layer of olfactory receptor cells, 00:00:43.941 --> 00:00:45.837 special neurons that sense smells, 00:00:45.861 --> 00:00:47.690 like the taste buds of your nose. 00:00:47.714 --> 00:00:49.857 When odor molecules hit the back of your nose, 00:00:49.881 --> 00:00:53.262 they get stuck in a layer of mucus covering the olfactory epithelium. 00:00:53.286 --> 00:00:56.096 As they dissolve, they bind to the olfactory receptor cells, 00:00:56.120 --> 00:00:58.764 which fire and send signals through the olfactory tract 00:00:58.788 --> 00:00:59.918 up to your brain. 00:00:59.942 --> 00:01:01.601 As a side note, you can tell a lot 00:01:01.625 --> 00:01:03.687 about how good an animal's sense of smell is 00:01:03.711 --> 00:01:05.726 by the size of its olfactory epithelium. 00:01:05.750 --> 00:01:07.085 A dog's olfactory epithelium 00:01:07.109 --> 00:01:09.479 is 20 times bigger than your puny human one. 00:01:09.503 --> 00:01:13.075 But there's still a lot we don't know about this little patch of cells, too. 00:01:13.099 --> 00:01:15.494 For example, our olfactory epithelium is pigmented, 00:01:15.518 --> 00:01:17.669 and scientists don't really know why. 00:01:17.693 --> 00:01:20.556 But how do you actually tell the difference between smells? 00:01:20.580 --> 00:01:22.105 It turns out that your brain has 00:01:22.129 --> 00:01:24.538 40 million different olfactory receptor neurons, 00:01:24.562 --> 00:01:27.038 so odor A might trigger 00:01:27.062 --> 00:01:29.834 neurons 3, 427, and 988, 00:01:29.858 --> 00:01:32.096 and odor B might trigger 00:01:32.120 --> 00:01:36.285 neurons 8, 76, and 2,496,678. 00:01:36.309 --> 00:01:37.976 All of these different combinations 00:01:38.000 --> 00:01:40.437 let you detect a staggeringly broad array of smells. 00:01:40.461 --> 00:01:43.172 Olfactory neurons are always fresh and ready for action. 00:01:43.196 --> 00:01:46.272 They're the only neuron in the body that gets replaced regularly, 00:01:46.296 --> 00:01:47.626 every four to eight weeks. 00:01:47.650 --> 00:01:50.496 Once they are triggered, the signal travels through a bundle 00:01:50.520 --> 00:01:51.774 called the olfactory tract 00:01:51.798 --> 00:01:54.916 to destinations all over your brain, making stops in the amygdala, 00:01:54.940 --> 00:01:56.486 the thalamus, and the neocortex. 00:01:56.510 --> 00:01:59.196 This is different from how sight and sound are processed. 00:01:59.220 --> 00:02:01.566 Each of those signals goes first to a relay center 00:02:01.590 --> 00:02:03.496 in the middle of the cerebral hemisphere 00:02:03.520 --> 00:02:05.536 and then out to other regions of the brain. 00:02:05.560 --> 00:02:08.576 But smell, because it evolved before most of your other senses, 00:02:08.600 --> 00:02:11.486 takes a direct route to these different regions of the brain, 00:02:11.510 --> 00:02:13.971 where it can trigger your fight-or-flight response, 00:02:13.995 --> 00:02:16.475 help you recall memories, or make your mouth water. 00:02:16.499 --> 00:02:19.410 But even though we've all got the same physiological set-up, 00:02:19.434 --> 00:02:21.629 two nostrils and millions of olfactory neurons, 00:02:21.653 --> 00:02:23.434 not everybody smells the same things. 00:02:23.458 --> 00:02:25.336 One of the most famous examples of this 00:02:25.360 --> 00:02:27.805 is the ability to smell so-called "asparagus pee." 00:02:27.829 --> 00:02:29.639 For about a quarter of the population, 00:02:29.663 --> 00:02:31.226 urinating after eating asparagus 00:02:31.250 --> 00:02:33.082 means smelling a distinct odor. 00:02:33.106 --> 00:02:35.578 The other 75% of us don't notice. 00:02:35.602 --> 00:02:38.862 And this isn't the only case of smells differing from nose to nose. 00:02:38.886 --> 00:02:41.909 For some people, the chemical androstenone smells like vanilla; 00:02:41.933 --> 00:02:44.082 to others, it smells like sweaty urine, 00:02:44.106 --> 00:02:45.130 which is unfortunate 00:02:45.154 --> 00:02:48.566 because androstenone is commonly found in tasty things like pork. 00:02:48.590 --> 00:02:50.718 So with the sweaty urine smellers in mind, 00:02:50.742 --> 00:02:52.959 pork producers will castrate male pigs 00:02:52.983 --> 00:02:55.021 to stop them from making androstenone. 00:02:55.045 --> 00:02:57.791 The inability to smell a scent is called anosmia, 00:02:57.815 --> 00:02:59.759 and there are about 100 known examples. 00:02:59.783 --> 00:03:03.050 People with allicin anosmia can't smell garlic. 00:03:03.074 --> 00:03:05.923 Those with eugenol anosmia can't smell cloves. 00:03:05.947 --> 00:03:08.523 And some people can't smell anything 00:03:08.547 --> 00:03:09.727 at all. 00:03:09.751 --> 00:03:12.279 This kind of full anosmia could have several causes. 00:03:12.303 --> 00:03:14.494 Some people are born without a sense of smell. 00:03:14.518 --> 00:03:17.531 Others lose it after an accident or during an illness. 00:03:17.555 --> 00:03:20.068 If the olfactory epithelium gets swollen or infected, 00:03:20.092 --> 00:03:21.712 it can hamper your sense of smell, 00:03:21.736 --> 00:03:24.451 something you might have experienced when you were sick. 00:03:24.475 --> 00:03:27.774 Not being able to smell anything can mess with your other senses, too. 00:03:27.798 --> 00:03:29.425 Many people who can't smell at all 00:03:29.449 --> 00:03:32.031 also can't really taste the same way the rest of us do. 00:03:32.055 --> 00:03:35.921 It turns out that how something tastes is closely related to how it smells. 00:03:35.945 --> 00:03:38.836 As you chew your food, air is pushed up your nasal passage, 00:03:38.860 --> 00:03:40.845 carrying with it the smell of your food. 00:03:40.869 --> 00:03:42.947 Those scents hit your olfactory epithelium 00:03:42.971 --> 00:03:45.357 and tell your brain a lot about what you're eating. 00:03:45.381 --> 00:03:48.161 Without the ability to smell, you lose the ability to taste 00:03:48.185 --> 00:03:50.346 anything more complicated than the five tastes 00:03:50.370 --> 00:03:51.965 your taste buds can detect: 00:03:51.989 --> 00:03:53.457 sweet, salty, 00:03:53.481 --> 00:03:55.206 bitter, sour, and savory. 00:03:55.230 --> 00:03:57.230 So, the next time you smell exhaust fumes, 00:03:57.254 --> 00:03:58.948 salty sea air, or roast chicken, 00:03:58.972 --> 00:04:00.890 you'll know exactly how you've done it 00:04:00.914 --> 00:04:03.917 and, perhaps, be a little more thankful that you can.