Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:11,794 --> 00:00:16,409 I'm here in Patagonia in the southern part of South America because, 2 00:00:16,473 --> 00:00:21,656 a few years ago, a man looking for one of his lost sheep found 3 00:00:21,720 --> 00:00:25,675 a simply gigantic bone sticking out of a rock - 4 00:00:26,007 --> 00:00:29,330 a bone that was going to astonish science. 5 00:00:30,913 --> 00:00:35,230 That first bone led to the discovery of over 200 others. 6 00:00:39,743 --> 00:00:45,579 They were all huge - so big that they could only have come from a dinosaur. 7 00:00:45,728 --> 00:00:49,151 And what a dinosaur it would turn out to be! 8 00:00:50,940 --> 00:00:54,151 One that seems to defy the laws of nature. 9 00:00:56,122 --> 00:01:00,036 These bones are part of a skeleton that has remained hidden 10 00:01:00,100 --> 00:01:04,359 and marvellously preserved for 100 million years. 11 00:01:07,753 --> 00:01:11,401 An international team of scientists assembled to try 12 00:01:11,465 --> 00:01:14,608 and work out what sort of dinosaur it belonged to. 13 00:01:16,771 --> 00:01:19,430 It's like a palaeontological crime scene! 14 00:01:20,527 --> 00:01:24,086 Each bone is an important piece of evidence that can give us 15 00:01:24,150 --> 00:01:27,762 information as to what the living creature was actually like. 16 00:01:28,364 --> 00:01:31,270 We'll use the latest forensic technology, 17 00:01:32,173 --> 00:01:35,266 we'll compare it with how giant animals live today 18 00:01:36,550 --> 00:01:41,282 and we'll build a full-size skeleton of this stupendous creature. 19 00:01:43,914 --> 00:01:49,867 And we will try and work out in detail what it looked like when it was alive. 20 00:01:55,519 --> 00:01:58,614 Absolutely amazing! 21 00:01:58,926 --> 00:02:03,707 Could it really have been the biggest animal ever to walk the earth? 22 00:02:06,134 --> 00:02:14,097 ATTENBOROUGH AND THE GIANT DINOSAUR 23 00:02:22,851 --> 00:02:25,933 Patagonia in southern Argentina. 24 00:02:29,378 --> 00:02:34,274 Like many detective stories, this one began by chance. 25 00:02:36,183 --> 00:02:41,315 A shepherd stumbled across the tip of a huge bone poking out of the ground. 26 00:02:49,218 --> 00:02:53,172 Experts from Patagonia's premier palaeontological museum 27 00:02:53,457 --> 00:02:56,097 confirmed it was part of a dinosaur. 28 00:03:01,916 --> 00:03:07,242 But they didn't realise at the time what a truly extraordinary one it would prove to be. 29 00:03:12,987 --> 00:03:18,570 Dinosaurs of many kinds roamed all over these lands in the southern end of South America 30 00:03:18,728 --> 00:03:21,582 during what's known as the Cretaceous period, 31 00:03:22,208 --> 00:03:26,209 between 66 and 145 million years ago. 32 00:03:27,857 --> 00:03:31,672 The largest were plant-eaters known as sauropods. 33 00:03:31,881 --> 00:03:37,083 And the largest of them were the titanosaurs. 34 00:03:38,381 --> 00:03:41,784 Giant titanosaur bones are comparatively rare 35 00:03:41,943 --> 00:03:45,394 so very little is known about these dinosaurs. 36 00:03:49,274 --> 00:03:52,641 This new discovery could change all that. 37 00:03:58,320 --> 00:04:03,054 Like many people, young and old, I'm fascinated by dinosaurs, 38 00:04:03,948 --> 00:04:09,460 so the chance to join this investigation is just too good an opportunity to miss. 39 00:04:10,144 --> 00:04:14,566 Oh, I'd love to have a go! - I'm sure they'd let you. 40 00:04:16,190 --> 00:04:20,658 Of course, it's the giants in particular that capture the imagination. 41 00:04:23,227 --> 00:04:27,309 The first sauropods to appear on earth were comparatively small creatures. 42 00:04:27,723 --> 00:04:31,413 This is the cast of the thigh bone of one of them. 43 00:04:31,679 --> 00:04:35,115 It's not even as big as my thigh bone. 44 00:04:35,366 --> 00:04:41,607 But after about 20 million years, some had become pretty big. 45 00:04:41,974 --> 00:04:45,638 This is a thigh bone from one of those creatures. 46 00:04:46,086 --> 00:04:48,626 But then, after that... 47 00:04:49,373 --> 00:04:54,573 our giant appeared. This is its thigh bone. 48 00:04:55,652 --> 00:04:58,242 It's the largest ever found. 49 00:05:06,979 --> 00:05:11,055 Coming across such a bone in your back yard must be quite a shock. 50 00:05:11,435 --> 00:05:14,833 Just ask farm owner Alba Maio. 51 00:05:19,303 --> 00:05:23,018 I don't have many sheep but I do have dinosaur 52 00:05:25,241 --> 00:05:28,610 We're surprised and shocked. 53 00:05:28,674 --> 00:05:33,826 Apparently it's a unique specimen of its size. 54 00:05:38,677 --> 00:05:44,289 Before long, a whole team of fossil-hunting scientists arrives and starts work. 55 00:05:46,000 --> 00:05:52,074 Advertise your product or brand here contact www.SubtitleDB.org today 56 00:05:56,159 --> 00:06:01,047 The thighbone proves to be eight feet, 2,4 metres long. 57 00:06:08,681 --> 00:06:13,024 It's preserved in extraordinary detail, and detail will be 58 00:06:13,124 --> 00:06:16,572 critical to the forensic examination that will follow. 59 00:06:27,839 --> 00:06:32,033 The research team soon turn the site into a vast quarry. 60 00:06:41,276 --> 00:06:45,269 It proves to be one of the biggest dinosaur finds of the century. 61 00:06:48,517 --> 00:06:51,448 Bone after bone emerge from the rocks. 62 00:06:57,351 --> 00:07:01,581 We just found another bone right here. We weren't expecting it at all. 63 00:07:01,903 --> 00:07:04,443 We just start digging and find it. 64 00:07:06,608 --> 00:07:12,411 Until recently, giant titanosaurs have only been known from a dozen bones 65 00:07:12,827 --> 00:07:16,908 and our team have already found more than ten times as many. 66 00:07:23,140 --> 00:07:28,312 Dr Diego Pol is the chief palaeontologist leading the investigation. 67 00:07:28,646 --> 00:07:35,217 If you really want to know what a really gigantic dinosaur looked like, this quarry here 68 00:07:35,562 --> 00:07:39,651 has the potential to answer that question and that's really exciting for us. 69 00:07:41,048 --> 00:07:46,742 It's really impressive. When you stand by one of these bones, you really feel tiny. 70 00:07:48,379 --> 00:07:52,138 With so much new evidence, there is a chance of discovering 71 00:07:52,202 --> 00:07:56,777 all kinds of new facts about the mysterious titanosaurs. 72 00:07:59,563 --> 00:08:02,169 It's like a palaeontological crime scene. 73 00:08:02,234 --> 00:08:07,257 It's a really unique thing that you will not find anywhere else in the world. 74 00:08:11,106 --> 00:08:15,139 Patagonia's harsh weather makes uncovering the fossils exhausting, 75 00:08:15,512 --> 00:08:19,194 but it also endangers the newly-exposed fossils. 76 00:08:23,728 --> 00:08:28,936 A lot of damage from the rain so we need to protect the bones that are at risk. 77 00:08:29,000 --> 00:08:33,228 I'm really concerned that this already has some cracks. 78 00:08:34,693 --> 00:08:39,761 If the bones aren't protected, tiny details on their surface could be lost. 79 00:08:45,657 --> 00:08:48,821 To protect the bones, they're covered with, of all things, 80 00:08:48,885 --> 00:08:51,742 wet toilet paper and plaster of Paris. 81 00:08:53,070 --> 00:08:56,265 It's like putting a plaster cast on a broken leg. 82 00:09:00,325 --> 00:09:05,447 There's a rush to get them back to the museum to begin examining them in minute detail. 83 00:09:11,639 --> 00:09:14,826 A new road has been specially built to enable them 84 00:09:14,928 --> 00:09:18,102 to be transported without too much jolting. 85 00:09:22,416 --> 00:09:26,869 Once at the museum laboratory, the detailed detective work begins. 86 00:09:35,090 --> 00:09:38,895 It's a chance to start putting flesh on bones. 87 00:09:38,982 --> 00:09:42,390 Some really big muscle was going in here. 88 00:09:42,454 --> 00:09:46,413 This animal was so big that it certainly needed 89 00:09:46,518 --> 00:09:51,931 really powerful muscles and very strong attachments into the bones. 90 00:10:02,193 --> 00:10:08,335 This is a giant vertebra, one of the bones of the spine, and it's a very important find. 91 00:10:09,003 --> 00:10:12,008 That's because it's likely to provide crucial evidence 92 00:10:12,072 --> 00:10:15,499 for identifying the species of our dinosaur. 93 00:10:20,760 --> 00:10:25,822 Despite weighing up to half a tonne, these fossils are surprisingly fragile. 94 00:10:30,167 --> 00:10:32,707 It's all rather nerve-racking. 95 00:10:33,656 --> 00:10:37,481 One bone like this has already cracked in half without warning. 96 00:10:56,539 --> 00:10:59,039 And so this is the position as it was in life 97 00:10:59,103 --> 00:11:04,254 with the centre of the backbone there, then this is the crest on the top. 98 00:11:04,318 --> 00:11:07,558 Right, right, and this belongs to the middle part of the thorax. 99 00:11:07,622 --> 00:11:10,907 Right about here. - About that. - Yeah, yeah. 100 00:11:11,222 --> 00:11:13,722 Many more weeks of detailed examination 101 00:11:13,786 --> 00:11:17,862 will be needed before the backbones reveal all their secrets. 102 00:11:21,688 --> 00:11:24,188 Surprisingly, perhaps, one of the first things 103 00:11:24,252 --> 00:11:28,812 the team was able to deduce about our titanosaur is its weight. 104 00:11:30,219 --> 00:11:33,160 That's because, after finding the thigh bone, 105 00:11:33,292 --> 00:11:38,097 they discover another huge bone from the front leg - a humerus. 106 00:11:45,066 --> 00:11:48,002 By measuring the circumference of each of these leg bones, 107 00:11:48,250 --> 00:11:51,698 it's possible to estimate how much weight they could support. 108 00:11:52,115 --> 00:11:57,043 Let's see how much. We'll measure this. 109 00:12:01,248 --> 00:12:04,246 79. - 79? 110 00:12:05,009 --> 00:12:08,355 I'm not sure how that translates to body weight. 111 00:12:08,419 --> 00:12:12,233 Yeah, around 70 tonnes or even more, probably. 112 00:12:12,801 --> 00:12:15,596 That's really big. - It's amazing. 113 00:12:18,024 --> 00:12:23,604 That evening, Dr Jose Luis Carballido checks his calculations. 114 00:12:31,427 --> 00:12:35,676 I've been calculating how heavy the dinosaur was. 115 00:12:35,914 --> 00:12:38,454 It weighted more than Argentinosaurus! 116 00:12:42,837 --> 00:12:46,945 Until now, Argentinosaurus was the heaviest known dinosaur. 117 00:12:47,553 --> 00:12:50,093 Ours already looks bigger. 118 00:12:58,836 --> 00:13:03,100 Could this mean it was the largest animal ever to walk the earth? 119 00:13:03,829 --> 00:13:06,655 Could it also be a new species? 120 00:13:07,432 --> 00:13:09,972 We can't be sure... yet. 121 00:13:12,519 --> 00:13:15,932 The rocks of Patagonia, so bare of vegetation, 122 00:13:15,996 --> 00:13:21,948 also contain astonishing evidence of how titanosaurs began their lives. 123 00:13:24,093 --> 00:13:27,189 I've now come nearly 500 miles north 124 00:13:27,253 --> 00:13:32,786 from our Patagonian dinosaur excavation to a place called Auca Mahuevo. 125 00:13:33,553 --> 00:13:38,741 This is the largest dinosaur nesting ground yet discovered. 126 00:13:39,085 --> 00:13:43,897 The remains of their eggs and their nests are wherever I look. 127 00:13:44,034 --> 00:13:46,534 In fact, it's quite difficult for me 128 00:13:46,598 --> 00:13:51,697 to take a step without walking on a dinosaur eggshell. 129 00:13:57,625 --> 00:14:02,727 Over thousands of years, the wind and the rain have cleared away the soft rock 130 00:14:02,805 --> 00:14:05,345 that once enclosed these fragments 131 00:14:05,661 --> 00:14:11,120 and they can tell us quite a lot about how titanosaurs reproduced. 132 00:14:12,486 --> 00:14:16,158 Careful excavation has shown that these dinosaurs 133 00:14:16,222 --> 00:14:21,129 laid eggs in clutches of up to 30 or 40 at a time. 134 00:14:21,193 --> 00:14:24,074 They would have looked rather like these replicas 135 00:14:24,138 --> 00:14:26,419 because they lay on the surface of the ground, 136 00:14:26,483 --> 00:14:29,800 not covered by soil, but in a shallow depression. 137 00:14:30,083 --> 00:14:34,345 Sometimes, though, remains of vegetation have been found in some nests, 138 00:14:34,409 --> 00:14:39,655 which suggests that the dinosaurs might have used rotting leaves to help with the incubation. 139 00:14:39,995 --> 00:14:44,370 The dinosaur that laid these eggs here were medium-sized. 140 00:14:44,674 --> 00:14:49,651 Our dinosaur that we're excavating, probably laid eggs as big as that. 141 00:14:51,728 --> 00:14:57,967 I'm shown around by Dr Luis Chiappe who, with his team, discovered this remarkable site. 142 00:14:58,777 --> 00:15:03,025 Dinosaur eggs here were laid on an old river plain. 143 00:15:04,306 --> 00:15:09,157 Then the river flooded and covered the unhatched eggs, preserving them in mud. 144 00:15:09,645 --> 00:15:14,733 You see, you know, many eggs... - There. 145 00:15:14,797 --> 00:15:18,381 for kilometres and kilometres. Here's a nice one. 146 00:15:18,445 --> 00:15:20,985 Oh, that's a huge piece! - Yup. 147 00:15:22,996 --> 00:15:28,087 And this is the actual surface of the egg? - Yes.- Astounding. 148 00:15:30,318 --> 00:15:33,143 Do you suppose they could have been coloured like birds' eggs? 149 00:15:33,207 --> 00:15:37,104 They may. Maybe they were off-white. We can't tell really. - Yeah. 150 00:15:37,782 --> 00:15:41,293 Well, we can see all the tiny pores on the surface. 151 00:15:41,357 --> 00:15:44,913 And the texture. - Yeah. What a beautiful piece. 152 00:15:45,837 --> 00:15:48,377 You must admit it's pretty romantic. 153 00:15:49,752 --> 00:15:52,960 I think it's incredible. - I think it's absolutely extraordinary 154 00:15:53,251 --> 00:15:55,791 and I must put it back where I found it. - Thank you. 155 00:15:59,587 --> 00:16:04,063 The fragments could tell us quite a lot about how the dinosaurs nested. 156 00:16:05,166 --> 00:16:09,050 But some, amazingly, can do even more than that. 157 00:16:13,929 --> 00:16:17,892 All these examples have something quite special. 158 00:16:18,365 --> 00:16:23,330 This one is my favourite. And what you can see 159 00:16:24,695 --> 00:16:28,988 is a very large patch of baby dinosaur skin. 160 00:16:30,175 --> 00:16:33,319 How wonderful! It's extraordinary. 161 00:16:33,383 --> 00:16:37,257 And this is not just an impression, this is the mineralised skin. - It is. 162 00:16:37,385 --> 00:16:39,925 Yeah. Astounding. 163 00:16:40,683 --> 00:16:43,460 The eggs were not just preserving the bones, 164 00:16:43,524 --> 00:16:46,527 they were also preserving the skin of these babies. - Yeah. 165 00:16:47,799 --> 00:16:53,808 This was just on the surface. I remember picking this up and brushing it a little bit 166 00:16:53,872 --> 00:16:58,831 and then using my hand lens and looking at this exact patch of skin 167 00:16:59,199 --> 00:17:02,952 and I realised that we had found something 168 00:17:03,047 --> 00:17:06,601 that no person had ever seen before. 169 00:17:06,665 --> 00:17:10,989 You are the first human being ever to see a baby dinosaur's skin. - Yes. 170 00:17:11,645 --> 00:17:15,063 It was just an amazing... amazing moment. 171 00:17:15,609 --> 00:17:18,109 It must have been very close to hatching. 172 00:17:18,173 --> 00:17:21,354 It's almost complete, this thing. - Yes, that's what we believe. 173 00:17:22,315 --> 00:17:25,075 And then a flood... - Killed them all. 174 00:17:25,669 --> 00:17:29,128 Unfortunately for them, good for us. - Yes. 175 00:17:31,987 --> 00:17:36,469 Luis Chiappe has dozens of complete eggs in his museum and 176 00:17:36,533 --> 00:17:41,435 he allows me to examine some of his most precious specimens for myself. 177 00:17:44,751 --> 00:17:49,120 There are many other remarkable things in these astonishing time capsules. 178 00:17:49,184 --> 00:17:53,906 This one has got, perfectly clearly, the limb bones. 179 00:17:56,933 --> 00:18:01,718 Here is a skull. That's the orbit of the eye, 180 00:18:02,141 --> 00:18:05,213 there's the lower jaw, there's the snout. 181 00:18:08,032 --> 00:18:10,532 This one also has a skull, 182 00:18:10,596 --> 00:18:15,953 but on the tip of the snout you can see a little spike which is like the 183 00:18:16,017 --> 00:18:21,372 egg tooth that a bird embryo has to help it crack itself out of a shell. 184 00:18:24,464 --> 00:18:28,563 And here is a replica of what the complete, 185 00:18:28,627 --> 00:18:31,687 un-crushed shell must have looked like. 186 00:18:34,685 --> 00:18:41,606 With all these details, it is possible to imagine how a baby titanosaur entered the world. 187 00:18:51,729 --> 00:18:54,744 To get an idea of how these youngsters might have lived, 188 00:18:55,012 --> 00:18:59,971 we can compare them with their closest living relatives - birds. 189 00:19:02,982 --> 00:19:06,884 Rather like baby ostriches, a young titanosaur 190 00:19:06,948 --> 00:19:09,488 would have been able to walk soon after hatching. 191 00:19:15,152 --> 00:19:18,065 They may well have gathered into groups to give some safety 192 00:19:18,129 --> 00:19:21,290 from predators, as young ostriches do. 193 00:19:34,952 --> 00:19:40,700 Microscopic analysis of dinosaur leg bones show rings, rather like tree rings, 194 00:19:40,830 --> 00:19:46,360 and these indicate that titanosaurs grew very swiftly early in their lives 195 00:19:46,752 --> 00:19:51,999 and they could have lived for some 50 years, plenty of time to become enormous. 196 00:19:53,839 --> 00:19:57,214 The team now has 150 bones of our titanosaur, 197 00:19:57,278 --> 00:20:02,836 enough to get an idea, not only of its weight, but also its height and length. 198 00:20:03,604 --> 00:20:08,668 Now, the plan is to build a life-size reproduction of the complete skeleton. 199 00:20:25,007 --> 00:20:29,047 It's a challenge to find a place big enough to house an animal that's 200 00:20:29,225 --> 00:20:33,127 four times longer than a London bus and nearly twice its height. 201 00:20:33,844 --> 00:20:38,768 But Diego thinks he's found one. It's an old wool warehouse. 202 00:20:43,032 --> 00:20:49,021 One, two, three, four, five, six, seven... 203 00:20:50,104 --> 00:20:54,752 We have been looking for a place that is big enough to fit our dinosaur. 204 00:20:58,725 --> 00:21:01,698 This seems to be it. This is a warehouse that we could use, 205 00:21:02,633 --> 00:21:05,166 not only in terms of the length, this is 70 metres long, 206 00:21:05,230 --> 00:21:07,808 but also it's very important in terms of the height. 207 00:21:07,872 --> 00:21:10,412 So we need a place not only long, but really high. 208 00:21:11,747 --> 00:21:15,961 It really needs a little bit of decoration, but I think it will do it. 209 00:21:16,206 --> 00:21:18,746 It's going to be awesome! 210 00:21:20,497 --> 00:21:22,997 Putting the skeleton together will help us 211 00:21:23,061 --> 00:21:26,895 understand the particular challenges of being such a giant. 212 00:21:32,650 --> 00:21:37,217 So, next, an international team of skeleton builders arrive 213 00:21:37,281 --> 00:21:42,191 to scan the bones ready to make a 3-D computer model of each of them. 214 00:21:49,873 --> 00:21:54,901 3-D scanning, accurate to 0.01 of a millimetre, 215 00:21:55,433 --> 00:21:59,835 allows images of the bones to be placed in a virtual reality world 216 00:22:00,672 --> 00:22:03,849 so that they can now be examined from all points of view 217 00:22:04,565 --> 00:22:07,105 without needing eight people to lift them. 218 00:22:10,039 --> 00:22:12,708 One of the mysteries surrounding our dinosaur is, 219 00:22:12,772 --> 00:22:17,184 how could an animal as big as it was actually move about? 220 00:22:19,933 --> 00:22:25,766 The computer data allows us to put our dinosaur leg bones together in 3-D 221 00:22:25,851 --> 00:22:30,780 and then compare the arrangement with what we know about living animals. 222 00:22:40,987 --> 00:22:44,906 Elephants are the largest land animal alive today. 223 00:22:47,971 --> 00:22:52,248 They, like titanosaurs, have to move their massive bodies around 224 00:22:52,842 --> 00:22:55,955 without their bones shattering under the enormous weight. 225 00:23:02,898 --> 00:23:08,900 I've come to meet Professor John Hutchinson here at ZSL Whipsnade Zoo. 226 00:23:10,177 --> 00:23:13,510 He's studied elephants for many years and has joined the team 227 00:23:13,574 --> 00:23:17,316 that's investigating the internal workings of our titanosaur. 228 00:23:17,698 --> 00:23:21,058 We have about a one-metre long pressure sensitive mat out there 229 00:23:21,122 --> 00:23:24,234 with several thousand sensors in it and it's telling us, in very 230 00:23:24,298 --> 00:23:28,008 high resolution, what the pressure on an elephant's foot is like. 231 00:23:29,079 --> 00:23:31,579 We can see on the elephant's foot here... 232 00:23:31,643 --> 00:23:36,138 Here she goes... - Yeah! Great. - That was a perfect one! - Bull's-eye! 233 00:23:37,546 --> 00:23:43,349 The pressure hits the ground, rolls over and then pushes off with its toenails. 234 00:23:44,852 --> 00:23:48,982 So we can see there some hot colours, or reds and oranges, 235 00:23:49,046 --> 00:23:53,359 on the toenails of Melvin's foot indicating high pressure. 236 00:23:53,423 --> 00:24:00,031 And then some cooler colours back towards the heel pad in the greens and light blue. 237 00:24:00,095 --> 00:24:05,266 That's low pressure. So elephants are supporting most of their weight on their toenails. 238 00:24:05,471 --> 00:24:08,521 That pressure gets transmitted up to their toe bones 239 00:24:08,822 --> 00:24:12,731 and then up to their wrists and ankles and so forth. 240 00:24:15,637 --> 00:24:21,532 John's analysis suggests that our titanosaur's legs, like those of an elephant, 241 00:24:21,643 --> 00:24:26,573 were placed vertically beneath the body like strong, massive columns. 242 00:24:29,422 --> 00:24:32,605 This arrangement transmits the weight to the toes 243 00:24:32,669 --> 00:24:38,635 and then spreads the force, using fatty pads in the back feet, as shock absorbers. 244 00:24:40,638 --> 00:24:46,852 But our titanosaur had one other adaptation to help them walk - one that elephants lack. 245 00:24:50,992 --> 00:24:54,621 A clue to this can be seen on the giant thighbone. 246 00:24:55,666 --> 00:24:58,166 How's it going? - Good, good. 247 00:24:58,230 --> 00:25:02,559 Ben Garrod specialises in reconstructing skeletons 248 00:25:02,684 --> 00:25:05,979 and he's joining the team to look at the bones in detail. 249 00:25:07,559 --> 00:25:10,734 Marks on them show clearly where the muscles were attached. 250 00:25:12,085 --> 00:25:14,585 That's halfway down the femur, isn't it, that big lump there... - Yes. 251 00:25:14,649 --> 00:25:17,525 for these massive muscle and, I guess, tendon attachments? 252 00:25:19,013 --> 00:25:23,431 This lump is where a huge muscle was attached to the femur. 253 00:25:24,761 --> 00:25:29,556 The other end of this muscle was connected to bones like these in the tail. 254 00:25:30,401 --> 00:25:33,858 It's this connection that helped our dinosaur to walk. 255 00:25:34,622 --> 00:25:37,519 They've got so much strength and so much rigidity up there. 256 00:25:37,705 --> 00:25:41,688 They actually used their tails to help move, to help their propulsion. 257 00:25:41,979 --> 00:25:46,152 So they had massive muscles and tendons from... - Help...? 258 00:25:46,228 --> 00:25:49,757 Yes, so the movement of the tail actually pulled the hind legs 259 00:25:49,821 --> 00:25:52,361 backwards and then raised them forwards. - I see. 260 00:25:53,851 --> 00:25:56,391 I must try that sometime! 261 00:26:00,237 --> 00:26:06,805 The largest lizard alive today, the Komodo dragon, has a similar adaptation. 262 00:26:08,191 --> 00:26:12,603 The swing of their tail helps their back legs move more efficiently. 263 00:26:17,052 --> 00:26:19,552 Of course, our dinosaur was different, 264 00:26:19,616 --> 00:26:22,797 not least because it weighed over 500 times more. 265 00:26:24,162 --> 00:26:27,504 And that makes John Hutchinson suspect that it would have 266 00:26:27,568 --> 00:26:30,108 had to deal with another problem - 267 00:26:30,493 --> 00:26:34,265 one also faced by passengers on long-haul flights. 268 00:26:35,365 --> 00:26:39,185 Pressure in the legs of big animals is a really big problem. 269 00:26:39,416 --> 00:26:43,374 If blood stays down there too long, it's going to pool and clot. 270 00:26:44,131 --> 00:26:48,012 Much like airline socks that humans use, large animals, 271 00:26:48,122 --> 00:26:52,295 again and again, have evolved very thick elastic skin 272 00:26:52,359 --> 00:26:56,875 around their lower limb that helps to keep that pressure very high. 273 00:26:56,980 --> 00:27:02,252 Actually, I can empathise. I have to wear those same kind of stockings to get my blood 274 00:27:02,316 --> 00:27:04,856 back up my long legs! 275 00:27:05,007 --> 00:27:09,339 Time to thank our helpful elephant. You're a lovely thing. Yes, you... 276 00:27:09,438 --> 00:27:15,652 Oh, you want one! OK, in you go. Thanks. Thanks, pal. 277 00:27:17,305 --> 00:27:19,845 That's all I've got! 278 00:27:20,872 --> 00:27:26,937 A giant animal like an elephant also needs a huge heart to pump blood around its body. 279 00:27:27,297 --> 00:27:29,837 And so did our titanosaur. 280 00:27:45,153 --> 00:27:47,923 Its heart must have been immense. 281 00:27:51,047 --> 00:27:54,663 From our new, detailed knowledge of the skeleton, John Hutchinson 282 00:27:54,727 --> 00:27:59,077 has calculated that it was more than six feet in circumference. 283 00:28:05,206 --> 00:28:08,717 It probably weighed 230 kilos 284 00:28:08,861 --> 00:28:13,903 and would have had to shift 90 litres of blood with a single beat. 285 00:28:14,418 --> 00:28:16,958 There's one! 286 00:28:19,576 --> 00:28:24,196 And it would have had to repeat that beat every five seconds. 287 00:28:24,737 --> 00:28:27,277 There it goes again. 288 00:28:30,700 --> 00:28:33,240 Weighing more than three grown men, 289 00:28:33,370 --> 00:28:36,182 it would have been extraordinarily powerful. 290 00:28:41,707 --> 00:28:45,685 And in order to pump blood around the body at high pressure 291 00:28:45,953 --> 00:28:49,492 and then into the delicate lungs at a lower pressure, 292 00:28:50,468 --> 00:28:54,515 it's thought that our titanosaur's heart had four chambers - 293 00:28:55,237 --> 00:28:57,818 more like that of a bird than a reptile. 294 00:29:02,637 --> 00:29:07,121 So, a powerful heart pumped the blood to the extremities of the body, 295 00:29:08,114 --> 00:29:10,654 but how did the blood get back? 296 00:29:13,751 --> 00:29:17,957 As in an elephant, a combination of fatty footpads 297 00:29:18,021 --> 00:29:22,547 and tight skin are thought to have forced the blood from its legs... 298 00:29:23,892 --> 00:29:26,432 all the way back to its heart. 299 00:29:40,769 --> 00:29:46,482 Toronto, Canada, and the world's biggest dinosaur-making factory. 300 00:29:54,372 --> 00:29:58,209 The team is building a life-size skeleton of this vast creature 301 00:29:59,036 --> 00:30:04,479 to be unveiled in Diego's warehouse in Argentina in six months' time. 302 00:30:07,227 --> 00:30:13,721 First, they have to turn all the information from the 3-D scans into each individual bone. 303 00:30:17,263 --> 00:30:20,647 State-of-the-art robots carve moulds from polystyrene 304 00:30:20,937 --> 00:30:24,194 so that the bones can be cast in fibreglass. 305 00:30:40,000 --> 00:30:44,175 Up until now, the fossil bones have been the main focus of the dig 306 00:30:44,624 --> 00:30:49,341 but the rock that surrounds the fossils also holds important information. 307 00:30:50,042 --> 00:30:54,770 The nature of the layers of rock in which these fossils lie can tell us 308 00:30:54,834 --> 00:31:00,206 a great deal about how they got to be where they are and how old they are. 309 00:31:00,345 --> 00:31:04,516 Some of these layers are volcanic ash which must have come 310 00:31:04,580 --> 00:31:09,254 from a volcano erupting every now and then somewhere in the neighbourhood. 311 00:31:13,562 --> 00:31:18,769 And this ash around the bones can tell us how old the fossils are. 312 00:31:19,888 --> 00:31:22,388 Scientists worked out that all these fossils 313 00:31:22,452 --> 00:31:26,826 dated from the Cretaceous period but better than that, 314 00:31:26,906 --> 00:31:34,894 they dated them precisely to 101,6 million years old. 315 00:31:41,563 --> 00:31:47,900 By a detailed forensic examination and comparisons with living creatures, 316 00:31:47,964 --> 00:31:52,532 the team have deduced a great deal about the life of our titanosaur. 317 00:31:56,718 --> 00:32:01,034 We now know when it lived, how big it was, 318 00:32:01,187 --> 00:32:05,826 how it moved and what its young might have looked like. 319 00:32:06,155 --> 00:32:09,208 We've even calculated its heart rate. 320 00:32:16,134 --> 00:32:20,272 In an investigation of this scale, sometimes the most important 321 00:32:20,336 --> 00:32:26,934 information comes not from the most eye-catching evidence but from quite tiny details. 322 00:32:30,848 --> 00:32:36,394 Here is something that I really hoped the excavation was going to find. 323 00:32:39,191 --> 00:32:41,731 It's a tooth. 324 00:32:41,885 --> 00:32:48,644 And it's tiny compared with the size of the huge animals from which it came. 325 00:32:49,440 --> 00:32:53,576 Teeth can tell you a huge amount about an animal. 326 00:32:54,039 --> 00:32:57,654 And if you look at the tip, you can see that it has been 327 00:32:57,718 --> 00:33:02,099 worn into two facets on either side. 328 00:33:02,561 --> 00:33:07,502 And that tells us that this tooth engaged with the teeth on the other 329 00:33:07,566 --> 00:33:13,111 side in an alternate way like that, not head-on but one on either side. 330 00:33:13,510 --> 00:33:16,010 So this animal, like a pair of scissors, 331 00:33:16,074 --> 00:33:20,544 just nipped off the vegetation on which it was feeding. 332 00:33:20,728 --> 00:33:27,619 Enormous though it was, just nipped off little leaves and here are fossils 333 00:33:27,713 --> 00:33:31,171 of some of the different kinds of plants on which it might have fed... 334 00:33:32,913 --> 00:33:37,800 cycads, ferns and conifers. 335 00:33:46,715 --> 00:33:49,215 One thing these plants have in common 336 00:33:49,279 --> 00:33:53,573 is that they're all very fibrous and hard to digest. 337 00:33:54,659 --> 00:33:58,118 To get enough nutrients from such poor quality foods 338 00:33:58,718 --> 00:34:02,820 our titanosaur would have had to eat them in vast quantities. 339 00:34:06,689 --> 00:34:11,342 A descendent of one of these plants still grows in Patagonia today. 340 00:34:14,891 --> 00:34:19,462 200 million years ago when South America, Australia 341 00:34:19,526 --> 00:34:25,183 and Antarctica were all joined together to form a supercontinent called Gondwana, 342 00:34:25,472 --> 00:34:30,527 a particular kind of vegetation was dominant - they were conifers. 343 00:34:31,066 --> 00:34:34,132 They continued to survive to 100 million years ago 344 00:34:34,200 --> 00:34:38,248 when our titanosaurs were roaming the land and a few still 345 00:34:38,353 --> 00:34:43,846 survive today. Here in the foothills of the Andes is one of them. 346 00:34:44,134 --> 00:34:47,727 The monkey puzzle tree called araucaria. 347 00:34:52,642 --> 00:34:58,053 Trees, like araucaria, show that the dinosaurs must have had another problem. 348 00:34:59,626 --> 00:35:06,130 These conifers, apart from being poor-quality fodder, can grow to over 130 feet in height. 349 00:35:08,108 --> 00:35:13,238 They would have been out of reach for many animals but not our titanosaur. 350 00:35:18,350 --> 00:35:20,890 Here, boys, come on. 351 00:35:23,754 --> 00:35:29,247 It's pretty clear why a long neck is useful for a land-living animal. 352 00:35:30,635 --> 00:35:34,655 It enables it to reach vegetation which is growing high up 353 00:35:34,719 --> 00:35:39,002 at the top trees that other ground-based animals couldn't reach 354 00:35:39,533 --> 00:35:42,577 and it must have been much the same for titanosaur, 355 00:35:43,389 --> 00:35:48,615 except we know from the fossils that titanosaur's neck was very, very much longer. 356 00:35:50,520 --> 00:35:54,940 And that enabled it to sweep its head in a great wide arc 357 00:35:55,075 --> 00:35:58,917 and even to reach between two tree trunks that happened to be 358 00:35:58,985 --> 00:36:02,325 growing close together to get other vegetation. 359 00:36:02,731 --> 00:36:05,271 What about that? 360 00:36:07,051 --> 00:36:11,272 This enormous reach would have saved our titanosaur a lot of energy. 361 00:36:12,263 --> 00:36:15,993 It only needed to move its neck to feed, not its whole body. 362 00:36:19,892 --> 00:36:23,864 But how did it eat enough of this poor-quality food to survive? 363 00:36:25,062 --> 00:36:28,504 Elephants face a similar challenge today. 364 00:36:29,056 --> 00:36:33,974 An elephant can collect and chew about 130 kilos - 365 00:36:34,038 --> 00:36:37,380 that's 300 pounds of vegetation in a day. 366 00:36:38,300 --> 00:36:42,905 But our titanosaur could have eaten five times that amount. 367 00:36:43,988 --> 00:36:47,873 It's been estimated that a large titanosaur would eat enough 368 00:36:47,937 --> 00:36:51,401 plant material to fill a skip in a single day. 369 00:36:52,339 --> 00:36:54,879 So how did they digest it all? 370 00:36:55,296 --> 00:36:57,992 Elephants solved the problem by giving their food 371 00:36:58,099 --> 00:37:02,792 long preparatory chews but titanosaurs didn't bother. 372 00:37:04,218 --> 00:37:09,989 They simply gathered leaves by nipping them off and then swallowing them whole. 373 00:37:11,881 --> 00:37:14,942 But that in turn would mean that they needed a bigger 374 00:37:15,027 --> 00:37:18,889 and longer gut to digest all that unchewed food. 375 00:37:20,490 --> 00:37:24,990 And it might well have taken ten days for food to pass through their system. 376 00:37:27,122 --> 00:37:33,022 A bigger gut needs a bigger body so titanosaurs grew bigger and bigger 377 00:37:33,086 --> 00:37:37,387 until they approached the limits of what their bones could support. 378 00:37:46,899 --> 00:37:51,616 Two years after the dig began, a strange cargo arrives, 379 00:37:51,680 --> 00:37:54,992 having made a 7,000 mile journey from Canada. 380 00:38:02,394 --> 00:38:08,512 Dozens of packing cases later and all the bones are finally in Diego's warehouse. 381 00:38:17,107 --> 00:38:20,297 Assembling the skeleton can finally begin. 382 00:38:23,650 --> 00:38:29,838 The 3-D data used to make the skeleton has also been used to create a computer model. 383 00:38:31,262 --> 00:38:35,717 It means I can get a preview of what the final skeleton will look like. 384 00:38:35,793 --> 00:38:38,722 The first thing is these very, very lovely legs. 385 00:38:38,786 --> 00:38:42,879 If we turn it around, they are very, very column-like and this is like elephants 386 00:38:42,943 --> 00:38:47,452 but interestingly this titanosaur had slightly splayed legs, 387 00:38:47,516 --> 00:38:51,867 at an angle of about five degrees and this slight change would have 388 00:38:51,931 --> 00:38:55,253 really increased the ability to take all that extra weight. 389 00:38:55,518 --> 00:38:59,898 You see the splay because of the joint or because of the shape of the bone? - Both. 390 00:38:59,962 --> 00:39:02,265 You can tell from the shape of the bone and from where certain 391 00:39:02,329 --> 00:39:06,004 parts of the bones form and how they sit and then how the bones fit 392 00:39:06,068 --> 00:39:09,177 with one another you can really tell how it would have sat in real life. 393 00:39:09,257 --> 00:39:12,701 Another thing you can see is a very, very long neck. 394 00:39:12,812 --> 00:39:16,584 And we just found out that ours had 15 bones in its neck. 395 00:39:16,648 --> 00:39:21,083 Interestingly, some of them were five or six times longer than they were wide. 396 00:39:21,147 --> 00:39:26,121 These incredibly long vertebrae and there's lots of them. - Why does it have such a long tail? 397 00:39:26,885 --> 00:39:29,694 Well, a couple of reasons. If you've got an animal this big with 398 00:39:29,758 --> 00:39:32,567 a neck this long, the last thing you want to be is top-heavy. 399 00:39:32,653 --> 00:39:36,572 And CAN research has just shown that the centre of gravity 400 00:39:36,636 --> 00:39:40,212 in this animal was somewhere right in the middle of the chest cavity. 401 00:39:41,712 --> 00:39:46,890 So the heavy tail counterbalances the exceedingly long neck. 402 00:39:47,103 --> 00:39:53,095 But judging from the size of the muscle attachments, the tail was also immensely strong. 403 00:39:54,379 --> 00:39:59,319 It had huge muscles from around here right down to about a third 404 00:39:59,383 --> 00:40:01,712 of the way down the tail, somewhere around here. 405 00:40:01,776 --> 00:40:05,408 So that would be solid flesh? - Yep, muscle tissue, other tissue, 406 00:40:05,472 --> 00:40:08,543 ligaments, tendons. - Do you think they might have fought with it? 407 00:40:09,239 --> 00:40:12,600 Possibly. - Thrashing it about? - It could've been used as a defence mechanism 408 00:40:12,664 --> 00:40:15,023 so you're walking up to that as a predator, the last thing you 409 00:40:15,087 --> 00:40:17,627 want to be is on the receiving end. - Don't put me into it! 410 00:40:21,304 --> 00:40:23,844 Yeah. 411 00:40:31,792 --> 00:40:36,599 The long and painstaking examination of the backbone has now borne fruit 412 00:40:36,944 --> 00:40:39,736 and Ben has got some important news. 413 00:40:45,252 --> 00:40:50,073 This is a vertebrae here from right high up in the back, right near the shoulder blades. 414 00:40:50,137 --> 00:40:55,456 And the most important thing is this little ridge that ends in this 415 00:40:55,520 --> 00:40:58,749 big lump and this is only found in this particular dinosaur 416 00:40:58,843 --> 00:41:02,655 so from that and a few other physical differences, 417 00:41:02,719 --> 00:41:05,904 we think we have got a brand-new, exciting species. 418 00:41:07,977 --> 00:41:14,876 So our titanosaur is not only a giant, it is indeed a new species of dinosaur. 419 00:41:16,795 --> 00:41:23,427 Examining the spinal bones also reveal something about how it coped with life as a giant. 420 00:41:25,667 --> 00:41:28,940 This is where the spinal cord would have passed. 421 00:41:30,622 --> 00:41:33,451 So this hole straight through here? - Mm-hm. 422 00:41:33,682 --> 00:41:36,190 The whole nerve centre, as it were, - Yep 423 00:41:36,254 --> 00:41:38,986 the cable carrying all the nerves. - From the base of the tail 424 00:41:39,057 --> 00:41:41,986 right to the skull. - It's very small. - It is, yeah. - Ours is what? 425 00:41:42,174 --> 00:41:45,869 About thumb width. - So it's not all that much bigger. - No. 426 00:41:48,283 --> 00:41:51,418 This cord was well over 100 feet long. 427 00:41:53,257 --> 00:41:59,289 It would have taken about a second for a nerve impulse to go from its tail to its brain. 428 00:42:00,742 --> 00:42:04,112 And what's more, the spine has revealed another surprise. 429 00:42:05,204 --> 00:42:08,983 It is full of holes, rather like a Swiss cheese. 430 00:42:11,341 --> 00:42:15,329 The neck bones of titanosaurs contain so many holes 431 00:42:15,438 --> 00:42:19,814 and spaces that they weighed around 35% less than 432 00:42:19,878 --> 00:42:22,898 they would have done had they been made of solid bone. 433 00:42:23,565 --> 00:42:26,538 The leg bones of modern birds are much the same. 434 00:42:27,173 --> 00:42:31,300 And those spaces serve another very important function. 435 00:42:31,602 --> 00:42:34,142 They contained air sacs. 436 00:42:36,761 --> 00:42:40,498 These air sacs were connected with the lungs. 437 00:42:43,863 --> 00:42:47,320 So what was their function and how did they work? 438 00:42:47,533 --> 00:42:51,583 They occupied much of the chest and ran along the whole length 439 00:42:51,647 --> 00:42:54,111 of the body along the backbone 440 00:42:54,175 --> 00:42:58,665 to the 17-metre-long neck and then to the head. 441 00:43:01,168 --> 00:43:06,933 It's thought the balloon-like sacs had thin but strong membranes. 442 00:43:08,772 --> 00:43:14,677 These sacs acted like bellows, forcing air into the lungs. 443 00:43:15,691 --> 00:43:19,826 When we breathe in, air flows down into our lungs, 444 00:43:20,139 --> 00:43:24,681 oxygen is absorbed in exchange for carbon dioxide which is then 445 00:43:24,745 --> 00:43:27,218 got rid of when we breathe out. 446 00:43:27,282 --> 00:43:33,096 The air sac system is very much more complex but very much more efficient. 447 00:43:34,815 --> 00:43:38,943 It enabled a titanosaur to take in oxygen continuously, 448 00:43:39,459 --> 00:43:43,482 not just when breathing in but also when breathing out. 449 00:44:07,345 --> 00:44:11,426 Our titanosaur wasn't the only giant living around here. 450 00:44:16,486 --> 00:44:22,524 This was a dangerous world, where meat-eaters were giants too. 451 00:44:26,409 --> 00:44:32,032 New evidence from the dig site shows that carnivorous dinosaurs were here as well. 452 00:44:36,453 --> 00:44:41,448 So these are some of the over 80 teeth we found on the dig site. 453 00:44:41,519 --> 00:44:45,361 And you can feel how sharp they are. 454 00:44:47,884 --> 00:44:51,408 Yes, it's serrated, just like a shark's tooth, in fact. - Absolutely. 455 00:44:51,472 --> 00:44:55,702 They actually belong to a family known as a shark-toothed dinosaurs. 456 00:44:56,501 --> 00:44:59,298 We can identify the teeth at the family level. 457 00:44:59,363 --> 00:45:03,159 We know of one species that belonged to that family, 458 00:45:03,379 --> 00:45:09,274 it's called Tyrannotitan chubutensis. - Tyrannotitan? - Yeah. 459 00:45:09,338 --> 00:45:13,192 That means a ferocious giant, ferocious beast. - Exactly. - Good name. 460 00:45:13,256 --> 00:45:16,161 Yeah. - Chubutensis is because of the area it comes from? 461 00:45:16,286 --> 00:45:19,345 Yes, this is the Chubut province. - Great. 462 00:45:20,787 --> 00:45:24,952 Tyrannotitan must have been a ferocious-looking beast. 463 00:45:26,353 --> 00:45:29,936 With large eyes, sharp, flesh-eating teeth... 464 00:45:31,921 --> 00:45:37,788 and strong legs, it was a fast, alert, meat-eating dinosaur. 465 00:45:41,048 --> 00:45:44,824 And it was as big as T Rex. - Really? Not as famous. 466 00:45:44,914 --> 00:45:47,454 Not as famous. - Tell that to Hollywood. 467 00:45:48,951 --> 00:45:52,117 I have some bones over there I would like to show you. 468 00:45:53,520 --> 00:45:57,721 So this is one of the tail vertebrae we found at the dig site. 469 00:45:58,696 --> 00:46:01,938 There's something really interesting here. You can see this groove? 470 00:46:02,579 --> 00:46:05,685 Well, this groove was probably a bite mark 471 00:46:05,749 --> 00:46:08,211 made by one of the carnivores. - By one of these teeth? 472 00:46:08,275 --> 00:46:11,405 Right. - So it was... What do you mean? Like that? 473 00:46:11,495 --> 00:46:16,700 Exactly. Taking the flesh out of their tail. - Really? - Yeah. 474 00:46:17,444 --> 00:46:19,984 The tender bits. 475 00:46:20,552 --> 00:46:23,208 They would be too. - Yeah, absolutely. 476 00:46:23,322 --> 00:46:26,492 Can you determine whether it was a scavenger or it was a hunter? 477 00:46:26,947 --> 00:46:30,389 We don't know if they were dead, I mean, they were scavenging 478 00:46:30,453 --> 00:46:34,402 on the carcasses, or if they were actually hunting and killing them. 479 00:46:35,461 --> 00:46:40,417 Well, it didn't make much difference to the old dinosaur. - Yes. 480 00:46:42,569 --> 00:46:45,427 In a detective story, to close the case, 481 00:46:45,538 --> 00:46:49,201 you really want to know how the victim met its end. 482 00:46:50,387 --> 00:46:56,384 If our titanosaur didn't perish in the jaws of a Tyrannotitan, how did it die? 483 00:46:59,049 --> 00:47:03,292 Clues can be found by the detailed three-dimensional mapping 484 00:47:03,435 --> 00:47:07,931 of the location of every fossil bone, small and large. 485 00:47:10,925 --> 00:47:15,369 That shows that the dig site contains the remains of not just one 486 00:47:15,433 --> 00:47:21,179 but seven different individuals. All of the new species. 487 00:47:21,910 --> 00:47:26,328 And the first thing to notice is that they are on three different levels. 488 00:47:29,968 --> 00:47:35,407 That's to say the animals must have come here on at least three different occasions. 489 00:47:41,759 --> 00:47:44,299 But why should they have done that? 490 00:47:52,371 --> 00:47:55,952 There are several theories as to why seven bodies 491 00:47:56,016 --> 00:47:59,686 should have all ended up at this one particular place. 492 00:48:00,287 --> 00:48:05,484 The first is that this was a seasonal climate and that as the dry season proceeded 493 00:48:05,548 --> 00:48:09,204 this was one of the last remaining pools of water 494 00:48:09,350 --> 00:48:14,083 and when this went, the sauropods that happened to be here died here. 495 00:48:16,906 --> 00:48:21,785 The second is that these bodies were swept down by great rivers 496 00:48:22,077 --> 00:48:28,609 during the rainy season and then where the land levelled out, so those bodies were dumped. 497 00:48:29,470 --> 00:48:33,865 Analysis of the sediments around the bones shows that there were rivers 498 00:48:33,929 --> 00:48:37,758 gently flowing across this site at the time of their death. 499 00:48:42,871 --> 00:48:45,411 There was no shortage of water to drink. 500 00:48:45,986 --> 00:48:50,921 What's more the rivers were not moving fast enough to shift such huge bodies. 501 00:48:51,864 --> 00:48:55,501 So the corpses weren't washed here by floodwaters either. 502 00:48:58,647 --> 00:49:04,449 Could there be another reason why they all died in one place on three different occasions? 503 00:49:06,854 --> 00:49:10,421 We know from layers of ash around the bones that there were 504 00:49:10,612 --> 00:49:13,112 volcanoes erupting in the neighbourhood 505 00:49:13,176 --> 00:49:16,451 so doubtless there were areas where the ground was 506 00:49:16,515 --> 00:49:20,601 warmed by volcanic fumes, just as they are here today. 507 00:49:21,002 --> 00:49:25,636 We also know that dinosaurs regularly laid their eggs in such places, 508 00:49:25,700 --> 00:49:30,602 doubtless taking advantage of the volcanic warmth to help incubate their eggs. 509 00:49:30,743 --> 00:49:35,417 So maybe that was the reason why they kept returning to the same place. 510 00:49:41,761 --> 00:49:47,546 Certainly the excavation of the dinosaur egg site seems to support this. 511 00:49:49,244 --> 00:49:56,220 Nests like these have been found at four quite widely separated layers in the rocks, 512 00:49:56,284 --> 00:50:00,963 showing that dinosaurs came back to this particular site again 513 00:50:01,027 --> 00:50:05,337 and again and again over a long period of time. 514 00:50:14,733 --> 00:50:19,199 Ash from a volcanic eruption can sometimes fall in such quantities 515 00:50:19,263 --> 00:50:23,532 that the whole vegetation is blanketed by it and killed. 516 00:50:24,805 --> 00:50:29,764 So life in the aftermath of a big eruption can be very difficult for a plant-eater. 517 00:50:32,447 --> 00:50:37,254 Whatever the explanation, individuals over several generations came 518 00:50:37,370 --> 00:50:41,163 to this one place and died here. 519 00:50:43,276 --> 00:50:49,327 The dig is coming to an end and the team have assembled a record-breaking number of bones 520 00:50:49,391 --> 00:50:54,419 but they're still hoping to find one last piece of the puzzle - the skull. 521 00:50:54,525 --> 00:51:00,753 So what number's this, 203? - Actually this is 223. - 23? 522 00:51:00,817 --> 00:51:03,079 Between the seven individuals? - Yeah. 523 00:51:03,143 --> 00:51:05,574 Between all the seven individuals we found here on this site. 524 00:51:05,939 --> 00:51:09,285 If these are neck vertebrae, could they be leading towards a skull? 525 00:51:09,349 --> 00:51:14,494 Yes, that's what were hoping for. We just found another neck vertebrae over there. 526 00:51:14,558 --> 00:51:16,766 That would be a great triumph if you found a skull, wouldn't it? 527 00:51:16,830 --> 00:51:21,611 There are only three titanosaur skulls known so far. - Really? - Yeah. 528 00:51:21,675 --> 00:51:24,581 So they're very rare. - And that's because they're very fragile. 529 00:51:24,645 --> 00:51:27,746 They're very delicate bones and they have 530 00:51:27,810 --> 00:51:31,338 very light sutures between each of the bones. 531 00:51:31,685 --> 00:51:35,720 OK, well, let's hope you find number four. - Yeah. - Could be under there. 532 00:51:35,784 --> 00:51:39,926 Could be. We're going for that. - Wonderful. 533 00:51:43,396 --> 00:51:45,936 Alas, it was not to be. 534 00:51:51,097 --> 00:51:53,597 So I gather you haven't yet found the skull. - Sadly not. 535 00:51:53,661 --> 00:51:56,986 The only thing we have found out of the skull is his tooth. 536 00:52:00,332 --> 00:52:04,555 So to complete the skeleton, the team have to reconstruct one... 537 00:52:05,069 --> 00:52:10,189 Take that piece out of there. - Basing it on the three skulls of other titanosaur species 538 00:52:10,253 --> 00:52:14,118 to produce one which most suits the single tooth that we have. 539 00:52:21,628 --> 00:52:26,922 The scientific team has discovered, collected, cleaned, 540 00:52:26,986 --> 00:52:32,681 scanned and copied 220 bones of our giant. 541 00:52:32,745 --> 00:52:37,738 Soon it'll be possible to put those copies together to get some idea 542 00:52:37,837 --> 00:52:40,534 of what the living animal actually looked like. 543 00:52:41,015 --> 00:52:46,037 But the fossil bones themselves still have many secrets 544 00:52:46,101 --> 00:52:48,641 that are waiting to be revealed. 545 00:52:56,571 --> 00:53:00,307 All the theory can now be put to the test. 546 00:53:05,288 --> 00:53:11,393 We can finally get the most accurate estimate of our dinosaur's weight and true size. 547 00:53:25,595 --> 00:53:30,629 It takes two weeks, working day and night, to fit all the bones together. 548 00:53:48,883 --> 00:53:51,423 God! 549 00:53:52,915 --> 00:53:56,246 Absolutely amazing! 550 00:54:15,063 --> 00:54:17,603 Good gracious! 551 00:54:44,810 --> 00:54:48,804 Well, Diego, are you pleased with it? - Yes, we are very pleased. 552 00:54:49,330 --> 00:54:54,308 It is been a lot of work, it has taken 40,000 man-hours to get here 553 00:54:54,442 --> 00:54:56,942 but we're really, really happy with it. 554 00:54:57,006 --> 00:55:00,268 And does it answer some of your questions about the animal? 555 00:55:00,383 --> 00:55:03,133 Yeah, absolutely. It answers a lot of questions 556 00:55:03,231 --> 00:55:06,382 but the good thing is it raises more questions. 557 00:55:06,446 --> 00:55:09,747 So we have a lot of research to continue on this animal. 558 00:55:10,434 --> 00:55:12,934 It's clear that this thing still wasn't fully grown. 559 00:55:12,998 --> 00:55:16,724 It's massive, but it still had room to go. - You mean the structure of the bones looks as 560 00:55:16,788 --> 00:55:19,328 though they were still growing? - Yeah. 561 00:55:19,788 --> 00:55:26,584 That raises the really big question, is it the biggest so far discovered? 562 00:55:27,147 --> 00:55:33,047 Well, according to our estimate, this animal weighed 70 metric tonnes. 563 00:55:33,367 --> 00:55:37,244 70 metric tonnes. What would that compare with? 564 00:55:37,308 --> 00:55:42,154 That is like 15 African elephants. - 15 African elephants? 565 00:55:42,956 --> 00:55:49,120 We are now sure that this animal was 10% larger than Argentinosaurus. 566 00:55:49,184 --> 00:55:52,238 The previous record-holder? - The previous record-holder. So, yes, 567 00:55:52,302 --> 00:55:57,399 we think we have the largest dinosaur ever known. - Fantastic! 568 00:55:57,502 --> 00:56:00,002 I can quite believe it. 569 00:56:00,066 --> 00:56:04,798 Congratulations to you. - Thank you. - Congratulations to he, she or it. 570 00:56:05,376 --> 00:56:07,916 Wonderful! A marvellous, marvellous thing! 571 00:56:26,470 --> 00:56:31,471 Piecing this complex jigsaw puzzle together has been a fascinating adventure. 572 00:56:34,260 --> 00:56:39,333 It all started with the discovery of one enormous thighbone. 573 00:56:39,531 --> 00:56:44,474 And then a team of 40 worked for over two years to excavate 574 00:56:44,538 --> 00:56:51,271 and put together the near-complete skeleton of the largest land animal yet discovered. 575 00:56:51,803 --> 00:56:54,588 And so added one further marvel 576 00:56:54,860 --> 00:56:59,292 to the astonishing history of life on earth. 577 00:57:06,669 --> 00:57:10,991 What a thrill it must have been to see it when it was alive. 578 00:57:11,305 --> 00:57:17,652 Support us and become VIP member to remove all ads from www.SubtitleDB.org 56339