Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:00,768 --> 00:00:03,502 ♪ 2 00:00:03,504 --> 00:00:07,406 narrator: Earth -- a planet defined by life. 3 00:00:07,408 --> 00:00:10,109 Stricker: The amazing thing about life here on earth 4 00:00:10,111 --> 00:00:13,579 is no matter where you look, you'll find it. 5 00:00:13,581 --> 00:00:15,447 Narrator: But is earth unique? 6 00:00:15,449 --> 00:00:17,282 Thaller: The big question of our day is, 7 00:00:17,284 --> 00:00:20,586 does life exist somewhere else beside the earth? 8 00:00:20,588 --> 00:00:24,056 Are we that special, or is life everywhere? 9 00:00:24,058 --> 00:00:25,891 Narrator: The ingredients for life 10 00:00:25,893 --> 00:00:27,760 are spread throughout the universe. 11 00:00:27,762 --> 00:00:29,895 But then we started looking into space and saying, 12 00:00:29,897 --> 00:00:33,032 "wait a second. That chemistry is everywhere." 13 00:00:35,169 --> 00:00:37,903 narrator: Is life inevitable? 14 00:00:37,905 --> 00:00:40,706 I think that there have to be planets out there 15 00:00:40,708 --> 00:00:44,243 that are capable of hosting life. 16 00:00:44,245 --> 00:00:47,846 Narrator: What does life need to get started, 17 00:00:47,848 --> 00:00:51,917 and once started, can life spread? 18 00:00:51,919 --> 00:00:55,854 It's possible that life started on mars 19 00:00:55,856 --> 00:01:00,426 and was transferred to earth inside of a meteorite. 20 00:01:00,428 --> 00:01:02,528 Narrator: Life has conquered our planet, 21 00:01:02,530 --> 00:01:06,131 but can life conquer the universe? 22 00:01:06,133 --> 00:01:13,872 ♪ 23 00:01:13,874 --> 00:01:16,875 -- captions by vitac -- www.Vitac.Com 24 00:01:16,877 --> 00:01:19,878 captions paid for by discovery communications 25 00:01:19,880 --> 00:01:22,548 ♪ 26 00:01:22,550 --> 00:01:26,518 the universe is a very big place. 27 00:01:26,520 --> 00:01:29,855 There are trillions of galaxies, 28 00:01:29,857 --> 00:01:33,759 each one home to millions of stars 29 00:01:33,761 --> 00:01:37,830 and an unimaginable number of planets. 30 00:01:37,832 --> 00:01:40,065 So where is everybody? 31 00:01:40,067 --> 00:01:43,168 One of the most basic philosophical questions is, 32 00:01:43,170 --> 00:01:44,703 are we alone? 33 00:01:44,705 --> 00:01:47,306 Are we the only ones looking out and thinking, 34 00:01:47,308 --> 00:01:48,974 "what is all this?" 35 00:01:48,976 --> 00:01:54,079 is it all just for us, or do we get to share it with anyone? 36 00:01:54,081 --> 00:01:56,381 I mean, that's about as fundamental a question 37 00:01:56,383 --> 00:01:58,951 as you get. 38 00:01:58,953 --> 00:02:02,354 Narrator: What are the odds of life existing somewhere else? 39 00:02:04,425 --> 00:02:07,059 We just don't have a good insight 40 00:02:07,061 --> 00:02:11,497 to how probable life is anywhere in the universe. 41 00:02:11,499 --> 00:02:13,665 Life could possibly be forming everywhere. 42 00:02:13,667 --> 00:02:15,234 We don't quite know. 43 00:02:15,236 --> 00:02:19,938 There's a lot about life that we don't understand. 44 00:02:19,940 --> 00:02:24,510 All we know is that it happened at least once. 45 00:02:24,512 --> 00:02:26,745 But beyond this one little planet, 46 00:02:26,747 --> 00:02:29,481 we don't know whether or not it happened anywhere else. 47 00:02:29,483 --> 00:02:34,019 ♪ 48 00:02:34,021 --> 00:02:36,421 narrator: The universe is an unfriendly place. 49 00:02:39,426 --> 00:02:44,830 Planets with lava oceans circle too close to their stars. 50 00:02:44,832 --> 00:02:50,435 Pulsars blaze with deadly gamma rays and x-rays. 51 00:02:50,437 --> 00:02:54,106 Black holes consume everything in their path. 52 00:02:54,108 --> 00:02:57,876 Temperatures plummet close to absolute zero. 53 00:02:57,878 --> 00:03:02,414 ♪ 54 00:03:02,416 --> 00:03:04,383 it may seem impossible for life 55 00:03:04,385 --> 00:03:08,320 to survive in such hostile environments, 56 00:03:08,322 --> 00:03:11,690 but here on earth, life exists against the odds 57 00:03:11,692 --> 00:03:15,561 in some very strange places. 58 00:03:15,563 --> 00:03:18,363 Life has actually permeated every part of our planet. 59 00:03:18,365 --> 00:03:19,398 There are places where you're like, 60 00:03:19,400 --> 00:03:21,133 "how did you even get there?" 61 00:03:24,138 --> 00:03:26,471 narrator: At first glance, a beautiful lake 62 00:03:26,473 --> 00:03:29,208 might seem like a good place for life, 63 00:03:29,210 --> 00:03:34,112 but california's salton sea is no paradise. 64 00:03:34,114 --> 00:03:37,249 The toxic salt waters are killer... 65 00:03:40,421 --> 00:03:44,523 ...Surrounded by scorched desert 66 00:03:44,525 --> 00:03:49,094 and volcanic geothermal fields. 67 00:03:49,096 --> 00:03:50,862 It's a deadly environment. 68 00:03:53,267 --> 00:03:56,868 One of the last places on earth you'd expect to find life 69 00:03:56,870 --> 00:03:59,638 would be in boiling mud vents. 70 00:04:01,742 --> 00:04:05,377 You can start to hear these vents because there's gas, 71 00:04:05,379 --> 00:04:09,548 and there's water and mud slurry that's coming out, right here. 72 00:04:09,550 --> 00:04:13,252 So these are active mud volcanoes. 73 00:04:13,254 --> 00:04:14,586 It's really hot. 74 00:04:14,588 --> 00:04:19,725 It's, like... 164 degrees fahrenheit. 75 00:04:19,727 --> 00:04:23,428 Narrator: But life is resilient, finding a home even here, 76 00:04:23,430 --> 00:04:27,266 inside volcanic vents in the california desert. 77 00:04:27,268 --> 00:04:29,301 We're in the middle of a really hot desert, 78 00:04:29,303 --> 00:04:31,703 and as the mud comes up, it's coming up hot, 79 00:04:31,705 --> 00:04:33,472 and it's kind of acid, 80 00:04:33,474 --> 00:04:36,174 and yet there can be microbes in environments like this, 81 00:04:36,176 --> 00:04:38,543 happily thriving away. 82 00:04:38,545 --> 00:04:41,546 This is an environment that is actually conducive to life, 83 00:04:41,548 --> 00:04:44,616 even though we think it might not be. 84 00:04:44,618 --> 00:04:46,885 Narrator: Almost every inch of the earth's surface 85 00:04:46,887 --> 00:04:51,323 is teeming with microscopic life-forms. 86 00:04:51,325 --> 00:04:52,958 The thing about life on earth 87 00:04:52,960 --> 00:04:57,195 is that it exists in so many different environments 88 00:04:57,197 --> 00:04:59,798 under such harsh, extreme conditions. 89 00:04:59,800 --> 00:05:02,768 It's like it hangs on, no matter what you throw at it. 90 00:05:02,770 --> 00:05:06,138 Very dry, high pressure, very hot, 91 00:05:06,140 --> 00:05:08,607 even in high radiation environments, 92 00:05:08,609 --> 00:05:10,976 which would kill a human within seconds. 93 00:05:14,014 --> 00:05:15,914 Narrator: Life even survives 94 00:05:15,916 --> 00:05:18,984 being bombed with asteroids and meteorites. 95 00:05:20,988 --> 00:05:22,821 We have a wonderful indirect example 96 00:05:22,823 --> 00:05:25,557 of just how tenacious life is, and that's the fact 97 00:05:25,559 --> 00:05:28,126 that it survived the late heavy bombardment. 98 00:05:30,064 --> 00:05:31,563 Narrator: The late heavy bombardment 99 00:05:31,565 --> 00:05:34,199 was a violent assault on young earth, 100 00:05:34,201 --> 00:05:38,170 where life had just gotten a foothold. 101 00:05:38,172 --> 00:05:41,440 Experts think around 4 billion years ago, 102 00:05:41,442 --> 00:05:43,709 asteroids comets and space debris 103 00:05:43,711 --> 00:05:46,912 rained down on the inner solar system. 104 00:05:46,914 --> 00:05:49,181 This rocky barrage would've melted parts 105 00:05:49,183 --> 00:05:52,818 of the earth's crust and boiled away oceans. 106 00:05:52,820 --> 00:05:58,223 It was a violent time called the hadean period. 107 00:05:58,225 --> 00:06:01,026 The hadean named, after hades, named after the underworld, 108 00:06:01,028 --> 00:06:02,461 after hell. 109 00:06:02,463 --> 00:06:06,531 It was a brutally unpleasant place to be. 110 00:06:06,533 --> 00:06:09,101 It was spewing its own innards out into the surface 111 00:06:09,103 --> 00:06:12,571 in this intense cycle of hot volcanism. 112 00:06:15,976 --> 00:06:17,342 Narrator: If life on earth 113 00:06:17,344 --> 00:06:19,244 overcame these hellish conditions, 114 00:06:19,246 --> 00:06:24,383 then perhaps life can survive anywhere. 115 00:06:24,385 --> 00:06:25,851 Straugh: I think if it can happen on earth, 116 00:06:25,853 --> 00:06:28,086 I think it can happen on other planets. 117 00:06:28,088 --> 00:06:29,921 I think life finds a way, 118 00:06:29,923 --> 00:06:32,624 and I think we need to go looking for it. 119 00:06:34,728 --> 00:06:38,063 Narrator: The question is, what exactly are we looking for? 120 00:06:39,933 --> 00:06:41,366 Plait: What is life? 121 00:06:41,368 --> 00:06:42,934 You know, that seems like a simple question, 122 00:06:42,936 --> 00:06:45,337 but it's not that easy to answer. 123 00:06:45,339 --> 00:06:47,339 Life is incredibly hard to define, right? 124 00:06:47,341 --> 00:06:49,007 It's sort of like, you know it when you see it, 125 00:06:49,009 --> 00:06:51,743 but how do you write down the rules? 126 00:06:51,745 --> 00:06:53,545 Stricker: Every time we think we have a grasp, 127 00:06:53,547 --> 00:06:55,680 there's this new form that comes about 128 00:06:55,682 --> 00:06:59,584 and completely questions that entire definition. 129 00:06:59,586 --> 00:07:01,920 There's a joke in astrobiology that if you ask 130 00:07:01,922 --> 00:07:04,289 200 scientists for a definition of life, 131 00:07:04,291 --> 00:07:07,426 you'll get 200 different answers. 132 00:07:07,428 --> 00:07:10,695 Narrator: Life can be as intricate as us humans 133 00:07:10,697 --> 00:07:15,300 or as simple as single-celled organisms, like bacteria, 134 00:07:15,302 --> 00:07:20,205 but there are some things all life-forms do. 135 00:07:20,207 --> 00:07:22,441 Plait:In broad terms, life consumes things. 136 00:07:22,443 --> 00:07:25,277 It breathes. It eats. It excretes. 137 00:07:25,279 --> 00:07:28,613 It grows. It reproduces. It's complex. 138 00:07:31,819 --> 00:07:36,888 Narrator: Life has transformed the earth in all sorts of ways, 139 00:07:36,890 --> 00:07:39,691 but life is still just an accident. 140 00:07:42,629 --> 00:07:45,897 Life, as I see it, is just a chemical reaction, 141 00:07:45,899 --> 00:07:49,568 but it's the most important and special chemical reaction 142 00:07:49,570 --> 00:07:52,170 in the universe. 143 00:07:52,172 --> 00:07:55,273 Narrator: If life is just a product of chemistry, 144 00:07:55,275 --> 00:07:56,441 then what are the odds of it 145 00:07:56,443 --> 00:08:00,111 starting anywhere in the universe? 146 00:08:00,113 --> 00:08:01,980 One thing we know about chemistry 147 00:08:01,982 --> 00:08:04,483 is that given the right conditions, 148 00:08:04,485 --> 00:08:09,621 the same chemical reaction will reliably occur. 149 00:08:09,623 --> 00:08:11,356 Narrator: It's like a game of chance. 150 00:08:11,358 --> 00:08:15,126 For life to win, the conditions need to be just right, 151 00:08:15,128 --> 00:08:18,463 but to figure out the odds, we need to understand 152 00:08:18,465 --> 00:08:22,200 what those conditions are and how common they are. 153 00:08:22,202 --> 00:08:24,803 Oluseyi: So it comes down to a numbers game. 154 00:08:24,805 --> 00:08:28,540 It's about statistics and probabilities and likelihoods. 155 00:08:28,542 --> 00:08:31,042 Narrator: It's like having to roll a 6 156 00:08:31,044 --> 00:08:34,312 for each condition for life. 157 00:08:34,314 --> 00:08:36,982 But how many 6s would you need? 158 00:08:36,984 --> 00:08:41,953 How many precise conditions does life require to get going? 159 00:08:41,955 --> 00:08:46,124 You might have 100 dice, roll them all, get all 6s. 160 00:08:46,126 --> 00:08:48,393 Only then do you get life. 161 00:08:48,395 --> 00:08:49,961 Narrator: You could need hundreds 162 00:08:49,963 --> 00:08:52,597 or hundreds of thousands of dice. 163 00:08:52,599 --> 00:08:54,399 We just don't know. 164 00:08:54,401 --> 00:08:57,636 We honestly have no clue 165 00:08:57,638 --> 00:09:01,273 how common or rare life is in the universe. 166 00:09:01,275 --> 00:09:03,174 Plait: We don't know how life originated here on earth, 167 00:09:03,176 --> 00:09:05,777 where we kind of understand the conditions. 168 00:09:05,779 --> 00:09:08,780 There are a lot of different ways life could've started. 169 00:09:10,884 --> 00:09:14,386 Is life rare? Is life common? We don't where it lands. 170 00:09:15,522 --> 00:09:18,056 Narrator: Putting odds on life existing 171 00:09:18,058 --> 00:09:22,994 is a waste of time until we understand it better, 172 00:09:22,996 --> 00:09:27,098 and maybe our answers don't lie here on earth. 173 00:09:27,100 --> 00:09:29,234 One way to crack this problem 174 00:09:29,236 --> 00:09:31,603 is to go looking for life elsewhere. 175 00:09:31,605 --> 00:09:33,905 If we can find other examples of life, 176 00:09:33,907 --> 00:09:37,509 we can immediately begin to put a quantitative answer 177 00:09:37,511 --> 00:09:42,147 to how probable it is for life to happen anywhere. 178 00:09:42,149 --> 00:09:44,316 Narrator: And the best place to look for life 179 00:09:44,318 --> 00:09:47,886 might be in our own backyard... 180 00:09:49,389 --> 00:09:52,490 ...Mars. 181 00:09:52,492 --> 00:09:54,292 If life can start here, 182 00:09:54,294 --> 00:09:57,862 then maybe life could conquer the universe. 183 00:10:06,373 --> 00:10:10,809 [ explosions ] 184 00:10:10,811 --> 00:10:13,345 ♪ 185 00:10:13,347 --> 00:10:15,280 narrator: For life to conquer the universe, 186 00:10:15,282 --> 00:10:19,117 first, it has to get going. 187 00:10:19,119 --> 00:10:20,585 When we look at life on earth, 188 00:10:20,587 --> 00:10:23,355 it's possible that it all has a common ancestor. 189 00:10:23,357 --> 00:10:26,424 Life started at one spot, branched out, and became 190 00:10:26,426 --> 00:10:30,395 all the different kinds of life that we see. 191 00:10:30,397 --> 00:10:32,764 Narrator: But how did it start? 192 00:10:32,766 --> 00:10:37,502 The first question to answer is, what is life made of? 193 00:10:37,504 --> 00:10:40,438 Top of the list are the most basic building blocks -- 194 00:10:40,440 --> 00:10:43,708 chemical elements. 195 00:10:43,710 --> 00:10:45,610 Here's what I know about the universe -- 196 00:10:45,612 --> 00:10:49,748 the laws of physics appear to be same everywhere. 197 00:10:49,750 --> 00:10:50,949 The chemical composition, 198 00:10:50,951 --> 00:10:55,320 the elements are the same everywhere. 199 00:10:55,322 --> 00:10:57,322 And the cosmos creates these elements, 200 00:10:57,324 --> 00:11:01,159 not from the big bang but from stars. 201 00:11:01,161 --> 00:11:03,428 Narrator: Over the course of a star's life, 202 00:11:03,430 --> 00:11:05,363 it creates elements. 203 00:11:05,365 --> 00:11:07,032 And when a star dies, 204 00:11:07,034 --> 00:11:11,803 these elements are blasted out into space in a supernova, 205 00:11:11,805 --> 00:11:16,741 spreading the ingredients for life out into the cosmos. 206 00:11:16,743 --> 00:11:19,844 We, the earth, our solar system, 207 00:11:19,846 --> 00:11:21,746 all the ingredients that make us, 208 00:11:21,748 --> 00:11:26,284 us were forged in nuclear fires. 209 00:11:26,286 --> 00:11:30,955 So the death of stars leads to the birth of life. 210 00:11:33,694 --> 00:11:36,194 Narrator: Those key ingredients include oxygen, 211 00:11:36,196 --> 00:11:39,330 nitrogen, sulfur, and phosphorus, 212 00:11:39,332 --> 00:11:44,202 but the element most central to life as we know it is carbon. 213 00:11:45,739 --> 00:11:49,841 All life as we know it on earth is based on carbon. 214 00:11:49,843 --> 00:11:52,377 Carbon forms the structure, 215 00:11:52,379 --> 00:11:55,747 the architecture of our living molecules. 216 00:11:58,085 --> 00:12:00,819 Narrator: Carbon is an incredibly versatile 217 00:12:00,821 --> 00:12:03,855 building material. 218 00:12:03,857 --> 00:12:07,826 It can bond with other elements to form long-chain molecules, 219 00:12:07,828 --> 00:12:11,262 each with different properties. 220 00:12:11,264 --> 00:12:14,833 As an element, it seems to be capable of producing 221 00:12:14,835 --> 00:12:19,337 a vast and complex chemistry, 222 00:12:19,339 --> 00:12:24,943 and that complex chemistry is what we find in life. 223 00:12:24,945 --> 00:12:27,645 Narrator: We call this organic chemistry. 224 00:12:27,647 --> 00:12:31,116 ♪ 225 00:12:31,118 --> 00:12:33,918 but getting from basic organic molecules 226 00:12:33,920 --> 00:12:37,021 to complex life-forms is a big leap. 227 00:12:37,023 --> 00:12:40,792 We don't really have the slightest idea, 228 00:12:40,794 --> 00:12:45,597 to be honest, about how life on earth got started. 229 00:12:45,599 --> 00:12:49,300 Scharf: A really big question is, how do you go from a mix 230 00:12:49,302 --> 00:12:54,873 of relatively simple organic molecules to a living system? 231 00:12:54,875 --> 00:12:57,742 Narrator: We know it all starts with basic elements created 232 00:12:57,744 --> 00:12:59,377 in massive quantities... 233 00:12:59,379 --> 00:13:00,779 [ explosion ] 234 00:13:00,781 --> 00:13:03,515 ...By the death of stars. 235 00:13:03,517 --> 00:13:07,018 But how do you start connecting those lego bricks together 236 00:13:07,020 --> 00:13:08,987 to build that first cell? 237 00:13:08,989 --> 00:13:12,557 The short answer is, "we don't know," 238 00:13:12,559 --> 00:13:16,628 but we have some ideas of potential steps. 239 00:13:16,630 --> 00:13:18,997 Narrator: Chains of organic molecules 240 00:13:18,999 --> 00:13:20,732 become more and more complex. 241 00:13:20,734 --> 00:13:23,468 Amino acids form proteins. 242 00:13:23,470 --> 00:13:29,207 Fatty acids form phospholipids, which makes cell membranes. 243 00:13:29,209 --> 00:13:31,876 Nucleic acids form dna, 244 00:13:31,878 --> 00:13:35,079 the molecule that stores genetic information. 245 00:13:35,081 --> 00:13:39,684 Eventually, a simple cell emerges. 246 00:13:39,686 --> 00:13:42,353 So all of the bits you need to plug together 247 00:13:42,355 --> 00:13:44,489 to build a cell from scratch 248 00:13:44,491 --> 00:13:48,426 seems to exist in outer space. 249 00:13:48,428 --> 00:13:50,862 We found organic compounds everywhere. 250 00:13:50,864 --> 00:13:53,031 They're all over the place -- 251 00:13:53,033 --> 00:13:56,935 planets, comets, gas clouds. 252 00:13:58,505 --> 00:14:01,406 The very basic ingredients of life 253 00:14:01,408 --> 00:14:05,410 available elsewhere in our solar system, 254 00:14:05,412 --> 00:14:08,079 so there could be life everywhere. 255 00:14:08,081 --> 00:14:11,282 ♪ 256 00:14:11,284 --> 00:14:12,951 narrator: In 2018, 257 00:14:12,953 --> 00:14:16,621 nasa announces it's found organic molecules 258 00:14:16,623 --> 00:14:18,723 on another planet, 259 00:14:18,725 --> 00:14:23,962 a planet we've always suspected of harboring alien life -- 260 00:14:23,964 --> 00:14:26,364 ...Mars. 261 00:14:26,366 --> 00:14:28,733 So whenever nasa has a press conference, and they say, 262 00:14:28,735 --> 00:14:31,703 "hey, I have some results to report on about mars," 263 00:14:31,705 --> 00:14:33,404 everyone goes nuts. 264 00:14:33,406 --> 00:14:36,040 Dartnell: The internet goes mad. 265 00:14:36,042 --> 00:14:38,576 Maybe we've got photograph evidence of the green men 266 00:14:38,578 --> 00:14:40,712 in a ufo. 267 00:14:40,714 --> 00:14:42,313 Lanza: This time, it's the martians. 268 00:14:42,315 --> 00:14:45,383 They're going to tell us they found a martian. 269 00:14:45,385 --> 00:14:47,552 The world listens 'cause everyone wants to know. 270 00:14:47,554 --> 00:14:49,254 Everyone asks the question, 271 00:14:49,256 --> 00:14:50,989 "have we found evidence of life?" 272 00:14:53,293 --> 00:14:54,726 narrator: For 6 years, 273 00:14:54,728 --> 00:14:57,562 the mars curiosity rover has been exploring 274 00:14:57,564 --> 00:14:59,664 a region called gale crater, 275 00:14:59,666 --> 00:15:02,567 hunting for signs of ancient life. 276 00:15:04,905 --> 00:15:08,239 A bit like fossil-hunting on earth. 277 00:15:08,241 --> 00:15:10,541 Gale crater is not unlike places on earth 278 00:15:10,543 --> 00:15:13,411 that can preserve fossils, so a really good example of this 279 00:15:13,413 --> 00:15:17,215 would be the petrified forest in arizona. 280 00:15:17,217 --> 00:15:21,653 This looks like a piece of wood, but in fact, it is stone. 281 00:15:21,655 --> 00:15:24,956 It is all stone, but it used to be a tree. 282 00:15:24,958 --> 00:15:29,460 This fossil lived 200 million years ago. 283 00:15:29,462 --> 00:15:31,329 Narrator: This patch of desert in arizona 284 00:15:31,331 --> 00:15:33,197 once looked completely different. 285 00:15:35,368 --> 00:15:37,702 Lanza: This landscape looks very dry right now, 286 00:15:37,704 --> 00:15:39,070 but 200 million years ago, 287 00:15:39,072 --> 00:15:44,008 it was wet swampland with trees and flowing water. 288 00:15:45,612 --> 00:15:47,211 Narrator: Like the petrified forest, 289 00:15:47,213 --> 00:15:51,082 mars has also changed over time. 290 00:15:51,084 --> 00:15:55,853 Gale crater was once a lake bed filled with fresh water. 291 00:15:55,855 --> 00:15:59,624 And it was just so exciting because we knew then 292 00:15:59,626 --> 00:16:03,194 that we had landed right on top of an environment 293 00:16:03,196 --> 00:16:05,496 that once had tons of flowing water 294 00:16:05,498 --> 00:16:08,232 and could very well have preserved organic materials, 295 00:16:08,234 --> 00:16:11,235 even though it looks very barren and desolate to our eyes. 296 00:16:13,707 --> 00:16:15,206 Narrator: In 2018, 297 00:16:15,208 --> 00:16:18,409 curiosity drills into this ancient martian lake 298 00:16:18,411 --> 00:16:21,245 and discovers organic molecules. 299 00:16:24,484 --> 00:16:27,652 Finding organics on mars is so exciting 300 00:16:27,654 --> 00:16:29,454 just because, I mean, wow. 301 00:16:29,456 --> 00:16:31,622 That is -- those are the building blocks of life, 302 00:16:31,624 --> 00:16:34,025 not just the elements, but actual molecules. 303 00:16:34,027 --> 00:16:36,661 There was a wave of excitement 304 00:16:36,663 --> 00:16:38,830 after the announcement of organics 305 00:16:38,832 --> 00:16:41,332 found on mars and complex organics. 306 00:16:41,334 --> 00:16:43,968 It's not totally indicative that life is there, 307 00:16:43,970 --> 00:16:46,504 but it's a really good telltale sign 308 00:16:46,506 --> 00:16:51,542 that there may be possibly life-forms on mars. 309 00:16:51,544 --> 00:16:54,612 Narrator: The results aren't proof of martians, 310 00:16:54,614 --> 00:16:58,816 but the ancient lake bed is evidence that the red planet 311 00:16:58,818 --> 00:17:02,854 once had something else crucial for life -- 312 00:17:02,856 --> 00:17:04,188 liquid water. 313 00:17:04,190 --> 00:17:07,558 ♪ 314 00:17:07,560 --> 00:17:09,627 it's one thing if you have all these ingredients 315 00:17:09,629 --> 00:17:11,095 lying around for life. 316 00:17:11,097 --> 00:17:12,697 You could have, you know, carbon over here and hydrogen 317 00:17:12,699 --> 00:17:15,033 over here, maybe methane or whatever. 318 00:17:15,035 --> 00:17:16,534 You have to mix them together, 319 00:17:16,536 --> 00:17:21,139 so you need something for them to be in, a medium of some sort. 320 00:17:21,141 --> 00:17:22,874 Narrator: Life needs a liquid 321 00:17:22,876 --> 00:17:26,844 to mix essential chemicals together. 322 00:17:26,846 --> 00:17:28,212 We're used to thinking of earth 323 00:17:28,214 --> 00:17:33,217 as the only water world in our solar system, 324 00:17:33,219 --> 00:17:35,920 but new evidence says otherwise... 325 00:17:38,625 --> 00:17:42,126 ...As extraterrestrial visitors 326 00:17:42,128 --> 00:17:46,531 carrying liquid water from outer space reveal. 327 00:17:54,841 --> 00:17:59,277 [ explosions ] 328 00:17:59,279 --> 00:18:00,678 ♪ 329 00:18:00,680 --> 00:18:02,480 narrator: It's no coincidence 330 00:18:02,482 --> 00:18:05,416 our blue planet is a water world. 331 00:18:05,418 --> 00:18:09,587 There are more than 366 million trillion gallons 332 00:18:09,589 --> 00:18:12,590 of water on earth. 333 00:18:12,592 --> 00:18:16,394 It even makes up 60% of our bodies. 334 00:18:16,396 --> 00:18:18,596 I think life on earth could be easily described 335 00:18:18,598 --> 00:18:20,898 as water chemistry. 336 00:18:20,900 --> 00:18:24,569 That is the essential feature of life on earth. 337 00:18:24,571 --> 00:18:27,038 Narrator: Some is locked up in ice caps 338 00:18:27,040 --> 00:18:30,007 or as vapor in the air, 339 00:18:30,009 --> 00:18:34,979 but 96% of liquid water is in our oceans. 340 00:18:34,981 --> 00:18:37,248 Well, earth is really special. 341 00:18:37,250 --> 00:18:39,951 There's no other place like it that we've found. 342 00:18:39,953 --> 00:18:43,654 It's a pretty substantial planet with liquid water 343 00:18:43,656 --> 00:18:45,756 covering 70% of the surface. 344 00:18:45,758 --> 00:18:48,426 All life on the earth requires bodies of water 345 00:18:48,428 --> 00:18:49,660 in order to survive. 346 00:18:49,662 --> 00:18:51,295 No water, no life. 347 00:18:52,765 --> 00:18:56,834 Narrator: Water is what chemists call a solvent, 348 00:18:56,836 --> 00:19:00,505 and it's the best solvent we know of. 349 00:19:00,507 --> 00:19:04,108 It can dissolve more substances than any other liquid, 350 00:19:04,110 --> 00:19:07,645 allowing molecules to mix and interact. 351 00:19:07,647 --> 00:19:10,948 Wherever water goes, it transports 352 00:19:10,950 --> 00:19:15,052 valuable chemicals, minerals, and nutrients. 353 00:19:15,054 --> 00:19:16,521 Oluseyi: If there was no liquid, 354 00:19:16,523 --> 00:19:18,489 things would just sit around separately. 355 00:19:18,491 --> 00:19:20,825 You need this constant interaction, 356 00:19:20,827 --> 00:19:23,294 and you need a different chemical mix, 357 00:19:23,296 --> 00:19:25,530 and water does all of that. 358 00:19:27,534 --> 00:19:31,202 And so a lot of our searches for lifelike planets, 359 00:19:31,204 --> 00:19:34,605 or earthlike planets, outside our solar system 360 00:19:34,607 --> 00:19:38,109 are based on this sort of primary assumption 361 00:19:38,111 --> 00:19:40,011 that we need liquid water. 362 00:19:42,248 --> 00:19:44,849 Narrator: We've long thought earth has liquid water 363 00:19:44,851 --> 00:19:49,620 because of its unique position in the solar system. 364 00:19:49,622 --> 00:19:52,990 It's right in this zone that we call the habitable zone 365 00:19:52,992 --> 00:19:56,561 where the sunlight can support liquid water 366 00:19:56,563 --> 00:19:58,262 on the surface of the planet. 367 00:19:58,264 --> 00:20:01,666 ♪ 368 00:20:01,668 --> 00:20:04,101 narrator: But we have now discovered that liquid water 369 00:20:04,103 --> 00:20:07,438 might exist in places we never expected. 370 00:20:10,043 --> 00:20:14,779 In 1998, a meteorite crash-lands in texas. 371 00:20:16,149 --> 00:20:19,350 [ explosion ] 372 00:20:19,352 --> 00:20:22,286 today, scientists at arizona state university 373 00:20:22,288 --> 00:20:26,023 are still studying its secrets. 374 00:20:26,025 --> 00:20:27,792 We had no idea that it would contain 375 00:20:27,794 --> 00:20:31,095 this really, really spectacular finding. 376 00:20:31,097 --> 00:20:35,066 Narrator: It contains a mysterious purple mineral. 377 00:20:35,068 --> 00:20:39,103 The exotic color comes from exposure to cosmic radiation, 378 00:20:39,105 --> 00:20:42,873 but the compound itself is very ordinary. 379 00:20:42,875 --> 00:20:44,842 It's actually sodium chloride, 380 00:20:44,844 --> 00:20:48,312 which is essentially the same mineral as table salt, 381 00:20:48,314 --> 00:20:51,349 but what's really cool is that it actually contains 382 00:20:51,351 --> 00:20:54,118 little globules of liquid water, 383 00:20:54,120 --> 00:20:57,588 and that liquid water was trapped in these crystals 384 00:20:57,590 --> 00:21:00,992 4 1/2 billion years ago. 385 00:21:00,994 --> 00:21:04,095 Narrator: In 2018, scientists reexamined the crystals 386 00:21:04,097 --> 00:21:08,366 and discovered the liquid water wasn't traveling alone. 387 00:21:08,368 --> 00:21:11,802 We've now actually found organic compounds in association 388 00:21:11,804 --> 00:21:15,373 with this liquid water in these salt crystals, 389 00:21:15,375 --> 00:21:17,842 and that's something that's really new 390 00:21:17,844 --> 00:21:20,077 and really spectacular. 391 00:21:22,582 --> 00:21:24,348 Thaller: We actually found amino acids, 392 00:21:24,350 --> 00:21:27,752 the building blocks of all of our proteins, even our dna, 393 00:21:27,754 --> 00:21:29,387 and we found liquid water, 394 00:21:29,389 --> 00:21:32,523 the very building blocks of life, inside a meteorite. 395 00:21:34,761 --> 00:21:36,861 Narrator: So could life exist 396 00:21:36,863 --> 00:21:38,963 somewhere else in our solar system? 397 00:21:38,965 --> 00:21:42,767 ♪ 398 00:21:42,769 --> 00:21:47,071 a nasa mission to saturn turned up some shocking results. 399 00:21:47,073 --> 00:21:52,176 The cassini space probe flew beneath saturn's moon enceladus. 400 00:21:52,178 --> 00:21:54,779 Dartnell: Enceladus, no one cared about. 401 00:21:54,781 --> 00:22:01,185 It was a tiny, little snowball of a world. 402 00:22:01,187 --> 00:22:04,221 Narrator: But enceladus surprised everyone. 403 00:22:06,793 --> 00:22:11,028 Geysers of liquid water, dozens of them, 404 00:22:11,030 --> 00:22:14,165 blast out of trenches along the moon's surface, 405 00:22:14,167 --> 00:22:17,535 coming from a vast subsurface ocean. 406 00:22:21,507 --> 00:22:24,508 Oceans on earth are full of life. 407 00:22:27,747 --> 00:22:30,781 Could the same be true of enceladus? 408 00:22:30,783 --> 00:22:33,284 Mckay: I'm a big fan of enceladus. 409 00:22:33,286 --> 00:22:37,054 I think it's by far and away the best place to go 410 00:22:37,056 --> 00:22:39,190 to search for evidence of life. 411 00:22:39,192 --> 00:22:40,658 Narrator: In 2018, 412 00:22:40,660 --> 00:22:43,694 researchers analyzing the cassini data 413 00:22:43,696 --> 00:22:46,330 discovered that the plumes of enceladus 414 00:22:46,332 --> 00:22:49,367 contain complex organic molecules. 415 00:22:49,369 --> 00:22:52,903 Just simple molecules, we find those, like methane, 416 00:22:52,905 --> 00:22:55,306 but the cassini results are showing that there are 417 00:22:55,308 --> 00:22:59,944 these more complex, larger organic molecules as well. 418 00:22:59,946 --> 00:23:03,013 Narrator: This is the first ever detection of complex organics 419 00:23:03,015 --> 00:23:05,950 on an extraterrestrial water world. 420 00:23:05,952 --> 00:23:09,487 All of a sudden, here's water jetting out, 421 00:23:09,489 --> 00:23:13,724 carrying organic material, all the ingredients needed for life. 422 00:23:13,726 --> 00:23:17,728 It was, like, too good to be true. 423 00:23:17,730 --> 00:23:20,164 Narrator: But enceladus isn't the only small world 424 00:23:20,166 --> 00:23:22,133 with a subsurface ocean. 425 00:23:22,135 --> 00:23:26,804 Other moons and dwarf planets have liquid water, too. 426 00:23:26,806 --> 00:23:29,106 We think the most important thing for life to form 427 00:23:29,108 --> 00:23:30,708 is the presence of liquid water, 428 00:23:30,710 --> 00:23:33,177 and our solar system seems to be full of it. 429 00:23:35,548 --> 00:23:38,315 Sutter: The discovery of liquid water 430 00:23:38,317 --> 00:23:40,050 in the outer solar system 431 00:23:40,052 --> 00:23:46,624 changes the rules of how life might originate in the universe. 432 00:23:46,626 --> 00:23:50,227 ♪ 433 00:23:50,229 --> 00:23:51,729 narrator: Across the universe, 434 00:23:51,731 --> 00:23:56,567 alien life could be hiding underneath the surface. 435 00:23:56,569 --> 00:24:00,271 Internal water oceans are far more common 436 00:24:00,273 --> 00:24:03,607 than surface water oceans, 437 00:24:03,609 --> 00:24:07,111 so if there is a lot of life out there in the universe, 438 00:24:07,113 --> 00:24:11,382 chances are it's in an internal ocean under miles of ice. 439 00:24:13,486 --> 00:24:15,186 Narrator: Who knows what might be lurking 440 00:24:15,188 --> 00:24:18,456 inside icy exoworlds? 441 00:24:18,458 --> 00:24:22,059 There may be jellyfish and octopuses all over the place 442 00:24:22,061 --> 00:24:25,262 in exomoons and exoplanets under ice 443 00:24:25,264 --> 00:24:28,899 that have civilizations that we just don't know about. 444 00:24:28,901 --> 00:24:31,001 Narrator: Finding liquid water oceans 445 00:24:31,003 --> 00:24:33,704 could open up a world of possibilities. 446 00:24:35,942 --> 00:24:37,775 If you're not excited about 447 00:24:37,777 --> 00:24:41,011 intelligent extraterrestrial octopus civilians, 448 00:24:41,013 --> 00:24:42,746 I don't know what to say. 449 00:24:44,984 --> 00:24:47,852 Narrator: The chances of finding life in our solar system 450 00:24:47,854 --> 00:24:49,920 just got a heck of a lot better. 451 00:24:53,259 --> 00:24:57,328 Building blocks and liquid water are common, 452 00:24:57,330 --> 00:25:00,164 but you need more than just these two conditions 453 00:25:00,166 --> 00:25:02,099 for life to take hold. 454 00:25:02,101 --> 00:25:04,768 Life needs a spark. 455 00:25:04,770 --> 00:25:06,804 Life appears to need some form of energy 456 00:25:06,806 --> 00:25:08,873 to actually get the molecules interacting. 457 00:25:08,875 --> 00:25:10,975 One thing that may have helped kick-start life on earth 458 00:25:10,977 --> 00:25:13,544 is ultraviolet radiation from the sun. 459 00:25:13,546 --> 00:25:17,081 Narrator: Ultraviolet light is emitted by all stars. 460 00:25:17,083 --> 00:25:21,385 There are billions of stars in our galaxy. 461 00:25:21,387 --> 00:25:24,922 Can life get started around any star, 462 00:25:24,924 --> 00:25:29,126 or is our sun unique? 463 00:25:35,434 --> 00:25:39,870 [ explosion ] 464 00:25:39,872 --> 00:25:43,607 narrator: Earth is a solar-powered planet. 465 00:25:43,609 --> 00:25:47,378 At the bottom of the food chain, plants use photosynthesis 466 00:25:47,380 --> 00:25:50,881 to convert sunlight into chemical energy -- 467 00:25:50,883 --> 00:25:53,083 food for the rest of us. 468 00:25:53,085 --> 00:25:56,754 Dartnell: I like eating both grass, essentially wheat, 469 00:25:56,756 --> 00:25:59,390 and I also fancy the odd hamburger from a cow 470 00:25:59,392 --> 00:26:00,724 that has eaten that grass. 471 00:26:00,726 --> 00:26:05,930 This whole ecosystem is powered by sunshine. 472 00:26:05,932 --> 00:26:08,599 Narrator: But recent studies have shed new light 473 00:26:08,601 --> 00:26:12,269 on how life developed under our sun, 474 00:26:12,271 --> 00:26:16,440 specifically the role of ultraviolet light. 475 00:26:16,442 --> 00:26:20,778 U.V.A. Radiation is useful for breaking molecules up 476 00:26:20,780 --> 00:26:22,513 and triggering reactions. 477 00:26:22,515 --> 00:26:24,949 Maybe that played a role in the origin of life. 478 00:26:24,951 --> 00:26:27,851 It breaks down simple organic molecules, 479 00:26:27,853 --> 00:26:29,353 and then they can rebuild themselves 480 00:26:29,355 --> 00:26:31,221 into things that are more complex. 481 00:26:31,223 --> 00:26:32,823 You do that over and over again, eventually, 482 00:26:32,825 --> 00:26:34,592 you somehow get life. 483 00:26:34,594 --> 00:26:37,962 ♪ 484 00:26:37,964 --> 00:26:39,630 narrator: Scientists think life on earth 485 00:26:39,632 --> 00:26:42,866 started around 4 billion years ago... 486 00:26:42,868 --> 00:26:46,637 ♪ 487 00:26:46,639 --> 00:26:48,806 ...A time when earth's atmosphere 488 00:26:48,808 --> 00:26:50,274 gave little protection. 489 00:26:53,779 --> 00:26:56,914 U.V. Radiation levels were 100 times higher. 490 00:26:59,218 --> 00:27:00,918 Was u.V. Essential 491 00:27:00,920 --> 00:27:05,789 for the development of life's code, dna? 492 00:27:05,791 --> 00:27:10,160 We know that life on earth stores information in dna 493 00:27:10,162 --> 00:27:13,964 and then uses that information to build proteins, 494 00:27:13,966 --> 00:27:16,634 so you have the blueprints and the bricks. 495 00:27:16,636 --> 00:27:21,171 The blueprints are the dna, and the bricks are the protein. 496 00:27:21,173 --> 00:27:24,108 Dartnell: But we think that the first life on earth, 497 00:27:24,110 --> 00:27:29,179 we used a chemical which is much simpler. 498 00:27:29,181 --> 00:27:32,750 Narrator: This simpler chemical was rna, 499 00:27:32,752 --> 00:27:37,187 dna's single-stranded forefather. 500 00:27:37,189 --> 00:27:40,758 Rna is almost like a two-for-one offer. 501 00:27:40,760 --> 00:27:43,394 It does both of the fundamental things 502 00:27:43,396 --> 00:27:48,198 you need for a cell in the same compound. 503 00:27:48,200 --> 00:27:53,303 So it was simultaneously the bricks and the blueprint. 504 00:27:53,305 --> 00:27:56,540 Narrator: Unlike other molecules, rna is more resistant 505 00:27:56,542 --> 00:27:59,910 to the high u.V. Environment of early earth, 506 00:27:59,912 --> 00:28:03,747 allowing it to flourish. 507 00:28:03,749 --> 00:28:07,785 Rna eventually evolved into dna, 508 00:28:07,787 --> 00:28:09,720 and life started. 509 00:28:09,722 --> 00:28:11,422 Oluseyi: To have life on the planet, 510 00:28:11,424 --> 00:28:12,756 one important consideration 511 00:28:12,758 --> 00:28:15,025 is a certain amount of light that's going to be needed 512 00:28:15,027 --> 00:28:17,261 and a certain type of light that's going to be needed. 513 00:28:17,263 --> 00:28:22,032 ♪ 514 00:28:22,034 --> 00:28:25,502 narrator: So if all stars emit some u.V. Radiation, 515 00:28:25,504 --> 00:28:28,972 can life start around any star? 516 00:28:28,974 --> 00:28:30,407 When we think about looking for places 517 00:28:30,409 --> 00:28:32,209 that are conducive for life, 518 00:28:32,211 --> 00:28:33,610 we want to find a planet 519 00:28:33,612 --> 00:28:35,879 that might have enough u.V. Radiation, 520 00:28:35,881 --> 00:28:39,483 so the star is, you know, bright enough or close enough 521 00:28:39,485 --> 00:28:42,152 that's providing enough energy to the surface for life, 522 00:28:42,154 --> 00:28:47,057 but we also don't want to have too much u.V. Radiation. 523 00:28:47,059 --> 00:28:50,594 Narrator: It seems you need just the right amount of u.V. 524 00:28:50,596 --> 00:28:56,133 ♪ 525 00:28:56,135 --> 00:28:59,770 the most common stars in the galaxy are red dwarf stars. 526 00:29:02,608 --> 00:29:06,577 If red dwarf stars can harbor life on planets around them, 527 00:29:06,579 --> 00:29:09,913 there's an awful lot of real estate like that 528 00:29:09,915 --> 00:29:12,983 in our galaxy. 529 00:29:12,985 --> 00:29:15,953 Narrator: Red dwarf stars could be good for life's chance 530 00:29:15,955 --> 00:29:19,990 of conquering the universe in a number of ways. 531 00:29:19,992 --> 00:29:22,059 One, they represent over three-quarters 532 00:29:22,061 --> 00:29:24,128 of all stars in the universe. 533 00:29:24,130 --> 00:29:26,797 Two, they live for over a thousand times longer 534 00:29:26,799 --> 00:29:28,265 than sunlike stars, 535 00:29:28,267 --> 00:29:31,001 and, three, they seem to have rocky planets around them 536 00:29:31,003 --> 00:29:34,138 much more often than sunlike stars do. 537 00:29:34,140 --> 00:29:36,140 Narrator: Those are the pros, 538 00:29:36,142 --> 00:29:39,543 but red dwarf stars also have cons. 539 00:29:39,545 --> 00:29:44,615 For instance, they might not be bright enough for life to begin. 540 00:29:44,617 --> 00:29:47,451 Some of the red dwarf stars that we know emit 541 00:29:47,453 --> 00:29:49,920 less ultraviolet light than the sun. 542 00:29:49,922 --> 00:29:51,855 They don't give off much u.V. Light at all. 543 00:29:51,857 --> 00:29:53,290 Maybe on a planet around them, 544 00:29:53,292 --> 00:29:56,527 there isn't enough energy to get life started. 545 00:29:56,529 --> 00:30:00,330 Narrator: Red dwarf stars are also much more temperamental. 546 00:30:00,332 --> 00:30:03,000 They can go from being gentle and quiet 547 00:30:03,002 --> 00:30:05,169 to having violent outbursts... 548 00:30:07,106 --> 00:30:10,007 ...Stellar flares. 549 00:30:10,009 --> 00:30:13,310 These types of stars have incredibly strong flares. 550 00:30:13,312 --> 00:30:15,012 That means they're shooting off 551 00:30:15,014 --> 00:30:18,081 a bunch of energetic particles and radiation 552 00:30:18,083 --> 00:30:22,853 and light that's baking the surface of those planets. 553 00:30:22,855 --> 00:30:24,154 Radebaugh: If the star is just 554 00:30:24,156 --> 00:30:25,656 bombarding the surface with u.V., 555 00:30:25,658 --> 00:30:29,326 then it will destroy all of those things necessary for life. 556 00:30:29,328 --> 00:30:32,496 It will actually destroy the life itself. 557 00:30:32,498 --> 00:30:37,568 ♪ 558 00:30:37,570 --> 00:30:39,102 narrator: These stellar flares 559 00:30:39,104 --> 00:30:41,004 could strip away a planet's atmosphere, 560 00:30:41,006 --> 00:30:42,906 sterilizing the surface. 561 00:30:42,908 --> 00:30:46,777 ♪ 562 00:30:46,779 --> 00:30:49,446 more research is needed, but for now, 563 00:30:49,448 --> 00:30:54,117 the odds of life thriving around dwarf stars are a toss-up. 564 00:30:54,119 --> 00:30:58,555 ♪ 565 00:30:58,557 --> 00:31:00,390 so far, the only thing we know 566 00:31:00,392 --> 00:31:02,426 is that there is one kind of star 567 00:31:02,428 --> 00:31:05,796 that's definitely right for life -- 568 00:31:05,798 --> 00:31:07,397 our sun. 569 00:31:07,399 --> 00:31:10,500 We know of life in one place in the universe, and that's here. 570 00:31:10,502 --> 00:31:12,870 That's earth. 571 00:31:12,872 --> 00:31:18,508 Narrator: Only 4% of stars in the universe are like our sun. 572 00:31:18,510 --> 00:31:22,212 So if life can only get started around these rare, 573 00:31:22,214 --> 00:31:24,047 medium-sized stars, 574 00:31:24,049 --> 00:31:26,316 the chances are not looking good. 575 00:31:26,318 --> 00:31:31,455 ♪ 576 00:31:31,457 --> 00:31:34,725 but life may have an ace up its sleeve. 577 00:31:34,727 --> 00:31:40,097 What if life can start on just one planet and then spread? 578 00:31:40,099 --> 00:31:43,300 What if life travels across the cosmos 579 00:31:43,302 --> 00:31:47,304 looking for planets to conquer? 580 00:31:53,646 --> 00:31:58,048 [ explosion ] 581 00:31:58,050 --> 00:32:00,217 ♪ 582 00:32:00,219 --> 00:32:03,086 narrator: Earth is our only example of life 583 00:32:03,088 --> 00:32:06,423 emerging anywhere in the universe. 584 00:32:06,425 --> 00:32:11,328 But what if life on earth didn't start on earth at all? 585 00:32:11,330 --> 00:32:12,863 There's one idea that life on earth 586 00:32:12,865 --> 00:32:16,099 actually didn't get going here but was delivered from space. 587 00:32:16,101 --> 00:32:19,102 Narrator: Scientists call this theory panspermia. 588 00:32:21,307 --> 00:32:23,540 Scharf: The idea of panspermia essentially talks 589 00:32:23,542 --> 00:32:28,478 about the transferral of life throughout the cosmos. 590 00:32:28,480 --> 00:32:31,481 Narrator: We know asteroids and comets 591 00:32:31,483 --> 00:32:33,583 carry organic molecules. 592 00:32:33,585 --> 00:32:36,320 But could they carry life itself? 593 00:32:36,322 --> 00:32:38,455 What if life starts on one planet? 594 00:32:38,457 --> 00:32:42,993 Can it actually get itself to a nearby planet? 595 00:32:42,995 --> 00:32:44,394 Is it possible that meteorites 596 00:32:44,396 --> 00:32:48,465 could actually transport living beings? 597 00:32:48,467 --> 00:32:51,835 Narrator: For life to travel around the cosmos, 598 00:32:51,837 --> 00:32:55,172 first, it needs to take flight. 599 00:32:55,174 --> 00:33:00,077 An asteroids is on a collision course with an inhabited planet. 600 00:33:00,079 --> 00:33:02,779 So what happens if there's a huge cataclysmic 601 00:33:02,781 --> 00:33:04,081 collision on a planet? 602 00:33:04,083 --> 00:33:06,717 Material is blasted off into space. 603 00:33:06,719 --> 00:33:10,787 ♪ 604 00:33:10,789 --> 00:33:12,723 narrator: The impact might kill life 605 00:33:12,725 --> 00:33:14,257 on the surface of that planet, 606 00:33:14,259 --> 00:33:19,296 but it's possible some bacteria might escape, 607 00:33:19,298 --> 00:33:24,234 hitching a ride on chunks of the planet's surface. 608 00:33:24,236 --> 00:33:26,436 A meteorite being ejected from a planet 609 00:33:26,438 --> 00:33:27,871 after an asteroids impact -- 610 00:33:27,873 --> 00:33:29,806 I mean, that's not going to be an easy ride. 611 00:33:29,808 --> 00:33:32,743 But it turns out it's not as bad as you think. 612 00:33:32,745 --> 00:33:35,679 Some bacteria are very, very hard to kill. 613 00:33:35,681 --> 00:33:37,848 Some we don't even know how to kill. 614 00:33:37,850 --> 00:33:41,084 Even the impact that actually threw that rock into space -- 615 00:33:41,086 --> 00:33:42,886 the bacteria, no problem. 616 00:33:42,888 --> 00:33:46,857 If those chunks of rock expelled during asteroids collisions 617 00:33:46,859 --> 00:33:50,360 could actually hold onto viable organisms, 618 00:33:50,362 --> 00:33:52,496 then it really could change the way 619 00:33:52,498 --> 00:33:58,235 in which we think about life spreading in the universe. 620 00:33:58,237 --> 00:34:01,071 Narrator: If the microbes can survive takeoff, 621 00:34:01,073 --> 00:34:03,840 then they can start their journey to a new home. 622 00:34:03,842 --> 00:34:06,676 The odds of life conquering the universe 623 00:34:06,678 --> 00:34:08,145 seem to be getting better. 624 00:34:08,147 --> 00:34:11,481 The important question now is, how long could that life, 625 00:34:11,483 --> 00:34:13,350 those bacteria, those microorganisms 626 00:34:13,352 --> 00:34:16,686 inside that rock, survive the space environment? 627 00:34:18,323 --> 00:34:21,291 Narrator: Exposure to u.V. Radiation could be fatal, 628 00:34:21,293 --> 00:34:25,095 killing any life on the surface of an asteroid. 629 00:34:25,097 --> 00:34:27,831 But experts think that microbial passengers 630 00:34:27,833 --> 00:34:32,169 could still survive by hiding underground. 631 00:34:32,171 --> 00:34:36,373 It doesn't take much to shield a microorganism from u.V. 632 00:34:36,375 --> 00:34:39,576 Just a little bit of rock, and you have enough protection 633 00:34:39,578 --> 00:34:43,380 to just hold on throughout a journey to the next body, 634 00:34:43,382 --> 00:34:45,849 to your next home. 635 00:34:45,851 --> 00:34:49,619 Narrator: Eventually, they could arrive at an uninhabited world 636 00:34:49,621 --> 00:34:52,155 that's ready and waiting for life, 637 00:34:52,157 --> 00:34:54,658 but they're in for a bumpy landing. 638 00:34:54,660 --> 00:34:58,595 Would the rock burn up coming through a planet's atmosphere? 639 00:34:58,597 --> 00:35:02,099 It's in for a hot ride but only for a few seconds, 640 00:35:02,101 --> 00:35:05,335 and only the outer layers of that rock will blow off, 641 00:35:05,337 --> 00:35:08,138 and then it just falls and hits the ground not that fast, 642 00:35:08,140 --> 00:35:11,174 a couple hundred miles an hour. 643 00:35:11,176 --> 00:35:13,076 If a human were in there, that would be bad. 644 00:35:13,078 --> 00:35:15,879 But for bacteria, no big deal. 645 00:35:15,881 --> 00:35:18,548 Narrator: The panspermia theory says 646 00:35:18,550 --> 00:35:21,151 life could start on just one planet, 647 00:35:21,153 --> 00:35:26,089 then spread to another planet, and possibly another. 648 00:35:26,091 --> 00:35:30,560 If we found alien life-forms, would they look familiar? 649 00:35:30,562 --> 00:35:32,796 One of the biggest questions about finding other life 650 00:35:32,798 --> 00:35:36,933 in the solar system is, how similar will it be to us? 651 00:35:36,935 --> 00:35:39,836 If it's just like us, it begs the question, 652 00:35:39,838 --> 00:35:41,771 did we have a common genesis? 653 00:35:41,773 --> 00:35:45,675 Did we originally come from another planet? 654 00:35:45,677 --> 00:35:48,278 Narrator: One radical idea 655 00:35:48,280 --> 00:35:52,149 is that life on earth came from mars. 656 00:35:52,151 --> 00:35:55,685 Imagine mars 3 1/4, 4 billion years ago. 657 00:35:55,687 --> 00:35:58,955 It was more earthlike then than earth was at that point. 658 00:35:58,957 --> 00:36:00,790 The earth was still quite warm. 659 00:36:00,792 --> 00:36:02,826 Mars actually had cooled off faster, 660 00:36:02,828 --> 00:36:04,561 had a thick atmosphere, water. 661 00:36:04,563 --> 00:36:06,997 Life could've arisen there. 662 00:36:06,999 --> 00:36:10,867 Narrator: Mars has been hit repeatedly by meteors, 663 00:36:10,869 --> 00:36:15,038 sending chunks of the planet flying off into space, 664 00:36:15,040 --> 00:36:19,876 and some of those chunks have landed here, on earth. 665 00:36:19,878 --> 00:36:23,246 So this is a really unusual meteorite. 666 00:36:23,248 --> 00:36:26,716 It was found near the city of los angeles, 667 00:36:26,718 --> 00:36:29,252 and we actually know 668 00:36:29,254 --> 00:36:32,389 that it actually came from the planet mars, 669 00:36:32,391 --> 00:36:35,425 and we know that because it has gases trapped inside it 670 00:36:35,427 --> 00:36:38,028 that have the exact same composition 671 00:36:38,030 --> 00:36:39,396 as the martian atmosphere. 672 00:36:39,398 --> 00:36:40,764 There's been a lot of transit 673 00:36:40,766 --> 00:36:43,466 between meteor strikes hitting mars and then earth. 674 00:36:43,468 --> 00:36:45,035 There's a little bit of mars on earth. 675 00:36:45,037 --> 00:36:47,370 There's a little bit of earth on mars. 676 00:36:47,372 --> 00:36:51,308 It's possible that life started on mars 677 00:36:51,310 --> 00:36:56,913 and was transferred to earth inside of a meteorite. 678 00:36:56,915 --> 00:36:59,749 When you think about it, maybe we're the immigrants. 679 00:36:59,751 --> 00:37:01,284 We are the martians. 680 00:37:01,286 --> 00:37:05,422 Life on earth started on mars and got transferred here. 681 00:37:05,424 --> 00:37:09,359 ♪ 682 00:37:09,361 --> 00:37:11,461 narrator: Panspermia could allow life 683 00:37:11,463 --> 00:37:13,463 to spread from planet to planet, 684 00:37:13,465 --> 00:37:15,532 conquering our solar system, 685 00:37:15,534 --> 00:37:19,869 but what about even greater distances? 686 00:37:19,871 --> 00:37:24,274 In 2017, the cigar-shaped space rock 'oumuamua 687 00:37:24,276 --> 00:37:26,243 appeared in our solar system. 688 00:37:26,245 --> 00:37:28,478 It came from interstellar space, 689 00:37:28,480 --> 00:37:32,549 and experts think it could be carrying organic matter. 690 00:37:32,551 --> 00:37:34,651 One of the fascinating things about 'oumuamua 691 00:37:34,653 --> 00:37:36,853 is it has sort of a reddened surface. 692 00:37:36,855 --> 00:37:38,121 Now that could actually partially be 693 00:37:38,123 --> 00:37:40,457 from the presence of organic molecules. 694 00:37:40,459 --> 00:37:42,626 Narrator: Could life survive 695 00:37:42,628 --> 00:37:45,962 interstellar or even intergalactic travel? 696 00:37:45,964 --> 00:37:49,766 Whether or not this is an easy way to transfer life around 697 00:37:49,768 --> 00:37:52,636 in the universe, it's still an open question. 698 00:37:52,638 --> 00:37:55,405 The possibility of transferring life from star system 699 00:37:55,407 --> 00:37:59,009 to star system seems a little bit remote. 700 00:37:59,011 --> 00:38:00,677 Narrator: The immense distances 701 00:38:00,679 --> 00:38:02,479 and dangers of interstellar travel 702 00:38:02,481 --> 00:38:04,447 would be hard to survive. 703 00:38:04,449 --> 00:38:08,251 Some experts think there is one way for life 704 00:38:08,253 --> 00:38:11,821 to conquer the universe, 705 00:38:11,823 --> 00:38:14,991 but it won't be life as we know it. 706 00:38:22,467 --> 00:38:26,870 [ explosion ] 707 00:38:26,872 --> 00:38:31,041 narrator: The universe is unimaginably large. 708 00:38:31,043 --> 00:38:35,111 Many experts believe there is life out there. 709 00:38:35,113 --> 00:38:37,347 We just have to go find it. 710 00:38:37,349 --> 00:38:40,617 Oluseyi: One of the things I love about being a human 711 00:38:40,619 --> 00:38:44,621 is the fact that I'm born with this curiosity. 712 00:38:44,623 --> 00:38:46,489 This curiosity drives us to explore -- explore earth, 713 00:38:46,491 --> 00:38:50,060 explore our solar system and beyond into the galaxy, 714 00:38:50,062 --> 00:38:52,896 look for other life-forms. 715 00:38:52,898 --> 00:38:55,098 Narrator: But with current technology, 716 00:38:55,100 --> 00:38:59,369 it would take thousands of years just to reach the nearest star. 717 00:38:59,371 --> 00:39:03,106 It's unlikely humans will ever leave our galaxy. 718 00:39:05,644 --> 00:39:10,113 If life one day does spread from earth into the cosmos, 719 00:39:10,115 --> 00:39:12,549 it's probably not just going to be a bunch of meat bags, 720 00:39:12,551 --> 00:39:16,953 like us, but other forms of life that are more suited 721 00:39:16,955 --> 00:39:21,191 for interstellar and intergalactic travel. 722 00:39:21,193 --> 00:39:24,027 Narrator: Our fragile bodies are not suited to the distances 723 00:39:24,029 --> 00:39:28,565 and dangers of interstellar travel. 724 00:39:28,567 --> 00:39:33,169 Machine life may be more robust for traveling between planets 725 00:39:33,171 --> 00:39:36,406 and between stars than biological life. 726 00:39:38,677 --> 00:39:40,243 There are a lot of scientists that think 727 00:39:40,245 --> 00:39:43,613 when we encounter aliens, we won't be encountering them. 728 00:39:43,615 --> 00:39:45,215 We'll be encountering their machines 729 00:39:45,217 --> 00:39:48,151 because we can build machines that can last a million years, 730 00:39:48,153 --> 00:39:49,586 go from one star to the next. 731 00:39:49,588 --> 00:39:51,554 It's much easier than transporting us, 732 00:39:51,556 --> 00:39:55,392 fragile gloppy bags of meat. And so if we go out into space, 733 00:39:55,394 --> 00:40:00,897 we're more likely to find robots than we are biological life. 734 00:40:00,899 --> 00:40:03,767 Narrator: For humanity to discover alien life, 735 00:40:03,769 --> 00:40:08,238 humanity itself may have to evolve 736 00:40:08,240 --> 00:40:13,510 from biological life to artificial life. 737 00:40:13,512 --> 00:40:16,012 Oluseyi: What's really ironic here is that 738 00:40:16,014 --> 00:40:19,949 while we're figuring out the origin of life on earth, 739 00:40:19,951 --> 00:40:23,586 we humans could be inventing a form of life on our own, 740 00:40:23,588 --> 00:40:27,090 and that is what we call artificial intelligence. 741 00:40:27,092 --> 00:40:31,661 The development of a.I., self-replicating machines even, 742 00:40:31,663 --> 00:40:34,631 may very well be just the next key transition 743 00:40:34,633 --> 00:40:37,033 in our evolutionary history. 744 00:40:39,871 --> 00:40:43,540 Narrator: Could a superintelligent self-replicating machine 745 00:40:43,542 --> 00:40:46,943 conquer the universe? 746 00:40:46,945 --> 00:40:51,815 Maybe this a.I. Can fashion its own machines, 747 00:40:51,817 --> 00:40:55,285 create factories to create resources to replicate itself, 748 00:40:55,287 --> 00:40:58,721 create ships that will allow it travel 749 00:40:58,723 --> 00:41:01,024 from one place in the universe to another. 750 00:41:03,862 --> 00:41:07,797 Narrator: But would a.I. Represent a new form of life? 751 00:41:07,799 --> 00:41:09,132 Thaller: I think the answer is yes. 752 00:41:09,134 --> 00:41:11,067 I think it actually goes on from there. 753 00:41:11,069 --> 00:41:12,969 I think artificial intelligence might be 754 00:41:12,971 --> 00:41:15,672 the next necessary stage in evolution. 755 00:41:15,674 --> 00:41:19,209 We made the computers. They are our children. 756 00:41:19,211 --> 00:41:24,380 I think of life as a process that can retain its complexity 757 00:41:24,382 --> 00:41:29,352 and reproduce, so bacteria are life. 758 00:41:29,354 --> 00:41:33,356 Humans are life, and some future creation 759 00:41:33,358 --> 00:41:34,924 of advanced artificial intelligence 760 00:41:34,926 --> 00:41:38,661 that can do those things should also count as life. 761 00:41:41,600 --> 00:41:44,267 Narrator: Life could take many forms, 762 00:41:44,269 --> 00:41:47,604 and in such a vast universe, 763 00:41:47,606 --> 00:41:52,609 it could be that life is inevitable. 764 00:41:52,611 --> 00:41:55,044 With all those stars and all those planets, 765 00:41:55,046 --> 00:41:58,147 I think, without a doubt, there is a good chance 766 00:41:58,149 --> 00:42:02,285 that life has developed elsewhere in our universe. 767 00:42:02,287 --> 00:42:05,421 Must life happen in our universe? 768 00:42:05,423 --> 00:42:10,660 Is it an inevitable consequence of processes in operation? 769 00:42:10,662 --> 00:42:13,296 Maybe, maybe not. 770 00:42:16,668 --> 00:42:21,538 Narrator: Until we find it, we won't know for sure 771 00:42:21,540 --> 00:42:25,408 whether life can conquer the universe. 772 00:42:25,410 --> 00:42:28,478 ♪ 68883