1 00:00:01,263 --> 00:00:04,240 We've all heard about how the dinosaurs died. 2 00:00:04,523 --> 00:00:06,439 The story I'm going to tell you 3 00:00:06,439 --> 00:00:10,874 happened over 200 million years before the dinosaurs went extinct. 4 00:00:11,624 --> 00:00:14,567 This story starts at the very beginning, 5 00:00:14,567 --> 00:00:17,658 when dinosaurs were just getting their start. 6 00:00:17,658 --> 00:00:21,038 One of the biggest mysteries in evolutionary biology 7 00:00:21,038 --> 00:00:23,816 is why dinosaurs were so successful. 8 00:00:23,816 --> 00:00:28,040 What led to their global dominance for so many years? 9 00:00:28,040 --> 00:00:31,392 When people think about why dinosaurs were so amazing, 10 00:00:31,392 --> 00:00:35,366 they usually think about the biggest or the smallest dinosaur, 11 00:00:35,366 --> 00:00:37,112 or who was the fastest, 12 00:00:37,112 --> 00:00:38,715 or who had the most feathers, 13 00:00:38,715 --> 00:00:42,333 the most ridiculous armor, spikes or teeth. 14 00:00:42,333 --> 00:00:46,340 But perhaps the answer had to do with their internal anatomy, 15 00:00:46,340 --> 00:00:48,619 a secret weapon, so to speak. 16 00:00:48,884 --> 00:00:52,591 My colleagues and I, we think it was their lungs. 17 00:00:53,356 --> 00:00:57,698 I am both a paleontologist and a comparative anatomist, 18 00:00:57,698 --> 00:00:59,810 and I am interested in understanding 19 00:00:59,810 --> 00:01:03,219 how the specialized dinosaur lung helped them take over the planet. 20 00:01:03,949 --> 00:01:08,140 So we are going to jump back over 200 million years 21 00:01:08,140 --> 00:01:09,768 to the Triassic Period. 22 00:01:09,768 --> 00:01:11,946 The environment was extremely harsh, 23 00:01:11,946 --> 00:01:13,609 there were no flowering plants, 24 00:01:13,609 --> 00:01:15,887 so this means that there was no grass. 25 00:01:15,887 --> 00:01:19,994 So imagine a landscape filled with all pine trees and ferns. 26 00:01:20,659 --> 00:01:24,401 At the same time, there were small lizards, 27 00:01:24,401 --> 00:01:26,678 mammals, insects, 28 00:01:26,678 --> 00:01:28,824 and there were also carnivorous and herbivorous reptiles, 29 00:01:28,824 --> 00:01:33,678 all competing for the same resources. 30 00:01:33,678 --> 00:01:35,241 Critical to this story 31 00:01:35,241 --> 00:01:37,070 is that oxygen levels 32 00:01:37,070 --> 00:01:40,697 have been estimated to have been as low as 15 percent, 33 00:01:40,697 --> 00:01:42,874 compared to today's 21 percent. 34 00:01:42,874 --> 00:01:46,719 So it would have been crucial for dinosaurs to be able to breathe 35 00:01:46,719 --> 00:01:49,192 in this low-oxygen environment, 36 00:01:49,192 --> 00:01:50,773 not only to survive 37 00:01:50,773 --> 00:01:53,250 but to thrive and to diversify. 38 00:01:54,629 --> 00:01:57,872 So, how do we know what dinosaur lungs were even like, 39 00:01:57,872 --> 00:02:00,083 since all that remains of a dinosaur 40 00:02:00,083 --> 00:02:03,558 generally is its fossilized skeleton? 41 00:02:03,558 --> 00:02:05,238 So the method that we use 42 00:02:05,238 --> 00:02:08,746 is called extant phylogenetic bracketing. 43 00:02:09,228 --> 00:02:13,885 This is a fancy way of saying that we study the anatomy, 44 00:02:13,885 --> 00:02:16,977 specifically in this case the lungs and skeleton, 45 00:02:16,977 --> 00:02:21,100 of the living descendants of dinosaurs on the evolutionary tree. 46 00:02:21,284 --> 00:02:24,509 So we would look at the anatomy of birds, 47 00:02:24,509 --> 00:02:27,304 who are the direct descendants of dinosaurs, 48 00:02:27,304 --> 00:02:31,726 and we'd look at the anatomy of crocodilians, 49 00:02:31,726 --> 00:02:32,761 who are their closest living relatives, 50 00:02:32,761 --> 00:02:34,658 and then we would look at the anatomy of lizards and turtles, 51 00:02:34,658 --> 00:02:37,367 who we can think of like their cousins. 52 00:02:37,367 --> 00:02:40,826 And then we apply these anatomical data to the fossil record, 53 00:02:40,826 --> 00:02:44,194 and then we can use that to reconstruct the lungs of dinosaurs. 54 00:02:44,501 --> 00:02:46,995 And in this specific instance, 55 00:02:46,995 --> 00:02:48,841 the skeleton of dinosaurs 56 00:02:48,841 --> 00:02:51,800 most closely resembles that of modern birds. 57 00:02:51,800 --> 00:02:56,722 So, because dinosaurs were competing with early mammals during this time period, 58 00:02:56,722 --> 00:03:00,700 it's important to understand the basic blueprint of the mammalian lung. 59 00:03:00,700 --> 00:03:03,557 Also, to reintroduce you to lungs in general, 60 00:03:03,557 --> 00:03:05,834 we will use my dog Mila of Troy, 61 00:03:05,834 --> 00:03:08,261 the face that launched a thousand treats, 62 00:03:08,261 --> 00:03:09,408 as our model. 63 00:03:09,408 --> 00:03:11,204 (Laughter) 64 00:03:11,204 --> 00:03:14,963 So this story takes place inside of a chest cavity. 65 00:03:14,963 --> 00:03:17,856 So I want you to visualize the ribcage of a dog. 66 00:03:17,856 --> 00:03:21,350 Think about how the spine and vertebral column 67 00:03:21,350 --> 00:03:24,041 is completely horizontal to the ground. 68 00:03:24,041 --> 00:03:25,937 This is how the spinal vertebral column 69 00:03:25,937 --> 00:03:28,646 is going to be in all of the animals that we will be talking about, 70 00:03:28,646 --> 00:03:30,443 whether they walked on two legs 71 00:03:30,443 --> 00:03:32,753 or four legs. 72 00:03:32,753 --> 00:03:36,745 Now, I want you to climb inside of the imaginary ribcage and look up. 73 00:03:36,944 --> 00:03:39,451 This is our thoracic ceiling. 74 00:03:39,633 --> 00:03:43,192 This is where the top surface of the lungs 75 00:03:43,192 --> 00:03:46,485 comes into direct contact with the ribs and vertebrae. 76 00:03:46,485 --> 00:03:50,724 This interface is where our story takes place. 77 00:03:50,724 --> 00:03:53,734 Now I want you to visualize the lungs of a dog. 78 00:03:53,734 --> 00:03:56,860 On the outside, it's like a giant inflatable bag 79 00:03:56,860 --> 00:04:00,104 where all parts of the bag expand during inhalation 80 00:04:00,104 --> 00:04:02,679 and contract during exhalation. 81 00:04:02,880 --> 00:04:06,038 Inside of the bag, there's a series of branching tubes, 82 00:04:06,038 --> 00:04:08,815 and these tubes are called the bronchial tree. 83 00:04:08,815 --> 00:04:12,755 These tubes deliver the inhaled oxygen 84 00:04:12,755 --> 00:04:15,516 to, ultimately, the alveoli. 85 00:04:15,516 --> 00:04:20,703 They cross over a thin membrane into the bloodstream by diffusion. 86 00:04:20,703 --> 00:04:23,679 Now, this part is critical. 87 00:04:23,679 --> 00:04:27,005 The entire mammalian lung is mobile. 88 00:04:27,005 --> 00:04:31,446 That means it's moving during the entire respiratory process, 89 00:04:32,094 --> 00:04:35,402 so that thin membrane, the blood-gas barrier, 90 00:04:35,402 --> 00:04:37,979 cannot be too thin or it will break. 91 00:04:37,979 --> 00:04:41,721 Now, remember the blood-gas barrier, because we will be returning to this. 92 00:04:41,721 --> 00:04:44,327 So, you're still with me? 93 00:04:44,327 --> 00:04:46,306 Because we're going to start birds and it gets crazy, 94 00:04:46,306 --> 00:04:47,692 so hold on to your butts. 95 00:04:47,692 --> 00:04:50,961 So the bird 96 00:04:50,961 --> 00:04:53,223 is completely different from the mammal, 97 00:04:53,223 --> 00:04:55,568 and we are going to be using birds 98 00:04:55,568 --> 00:04:58,545 as our model to reconstruct the lungs of dinosaurs. 99 00:04:58,545 --> 00:05:00,040 So in the bird, 100 00:05:00,040 --> 00:05:01,919 air passes through the lung, but the lung does not expand or contract. 101 00:05:01,919 --> 00:05:06,109 The lung is immobilized, 102 00:05:06,109 --> 00:05:09,203 it has the texture of a dense sponge, 103 00:05:09,203 --> 00:05:10,782 and it's inflexible 104 00:05:10,782 --> 00:05:14,406 and locked into place on the top and sides by the ribcage 105 00:05:14,406 --> 00:05:17,116 and on the bottom by a horizontal membrane. 106 00:05:18,364 --> 00:05:21,689 It is then unidirectionally ventilated 107 00:05:21,689 --> 00:05:25,629 by a series of flexible, bag-like structures 108 00:05:25,629 --> 00:05:27,908 that branch off of the bronchial tree 109 00:05:27,908 --> 00:05:29,955 beyond the lung itself, 110 00:05:29,955 --> 00:05:31,849 and these are called air sacs. 111 00:05:31,849 --> 00:05:36,022 Now, this entire extremely delicate setup 112 00:05:36,022 --> 00:05:37,720 is locked into place 113 00:05:37,720 --> 00:05:40,844 by a series of forked ribs 114 00:05:40,844 --> 00:05:43,573 all along the thoracic ceiling. 115 00:05:43,573 --> 00:05:46,566 Also, in many species of birds, 116 00:05:46,566 --> 00:05:49,603 extension arise from the lung 117 00:05:49,603 --> 00:05:50,934 and the air sacs, 118 00:05:50,934 --> 00:05:53,696 they invade the skeletal tissues, 119 00:05:53,696 --> 00:05:56,055 usually the vertebrae, sometimes the ribs, 120 00:05:56,055 --> 00:05:58,832 and they lock the respiratory system into place, 121 00:05:58,832 --> 00:06:02,556 and this is called vertebral pneumaticity. 122 00:06:02,556 --> 00:06:06,065 The forked ribs and the vertebral pneumaticity 123 00:06:06,065 --> 00:06:09,305 are two clues that we can hunt for in the fossil record, 124 00:06:09,305 --> 00:06:11,357 because these two skeletal traits 125 00:06:11,357 --> 00:06:16,779 would indicate that regions of the respiratory system of dinosaurs 126 00:06:16,779 --> 00:06:19,789 are immobilized. 127 00:06:19,789 --> 00:06:23,963 This anchoring of the respiratory system 128 00:06:23,963 --> 00:06:28,020 facilitated the evolution of the thinning of the blood-gas barrier, 129 00:06:28,020 --> 00:06:34,604 that thin membrane over which oxygen was diffusing into the bloodstream. 130 00:06:35,136 --> 00:06:37,813 The immobility permits this 131 00:06:37,813 --> 00:06:41,305 because a thin barrier is a weak barrier, 132 00:06:41,305 --> 00:06:45,612 and the weak barrier would rupture if it was actively being ventilated 133 00:06:45,612 --> 00:06:48,056 like a mammalian lung. 134 00:06:48,056 --> 00:06:50,649 So why do we care about this? 135 00:06:50,649 --> 00:06:52,362 Why does this even matter? 136 00:06:52,362 --> 00:06:57,366 Oxygen more easily diffuses across a thin membrane, 137 00:06:57,366 --> 00:07:02,787 and a thin membrane is one way of enhancing respiration 138 00:07:03,504 --> 00:07:06,347 under low-oxygen conditions, 139 00:07:06,347 --> 00:07:08,474 low-oxygen conditions like that of the Triassic Period. 140 00:07:08,474 --> 00:07:16,124 So, if dinosaurs did indeed have this type of lung, 141 00:07:16,124 --> 00:07:18,633 they'd be better equipped to breathe 142 00:07:18,633 --> 00:07:20,995 than all other animals, 143 00:07:20,995 --> 00:07:23,224 including mammals. 144 00:07:23,224 --> 00:07:26,649 So do you remember the extant phylogenetic bracket method, 145 00:07:26,649 --> 00:07:29,341 where we take the anatomy of modern animals 146 00:07:29,341 --> 00:07:31,952 and we apply that to the fossil record? 147 00:07:31,952 --> 00:07:37,058 So, clue number one was the forked ribs of modern birds. 148 00:07:37,058 --> 00:07:42,062 Well, we find that in pretty much the majority of dinosaurs. 149 00:07:42,062 --> 00:07:46,802 So that means that the top surface of the lungs of dinosaurs 150 00:07:46,802 --> 00:07:49,278 would be locked into place, 151 00:07:49,278 --> 00:07:52,255 just like modern birds. 152 00:07:52,255 --> 00:07:55,747 Clue number two is vertebral pneumaticity. 153 00:07:55,747 --> 00:07:58,589 We find this in sauropod dinosaurs and theropod dinosaurs, 154 00:07:58,589 --> 00:08:00,568 which is the group that contains predatory dinosaurs 155 00:08:00,568 --> 00:08:05,524 and gave rise to modern birds. 156 00:08:06,481 --> 00:08:10,221 And while we don't find evidence of fossilized lung tissue in dinosaurs, 157 00:08:10,221 --> 00:08:17,187 vertebral pneumaticity gives us evidence of what the lung was doing 158 00:08:17,187 --> 00:08:19,449 during the life of these animals. 159 00:08:19,449 --> 00:08:24,755 Lung tissue or air sac tissue was invading the vertebrae, 160 00:08:24,755 --> 00:08:27,330 hollowing them out just like a modern bird, 161 00:08:27,330 --> 00:08:31,487 and locking regions of the respiratory system into place, 162 00:08:31,487 --> 00:08:33,981 immobilizing them. 163 00:08:33,981 --> 00:08:36,340 The forked ribs 164 00:08:36,340 --> 00:08:39,016 and the vertebral pneumaticity together 165 00:08:39,016 --> 00:08:40,663 were creating an immobilized, rigid framework 166 00:08:40,663 --> 00:08:46,880 that locked the respiratory system into place 167 00:08:46,880 --> 00:08:50,279 that permitted the evolution of that super-thin, 168 00:08:50,279 --> 00:08:53,000 super-delicate blood-gas barrier that we see today in modern birds. 169 00:08:53,000 --> 00:08:59,085 Evidence of this straight-jacketed lung in dinosaurs 170 00:08:59,085 --> 00:09:02,561 means that they had the capability to evolve a lung 171 00:09:02,561 --> 00:09:04,323 that would have been able to breathe 172 00:09:04,323 --> 00:09:10,193 under the hypoxic, or low-oxygen atmosphere of the Triassic period. 173 00:09:10,193 --> 00:09:14,483 This rigid skeletal setup in dinosaurs 174 00:09:14,483 --> 00:09:17,823 would have given them a significant adaptive advantage 175 00:09:17,823 --> 00:09:19,253 over other animals, 176 00:09:19,253 --> 00:09:21,279 particularly mammals, 177 00:09:21,279 --> 00:09:23,558 whose flexible lung couldn't have adapted 178 00:09:23,558 --> 00:09:27,565 to the hypoxic, or low-oxygen, atmosphere of the Triassic. 179 00:09:27,848 --> 00:09:33,037 This anatomy may have been the secret weapon of dinosaurs 180 00:09:33,037 --> 00:09:36,295 that gave them that advantage over other animals, 181 00:09:36,295 --> 00:09:39,122 and this gives us an excellent launchpad 182 00:09:39,122 --> 00:09:44,214 to start testing hypotheses of dinosaurian diversification. 183 00:09:44,214 --> 00:09:48,068 This is the story of the dinosaurs' beginning, 184 00:09:48,068 --> 00:09:52,590 and it's just the beginning of the story of our research into this subject. 185 00:09:52,590 --> 00:09:54,918 Thank you. 186 00:09:54,918 --> 00:09:57,879 (Applause)