1 00:00:00,667 --> 00:00:04,976 It may seem like we're all standing on solid earth right now, but we're not. 2 00:00:05,753 --> 00:00:10,214 The rocks and the dirt underneath us are crisscrossed by tiny little fractures 3 00:00:10,238 --> 00:00:11,573 and empty spaces. 4 00:00:11,597 --> 00:00:16,526 And these empty spaces are filled with astronomical quantities of microbes 5 00:00:16,550 --> 00:00:17,817 such as these ones. 6 00:00:18,866 --> 00:00:24,141 The deepest that we found microbes so far into the earth is five kilometers down. 7 00:00:24,165 --> 00:00:26,321 So like, if you pointed yourself at the ground 8 00:00:26,345 --> 00:00:28,664 and took off running into the ground, 9 00:00:28,688 --> 00:00:32,359 you could run an entire 5K race and microbes would line your whole path. 10 00:00:33,044 --> 00:00:35,568 So you may not have ever thought about these microbes 11 00:00:35,592 --> 00:00:37,282 that are deep inside earth's crust, 12 00:00:37,306 --> 00:00:40,268 but you probably thought about the microbes living in our guts. 13 00:00:40,292 --> 00:00:43,291 If you add up the gut microbiomes of all the people 14 00:00:43,315 --> 00:00:44,974 and all the animals on the planet, 15 00:00:44,998 --> 00:00:48,907 collectively, this weighs about 100,000 tons. 16 00:00:48,931 --> 00:00:53,224 This is a huge biome that we carry in our bellies every single day. 17 00:00:53,907 --> 00:00:55,440 We should all be proud. 18 00:00:56,478 --> 00:01:00,350 But it pales in comparison to the number of microbes 19 00:01:00,374 --> 00:01:02,859 that are covering the entire surface of the earth. 20 00:01:02,883 --> 00:01:05,714 Like, in our soils, our rivers and our oceans. 21 00:01:05,738 --> 00:01:09,611 Collectively, these weigh about two billion tons. 22 00:01:10,174 --> 00:01:12,770 But it turns out that the majority of microbes on earth 23 00:01:12,794 --> 00:01:16,571 aren't even in oceans or our guts or sewage treatment plants. 24 00:01:16,595 --> 00:01:19,372 Most of them are actually inside the earth's crust. 25 00:01:19,396 --> 00:01:23,245 So collectively, these weigh 40 billion tons. 26 00:01:23,754 --> 00:01:27,045 This is one of the biggest biomes on the planet. 27 00:01:27,069 --> 00:01:30,505 And we didn't even know it existed until a few decades ago. 28 00:01:30,847 --> 00:01:33,542 So the possibilities for what life is like down there 29 00:01:33,566 --> 00:01:37,811 or what it might do for humans, are limitless. 30 00:01:38,367 --> 00:01:40,239 This is a map showing a red dot 31 00:01:40,263 --> 00:01:43,621 for every place where we've gotten pretty good deep subsurface samples 32 00:01:43,645 --> 00:01:45,463 with modern microbiological methods 33 00:01:45,487 --> 00:01:46,870 and you may be impressed 34 00:01:46,894 --> 00:01:49,204 that we're getting a pretty good global coverage, 35 00:01:49,228 --> 00:01:52,085 but actually, if you remember that these are the only places 36 00:01:52,109 --> 00:01:54,490 that we have sample from, it looks a little worse. 37 00:01:54,514 --> 00:01:56,323 If we were all in an alien spaceship, 38 00:01:56,347 --> 00:02:00,006 trying to reconstruct the map of the globe from only these samples, 39 00:02:00,030 --> 00:02:01,831 we'd never be able to do it. 40 00:02:03,218 --> 00:02:05,519 So people sometimes say to me, 41 00:02:05,543 --> 00:02:09,059 "Yeah, there's a lot of microbes in the subsurface but (Coughs) 42 00:02:09,083 --> 00:02:11,350 aren't they just kind of dormant?" 43 00:02:11,710 --> 00:02:13,227 This is a good point. 44 00:02:13,251 --> 00:02:18,101 Relative to a ficus plant or the measles or my kid's guinea pigs, 45 00:02:18,125 --> 00:02:21,156 these microbes probably aren't doing much of anything at all. 46 00:02:21,180 --> 00:02:25,006 We know that they have to be slow because there's so many of them. 47 00:02:25,030 --> 00:02:27,720 If they all started dividing at the rate of E. coli 48 00:02:27,744 --> 00:02:31,061 then they would double the entire weight of the earth, rocks included, 49 00:02:31,085 --> 00:02:32,561 over a single night. 50 00:02:33,046 --> 00:02:37,579 In fact, many of them probably haven't even undergone a single cell division 51 00:02:37,603 --> 00:02:39,736 since the time of ancient Egypt. 52 00:02:40,180 --> 00:02:41,640 Which is just crazy. 53 00:02:41,664 --> 00:02:46,956 Like, how do you wrap your head around things that are so long lived? 54 00:02:47,266 --> 00:02:50,410 But I thought of an analogy that I really love, 55 00:02:50,434 --> 00:02:52,255 but it's weird and it's complicated. 56 00:02:52,279 --> 00:02:54,450 So I hope that you can all go there with me. 57 00:02:54,474 --> 00:02:55,720 Alright, let's try it. 58 00:02:56,299 --> 00:02:59,148 It's like trying to figure out the life cycle of a tree 59 00:02:59,172 --> 00:03:01,117 if you only lived for a day. 60 00:03:01,141 --> 00:03:05,522 So like if human life span was only a day, and we lived in winter, 61 00:03:05,546 --> 00:03:07,171 then you would go your entire life 62 00:03:07,195 --> 00:03:09,768 without ever seeing a tree with a leaf on it. 63 00:03:09,792 --> 00:03:11,847 And there would be so many human generations 64 00:03:11,871 --> 00:03:13,895 that would pass by within a single winter, 65 00:03:13,919 --> 00:03:16,315 that you may not even have access to a history book 66 00:03:16,339 --> 00:03:20,141 that says anything other than the fact that trees are always lifeless sticks 67 00:03:20,165 --> 00:03:21,696 that don't do anything. 68 00:03:21,720 --> 00:03:23,379 Of course, this is ridiculous. 69 00:03:23,403 --> 00:03:25,553 We know that trees are just waiting for summer 70 00:03:25,577 --> 00:03:26,926 so they can reactivate. 71 00:03:26,950 --> 00:03:29,125 But if the human life span 72 00:03:29,149 --> 00:03:32,228 were significantly shorter than that of trees, 73 00:03:32,252 --> 00:03:36,107 we might be completely oblivious to this totally mundane fact. 74 00:03:36,879 --> 00:03:41,807 So when we say that these deep subsurface microbes are just dormant, 75 00:03:41,831 --> 00:03:46,003 are we like people who die after a day trying to figure out how trees work? 76 00:03:46,601 --> 00:03:48,491 What if these deep subsurface organisms 77 00:03:48,515 --> 00:03:50,822 are just waiting for their version of summer, 78 00:03:50,846 --> 00:03:53,913 but our lives are too short for us to see it? 79 00:03:54,784 --> 00:03:58,324 If you take E. coli and seal it up in a test tube, 80 00:03:58,348 --> 00:04:02,182 with no food or nutrients and you leave it there for moths to years, 81 00:04:02,206 --> 00:04:05,222 most of the cells die off, of course, because they're starving. 82 00:04:05,246 --> 00:04:07,552 But a few of the cells survive. 83 00:04:07,576 --> 00:04:09,766 If you take these old surviving cells 84 00:04:09,790 --> 00:04:12,657 and compete them, also under starvation conditions, 85 00:04:12,681 --> 00:04:15,855 against a new, fast-growing culture of E. coli, 86 00:04:15,879 --> 00:04:19,618 the grizzled old tough guys beat out the squeaky clean upstarts 87 00:04:19,642 --> 00:04:20,990 every single time. 88 00:04:21,339 --> 00:04:25,942 So this is evidence there's actually an evolutionary pay-off 89 00:04:25,966 --> 00:04:28,180 to being extraordinarily slow. 90 00:04:28,736 --> 00:04:30,625 So it's possible 91 00:04:30,649 --> 00:04:34,212 that maybe we should not equate 92 00:04:34,236 --> 00:04:37,389 being slow with being unimportant. 93 00:04:38,402 --> 00:04:41,084 Maybe these out of sight, out of mind microbes 94 00:04:41,108 --> 00:04:43,315 could actually be helpful to humanity. 95 00:04:44,125 --> 00:04:45,407 OK, so as far as we know, 96 00:04:45,431 --> 00:04:47,537 there are two ways to do subsurface living. 97 00:04:47,871 --> 00:04:51,513 The first is to wait for food to trickle down from the surface world, 98 00:04:51,537 --> 00:04:56,045 like trying to eat the leftovers of a picnic that happened 1,000 years ago. 99 00:04:56,069 --> 00:04:58,093 Which is a crazy way to live, 100 00:04:58,117 --> 00:05:01,275 but shockingly seems to work out for a lot of microbes in earth. 101 00:05:01,698 --> 00:05:05,119 The other possibility is for a microbe to just say, 102 00:05:05,143 --> 00:05:07,618 "Nah, I don't need the surface world. 103 00:05:07,642 --> 00:05:09,095 I'm good down here." 104 00:05:09,119 --> 00:05:10,791 For microbes that go this route, 105 00:05:10,815 --> 00:05:14,458 they have to get everything that they need in order to survive 106 00:05:14,482 --> 00:05:16,299 from inside the earth. 107 00:05:18,205 --> 00:05:20,661 Some things are actually easier for them to get. 108 00:05:20,685 --> 00:05:22,553 They're more abundant inside the earth, 109 00:05:22,577 --> 00:05:26,395 like water or nutrients, like nitrogen or iron and phosphorus, 110 00:05:26,419 --> 00:05:27,592 or places to live. 111 00:05:27,616 --> 00:05:30,776 These are things that we literally kill each other to get a hold of 112 00:05:30,800 --> 00:05:32,014 up at the surface world. 113 00:05:32,038 --> 00:05:35,569 But in the subsurface, the problem is finding enough energy. 114 00:05:36,101 --> 00:05:37,291 Up at the surface, 115 00:05:37,315 --> 00:05:41,403 plants can chemically knit together carbon dioxide molecules into yummy sugars 116 00:05:41,427 --> 00:05:44,403 as fast as the sun's photons hit their leaves. 117 00:05:44,427 --> 00:05:46,955 But in the subsurface, of course, there's no sunlight, 118 00:05:46,979 --> 00:05:49,693 so this ecosystem has to solve the problem 119 00:05:49,717 --> 00:05:52,982 of who is going to make the food for everybody else. 120 00:05:53,416 --> 00:05:57,291 The subsurface needs something that's like a plant 121 00:05:57,315 --> 00:05:59,102 but it breaths rocks. 122 00:05:59,641 --> 00:06:02,391 Luckily, such a thing exists. 123 00:06:02,800 --> 00:06:05,200 And it's called a chemolithoautotroph. 124 00:06:06,180 --> 00:06:10,204 Which is a microbe that uses chemicals -- chemo, 125 00:06:10,228 --> 00:06:12,458 from rocks -- litho, 126 00:06:12,482 --> 00:06:15,244 to make food -- autotroph. 127 00:06:15,268 --> 00:06:17,926 And they can do this with a ton of different elements. 128 00:06:17,950 --> 00:06:21,783 They can do this with sulphur, iron, manganese, nitrogen, carbon, 129 00:06:21,807 --> 00:06:25,037 some of them can use pure electrons straight up. 130 00:06:25,530 --> 00:06:27,942 Like, if you cut the end off of an electrical cord, 131 00:06:27,966 --> 00:06:29,918 they could breath it like a snorkel. 132 00:06:31,235 --> 00:06:32,736 These chemolithoautotrophes 133 00:06:32,760 --> 00:06:35,395 take the energy that they get from these processes 134 00:06:35,419 --> 00:06:37,831 and use it to make food, like plants do. 135 00:06:37,855 --> 00:06:40,658 But we know that plants do more than just make food. 136 00:06:41,103 --> 00:06:45,447 They also make a waste product, oxygen, which we are 100 percent dependent upon. 137 00:06:45,992 --> 00:06:49,277 But the waste product that these chemolithoautotrophes make 138 00:06:49,301 --> 00:06:51,268 is often in the form of minerals, 139 00:06:51,292 --> 00:06:55,871 like rust or pyrite, like fool's gold, 140 00:06:55,895 --> 00:06:57,895 or carminites, like limestone. 141 00:06:58,680 --> 00:07:05,283 So what we have are microbes that are really, really slow, like rocks, 142 00:07:06,243 --> 00:07:09,649 that get their energy from rocks, 143 00:07:09,673 --> 00:07:12,870 that make as their waste product other rocks. 144 00:07:13,268 --> 00:07:17,089 So am I talking about biology or am I talking about geology? 145 00:07:17,466 --> 00:07:19,609 This stuff really blurs the lines. 146 00:07:19,633 --> 00:07:20,637 (Laughter) 147 00:07:20,661 --> 00:07:22,807 So if I'm going to do this thing, 148 00:07:22,831 --> 00:07:26,149 and I'm going to be a biologist who studies microbes 149 00:07:26,173 --> 00:07:28,378 that kind of act like rocks, 150 00:07:28,402 --> 00:07:31,776 then I should probably start studying geology. 151 00:07:31,800 --> 00:07:34,910 And what's the coolest part of geology? 152 00:07:35,292 --> 00:07:36,442 Volcanoes. 153 00:07:37,759 --> 00:07:41,480 This is looking inside the crater of Poás volcano in Costa Rica. 154 00:07:41,854 --> 00:07:45,632 Many volcanoes on earth arise because an oceanic tectonic plate 155 00:07:45,656 --> 00:07:47,466 crashes into a continental plate. 156 00:07:47,490 --> 00:07:49,403 As this oceanic plate subducts 157 00:07:49,427 --> 00:07:51,792 or gets moved underneath this continental plate, 158 00:07:51,816 --> 00:07:54,657 things like water and carbon dioxide and other materials 159 00:07:54,681 --> 00:07:55,916 get squeezed out of it, 160 00:07:55,940 --> 00:07:57,666 like ringing a wet wash cloth. 161 00:07:58,382 --> 00:08:02,064 So in this way, subduction zones are like portals into the deep earth, 162 00:08:02,088 --> 00:08:05,849 where materials are exchanged between the surface and the subsurface world. 163 00:08:05,873 --> 00:08:08,901 So I was recently invited by some of my colleagues in Costa Rica 164 00:08:08,925 --> 00:08:12,028 to come and work with them on some of the volcanoes. 165 00:08:12,052 --> 00:08:16,650 And of course I said yes, because Costa Rica is beautiful, 166 00:08:16,674 --> 00:08:19,954 but also because it sits on top of one of these subduction zones. 167 00:08:20,478 --> 00:08:23,272 We wanted to ask the very specific question, 168 00:08:23,296 --> 00:08:25,684 why is it that the carbon dioxide 169 00:08:25,708 --> 00:08:28,684 that comes out of this deeply buried oceanic tectonic plate 170 00:08:28,708 --> 00:08:30,815 is only coming out of the volcanoes? 171 00:08:30,839 --> 00:08:34,133 Why don't we see it distributed throughout the entire subduction zone? 172 00:08:34,157 --> 00:08:36,640 Do the microbes have something to do with that? 173 00:08:36,664 --> 00:08:40,287 So this is a picture of me inside Poás volcano, 174 00:08:40,311 --> 00:08:42,495 along with my colleague Donato Giovannelli. 175 00:08:42,519 --> 00:08:46,121 That lake that we're standing next to is made of pure battery acid. 176 00:08:46,145 --> 00:08:49,867 I know this, because we were measuring the pH when this picture was taken. 177 00:08:50,362 --> 00:08:53,093 And at some point while we were working inside the crater, 178 00:08:53,117 --> 00:08:57,696 I turned to my Costa Rican colleague Carlos Ramírez and I said, 179 00:08:57,720 --> 00:09:01,087 "Alright, if this thing starts erupting right now, 180 00:09:01,111 --> 00:09:02,844 what's our exit strategy?" 181 00:09:03,269 --> 00:09:06,412 And he said, "Oh, yeah, great question, it's totally easy. 182 00:09:06,436 --> 00:09:09,514 Just turn around and enjoy the view. 183 00:09:09,538 --> 00:09:10,831 (Laughter) 184 00:09:10,855 --> 00:09:12,402 Because it will be your last." 185 00:09:12,426 --> 00:09:13,561 (Laughter) 186 00:09:13,585 --> 00:09:17,030 And it may sound like he was being overly dramatic, 187 00:09:17,054 --> 00:09:21,807 but 54 days after I was standing next to that lake, 188 00:09:21,831 --> 00:09:23,252 this happened. 189 00:09:23,276 --> 00:09:24,434 Audience: Oh! 190 00:09:25,204 --> 00:09:27,004 Freaking terrifying, right? 191 00:09:28,934 --> 00:09:33,287 This was the biggest eruption that this volcano had had in 60 some odd years 192 00:09:33,311 --> 00:09:35,795 and not long after this video ends 193 00:09:35,819 --> 00:09:38,462 the camera that was taking the video is obliterated 194 00:09:38,486 --> 00:09:40,906 and the entire lake that we had been sampling 195 00:09:40,930 --> 00:09:42,330 vaporizes completely. 196 00:09:42,815 --> 00:09:44,617 But I also want to be clear 197 00:09:44,641 --> 00:09:47,141 that we were pretty sure this was not going to happen 198 00:09:47,165 --> 00:09:49,418 on the day that we were actually in the volcano, 199 00:09:49,442 --> 00:09:52,075 because Costa Rica monitors its volcanoes very carefully 200 00:09:52,099 --> 00:09:53,662 through the OVSICORI Institute, 201 00:09:53,686 --> 00:09:55,695 and we had scientists from that institute 202 00:09:55,719 --> 00:09:56,892 with us on that day. 203 00:09:56,916 --> 00:10:00,006 But the fact that it erupted illustrates perfectly 204 00:10:00,030 --> 00:10:02,538 that if you want to look for where carbon dioxide gas 205 00:10:02,562 --> 00:10:04,426 is coming out of this oceanic plate, 206 00:10:04,450 --> 00:10:07,553 then you should look no further than the volcanoes themselves. 207 00:10:07,577 --> 00:10:09,846 But if you go to Costa Rica, 208 00:10:09,870 --> 00:10:12,330 you may notice that in addition to these volcanoes 209 00:10:12,354 --> 00:10:15,598 are tons of cosy little hot springs all over the place. 210 00:10:16,069 --> 00:10:19,339 Some of the water in these hot springs is actually bubbling up 211 00:10:19,363 --> 00:10:21,664 from this deeply buried oceanic plate. 212 00:10:21,688 --> 00:10:25,184 And our hypothesis was that there should be carbon dioxide 213 00:10:25,208 --> 00:10:26,387 bubbling up with it. 214 00:10:26,411 --> 00:10:29,593 But something deep underground was filtering it out. 215 00:10:29,617 --> 00:10:33,799 So we spent two weeks driving all around Costa Rica, 216 00:10:33,823 --> 00:10:36,720 sampling every hot spring we could find -- 217 00:10:36,744 --> 00:10:38,418 it was awful, let me tell you -- 218 00:10:38,442 --> 00:10:42,172 and then, we spent the next two years 219 00:10:42,196 --> 00:10:45,323 measuring and analyzing data, and if you're not a scientist, 220 00:10:45,347 --> 00:10:47,568 I'll just let you know that the big discoveries 221 00:10:47,592 --> 00:10:50,276 don't really happen when you're in a beautiful hot spring 222 00:10:50,300 --> 00:10:51,458 or on a public stage, 223 00:10:51,482 --> 00:10:54,093 they happen when you're hunched over a messy computer 224 00:10:54,117 --> 00:10:56,831 or you're troubleshooting a difficult instrument, 225 00:10:56,855 --> 00:10:58,593 or you're Skyping your colleagues 226 00:10:58,617 --> 00:11:01,212 because you are completely confused about your data. 227 00:11:01,236 --> 00:11:04,567 Scientific discoveries, kind of like deep subsurface microbes, 228 00:11:04,591 --> 00:11:06,359 can be very, very slow. 229 00:11:07,267 --> 00:11:08,433 But in our case, 230 00:11:08,457 --> 00:11:10,616 this really paid off this one time. 231 00:11:10,640 --> 00:11:12,077 We discovered 232 00:11:12,101 --> 00:11:14,918 that literally tons of carbon dioxide 233 00:11:14,942 --> 00:11:18,125 were coming out of this deeply buried oceanic plate. 234 00:11:18,149 --> 00:11:20,498 And the thing that was keeping them underground 235 00:11:20,522 --> 00:11:23,517 and keeping it from being released out into the atmosphere, 236 00:11:23,541 --> 00:11:25,101 was that deep underground, 237 00:11:25,125 --> 00:11:29,109 underneath all the adorable sloths and toucans of Costa Rica, 238 00:11:29,133 --> 00:11:30,933 were chemolithoautotrophes. 239 00:11:31,338 --> 00:11:34,839 These microbes and the chemical processes that were happening around them 240 00:11:34,863 --> 00:11:37,615 were converting this carbon dioxide into carbonate mineral 241 00:11:37,639 --> 00:11:39,567 and locking it up underground. 242 00:11:39,591 --> 00:11:41,885 Which makes you wonder, 243 00:11:41,909 --> 00:11:43,861 if these subsurface processes 244 00:11:43,885 --> 00:11:48,015 are so good at sucking up all the carbon dioxide coming from below them, 245 00:11:48,039 --> 00:11:50,499 could they also help us with a little carbon problem 246 00:11:50,523 --> 00:11:52,688 we've got going on up at the surface? 247 00:11:53,006 --> 00:11:57,331 Humans are releasing enough carbon dioxide into our atmosphere 248 00:11:57,355 --> 00:12:00,329 that we are decreasing the ability of our planet 249 00:12:00,353 --> 00:12:02,353 to support life as we know it. 250 00:12:02,704 --> 00:12:05,136 And scientists and engineers and entrepreneurs 251 00:12:05,160 --> 00:12:07,664 are working on methods to pull carbon dioxide 252 00:12:07,688 --> 00:12:08,981 out of these point sources, 253 00:12:09,005 --> 00:12:11,323 so that they're not released into the atmosphere. 254 00:12:11,347 --> 00:12:12,998 And they need to put it somewhere. 255 00:12:13,022 --> 00:12:14,199 So for this reason, 256 00:12:14,223 --> 00:12:17,561 we need to keep studying places where this carbon might be stored, 257 00:12:17,585 --> 00:12:19,879 possibly in the subsurface, 258 00:12:19,903 --> 00:12:22,546 to know what's going to happen to it when it goes there. 259 00:12:22,570 --> 00:12:26,037 Will these deep subsurface microbes be a problem because they're too slow 260 00:12:26,061 --> 00:12:27,942 to actually keep anything down there? 261 00:12:27,966 --> 00:12:29,374 Or will they be helpful 262 00:12:29,398 --> 00:12:33,188 because they'll help covert all this stuff to solid carbonate minerals? 263 00:12:33,712 --> 00:12:36,132 If we can make such a big breakthrough 264 00:12:36,156 --> 00:12:38,542 just from one study that we did in Costa Rica, 265 00:12:38,566 --> 00:12:41,533 then imagine what else is waiting to be discovered down there. 266 00:12:41,891 --> 00:12:47,556 This new field of geo-bio-chemistry or deep subsurface biology 267 00:12:47,580 --> 00:12:49,121 or whatever you want to call it, 268 00:12:49,145 --> 00:12:50,982 is going to have huge implications, 269 00:12:51,006 --> 00:12:53,379 not just for mitigating climate change, 270 00:12:53,403 --> 00:12:57,275 but possibly for understanding how life and earth have coevolved. 271 00:12:57,613 --> 00:13:02,311 Or finding new products that are useful for industrial or medical applications. 272 00:13:02,335 --> 00:13:04,597 Maybe even predicting earthquakes 273 00:13:04,621 --> 00:13:06,819 or finding life outside our planet. 274 00:13:06,843 --> 00:13:09,969 It could even help us understand the origin of life itself. 275 00:13:10,827 --> 00:13:13,652 Fortunately, I don't have to do this by myself. 276 00:13:13,962 --> 00:13:17,287 I have amazing colleagues all over the world 277 00:13:17,311 --> 00:13:20,603 who are cracking into the mysteries of this deep subsurface world. 278 00:13:21,831 --> 00:13:26,641 And it may seem like life buried deep within the earth's crust 279 00:13:26,665 --> 00:13:30,639 is so far away from our daily experiences that it's kind of irrelevant. 280 00:13:31,363 --> 00:13:35,051 But the truth is that this weird slow life 281 00:13:35,075 --> 00:13:38,600 may actually have the answers to some of the greatest mysteries 282 00:13:38,624 --> 00:13:39,774 of life on earth. 283 00:13:40,225 --> 00:13:41,376 Thank you. 284 00:13:41,400 --> 00:13:44,790 (Applause)