1 00:00:07,099 --> 00:00:09,398 Between 2008 and 2012, 2 00:00:09,398 --> 00:00:13,591 archeologists excavated the rubble of an ancient hospital in England. 3 00:00:13,591 --> 00:00:16,950 In the process, they uncovered a number of skeletons. 4 00:00:16,950 --> 00:00:19,130 One in particular belonged to a wealthy male 5 00:00:19,130 --> 00:00:21,570 who lived in the 11th or 12th century 6 00:00:21,570 --> 00:00:25,411 and died of leprosy between the ages of 18 and 25. 7 00:00:25,411 --> 00:00:26,960 How do we know all this? 8 00:00:26,960 --> 00:00:30,041 Simply by examining some old, soil-caked bones? 9 00:00:30,041 --> 00:00:31,669 Even centuries after death, 10 00:00:31,669 --> 00:00:35,400 skeletons carry unique features that tell us about their identities. 11 00:00:35,400 --> 00:00:39,541 And using modern tools and techniques, we can read those features as clues. 12 00:00:39,541 --> 00:00:43,581 This is a branch of science known as biological anthropology. 13 00:00:43,581 --> 00:00:47,167 It allows researchers to piece together details about ancient individuals 14 00:00:47,167 --> 00:00:51,301 and identify historical events that affected whole populations. 15 00:00:51,301 --> 00:00:53,708 When researchers uncover a skeleton, 16 00:00:53,708 --> 00:00:56,915 some of the first clues they gather, like age and gender, 17 00:00:56,915 --> 00:00:58,647 lie in its morphology, 18 00:00:58,647 --> 00:01:02,407 which is the structure, appearance, and size of a skeleton. 19 00:01:02,407 --> 00:01:05,715 Bones, like the clavicle, stop growing at age 25, 20 00:01:05,715 --> 00:01:08,627 so a skeleton with a clavicle that hasn't fully formed 21 00:01:08,627 --> 00:01:10,560 must be younger than that. 22 00:01:10,560 --> 00:01:14,768 Similarly, the plates in the cranium can continue fusing up to age 40, 23 00:01:14,768 --> 00:01:17,189 and sometimes beyond. 24 00:01:17,189 --> 00:01:20,480 By combining these with some microscopic skeletal clues, 25 00:01:20,480 --> 00:01:25,314 physical anthropologists can estimate an approximate age of death. 26 00:01:25,314 --> 00:01:27,890 Meanwhile, pelvic bones reveal gender. 27 00:01:27,890 --> 00:01:32,015 Biologically, female pelvises are wider, allowing women to give birth, 28 00:01:32,015 --> 00:01:34,186 where as males are narrower. 29 00:01:34,186 --> 00:01:36,675 Bones also betray the signs of ancient disease. 30 00:01:36,675 --> 00:01:39,806 Disorders like anemia leave their traces on the bones. 31 00:01:39,806 --> 00:01:42,306 And the condition of teeth can reveal clues 32 00:01:42,306 --> 00:01:44,695 to factors like diet and malnutrition, 33 00:01:44,695 --> 00:01:47,836 which sometimes correlate with wealth or poverty. 34 00:01:47,836 --> 00:01:52,115 A protein called collagen can give us even more profound details. 35 00:01:52,115 --> 00:01:53,336 The air we breathe, 36 00:01:53,336 --> 00:01:54,357 water we drink, 37 00:01:54,357 --> 00:01:55,616 and food we eat 38 00:01:55,616 --> 00:01:58,287 leaves permanent traces in our bones and teeth 39 00:01:58,287 --> 00:02:00,437 in the form of chemical compounds. 40 00:02:00,437 --> 00:02:03,888 These compounds contain measurable quantities called isotopes. 41 00:02:03,888 --> 00:02:09,028 Stable isotopes in bone collagen and tooth enamel varies among mammals 42 00:02:09,028 --> 00:02:12,117 dependent on where they lived and what they ate. 43 00:02:12,117 --> 00:02:13,906 So by analyzing these isotopes, 44 00:02:13,906 --> 00:02:18,457 we can draw direct inferences regarding the diet and location of historic people. 45 00:02:18,457 --> 00:02:20,747 Not only that, but during life, 46 00:02:20,747 --> 00:02:23,858 bones undergo a constant cycle of remodeling. 47 00:02:23,858 --> 00:02:26,207 So if someone moves from one place to another, 48 00:02:26,207 --> 00:02:28,131 bones synthesized after that move 49 00:02:28,131 --> 00:02:32,684 will also reflect the new isotopic signatures of the surrounding environment. 50 00:02:32,684 --> 00:02:36,257 That means that skeletons can be used like migratory maps. 51 00:02:36,257 --> 00:02:40,026 For instance, between 1-650 AD, 52 00:02:40,026 --> 00:02:44,987 the great city of Teotihuacan in Mexico bustled with thousands of people. 53 00:02:44,987 --> 00:02:48,640 Researchers examined the isotope ratios in skeletons' tooth enamel, 54 00:02:48,640 --> 00:02:52,047 which held details of their diets when they were young. 55 00:02:52,047 --> 00:02:54,860 They found evidence for significant migration into the city. 56 00:02:54,860 --> 00:02:57,495 A majority of the individuals were born elsewhere. 57 00:02:57,495 --> 00:03:01,089 With further geological and skeletal analysis, 58 00:03:01,089 --> 00:03:04,950 they may be able to map where those people came from. 59 00:03:04,950 --> 00:03:09,201 That work in Teotihuacan is also an example of how bio-anthropologists 60 00:03:09,201 --> 00:03:11,951 study skeletons in cemeteries and mass graves, 61 00:03:11,951 --> 00:03:14,711 then analyze their similarities and differences. 62 00:03:14,711 --> 00:03:17,640 From that information, they can learn about cultural beliefs, 63 00:03:17,640 --> 00:03:18,371 social norms, 64 00:03:18,371 --> 00:03:19,119 wars, 65 00:03:19,119 --> 00:03:21,321 and what caused their deaths. 66 00:03:21,321 --> 00:03:25,500 Today, we use these tools to answer big questions about how forces, 67 00:03:25,500 --> 00:03:26,829 like migration and disease, 68 00:03:26,829 --> 00:03:28,742 shape the modern world. 69 00:03:28,742 --> 00:03:33,920 DNA analysis is even possible in some relatively well-preserved ancient remains. 70 00:03:33,920 --> 00:03:37,021 That's helping us understand how diseases like tuberculosis 71 00:03:37,021 --> 00:03:39,062 have evolved over the centuries 72 00:03:39,062 --> 00:03:42,420 so we can build better treatments for people today. 73 00:03:42,420 --> 00:03:46,111 Ancient skeletons can tell us a surprisingly great deal about the past. 74 00:03:46,111 --> 00:03:48,722 So if your remains are someday buried intact, 75 00:03:48,722 --> 00:03:52,011 what might archeologists of the distant future learn from them?