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These are the user uploaded subtitles that are being translated: 1 00:00:00,007 --> 00:00:03,090 (dramatic music) 2 00:00:03,090 --> 00:00:07,173 Earth is born out of chaos and catastrophe. 3 00:00:08,340 --> 00:00:11,010 Despite such hostile conditions, 4 00:00:11,010 --> 00:00:13,563 life emerges on our planet, 5 00:00:15,390 --> 00:00:18,360 but it must withstand deadly disasters, 6 00:00:18,360 --> 00:00:19,863 again and again. 7 00:00:22,080 --> 00:00:25,380 Planet Earth is a wild world. 8 00:00:25,380 --> 00:00:28,053 Shaken by unimaginable impacts, 9 00:00:30,330 --> 00:00:33,333 volcanic eruptions that flood the landscape, 10 00:00:34,620 --> 00:00:38,520 and drastic climate changes that lead to ice ages 11 00:00:38,520 --> 00:00:41,763 that freeze the world from pole to pole. 12 00:00:43,260 --> 00:00:47,223 Yet each assault creates a path for something new. 13 00:00:48,270 --> 00:00:51,240 Life always finds a way, 14 00:00:51,240 --> 00:00:54,583 despite being constantly put to the test. 15 00:00:54,583 --> 00:00:56,010 (dramatic music continues) 16 00:00:56,010 --> 00:00:58,020 Without these catastrophes, 17 00:00:58,020 --> 00:01:03,020 life as we know it would not exist on our fateful planet. 18 00:01:12,510 --> 00:01:13,800 Chile. 19 00:01:13,800 --> 00:01:15,960 In the heart of the Atacama Desert, 20 00:01:15,960 --> 00:01:20,010 scientists are trying to understand how our home, 21 00:01:20,010 --> 00:01:22,143 Planet Earth, came into being. 22 00:01:25,530 --> 00:01:27,780 Astronomers are like archeologists, 23 00:01:27,780 --> 00:01:30,693 so we have somehow to reconstruct the past. 24 00:01:32,340 --> 00:01:34,110 Professor Thomas Henning is one 25 00:01:34,110 --> 00:01:37,890 of the world's leading experts on planet formation. 26 00:01:37,890 --> 00:01:39,960 We live in a period of discoveries 27 00:01:39,960 --> 00:01:44,280 and it's really absolutely exciting to be part of this 28 00:01:44,280 --> 00:01:47,820 and to be part of this great adventure 29 00:01:47,820 --> 00:01:50,673 to unravel the mysteries of the universe. 30 00:01:52,560 --> 00:01:55,890 As the end of the last century came to a close, 31 00:01:55,890 --> 00:01:58,710 a staggering discovery was made. 32 00:01:58,710 --> 00:02:01,770 Scientists had measured the slightly shifting light 33 00:02:01,770 --> 00:02:02,673 of a star. 34 00:02:03,750 --> 00:02:06,990 From the data, they could tell that a giant object had 35 00:02:06,990 --> 00:02:09,573 to be pulling on it: a planet. 36 00:02:10,470 --> 00:02:14,370 This was the first planet outside our own solar system 37 00:02:14,370 --> 00:02:15,780 to be discovered. 38 00:02:15,780 --> 00:02:17,883 A so-called exoplanet. 39 00:02:19,470 --> 00:02:21,120 It was an absolute game changer, 40 00:02:21,120 --> 00:02:24,360 I think was one of the most fundamental discoveries. 41 00:02:24,360 --> 00:02:28,473 And in that time, we can put our solar system context. 42 00:02:30,300 --> 00:02:34,110 This newly-found planet is far from unique. 43 00:02:34,110 --> 00:02:37,440 Scientists believe that in just our galaxy alone, 44 00:02:37,440 --> 00:02:40,233 there are around 100 billion planets. 45 00:02:41,580 --> 00:02:44,070 Many could even foster life. 46 00:02:44,070 --> 00:02:46,410 By researching these distant planets, 47 00:02:46,410 --> 00:02:49,200 scientists hope that they can shed more light 48 00:02:49,200 --> 00:02:52,470 on our own planet and its formation, 49 00:02:52,470 --> 00:02:55,173 but detecting them remains a challenge. 50 00:02:59,550 --> 00:03:02,700 One of the technique is actually using a dip 51 00:03:02,700 --> 00:03:04,020 in the light intensity. 52 00:03:04,020 --> 00:03:07,140 So let's imagine that the lamp would be the star 53 00:03:07,140 --> 00:03:08,850 and this would be the planet. 54 00:03:08,850 --> 00:03:12,930 Then we would see a slight dip in the light intensity, 55 00:03:12,930 --> 00:03:14,400 and we could conclude 56 00:03:14,400 --> 00:03:16,953 that a planet crossed the stellar surface. 57 00:03:18,120 --> 00:03:19,890 These the so-called transits 58 00:03:19,890 --> 00:03:21,600 can help determine a variety 59 00:03:21,600 --> 00:03:25,020 of different exoplanet characteristics, 60 00:03:25,020 --> 00:03:27,570 from the size of the exoplanet's orbit 61 00:03:27,570 --> 00:03:30,780 to the radius of the planet itself, 62 00:03:30,780 --> 00:03:32,940 even its atmosphere. 63 00:03:32,940 --> 00:03:36,330 But there is one thing this method does not provide. 64 00:03:36,330 --> 00:03:39,450 Our ultimate goal is to image planets, 65 00:03:39,450 --> 00:03:42,780 and that is actually really, really difficult. 66 00:03:42,780 --> 00:03:44,253 And the reason for that is 67 00:03:44,253 --> 00:03:48,693 that the central stellar object is over shining the planet. 68 00:03:50,523 --> 00:03:52,620 To image distant exoplanets, 69 00:03:52,620 --> 00:03:56,310 Professor Henning works at a high-tech facility, 70 00:03:56,310 --> 00:03:59,523 the European Southern Observatory at Mount Parana. 71 00:04:00,420 --> 00:04:03,870 Located in the Atacama Desert in Northern Chile, 72 00:04:03,870 --> 00:04:08,103 the astronomical observatory towers above the desert. 73 00:04:09,480 --> 00:04:12,870 By analyzing exoplanets and their systems, 74 00:04:12,870 --> 00:04:16,020 scientists can find out how our solar system 75 00:04:16,020 --> 00:04:18,840 and Planet Earth have formed, 76 00:04:18,840 --> 00:04:21,420 and they also try to discover 77 00:04:21,420 --> 00:04:24,112 if there is life in outer space. 78 00:04:24,112 --> 00:04:26,044 (awe-inspiring music) 79 00:04:26,044 --> 00:04:27,360 This is a magic place. 80 00:04:27,360 --> 00:04:30,300 The landscape is just breathtaking. 81 00:04:30,300 --> 00:04:33,360 It's one of the greatest places for astronomy. 82 00:04:33,360 --> 00:04:35,520 We have many clear nights 83 00:04:35,520 --> 00:04:37,710 and we have very little water in the atmosphere. 84 00:04:37,710 --> 00:04:39,870 It's very dry, and that's great 85 00:04:39,870 --> 00:04:42,153 for observing stars and planets. 86 00:04:43,890 --> 00:04:46,020 For this reason, a special array 87 00:04:46,020 --> 00:04:48,510 of telescopes is utilized here 88 00:04:48,510 --> 00:04:52,083 to help scientists understand the birth of our own planet. 89 00:04:53,160 --> 00:04:57,393 It is called the VLT or very large telescope. 90 00:05:00,360 --> 00:05:04,470 Each of the four 27-feet telescopes can take pictures 91 00:05:04,470 --> 00:05:08,970 of tiny celestial objects over 4 billion times fainter 92 00:05:08,970 --> 00:05:12,120 than what can be seen with the naked eye. 93 00:05:12,120 --> 00:05:14,610 But even this is not enough. 94 00:05:14,610 --> 00:05:16,110 Beneath the telescopes, 95 00:05:16,110 --> 00:05:20,190 a collection of high-tech systems enables the scientists 96 00:05:20,190 --> 00:05:23,850 to create a virtual mega telescope. 97 00:05:23,850 --> 00:05:25,860 We are not only using a single telescope 98 00:05:25,860 --> 00:05:30,570 but we are combining four of the big telescopes 99 00:05:30,570 --> 00:05:33,960 and that provides us with a space resolution 100 00:05:33,960 --> 00:05:36,723 of 140-meter telescope. 101 00:05:38,520 --> 00:05:39,840 With their equipment, 102 00:05:39,840 --> 00:05:44,840 the scientists can now not only detect, but image planets. 103 00:05:45,090 --> 00:05:48,183 When the Sun sets, the magic begins. 104 00:05:49,050 --> 00:05:53,250 Laser beams are used to create artificial guide stars 105 00:05:53,250 --> 00:05:56,853 to correct the distortions caused by the Earth's atmosphere. 106 00:05:58,140 --> 00:05:59,460 In the night skies, 107 00:05:59,460 --> 00:06:03,030 the scientists are looking out for exoplanets, 108 00:06:03,030 --> 00:06:05,400 especially newborn ones 109 00:06:05,400 --> 00:06:08,040 as they might deliver important clues 110 00:06:08,040 --> 00:06:10,443 to understand how planets form. 111 00:06:11,910 --> 00:06:12,960 In the control room, 112 00:06:12,960 --> 00:06:15,690 Thomas Henning and his colleague are monitoring 113 00:06:15,690 --> 00:06:17,373 the telescope's measurements. 114 00:06:18,390 --> 00:06:23,390 So I think the telescope is ready to go. 115 00:06:23,730 --> 00:06:25,113 Okay, let's get started. 116 00:06:27,330 --> 00:06:30,390 At a distance of nearly 400 light years, 117 00:06:30,390 --> 00:06:34,050 the astronomers have identified a young star. 118 00:06:34,050 --> 00:06:35,220 In its vicinity, 119 00:06:35,220 --> 00:06:39,600 they are now trying to capture an image of an exoplanet. 120 00:06:39,600 --> 00:06:43,950 To do this, Thomas Henning is using a stiller coronagraph, 121 00:06:43,950 --> 00:06:47,760 an instrument that emulates a solar eclipse. 122 00:06:47,760 --> 00:06:51,090 It blocks out the bright direct light from the star 123 00:06:51,090 --> 00:06:54,540 so that nearby planets become visible. 124 00:06:54,540 --> 00:06:57,960 In 2018, the scientists finally succeeded 125 00:06:57,960 --> 00:07:00,273 in capturing an amazing image. 126 00:07:01,440 --> 00:07:05,610 For the first time, we could see a planetary system 127 00:07:05,610 --> 00:07:07,200 in its birth environment 128 00:07:07,200 --> 00:07:10,980 so we could practically study a baby planet. 129 00:07:10,980 --> 00:07:13,560 And this was a very emotional moment 130 00:07:13,560 --> 00:07:18,150 because I tried that for many years. 131 00:07:18,150 --> 00:07:20,160 The picture revealed a disc filled 132 00:07:20,160 --> 00:07:24,000 with gas and dust surrounding the infant planet, 133 00:07:24,000 --> 00:07:28,260 leftover material from the formation of the system's star. 134 00:07:28,260 --> 00:07:30,450 From the image, Professor Henning could tell 135 00:07:30,450 --> 00:07:33,360 that the baby planet was a gas giant 136 00:07:33,360 --> 00:07:36,480 at least five times the mass of Jupiter, 137 00:07:36,480 --> 00:07:39,150 the largest planet in our solar system. 138 00:07:39,150 --> 00:07:41,580 We could analyze its atmosphere, 139 00:07:41,580 --> 00:07:44,850 and everything points to an atmosphere which is very dusty, 140 00:07:44,850 --> 00:07:46,140 which actually has clouds. 141 00:07:46,140 --> 00:07:48,270 So it must be something similar 142 00:07:48,270 --> 00:07:51,300 to the desert here when we have wind. 143 00:07:51,300 --> 00:07:53,580 The picture also tells Professor Henning 144 00:07:53,580 --> 00:07:55,530 something about the dramatic past 145 00:07:55,530 --> 00:07:58,620 of the exoplanet and its system. 146 00:07:58,620 --> 00:08:00,810 Because of its massive gravity, 147 00:08:00,810 --> 00:08:03,960 the planet sucks in everything in its path, 148 00:08:03,960 --> 00:08:06,330 forcing the region around its orbit 149 00:08:06,330 --> 00:08:09,183 to become devoid of gas and dust. 150 00:08:10,140 --> 00:08:13,830 The exoplanet shifts its orbit towards its star, 151 00:08:13,830 --> 00:08:17,520 sucking in even more material on its way. 152 00:08:17,520 --> 00:08:22,500 Any smaller objects it comes across are simply consumed, 153 00:08:22,500 --> 00:08:25,080 even other planets. 154 00:08:25,080 --> 00:08:26,520 We see this black stuff here, 155 00:08:26,520 --> 00:08:29,310 and this is caused by the fact 156 00:08:29,310 --> 00:08:33,090 that these giant planets clean everything 157 00:08:33,090 --> 00:08:36,450 so there is no other planets in a catastrophic way. 158 00:08:36,450 --> 00:08:39,903 They remove all the material from the disc. 159 00:08:42,060 --> 00:08:45,060 Since the detection of the first exoplanet, 160 00:08:45,060 --> 00:08:47,280 thousands of them have now been found 161 00:08:47,280 --> 00:08:49,113 in our own galaxy alone. 162 00:08:51,390 --> 00:08:53,280 By witnessing the birth of a planet 163 00:08:53,280 --> 00:08:55,050 for the first time in history, 164 00:08:55,050 --> 00:08:59,850 Professor Henning and his team have gathered important data. 165 00:08:59,850 --> 00:09:04,080 Our exoplanet research now paves the way to answer three 166 00:09:04,080 --> 00:09:08,010 of the most fundamental questions mankind can ask. 167 00:09:08,010 --> 00:09:11,370 First, are we actually alone in the universe? 168 00:09:11,370 --> 00:09:13,950 Is there life somewhere else? 169 00:09:13,950 --> 00:09:17,030 Second, how did life actually form 170 00:09:17,030 --> 00:09:18,663 in the early history of Earth? 171 00:09:19,685 --> 00:09:23,550 And the third question we can also ask and answer, 172 00:09:23,550 --> 00:09:25,560 how did Earth form 173 00:09:25,560 --> 00:09:28,413 and how did our planetary system came about? 174 00:09:30,090 --> 00:09:31,800 It is still miraculous 175 00:09:31,800 --> 00:09:35,040 how our planet has grown from stardust 176 00:09:35,040 --> 00:09:37,113 to a place fit for life. 177 00:09:38,070 --> 00:09:40,050 But the latest scientific discoveries 178 00:09:40,050 --> 00:09:42,050 have shed more and more light 179 00:09:42,050 --> 00:09:44,103 on how this could have happened. 180 00:09:47,280 --> 00:09:49,020 The formation of our world 181 00:09:49,020 --> 00:09:51,630 and the emergence of life are mysteries 182 00:09:51,630 --> 00:09:53,613 that scientists are trying to solve. 183 00:09:54,570 --> 00:09:57,930 Laura Kreidberg from the Max Planck Institute for Astronomy 184 00:09:57,930 --> 00:10:02,310 in Germany is passionate about finding these answers. 185 00:10:02,310 --> 00:10:04,860 Since her childhood, she has been fascinated 186 00:10:04,860 --> 00:10:06,933 by the vastness of the cosmos. 187 00:10:07,890 --> 00:10:09,450 One of the things I asked my mom 188 00:10:09,450 --> 00:10:11,610 when I was very young was, 189 00:10:11,610 --> 00:10:13,800 where is the edge of the universe? 190 00:10:13,800 --> 00:10:16,110 And she didn't know the answer, 191 00:10:16,110 --> 00:10:19,480 but I've been asking these questions ever since. 192 00:10:19,480 --> 00:10:21,900 (somber music) 193 00:10:21,900 --> 00:10:25,650 For me, looking in the night sky really puts our life 194 00:10:25,650 --> 00:10:27,750 on Earth in context. 195 00:10:27,750 --> 00:10:30,360 We know now that almost every other star 196 00:10:30,360 --> 00:10:32,970 in the sky has at least one planet, 197 00:10:32,970 --> 00:10:35,430 and when you get to see all of them up there, 198 00:10:35,430 --> 00:10:37,620 twinkling at us, you can imagine 199 00:10:37,620 --> 00:10:39,840 that perhaps there's an Earth-like planet 200 00:10:39,840 --> 00:10:41,910 with people on it wondering about us, 201 00:10:41,910 --> 00:10:43,910 just the way we would wonder about them. 202 00:10:44,940 --> 00:10:48,810 Whether we are alone is still unclear, 203 00:10:48,810 --> 00:10:52,200 but how our Earth evolved into the place it is today 204 00:10:52,200 --> 00:10:55,410 is only just beginning to be unraveled. 205 00:10:55,410 --> 00:10:57,660 The exploration of our solar system 206 00:10:57,660 --> 00:11:00,360 brings researchers one step closer 207 00:11:00,360 --> 00:11:01,923 to solving this mystery. 208 00:11:02,880 --> 00:11:04,980 To understand how our home, 209 00:11:04,980 --> 00:11:08,040 a small, rocky planet third from the Sun, 210 00:11:08,040 --> 00:11:10,410 became a place fit for life, 211 00:11:10,410 --> 00:11:13,860 we need to go back in time to the beginning, 212 00:11:13,860 --> 00:11:16,443 over 4 1/2 billion years ago. 213 00:11:19,620 --> 00:11:22,740 Scientists believe that our solar system begins 214 00:11:22,740 --> 00:11:26,790 as a vast interstellar cloud of gas and dust, 215 00:11:26,790 --> 00:11:30,210 twisting through the universe without direction. 216 00:11:30,210 --> 00:11:33,810 Eventually, the cloud collapses in on itself 217 00:11:33,810 --> 00:11:36,513 after becoming gravitationally unstable, 218 00:11:37,380 --> 00:11:39,360 forming a solar nebula, 219 00:11:39,360 --> 00:11:41,853 a spinning, swirling disc of material. 220 00:11:43,410 --> 00:11:45,600 And what tends to happen is 221 00:11:45,600 --> 00:11:49,650 that whatever random motions existed at the beginning, 222 00:11:49,650 --> 00:11:53,730 those are preserved so you hold on to the rotation. 223 00:11:53,730 --> 00:11:56,850 But the up and down motion cancels out. 224 00:11:56,850 --> 00:11:59,880 Material moving down collides with material moving up, 225 00:11:59,880 --> 00:12:02,850 and so that flattens the disc over time 226 00:12:02,850 --> 00:12:06,630 and you're left with this rotating flat disc 227 00:12:06,630 --> 00:12:08,073 that the planets form in. 228 00:12:09,630 --> 00:12:11,220 At the center of the disc, 229 00:12:11,220 --> 00:12:13,593 gravity pulls everything inward. 230 00:12:14,820 --> 00:12:17,790 The material at the center got hotter and hotter 231 00:12:17,790 --> 00:12:19,590 and higher and higher pressure, 232 00:12:19,590 --> 00:12:23,070 and eventually reached a point where the density 233 00:12:23,070 --> 00:12:25,590 and the temperature and the pressure were so high 234 00:12:25,590 --> 00:12:27,903 that hydrogen began to fuse in the core. 235 00:12:29,010 --> 00:12:31,740 With the pressure in the core so immense, 236 00:12:31,740 --> 00:12:35,460 hydrogen atoms begin to combine and form helium, 237 00:12:35,460 --> 00:12:38,133 releasing a tremendous amount of energy. 238 00:12:39,750 --> 00:12:42,120 This is some of the most dramatic events 239 00:12:42,120 --> 00:12:44,520 in the history of a solar system. 240 00:12:44,520 --> 00:12:47,523 With that, our Sun is born. 241 00:12:49,050 --> 00:12:51,570 A shining mass of chemical elements, 242 00:12:51,570 --> 00:12:54,990 forging light into the vast darkness. 243 00:12:54,990 --> 00:12:57,240 The temperature in the core of the Sun 244 00:12:57,240 --> 00:13:01,080 reaches more than 27 million degrees Fahrenheit, 245 00:13:01,080 --> 00:13:04,710 driven by internal nuclear reactions. 246 00:13:04,710 --> 00:13:07,170 It's been estimated every second 247 00:13:07,170 --> 00:13:11,643 the Sun produces more energy than a billion atomic bombs. 248 00:13:12,780 --> 00:13:16,980 The Sun accreted almost all of the gas surrounding it. 249 00:13:16,980 --> 00:13:20,130 99% of the material went into the Sun, 250 00:13:20,130 --> 00:13:22,110 but there was a little bit left over 251 00:13:22,110 --> 00:13:25,650 that formed a little proto-planetary disc. 252 00:13:25,650 --> 00:13:28,650 We call it a swirling cloud of gas and dust 253 00:13:28,650 --> 00:13:29,790 around the young star, 254 00:13:29,790 --> 00:13:31,740 and that's where the planets were born. 255 00:13:33,030 --> 00:13:34,860 The little material that remained 256 00:13:34,860 --> 00:13:37,350 around the heart of the new star was enough 257 00:13:37,350 --> 00:13:39,360 to form the raw ingredients 258 00:13:39,360 --> 00:13:42,903 for a new system of planets orbiting around the Sun. 259 00:13:43,770 --> 00:13:46,920 But how this material turned into planets 260 00:13:46,920 --> 00:13:49,369 has always been a subject of debate. 261 00:13:49,369 --> 00:13:51,810 (gentle music) 262 00:13:51,810 --> 00:13:53,460 One of the newest ideas about 263 00:13:53,460 --> 00:13:55,950 how planets form is called pebble accretion. 264 00:13:55,950 --> 00:13:58,560 And with this idea, the planets are growing out 265 00:13:58,560 --> 00:14:01,293 of small pebbles, so little bit at a time. 266 00:14:02,640 --> 00:14:05,220 Within the giant disc of gas and dust 267 00:14:05,220 --> 00:14:07,320 that circled the young star, 268 00:14:07,320 --> 00:14:10,950 particles smaller than the width of a human hair 269 00:14:10,950 --> 00:14:14,310 started to clump together and coalesce. 270 00:14:14,310 --> 00:14:17,790 By this, they grew into larger and larger pebbles, 271 00:14:17,790 --> 00:14:20,730 which started to collide with each other. 272 00:14:20,730 --> 00:14:22,770 It's a process that can be compared 273 00:14:22,770 --> 00:14:25,980 to colliding bumper cars at the amusement park. 274 00:14:25,980 --> 00:14:28,320 In the young solar system, there was a lot of material 275 00:14:28,320 --> 00:14:30,240 that was bumping into each other, 276 00:14:30,240 --> 00:14:33,360 exactly like these bumper cars are bumping into each other. 277 00:14:33,360 --> 00:14:36,450 But eventually, with bumper cars, 278 00:14:36,450 --> 00:14:38,133 you bump and you separate. 279 00:14:40,380 --> 00:14:43,260 But when planets form, the material is actually able 280 00:14:43,260 --> 00:14:46,260 to stick together and grow to form the planets we see today. 281 00:14:47,190 --> 00:14:48,863 Just like when the bumper cars come together 282 00:14:48,863 --> 00:14:51,137 and the one in the middle can't escape. 283 00:14:52,587 --> 00:14:53,940 Escape from these collisions, 284 00:14:53,940 --> 00:14:57,930 pebbles eventually grew into gigantic bodies of rock, 285 00:14:57,930 --> 00:15:01,110 some the size of the biggest asteroids we find 286 00:15:01,110 --> 00:15:02,733 in the solar system today. 287 00:15:04,320 --> 00:15:07,650 Eventually, some of these objects became large enough 288 00:15:07,650 --> 00:15:11,100 to take on a spherical shape under the influence 289 00:15:11,100 --> 00:15:12,303 of their own gravity. 290 00:15:13,230 --> 00:15:15,840 At this stage, these protoplanets started 291 00:15:15,840 --> 00:15:19,470 to grow faster and faster by consuming all the material 292 00:15:19,470 --> 00:15:21,243 in their orbit around the Sun. 293 00:15:25,440 --> 00:15:28,620 And these pebbles are able to be vacuumed 294 00:15:28,620 --> 00:15:31,500 into the young, growing planet very, very quickly, 295 00:15:31,500 --> 00:15:35,070 very efficiently, so that we can grow very large planets 296 00:15:35,070 --> 00:15:38,703 on the short timescales that we observe around other stars. 297 00:15:39,930 --> 00:15:42,420 Growing planets is not unlike 298 00:15:42,420 --> 00:15:44,019 making cotton candy. 299 00:15:44,019 --> 00:15:46,602 (gentle music) 300 00:15:49,800 --> 00:15:54,330 And now watching this cotton candy slowly grow up 301 00:15:54,330 --> 00:15:57,030 into a big ball, it's almost exactly the same 302 00:15:57,030 --> 00:16:00,600 as a protoplanet accreting more and more gas and dust 303 00:16:00,600 --> 00:16:03,300 as it moves through the proto-planetary disc. 304 00:16:03,300 --> 00:16:04,620 As it moves through its orbit, 305 00:16:04,620 --> 00:16:07,470 you can see it growing larger and larger and larger 306 00:16:07,470 --> 00:16:11,040 until, at the very end, you have a giant planet, 307 00:16:11,040 --> 00:16:12,897 or perhaps cotton candy. 308 00:16:12,897 --> 00:16:15,461 (awe-inspiring music) 309 00:16:15,461 --> 00:16:19,044 (Laura speaking in German) 310 00:16:24,510 --> 00:16:26,640 The newly-born planets are anchored 311 00:16:26,640 --> 00:16:28,440 by the gravity of the Sun, 312 00:16:28,440 --> 00:16:31,480 which they orbit in various paths. 313 00:16:31,480 --> 00:16:34,290 It is this gravity that keeps these protoplanets 314 00:16:34,290 --> 00:16:38,013 from flying off into the universe or collapsing together. 315 00:16:39,289 --> 00:16:43,110 In the outer solar system, our biggest planets are formed. 316 00:16:43,110 --> 00:16:46,860 They absorb all the gas within the proto-planetary disc, 317 00:16:46,860 --> 00:16:51,860 becoming the gas giants, Jupiter and Saturn, 318 00:16:51,930 --> 00:16:56,853 and the far away ice giants, Uranus and Neptune. 319 00:16:58,500 --> 00:17:00,960 Without any gas left in the disc, 320 00:17:00,960 --> 00:17:04,740 the protoplanets in the inner solar system remain rocky 321 00:17:04,740 --> 00:17:06,750 and relatively small, 322 00:17:06,750 --> 00:17:08,970 becoming terrestrial planets 323 00:17:08,970 --> 00:17:13,970 like Mercury, closest to the Sun, Venus, and Mars. 324 00:17:15,480 --> 00:17:18,930 We think that planet formation happens pretty quickly. 325 00:17:18,930 --> 00:17:20,580 So after the star forms 326 00:17:20,580 --> 00:17:23,400 and there's this disc of material around it, 327 00:17:23,400 --> 00:17:25,770 after not even 10 million years, 328 00:17:25,770 --> 00:17:28,770 the planets can be fully formed after that. 329 00:17:28,770 --> 00:17:30,210 And that's just the blink of an eye 330 00:17:30,210 --> 00:17:32,163 in the length of the solar system. 331 00:17:33,120 --> 00:17:35,010 One of those planets has formed 332 00:17:35,010 --> 00:17:38,733 between Venus and Mars, Earth, 333 00:17:39,780 --> 00:17:43,800 born from tiny dust particles like its cousins. 334 00:17:43,800 --> 00:17:47,400 But it's not the blue planet we know today. 335 00:17:47,400 --> 00:17:50,853 Earth is a spinning of red hot rock. 336 00:17:51,720 --> 00:17:53,430 Our barren planet looks 337 00:17:53,430 --> 00:17:57,003 like it could not contain anything related to life. 338 00:17:59,190 --> 00:18:01,710 The Earth during its very early lifetime 339 00:18:01,710 --> 00:18:04,740 was not a friendly place for life at all. 340 00:18:04,740 --> 00:18:07,620 Imagine yourself standing on top 341 00:18:07,620 --> 00:18:10,680 of the early Earth just after it formed. 342 00:18:10,680 --> 00:18:12,450 This is not a happy place to be. 343 00:18:12,450 --> 00:18:14,580 It is excruciatingly hot. 344 00:18:14,580 --> 00:18:17,280 The surface is so hot that it's molten lava. 345 00:18:17,280 --> 00:18:19,230 You would not survive very long, 346 00:18:19,230 --> 00:18:20,973 but that is not your only problem. 347 00:18:22,230 --> 00:18:24,450 4 1/2 billion years ago, 348 00:18:24,450 --> 00:18:28,473 the solar system was vastly different from what it is today. 349 00:18:29,400 --> 00:18:32,550 Not only was the young Earth extremely hot, 350 00:18:32,550 --> 00:18:35,280 extremely inhospitable to life as we know it, 351 00:18:35,280 --> 00:18:38,253 but it was about to face a very enormous challenge. 352 00:18:39,630 --> 00:18:42,990 A catastrophic event was about to take place 353 00:18:42,990 --> 00:18:46,453 that would change the history of Earth forever. 354 00:18:46,453 --> 00:18:49,120 (ominous music) 355 00:18:50,978 --> 00:18:53,760 (gentle music) 356 00:18:53,760 --> 00:18:56,490 It is the Moon that provides us with evidence 357 00:18:56,490 --> 00:18:58,143 of this first catastrophe. 358 00:18:58,980 --> 00:19:02,640 In 1969, the Apollo 11 mission brought back 359 00:19:02,640 --> 00:19:05,850 the first moon rock samples to earth. 360 00:19:05,850 --> 00:19:09,540 Since then, NASA has retrieved thousands of samples 361 00:19:09,540 --> 00:19:10,713 on their missions. 362 00:19:11,550 --> 00:19:14,940 Because the Moon, unlike our Earth, hasn't changed 363 00:19:14,940 --> 00:19:17,190 as much since its formation, 364 00:19:17,190 --> 00:19:19,500 these samples can help unravel 365 00:19:19,500 --> 00:19:21,993 how the past has shaped our present, 366 00:19:22,830 --> 00:19:25,050 holding the key to the mysteries 367 00:19:25,050 --> 00:19:28,233 of the emergence of the Moon and the Earth alike. 368 00:19:31,500 --> 00:19:32,793 Zurich, Switzerland. 369 00:19:34,070 --> 00:19:37,620 Every year, NASA distributes some of their moon samples 370 00:19:37,620 --> 00:19:40,683 to a select group of scientists around the world. 371 00:19:42,690 --> 00:19:44,430 Professor Maria Schonbachler 372 00:19:44,430 --> 00:19:47,310 at the Swiss Federal Institute of Technology 373 00:19:47,310 --> 00:19:49,113 is one of those recipients. 374 00:19:54,180 --> 00:19:56,070 They are much more valuable than gold. 375 00:19:56,070 --> 00:20:00,630 So a gram like that is about 10 or 20 times more valuable. 376 00:20:00,630 --> 00:20:02,460 The lunar surface is very old 377 00:20:02,460 --> 00:20:04,770 and has hardly changed compared to the Earth, 378 00:20:04,770 --> 00:20:06,840 and that helps us decipher the secrets 379 00:20:06,840 --> 00:20:09,240 of the early Earth and the early Moon. 380 00:20:09,240 --> 00:20:11,820 The Moon is like a window back into the past, 381 00:20:11,820 --> 00:20:13,443 and I find that fascinating. 382 00:20:15,870 --> 00:20:17,850 Professor Schonbachler is looking 383 00:20:17,850 --> 00:20:21,450 for particular chemical signatures in the lunar rocks 384 00:20:21,450 --> 00:20:24,363 that might reveal clues about their origins. 385 00:20:25,200 --> 00:20:28,680 In an experiment, she now wants to compare the composition 386 00:20:28,680 --> 00:20:31,323 of the Moon to the composition of Earth. 387 00:20:33,630 --> 00:20:36,660 Here we have a dissolved sample of the Moon 388 00:20:36,660 --> 00:20:38,733 and this is an Earth sample from Hawaii. 389 00:20:41,250 --> 00:20:42,720 Now we can analyze these 390 00:20:42,720 --> 00:20:45,543 and see how closely related Earth and Moon are. 391 00:20:48,420 --> 00:20:50,520 Using isotope analysis, 392 00:20:50,520 --> 00:20:54,600 Maria can compare the samples on an atomic level. 393 00:20:54,600 --> 00:20:57,270 She's particularly struck by the composition 394 00:20:57,270 --> 00:21:00,180 of the respective chromium isotopes. 395 00:21:00,180 --> 00:21:02,403 The measured values are astounding. 396 00:21:04,170 --> 00:21:05,910 What we see here are the measurements 397 00:21:05,910 --> 00:21:08,103 from the Earth sample and the Moon sample. 398 00:21:09,030 --> 00:21:10,950 All the bars are identical. 399 00:21:10,950 --> 00:21:12,000 That means the Earth 400 00:21:12,000 --> 00:21:15,060 and the Moon have exactly the same fingerprint, 401 00:21:15,060 --> 00:21:19,110 and that in turn tells us they must be very closely related. 402 00:21:19,110 --> 00:21:22,980 So the Earth and the Moon are geological twins. 403 00:21:22,980 --> 00:21:25,683 The question now is, how did that come about? 404 00:21:29,880 --> 00:21:31,380 There are multiple theories 405 00:21:31,380 --> 00:21:33,990 about how the Moon was formed. 406 00:21:33,990 --> 00:21:36,660 The results of the analysis suggest 407 00:21:36,660 --> 00:21:39,030 that its formation is closely linked 408 00:21:39,030 --> 00:21:40,833 to the history of Earth. 409 00:21:43,080 --> 00:21:45,660 People have wondered for a really long time 410 00:21:45,660 --> 00:21:48,233 how Earth's moon formed, and there have been a lot 411 00:21:48,233 --> 00:21:50,400 of different ideas how it happened. 412 00:21:50,400 --> 00:21:54,120 One of them was that the Moon actually was a little piece 413 00:21:54,120 --> 00:21:56,520 of the Earth that got broken off early 414 00:21:56,520 --> 00:21:58,563 in the lifetime of the planet. 415 00:21:59,790 --> 00:22:01,740 Another idea was that the Earth 416 00:22:01,740 --> 00:22:04,110 and Moon actually formed at the same time 417 00:22:04,110 --> 00:22:08,220 from the proto-planetary disc, like a little binary system. 418 00:22:08,220 --> 00:22:11,790 But the theory that has the most support now 419 00:22:11,790 --> 00:22:14,433 is actually much more spectacular. 420 00:22:17,910 --> 00:22:20,340 4.5 billion years ago, 421 00:22:20,340 --> 00:22:24,390 planetary embryos were circling around the Sun, 422 00:22:24,390 --> 00:22:27,060 together with a countless number of smaller 423 00:22:27,060 --> 00:22:29,373 but still huge chunks of rocks. 424 00:22:30,240 --> 00:22:33,723 The early solar system was a hazardous place. 425 00:22:37,560 --> 00:22:40,773 Maria Schonbachler can read this in the Moon's surface. 426 00:22:42,540 --> 00:22:44,430 The exciting thing about the Moon is 427 00:22:44,430 --> 00:22:46,950 that its surface is very old. 428 00:22:46,950 --> 00:22:50,190 That means if we study the Moon, we also study the history 429 00:22:50,190 --> 00:22:52,773 of the Earth because it's a mirror image. 430 00:22:53,730 --> 00:22:56,070 And if we now look at the surface of the Moon 431 00:22:56,070 --> 00:22:58,050 and see all these craters, 432 00:22:58,050 --> 00:23:00,630 some of which are also extremely old, 433 00:23:00,630 --> 00:23:02,460 then we know that early Earth 434 00:23:02,460 --> 00:23:07,230 also suffered many impacts from asteroids or comets, 435 00:23:07,230 --> 00:23:08,283 just like the Moon. 436 00:23:10,170 --> 00:23:12,240 Just after the planets formed, 437 00:23:12,240 --> 00:23:15,390 the solar system was a very dangerous place to be. 438 00:23:15,390 --> 00:23:17,940 There was material leftover from planet formation 439 00:23:17,940 --> 00:23:19,350 that was flying around. 440 00:23:19,350 --> 00:23:20,820 Collisions were common, 441 00:23:20,820 --> 00:23:22,920 and the Earth was about to experience one 442 00:23:22,920 --> 00:23:26,553 of the most catastrophic collisions in its entire history. 443 00:23:27,450 --> 00:23:30,030 In the early days of our solar system, 444 00:23:30,030 --> 00:23:32,193 Earth was being bombarded. 445 00:23:34,380 --> 00:23:37,020 The young solar system was a very violent place 446 00:23:37,020 --> 00:23:38,733 and collisions were common. 447 00:23:41,010 --> 00:23:43,170 But the most apocalyptic collision 448 00:23:43,170 --> 00:23:46,563 in the history of our Earth was about to take place. 449 00:23:49,080 --> 00:23:53,100 At this time, Earth was an ocean of molten lava, 450 00:23:53,100 --> 00:23:55,170 hundreds of miles in depth, 451 00:23:55,170 --> 00:23:57,360 perpetually stirred up by the impacts 452 00:23:57,360 --> 00:23:59,283 of asteroids and comets. 453 00:24:00,210 --> 00:24:02,913 It had nearly reached its final size, 454 00:24:04,740 --> 00:24:07,950 but approaching from the dark void was Theia, 455 00:24:07,950 --> 00:24:11,313 a massive protoplanet the size of Mars. 456 00:24:12,150 --> 00:24:14,520 Like Earth, it had been growing quickly 457 00:24:14,520 --> 00:24:17,460 by consuming everything in its path 458 00:24:17,460 --> 00:24:20,746 and now it was heading straight for Earth. 459 00:24:20,746 --> 00:24:23,413 (ominous music) 460 00:24:25,955 --> 00:24:28,705 (impact booming) 461 00:24:33,060 --> 00:24:36,393 The impact of Theia nearly destroyed Earth. 462 00:24:37,260 --> 00:24:40,050 Vaporized chunks of our young planet's crust 463 00:24:40,050 --> 00:24:41,703 were thrown into space. 464 00:24:45,690 --> 00:24:49,140 The scale of this impact is hard to even imagine. 465 00:24:49,140 --> 00:24:52,500 It was a hundred million times larger 466 00:24:52,500 --> 00:24:55,770 than the impact to Earth that we think killed the dinosaurs. 467 00:24:55,770 --> 00:25:00,030 The impact was so strong that Theia was obliterated, 468 00:25:00,030 --> 00:25:04,440 and what was left over was chunks of both Theia 469 00:25:04,440 --> 00:25:06,420 and the surface of the Earth 470 00:25:06,420 --> 00:25:10,200 that were ejected into orbit around Earth itself 471 00:25:10,200 --> 00:25:12,183 and were held in by Earth's gravity. 472 00:25:15,450 --> 00:25:18,540 That debris cloud flattened into a disc, 473 00:25:18,540 --> 00:25:21,960 not so different from the original disc around the young Sun 474 00:25:21,960 --> 00:25:23,550 where the first planets formed. 475 00:25:23,550 --> 00:25:26,430 As material orbited around the young Earth, 476 00:25:26,430 --> 00:25:28,380 you had small pebbles, small grains, 477 00:25:28,380 --> 00:25:30,603 bumping into each other that grew and grew. 478 00:25:32,670 --> 00:25:35,370 Gas, dust, and rock coalesced 479 00:25:35,370 --> 00:25:39,063 into a spherical shape that continued to orbit Earth. 480 00:25:39,930 --> 00:25:43,833 A new world was created, the Moon. 481 00:25:45,270 --> 00:25:47,793 But it was far from the one we know today. 482 00:25:48,990 --> 00:25:50,670 Right after its formation, 483 00:25:50,670 --> 00:25:53,160 the Moon was about 17 times closer 484 00:25:53,160 --> 00:25:55,473 to our planet than it is today. 485 00:25:56,310 --> 00:26:00,300 Its proximity to Earth had dire consequences, 486 00:26:00,300 --> 00:26:02,490 bringing violent instability 487 00:26:02,490 --> 00:26:04,743 to the molten planet it orbited. 488 00:26:05,760 --> 00:26:08,493 Earth had passed its baptism of fire. 489 00:26:09,660 --> 00:26:12,660 But even a long time after the impact, 490 00:26:12,660 --> 00:26:15,060 our planet was far from being a place 491 00:26:15,060 --> 00:26:16,833 where life could emerge. 492 00:26:21,060 --> 00:26:22,680 How this happened is one 493 00:26:22,680 --> 00:26:24,720 of the key questions that scientists 494 00:26:24,720 --> 00:26:27,720 at the Max Planck Institute for Solar System Research 495 00:26:27,720 --> 00:26:30,153 in Gottingen, Germany want to answer. 496 00:26:31,200 --> 00:26:34,200 One of them is Dr. Fred Goesmann. 497 00:26:34,200 --> 00:26:37,320 He participated in the European Space Agency's 498 00:26:37,320 --> 00:26:41,220 Rosetta Mission, where a probe was sent to a comet 499 00:26:41,220 --> 00:26:45,270 to look for earliest traces of life in our solar system. 500 00:26:45,270 --> 00:26:46,830 People came up with the idea in Europe, 501 00:26:46,830 --> 00:26:48,120 let's fly to a comet. 502 00:26:48,120 --> 00:26:52,080 Let's not just fly past it, let's go to the comet, 503 00:26:52,080 --> 00:26:54,900 orbit it, land on it, and see what it's made of. 504 00:26:54,900 --> 00:26:57,960 And so the question is, did comets bring something 505 00:26:57,960 --> 00:27:00,273 which helped for life to emerge on Earth? 506 00:27:01,530 --> 00:27:06,330 The comet known as 67P/Churyumov-Gerasimenko 507 00:27:06,330 --> 00:27:08,880 was on an elliptical journey stretching 508 00:27:08,880 --> 00:27:10,920 between Jupiter at one end 509 00:27:10,920 --> 00:27:14,670 and the region between Earth and Mars at the other. 510 00:27:14,670 --> 00:27:18,690 The plan was for the Rosetta probe to travel with the comet, 511 00:27:18,690 --> 00:27:21,720 before dispatching a lander to the comet's surface 512 00:27:21,720 --> 00:27:23,613 to collect invaluable data. 513 00:27:24,510 --> 00:27:27,060 Fred Goesmann developed a special instrument 514 00:27:27,060 --> 00:27:29,010 for Rosetta's lander, Philae, 515 00:27:29,010 --> 00:27:32,580 that's capable of measuring the properties of the comet. 516 00:27:32,580 --> 00:27:36,330 Philae is a little bit of a small beast landing on a comet 517 00:27:36,330 --> 00:27:38,100 and it has eyes, which are the camera, 518 00:27:38,100 --> 00:27:41,430 it's got a sense of feeling, which is the feet, 519 00:27:41,430 --> 00:27:42,990 and this thing was the nose. 520 00:27:42,990 --> 00:27:44,190 It is a chemical instrument. 521 00:27:44,190 --> 00:27:45,780 It's sniffing for molecules 522 00:27:45,780 --> 00:27:48,933 and identifying them by technical means. 523 00:27:49,800 --> 00:27:53,010 In 2004, the Rosetta probe was launched 524 00:27:53,010 --> 00:27:55,860 on its billion-kilometer journey. 525 00:27:55,860 --> 00:27:57,960 After a flight of 10 years, 526 00:27:57,960 --> 00:28:01,770 the spacecraft finally reached its destination. 527 00:28:01,770 --> 00:28:05,460 The optical instruments onboard Rosetta catched a glimpse 528 00:28:05,460 --> 00:28:07,173 of the strange looking comet. 529 00:28:09,660 --> 00:28:12,030 And it slowly grew in size, and you saw, 530 00:28:12,030 --> 00:28:14,460 oh no, it looks like a rubber duck. 531 00:28:14,460 --> 00:28:16,893 And it was pretty clear, don't call it a duck. 532 00:28:17,850 --> 00:28:22,110 Rosetta entered the orbit of Comet 67P. 533 00:28:22,110 --> 00:28:25,443 Then, Philae was released to land on the surface. 534 00:28:29,220 --> 00:28:31,980 The landing itself was really exciting. 535 00:28:31,980 --> 00:28:34,200 We saw images of the camera system of the orbiter 536 00:28:34,200 --> 00:28:35,520 that the legs had unfolded. 537 00:28:35,520 --> 00:28:36,353 It worked. 538 00:28:36,353 --> 00:28:37,770 The legs were nicely spread out, 539 00:28:37,770 --> 00:28:41,130 and so the thing came down and then we heard touchdown. 540 00:28:41,130 --> 00:28:42,600 We are on ground. 541 00:28:42,600 --> 00:28:44,640 People at ESA were cheering and everything, 542 00:28:44,640 --> 00:28:47,190 and then the engineers scratched their heads 543 00:28:47,190 --> 00:28:50,790 and said, no, it's moving. 544 00:28:50,790 --> 00:28:52,390 And that was really frightening. 545 00:28:53,430 --> 00:28:55,170 The landing gear did not appear 546 00:28:55,170 --> 00:28:56,763 to be working as planned. 547 00:28:58,530 --> 00:29:03,030 What we have here is one of the three landing legs. 548 00:29:03,030 --> 00:29:05,460 So in order to stay on the cometary surface, 549 00:29:05,460 --> 00:29:07,800 which we already knew would be very difficult, 550 00:29:07,800 --> 00:29:12,060 we gave this lander harpoons, claws, teeth, everything. 551 00:29:12,060 --> 00:29:13,830 And this is one of the feet. 552 00:29:13,830 --> 00:29:16,470 When these paws touch the surface 553 00:29:16,470 --> 00:29:19,770 and they experience a force, are being pushed back, 554 00:29:19,770 --> 00:29:23,100 they could retract and push forward, 555 00:29:23,100 --> 00:29:24,930 we called it an ice screw. 556 00:29:24,930 --> 00:29:28,170 The idea was, well, you touch the surface 557 00:29:28,170 --> 00:29:29,700 and you recognize that 558 00:29:29,700 --> 00:29:32,610 by some motion in the mechanical system. 559 00:29:32,610 --> 00:29:35,460 And once that happened, you fire harpoons into the comet 560 00:29:35,460 --> 00:29:36,720 and then you secure everything. 561 00:29:36,720 --> 00:29:39,780 You pull the rope of the harpoon and everything. 562 00:29:39,780 --> 00:29:40,613 Nope. 563 00:29:41,730 --> 00:29:43,920 The harpoons that should anchor Philae 564 00:29:43,920 --> 00:29:46,113 to the landing spot failed. 565 00:29:46,980 --> 00:29:49,590 Untethered, Philae bounced off the comet 566 00:29:49,590 --> 00:29:51,540 for the next two hours. 567 00:29:51,540 --> 00:29:55,023 Finally, the lander settled in the shadow of a cliff. 568 00:29:56,340 --> 00:30:00,000 The final position where it came to rest was so awkward. 569 00:30:00,000 --> 00:30:01,500 It wasn't standing on its legs. 570 00:30:01,500 --> 00:30:02,850 It was kind of up way, 571 00:30:02,850 --> 00:30:05,370 one leg was really pointing upwards. 572 00:30:05,370 --> 00:30:08,670 The drill was kind of poking into nowhere. 573 00:30:08,670 --> 00:30:10,023 It didn't reach the ground. 574 00:30:11,310 --> 00:30:13,710 So it did all its motions, 575 00:30:13,710 --> 00:30:15,180 but it didn't give us a sample 576 00:30:15,180 --> 00:30:18,900 because it couldn't touch anything. 577 00:30:18,900 --> 00:30:21,060 It seemed that the billion-dollar mission 578 00:30:21,060 --> 00:30:25,650 to find out more about the origin of life had failed. 579 00:30:25,650 --> 00:30:30,270 But despite things not going to plan, samples were taken. 580 00:30:30,270 --> 00:30:33,420 We were a bit fortunate because we hit the ground, 581 00:30:33,420 --> 00:30:35,460 and obviously stuff was excavated 582 00:30:35,460 --> 00:30:37,650 and there was a plume of something coming up. 583 00:30:37,650 --> 00:30:39,510 And this very initial measurement 584 00:30:39,510 --> 00:30:41,370 where we just switch on the mass spectrometer 585 00:30:41,370 --> 00:30:43,830 to see what the environment tells us, 586 00:30:43,830 --> 00:30:47,100 only these two tiny minutes of measurements 587 00:30:47,100 --> 00:30:49,080 gave us a brilliant spectrum. 588 00:30:49,080 --> 00:30:50,580 For me, when I was seeing it, 589 00:30:50,580 --> 00:30:53,397 it was the most sexy mass spectrum in the world, 590 00:30:53,397 --> 00:30:55,200 and it still is. 591 00:30:55,200 --> 00:30:56,880 After a thorough analysis 592 00:30:56,880 --> 00:31:00,990 of the measurements, the comet's properties were revealed. 593 00:31:00,990 --> 00:31:05,700 It contained carbon, hydrogen, oxygen, nitrogen, 594 00:31:05,700 --> 00:31:06,993 and even more. 595 00:31:08,550 --> 00:31:10,950 We found molecules, organic molecules. 596 00:31:10,950 --> 00:31:13,020 And if you put them in the right environment, 597 00:31:13,020 --> 00:31:15,180 they would be suitable to combine 598 00:31:15,180 --> 00:31:17,893 and to build anything you need in order to have life. 599 00:31:17,893 --> 00:31:20,400 I would say that if you have a planet 600 00:31:20,400 --> 00:31:21,930 and many comets fall onto it 601 00:31:21,930 --> 00:31:24,030 and they are of such composition, 602 00:31:24,030 --> 00:31:25,800 it would create an environment 603 00:31:25,800 --> 00:31:28,143 which life would be happy to thrive on. 604 00:31:29,700 --> 00:31:31,380 Whether it was really comets 605 00:31:31,380 --> 00:31:34,920 that started life on Earth is debated, 606 00:31:34,920 --> 00:31:37,710 but even if they did deliver the building blocks, 607 00:31:37,710 --> 00:31:42,630 our planet needed a radical change to enable life to evolve. 608 00:31:42,630 --> 00:31:46,290 There was still another ingredient that was missing. 609 00:31:46,290 --> 00:31:47,123 Water. 610 00:31:48,660 --> 00:31:51,480 Comets like 67P originate 611 00:31:51,480 --> 00:31:55,680 from beyond the orbit of Neptune or even farther out 612 00:31:55,680 --> 00:32:00,360 and are supposed to carry a lot of water in the form of ice. 613 00:32:00,360 --> 00:32:02,640 Many scientists, therefore, believe 614 00:32:02,640 --> 00:32:05,703 that comets also brought water to Earth. 615 00:32:06,870 --> 00:32:10,470 High resolution images of comet 67P 616 00:32:10,470 --> 00:32:13,863 indeed show the presence of water ice on the surface, 617 00:32:14,790 --> 00:32:16,950 but the analysis of the atomic makeup 618 00:32:16,950 --> 00:32:19,800 of the comet water shows that it is different 619 00:32:19,800 --> 00:32:21,573 from the water we have on Earth. 620 00:32:22,500 --> 00:32:24,030 This means that water 621 00:32:24,030 --> 00:32:27,750 on Earth cannot have been delivered by comets. 622 00:32:27,750 --> 00:32:30,033 It must have come from somewhere else. 623 00:32:32,700 --> 00:32:35,400 On September 12th, 2019, 624 00:32:35,400 --> 00:32:39,540 more than 500 people along the North Sea coast reported 625 00:32:39,540 --> 00:32:42,660 seeing a strange phenomenon across the sky 626 00:32:42,660 --> 00:32:43,863 in broad daylight. 627 00:32:44,820 --> 00:32:46,890 While filming a selfie video, 628 00:32:46,890 --> 00:32:50,340 a kite surfer from Northern Germany captured the event 629 00:32:50,340 --> 00:32:54,120 in the background, a flash of bright light. 630 00:32:54,120 --> 00:32:57,633 It was a meteorite on its way down to Earth. 631 00:32:58,590 --> 00:33:00,890 Professor Thorsten Kleine, director 632 00:33:00,890 --> 00:33:04,380 of the Max Planck Institute for Solar System Research, 633 00:33:04,380 --> 00:33:06,000 wants to find out if this piece 634 00:33:06,000 --> 00:33:09,240 of rock can help solve the riddle of water. 635 00:33:09,240 --> 00:33:11,730 A day after the flash, a 25-gram piece 636 00:33:11,730 --> 00:33:15,090 of a meteorite has been found near Flensburg in Germany. 637 00:33:15,090 --> 00:33:17,820 It would've looked just like this, a black rock, 638 00:33:17,820 --> 00:33:19,350 not very spectacular looking, 639 00:33:19,350 --> 00:33:21,513 but scientifically extremely interesting. 640 00:33:22,890 --> 00:33:24,150 The analysis shows 641 00:33:24,150 --> 00:33:27,780 that the meteorite is nearly as old as the solar system, 642 00:33:27,780 --> 00:33:30,333 and that it is a piece from an asteroid. 643 00:33:31,230 --> 00:33:33,690 While comets are icy with tails 644 00:33:33,690 --> 00:33:36,270 and come from the outer solar system, 645 00:33:36,270 --> 00:33:39,000 asteroids are rocky and mainly stay 646 00:33:39,000 --> 00:33:41,853 in a belt between Mars and Jupiter. 647 00:33:43,170 --> 00:33:46,110 Because of their relative proximity to the Sun, 648 00:33:46,110 --> 00:33:49,170 they usually do not consist of ice. 649 00:33:49,170 --> 00:33:53,460 Nevertheless, the analysis in the lab shows Thorsten Kleine 650 00:33:53,460 --> 00:33:56,490 that they do carry a precious cargo. 651 00:33:56,490 --> 00:33:59,340 If you look into this, we can find hydrogen and oxygen, 652 00:33:59,340 --> 00:34:02,430 the building blocks of water, bound into minerals. 653 00:34:02,430 --> 00:34:05,610 But most importantly, we can also find the signature is the 654 00:34:05,610 --> 00:34:08,820 same as it is for water from the Earth. 655 00:34:08,820 --> 00:34:09,990 That means that the water 656 00:34:09,990 --> 00:34:12,603 on our planet might have come from asteroids. 657 00:34:13,590 --> 00:34:15,540 Further research also revealed 658 00:34:15,540 --> 00:34:19,200 that mineral-bound-water-containing asteroids initially came 659 00:34:19,200 --> 00:34:21,870 together to form our planet. 660 00:34:21,870 --> 00:34:23,940 This means water could have been on Earth 661 00:34:23,940 --> 00:34:27,453 from the beginning, albeit not in liquid form. 662 00:34:31,080 --> 00:34:33,660 But how did the mineral-bound water transform 663 00:34:33,660 --> 00:34:35,640 the hellish early Earth into something 664 00:34:35,640 --> 00:34:37,323 that could host life one day? 665 00:34:38,250 --> 00:34:39,810 Over millions of years, 666 00:34:39,810 --> 00:34:43,113 the hot molten planet cooled enough to form a crust. 667 00:34:44,070 --> 00:34:47,370 The heat below the surface released, amongst others, 668 00:34:47,370 --> 00:34:51,003 oxygen and hydrogen that was bound in the minerals. 669 00:34:51,960 --> 00:34:55,080 The out gassing formed an atmosphere. 670 00:34:55,080 --> 00:34:57,420 Water vapor condensed and fell 671 00:34:57,420 --> 00:34:59,643 onto the rocky planet as rain. 672 00:35:00,600 --> 00:35:02,940 It rained for millions of years, 673 00:35:02,940 --> 00:35:05,493 long enough to create the first oceans. 674 00:35:07,290 --> 00:35:10,440 The world that had once been a ball of fire 675 00:35:10,440 --> 00:35:13,143 had become a world of water. 676 00:35:14,910 --> 00:35:17,940 200 million years after its formation, 677 00:35:17,940 --> 00:35:20,970 Earth is covered with liquid water. 678 00:35:20,970 --> 00:35:24,540 But despite this, there is no life yet 679 00:35:24,540 --> 00:35:28,980 because our planet is still a hostile place. 680 00:35:28,980 --> 00:35:31,443 One reason for this is our Moon. 681 00:35:32,400 --> 00:35:34,800 The impact of Theia has caused Earth 682 00:35:34,800 --> 00:35:39,063 to become bound to a new moon, and this is causing havoc. 683 00:35:39,900 --> 00:35:43,860 Over 4 billion years ago, the Moon was very different 684 00:35:43,860 --> 00:35:45,213 to what it is today. 685 00:35:46,380 --> 00:35:49,500 Just after the Moon formed, it was much closer 686 00:35:49,500 --> 00:35:51,510 to the Earth than the Moon is today. 687 00:35:51,510 --> 00:35:53,340 More than 10 times closer. 688 00:35:53,340 --> 00:35:56,430 So it would've appeared very large in the sky, 689 00:35:56,430 --> 00:35:59,610 and not only that, but it would still be incredibly hot 690 00:35:59,610 --> 00:36:02,460 from the violent impact that formed it, 691 00:36:02,460 --> 00:36:04,440 and so it would be glowing. 692 00:36:04,440 --> 00:36:06,790 You'd be able to see it even during the daytime 693 00:36:08,284 --> 00:36:09,930 With an object this large 694 00:36:09,930 --> 00:36:11,520 and this close to Earth, 695 00:36:11,520 --> 00:36:14,283 cataclysmic effects shook our planet. 696 00:36:15,480 --> 00:36:18,030 The most important force that governs the motion 697 00:36:18,030 --> 00:36:20,580 of the Earth and Moon is gravity. 698 00:36:20,580 --> 00:36:22,740 The Earth is exerting a gravitational pull 699 00:36:22,740 --> 00:36:24,543 on the Moon and vice versa. 700 00:36:25,500 --> 00:36:27,420 Similarly, when you're on a carousel 701 00:36:27,420 --> 00:36:30,330 and you're moving quickly around the center, 702 00:36:30,330 --> 00:36:33,750 there's a centrifugal force that is pushing you outwards 703 00:36:33,750 --> 00:36:35,340 and that's the exact same force 704 00:36:35,340 --> 00:36:38,623 that would be at play with the Earth and the Moon. 705 00:36:38,623 --> 00:36:42,070 The moon tore at our young planet's surface. 706 00:36:44,460 --> 00:36:48,120 This was a very dramatic environment for the early Earth. 707 00:36:48,120 --> 00:36:52,380 The Moon's tidal forces were driving enormous waves 708 00:36:52,380 --> 00:36:55,290 in Earth's ocean, so every wave crashing on the shore 709 00:36:55,290 --> 00:36:57,390 would've been like a tsunami at that time. 710 00:36:58,770 --> 00:37:00,690 The world of water was shaken 711 00:37:00,690 --> 00:37:03,603 by the enormous force the Moon exerted. 712 00:37:04,470 --> 00:37:06,240 The Earth, during its early lifetime, 713 00:37:06,240 --> 00:37:08,850 experienced some very tumultuous years. 714 00:37:08,850 --> 00:37:10,950 So you can think of the Earth kind of 715 00:37:10,950 --> 00:37:13,293 as a teenager early on in its life. 716 00:37:14,250 --> 00:37:15,690 Not only the proximity 717 00:37:15,690 --> 00:37:18,720 to the Moon was causing havoc at this time, 718 00:37:18,720 --> 00:37:22,770 Earth itself was also spinning up to six times faster 719 00:37:22,770 --> 00:37:25,590 around its axis than it is today. 720 00:37:25,590 --> 00:37:27,990 It was a wild planet. 721 00:37:27,990 --> 00:37:29,520 Just after the Moon was formed, 722 00:37:29,520 --> 00:37:32,250 the Earth was spinning very, very fast. 723 00:37:32,250 --> 00:37:35,970 The length of the day was only about four hours. 724 00:37:35,970 --> 00:37:36,870 Earth was far 725 00:37:36,870 --> 00:37:39,720 from the hospitable world we have today, 726 00:37:39,720 --> 00:37:42,360 but this was about to change. 727 00:37:42,360 --> 00:37:45,900 The Moon, the very thing that was causing so much stress, 728 00:37:45,900 --> 00:37:50,190 was also about to help Earth take a vital step towards life. 729 00:37:50,190 --> 00:37:51,990 The Moon was tugging on the Earth 730 00:37:51,990 --> 00:37:54,780 so strongly it actually caused 731 00:37:54,780 --> 00:37:58,590 something called tidal friction, which caused energy 732 00:37:58,590 --> 00:38:01,533 to be lost from the early Earth-Moon system. 733 00:38:02,700 --> 00:38:03,630 Due to the fact 734 00:38:03,630 --> 00:38:05,850 that the Moon tugs at our planet, 735 00:38:05,850 --> 00:38:08,400 the tides were created. 736 00:38:08,400 --> 00:38:12,120 Huge waves bulge out and exert a gravitational pull 737 00:38:12,120 --> 00:38:14,340 on their own on the Moon. 738 00:38:14,340 --> 00:38:16,560 Because it takes time for all that water 739 00:38:16,560 --> 00:38:18,330 to shift and pile up, 740 00:38:18,330 --> 00:38:20,910 the bulging oceans don't exactly match up 741 00:38:20,910 --> 00:38:22,830 with the position of the Moon. 742 00:38:22,830 --> 00:38:25,470 They are always a little out of sync. 743 00:38:25,470 --> 00:38:29,910 This creates friction that slows Earth's own rotation, 744 00:38:29,910 --> 00:38:32,130 albeit very slowly. 745 00:38:32,130 --> 00:38:37,130 Every 50,000 years, the days become one second longer. 746 00:38:37,620 --> 00:38:39,600 This also creates forces 747 00:38:39,600 --> 00:38:42,150 that change the Moon's orbital speed, 748 00:38:42,150 --> 00:38:45,453 causing it to slowly fall away into space. 749 00:38:47,910 --> 00:38:51,030 Today, the Moon is still moving away from the Earth, 750 00:38:51,030 --> 00:38:54,330 little bit by little bit, about four centimeters per year. 751 00:38:54,330 --> 00:38:56,430 As the Moon moves away, 752 00:38:56,430 --> 00:38:58,590 the gravitational pull is a little bit less 753 00:38:58,590 --> 00:39:00,240 and that allows the Earth's rotation 754 00:39:00,240 --> 00:39:03,000 to slow down just a tiny bit. 755 00:39:03,000 --> 00:39:06,930 As this happens, the moon will slowly move away. 756 00:39:06,930 --> 00:39:09,453 The amount of friction decreases, 757 00:39:10,560 --> 00:39:14,340 leaving the Earth in a much more placid and calm place 758 00:39:14,340 --> 00:39:15,815 for the origin of life. 759 00:39:15,815 --> 00:39:16,950 (awe-inspiring music) 760 00:39:16,950 --> 00:39:18,237 As time passed 761 00:39:18,237 --> 00:39:20,700 and the Moon continued to move away, 762 00:39:20,700 --> 00:39:23,580 our days gradually got longer 763 00:39:23,580 --> 00:39:27,630 and Earth's rotation got slower and slower. 764 00:39:27,630 --> 00:39:31,860 The new Moon finally brought stability to our planet, 765 00:39:31,860 --> 00:39:35,433 setting the stage for life to begin. 766 00:39:39,660 --> 00:39:43,170 At the Ludwig Maximilian University in Munich, Germany, 767 00:39:43,170 --> 00:39:44,850 scientists want to find out 768 00:39:44,850 --> 00:39:47,733 how life might have evolved on early Earth. 769 00:39:48,870 --> 00:39:53,013 For Professor Oliver Trapp, chemistry is the key to life. 770 00:39:54,960 --> 00:39:57,090 You can create new molecules, 771 00:39:57,090 --> 00:40:00,150 you can create new functionality, 772 00:40:00,150 --> 00:40:03,270 and you can make absolute new matter, 773 00:40:03,270 --> 00:40:05,370 which didn't exist before. 774 00:40:05,370 --> 00:40:09,690 And this was already fascinating me as a child. 775 00:40:09,690 --> 00:40:10,830 In his laboratory, 776 00:40:10,830 --> 00:40:12,990 Professor Trapp wants to understand 777 00:40:12,990 --> 00:40:17,400 how life formed over 4.3 billion years ago. 778 00:40:17,400 --> 00:40:19,740 My goal of this research is 779 00:40:19,740 --> 00:40:24,740 that we discover a mechanism which led to evolution. 780 00:40:25,890 --> 00:40:29,103 Oliver Trapp wants to form life in a test tube. 781 00:40:30,210 --> 00:40:33,300 We try to simulate the processes 782 00:40:33,300 --> 00:40:35,970 which took place on the early Earth. 783 00:40:35,970 --> 00:40:37,470 Trapp's work is based 784 00:40:37,470 --> 00:40:39,810 on a groundbreaking experiment. 785 00:40:39,810 --> 00:40:43,530 In 1953, biologist and chemist, Stanley Miller, 786 00:40:43,530 --> 00:40:45,510 and his mentor, Harold Urey, 787 00:40:45,510 --> 00:40:48,660 built a setup that tries to show that life emerged 788 00:40:48,660 --> 00:40:50,880 from a primordial soup. 789 00:40:50,880 --> 00:40:54,155 They injected ammonia, methane, and water vapor 790 00:40:54,155 --> 00:40:57,930 into an enclosed glass container to simulate 791 00:40:57,930 --> 00:41:00,540 what were then believed to be the conditions 792 00:41:00,540 --> 00:41:03,000 of Earth's early atmosphere. 793 00:41:03,000 --> 00:41:08,000 Finally, Miller and Urey also replicated lightning strikes. 794 00:41:08,340 --> 00:41:13,140 They induced a reaction by making sparks, 795 00:41:13,140 --> 00:41:17,250 and the amazing outcome was that they observed the formation 796 00:41:17,250 --> 00:41:18,900 of amino acids. 797 00:41:18,900 --> 00:41:20,970 Amino acids are the molecules 798 00:41:20,970 --> 00:41:23,130 that combine to form proteins 799 00:41:23,130 --> 00:41:26,250 and are the building blocks of life on Earth. 800 00:41:26,250 --> 00:41:28,590 The experiment laid the foundation 801 00:41:28,590 --> 00:41:31,560 to further research on the origin of life, 802 00:41:31,560 --> 00:41:34,320 but Miller and Urey made one mistake. 803 00:41:34,320 --> 00:41:36,210 What they didn't know at this time 804 00:41:36,210 --> 00:41:38,460 was the composition of the atmosphere. 805 00:41:38,460 --> 00:41:43,460 They assumed that we had an atmosphere with methane gas, 806 00:41:43,740 --> 00:41:46,773 and it turned out in the 90s that this was wrong. 807 00:41:47,940 --> 00:41:49,410 Professor Trapp now wants 808 00:41:49,410 --> 00:41:51,210 to repeat this experiment, 809 00:41:51,210 --> 00:41:55,050 but this time he's incorporating the latest understanding 810 00:41:55,050 --> 00:41:58,440 of the composition of ancient planet Earth. 811 00:41:58,440 --> 00:42:01,920 The starting ingredients is the inorganic matter 812 00:42:01,920 --> 00:42:04,143 that was available on early Earth. 813 00:42:06,630 --> 00:42:07,950 So we are starting really 814 00:42:07,950 --> 00:42:09,960 from very, very simple molecules. 815 00:42:09,960 --> 00:42:13,740 We had carbon dioxide in the atmosphere. 816 00:42:13,740 --> 00:42:18,740 We had water also as vapor, as steam in the air, 817 00:42:19,170 --> 00:42:21,003 and, of course, nitrogen. 818 00:42:21,930 --> 00:42:24,120 But Oliver Trapp also adds 819 00:42:24,120 --> 00:42:26,580 a dissolved meteorite to the mix 820 00:42:26,580 --> 00:42:28,470 to duplicate the bombardments 821 00:42:28,470 --> 00:42:31,080 that took place on early Earth. 822 00:42:31,080 --> 00:42:35,670 By this, he creates simple organic molecules. 823 00:42:35,670 --> 00:42:39,300 Now, Professor Trapp puts this primordial soup 824 00:42:39,300 --> 00:42:41,850 into a container, together with water, 825 00:42:41,850 --> 00:42:44,760 which is heated to induce evaporation, 826 00:42:44,760 --> 00:42:46,710 replicating the water cycle 827 00:42:46,710 --> 00:42:50,100 as it may have been 4 billion years ago. 828 00:42:50,100 --> 00:42:54,480 Then comes the final important step of the experiment. 829 00:42:54,480 --> 00:42:55,920 This is a Tesla coil. 830 00:42:55,920 --> 00:43:00,600 It generates sparks and this simulates day and night cycles, 831 00:43:00,600 --> 00:43:03,420 which is very important to have the energy 832 00:43:03,420 --> 00:43:06,510 from the Sun in our reaction setup. 833 00:43:06,510 --> 00:43:11,215 And I expect that this will trigger new reactions 834 00:43:11,215 --> 00:43:13,983 and provide new material. 835 00:43:15,480 --> 00:43:18,330 1 million volts ionize the air 836 00:43:18,330 --> 00:43:19,743 and generate lightning. 837 00:43:21,120 --> 00:43:22,920 Each flash replicates a day 838 00:43:22,920 --> 00:43:26,583 on which the Sun supplies our young planet with energy. 839 00:43:27,750 --> 00:43:32,643 By doing so, Professor Trapp simulates years of evolution. 840 00:43:34,470 --> 00:43:36,600 This actually doesn't look like much. 841 00:43:36,600 --> 00:43:38,190 It looks like water. 842 00:43:38,190 --> 00:43:40,890 But if the experiment worked, 843 00:43:40,890 --> 00:43:43,740 we will have the first building blocks of life. 844 00:43:43,740 --> 00:43:45,960 The molecules are much too small 845 00:43:45,960 --> 00:43:47,940 for the eye to see. 846 00:43:47,940 --> 00:43:51,870 Using a gas chromatograph, Professor Trapp can find out 847 00:43:51,870 --> 00:43:55,110 what has formed in his primordial soup. 848 00:43:55,110 --> 00:43:58,620 This is adenosine, cytosine, and guanosine, 849 00:43:58,620 --> 00:44:01,710 and these are the DNA building blocks. 850 00:44:01,710 --> 00:44:04,080 So far, we have not formed life, 851 00:44:04,080 --> 00:44:08,070 but I'm pretty sure that with this we can continue, 852 00:44:08,070 --> 00:44:10,950 and we will see the formation of life 853 00:44:10,950 --> 00:44:14,703 in a test tube starting from inorganic material. 854 00:44:15,927 --> 00:44:17,400 It is these compounds 855 00:44:17,400 --> 00:44:19,980 which would eventually kickstart the evolution 856 00:44:19,980 --> 00:44:21,543 of life on Earth. 857 00:44:22,410 --> 00:44:24,270 Over millions of years, 858 00:44:24,270 --> 00:44:26,640 these building blocks would replicate 859 00:44:26,640 --> 00:44:29,100 and assemble into cell membranes 860 00:44:29,100 --> 00:44:33,003 until eventually a single-celled organism emerged. 861 00:44:34,080 --> 00:44:38,160 This organism, which lived around 4 billion years ago, 862 00:44:38,160 --> 00:44:40,770 would become known as LUCA, 863 00:44:40,770 --> 00:44:44,070 our last universal common ancestor. 864 00:44:44,070 --> 00:44:46,917 But where on Earth did life begin? 865 00:44:46,917 --> 00:44:50,310 (dramatic music) 866 00:44:50,310 --> 00:44:55,260 One possibility is the deep sea around hydrothermal vents. 867 00:44:55,260 --> 00:44:57,900 Chimneys formed where seawater comes 868 00:44:57,900 --> 00:45:01,140 into contact with magma on the ocean floor, 869 00:45:01,140 --> 00:45:05,100 resulting in streams of super-heated plumes. 870 00:45:05,100 --> 00:45:07,170 But life may as well have formed 871 00:45:07,170 --> 00:45:11,160 in scalding, highly acidic hot springs environments, 872 00:45:11,160 --> 00:45:14,763 like those found today in the Yellowstone National Park. 873 00:45:16,020 --> 00:45:18,750 Eventually, the organism's ancestors 874 00:45:18,750 --> 00:45:21,453 will make the first step outside of water. 875 00:45:22,380 --> 00:45:26,313 How and why this happened is only just being revealed, 876 00:45:27,360 --> 00:45:29,730 but what is clear already is 877 00:45:29,730 --> 00:45:34,380 that our hostile Earth plays the central role 878 00:45:34,380 --> 00:45:36,573 in the evolution of life. 879 00:45:41,790 --> 00:45:44,010 One of the best places to understand 880 00:45:44,010 --> 00:45:47,880 just how hostile our early planet was can be found 881 00:45:47,880 --> 00:45:50,430 right here on Earth today. 882 00:45:50,430 --> 00:45:53,943 The Atacama is one of the driest deserts in the world. 883 00:45:54,930 --> 00:45:57,630 Here, a team of German biologists try 884 00:45:57,630 --> 00:46:01,260 to trace the ways in which early life evolved. 885 00:46:01,260 --> 00:46:04,050 And they want to find out how life was able 886 00:46:04,050 --> 00:46:06,796 to gain a foothold outside of water. 887 00:46:06,796 --> 00:46:08,875 Hi, Michael. Hi, Luis. 888 00:46:08,875 --> 00:46:10,407 Nice to meet you. Nice to meet you. 889 00:46:10,407 --> 00:46:11,421 Hi, I'm Patrick. 890 00:46:11,421 --> 00:46:12,600 Nice to meet you. Hi, Luis. 891 00:46:12,600 --> 00:46:14,700 Nice to meet you. Hello. 892 00:46:14,700 --> 00:46:17,460 The Pan de Azucar National Park is part 893 00:46:17,460 --> 00:46:19,650 of the Atacama Desert. 894 00:46:19,650 --> 00:46:21,330 Within the park, there is supposed 895 00:46:21,330 --> 00:46:25,440 to be an area which is particularly hostile to life, 896 00:46:25,440 --> 00:46:27,963 a place that is closed to the public. 897 00:46:30,810 --> 00:46:34,080 The deeper Patrick Jung and Michael Lakatos venture 898 00:46:34,080 --> 00:46:35,250 into the desert, 899 00:46:35,250 --> 00:46:38,490 the more barren the landscape becomes. 900 00:46:38,490 --> 00:46:42,990 Here, it is so dry that seemingly nothing grows anymore. 901 00:46:42,990 --> 00:46:45,453 The perfect place to search for life. 902 00:46:46,500 --> 00:46:47,880 On the desert floor, 903 00:46:47,880 --> 00:46:51,603 a dark crust is the only unusual thing they discover. 904 00:46:55,140 --> 00:46:57,233 Can you imagine what that might be? 905 00:46:58,620 --> 00:47:00,240 It's mineral. 906 00:47:00,240 --> 00:47:01,830 Do you really think so? 907 00:47:01,830 --> 00:47:04,430 Yes. Those are black pebbles here. 908 00:47:05,310 --> 00:47:06,600 Closer analysis 909 00:47:06,600 --> 00:47:10,200 of the desert floor amazes the scientists. 910 00:47:10,200 --> 00:47:13,320 Tiny dark cracks run through the pebbles. 911 00:47:13,320 --> 00:47:14,460 For the experts, 912 00:47:14,460 --> 00:47:18,333 this is a possible sign of biological activity. 913 00:47:21,150 --> 00:47:21,983 I have another idea. 914 00:47:21,983 --> 00:47:23,260 You got that water bottle? 915 00:47:26,250 --> 00:47:27,360 The scientists know 916 00:47:27,360 --> 00:47:30,930 that this rock does not absorb water. 917 00:47:30,930 --> 00:47:33,960 If it does, this would be a clear sign 918 00:47:33,960 --> 00:47:36,453 that it has been penetrated by an organism. 919 00:47:39,990 --> 00:47:41,490 You see how it changes? 920 00:47:41,490 --> 00:47:42,960 Oh, yeah. 921 00:47:42,960 --> 00:47:44,783 Now let's give it a moment. 922 00:47:46,560 --> 00:47:48,030 I'm going to look through there again, 923 00:47:48,030 --> 00:47:50,223 but I think I can see it turning green. 924 00:47:52,740 --> 00:47:54,090 A change in color 925 00:47:54,090 --> 00:47:56,100 would also indicate the presence 926 00:47:56,100 --> 00:47:57,993 of an organism in the stone. 927 00:47:59,340 --> 00:48:00,270 We just found out 928 00:48:00,270 --> 00:48:01,950 that these are microorganisms 929 00:48:01,950 --> 00:48:04,290 that are sitting on these little pebbles, 930 00:48:04,290 --> 00:48:06,120 and now we have to take our instruments 931 00:48:06,120 --> 00:48:08,220 to find out what they are doing here, 932 00:48:08,220 --> 00:48:09,480 how they can survive, 933 00:48:09,480 --> 00:48:11,793 and what kind of microorganisms they are. 934 00:48:15,390 --> 00:48:16,440 The scientists want 935 00:48:16,440 --> 00:48:21,150 to find out whether these microorganisms are actually alive. 936 00:48:21,150 --> 00:48:24,060 For this, they are using a measuring device 937 00:48:24,060 --> 00:48:27,633 that is capable of detecting photosynthetic activity. 938 00:48:28,590 --> 00:48:31,530 First, they measure the dry rock. 939 00:48:31,530 --> 00:48:35,193 The red color of the display means no activity. 940 00:48:38,010 --> 00:48:39,030 So hold on. 941 00:48:39,030 --> 00:48:40,503 I sprinkle it with water now. 942 00:48:44,580 --> 00:48:46,080 You can start the measurement. 943 00:48:49,410 --> 00:48:50,880 That's amazing. 944 00:48:50,880 --> 00:48:53,040 It's alive. 945 00:48:53,040 --> 00:48:55,110 We found out that there's a color change 946 00:48:55,110 --> 00:48:56,880 of the photosynthetic signal. 947 00:48:56,880 --> 00:48:59,520 That is, it flips from red to green and blue, 948 00:48:59,520 --> 00:49:03,060 and that shows us we actually have photosynthetic activity 949 00:49:03,060 --> 00:49:04,563 here, and therefore life. 950 00:49:07,290 --> 00:49:09,000 With a field microscope, 951 00:49:09,000 --> 00:49:10,290 the scientists now want 952 00:49:10,290 --> 00:49:13,320 to find out which organisms have been able 953 00:49:13,320 --> 00:49:16,383 to survive in this hostile environment. 954 00:49:19,740 --> 00:49:20,573 Michael, come here 955 00:49:20,573 --> 00:49:23,430 and take a look at this. 956 00:49:23,430 --> 00:49:26,823 When I adjust the focus, you can see that there is a lichen. 957 00:49:28,590 --> 00:49:31,110 So you can see the fungal structures, 958 00:49:31,110 --> 00:49:33,240 and here the green algae. 959 00:49:33,240 --> 00:49:35,133 And also here. It's everywhere. 960 00:49:36,600 --> 00:49:38,663 That's really beautiful. 961 00:49:39,690 --> 00:49:42,480 Lichens are symbiotic microorganisms 962 00:49:42,480 --> 00:49:46,290 that exist on Earth for about 400 million years. 963 00:49:46,290 --> 00:49:49,653 In this case, they consist of an algae and a fungus. 964 00:49:50,880 --> 00:49:53,790 The algae is photosynthetically active, 965 00:49:53,790 --> 00:49:56,730 so it converts light, CO2 from the air, 966 00:49:56,730 --> 00:49:58,710 and water into sugars, 967 00:49:58,710 --> 00:50:02,040 and these sugars can be taken up by the fungus partner. 968 00:50:02,040 --> 00:50:02,913 It feeds on them. 969 00:50:03,750 --> 00:50:07,020 And in return, the fungus partner positions the algae 970 00:50:07,020 --> 00:50:09,060 in the lichen in an optimal position 971 00:50:09,060 --> 00:50:10,980 in the organism that is formed 972 00:50:10,980 --> 00:50:14,760 so that the algae can optimally photosynthesize. 973 00:50:14,760 --> 00:50:16,590 Only through this symbiosis can 974 00:50:16,590 --> 00:50:19,520 these individual partners survive here together 975 00:50:19,520 --> 00:50:21,063 in the Atacama Desert. 976 00:50:23,820 --> 00:50:25,830 But from where does the organism 977 00:50:25,830 --> 00:50:28,263 in this area get the vital water? 978 00:50:30,180 --> 00:50:31,710 We are in one of the driest 979 00:50:31,710 --> 00:50:33,600 and oldest deserts on earth, 980 00:50:33,600 --> 00:50:36,120 but still we are only about 12 kilometers 981 00:50:36,120 --> 00:50:38,580 from the coast that is over here. 982 00:50:38,580 --> 00:50:41,940 Water vapor rises there, condenses out as fog, 983 00:50:41,940 --> 00:50:44,940 and then moves very flat across the landscape. 984 00:50:44,940 --> 00:50:47,280 That's a super small amount of water input, 985 00:50:47,280 --> 00:50:50,163 but that amount is enough to make life possible here. 986 00:50:52,830 --> 00:50:53,760 With a drone, 987 00:50:53,760 --> 00:50:56,070 the scientists now want to get an overview 988 00:50:56,070 --> 00:50:58,473 of the distribution of these organisms. 989 00:51:00,990 --> 00:51:03,480 Yeah. Go up a little bit more. 990 00:51:03,480 --> 00:51:04,800 Right. 991 00:51:04,800 --> 00:51:07,500 Now if you go to the left another bit. 992 00:51:07,500 --> 00:51:09,510 Gradually, the full extent 993 00:51:09,510 --> 00:51:11,583 of the growth is revealed. 994 00:51:12,660 --> 00:51:15,410 Look at this. It's really everywhere. 995 00:51:17,790 --> 00:51:20,700 Patrick Jung and Michael Lakatos suspect 996 00:51:20,700 --> 00:51:23,790 that the lichens here form a superorganism, 997 00:51:23,790 --> 00:51:27,120 comparable to a coral reef that covers large parts 998 00:51:27,120 --> 00:51:29,433 of the hostile Atacama Desert. 999 00:51:31,560 --> 00:51:33,450 The microorganisms that we found here 1000 00:51:33,450 --> 00:51:35,940 are adapted to extreme locations. 1001 00:51:35,940 --> 00:51:36,960 By working together, 1002 00:51:36,960 --> 00:51:39,780 they have made this leap into the landscape, 1003 00:51:39,780 --> 00:51:41,910 and that's a comparable situation 1004 00:51:41,910 --> 00:51:44,583 to what we find in the early history of the Earth. 1005 00:51:45,480 --> 00:51:47,343 Through these abilities out of the cooperation 1006 00:51:47,343 --> 00:51:50,490 and symbiosis of adapted microorganisms, 1007 00:51:50,490 --> 00:51:54,033 life that originated in water might have leaped on land. 1008 00:51:56,160 --> 00:51:59,100 After almost 4 billion years, 1009 00:51:59,100 --> 00:52:04,050 life has developed innumerable characteristics and forms. 1010 00:52:04,050 --> 00:52:05,820 In the course of evolution, 1011 00:52:05,820 --> 00:52:09,870 highly complex living beings have developed. 1012 00:52:09,870 --> 00:52:13,770 But the road to the diversity we have today is a long 1013 00:52:13,770 --> 00:52:18,770 and rocky one that puts life to the test again and again. 1014 00:52:21,270 --> 00:52:24,030 However, one thing is for sure. 1015 00:52:24,030 --> 00:52:25,410 Without catastrophes, 1016 00:52:25,410 --> 00:52:28,320 like the apocalyptic collision with Theia, 1017 00:52:28,320 --> 00:52:31,980 life on Earth as we know it today 1018 00:52:31,980 --> 00:52:33,231 would not exist. 1019 00:52:33,231 --> 00:52:36,398 (awe-inspiring music) 1020 00:52:39,985 --> 00:52:42,735 (dramatic music) 1021 00:53:09,081 --> 00:53:12,664 (dramatic music continues) 79355