Anthropology Life And Producing Variation
ESSENTIALS OF PHYSICAL ANTHROPOLOGY
Bn W. W. NORTON & COMPANY NEW YORK • LONDON
ESSENTIALS OF PHYSICAL ANTHROPOLOGY D I S C O V E R I N G O U R O R I G I N S
CLARK SPENCER LARSEN T H E O H I O S T A T E U N I V E R S I T Y
T H I R D E D I T I O N
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Library of Congress Cataloging- in- Publication Data
Larsen, Clark Spencer. Essentials of physical anthropology : discovering our origins / Clark Spencer Larsen, The Ohio State University.—Third edition. pages cm Includes index. ISBN 978-0-393-93866-1 (pbk.) 1. Physical anthropology. I. Title. GN50.4.L367 2015 599.9—dc23 2015023645
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TO CHRIS AND SPENCER, WITH MY DEEPEST THANKS FOR THEIR HELP, ENCOURAGEMENT, AND
(UNWAVERING) PATIENCE
vi
CLARK SPENCER LARSEN heads the Department of Anthropology at The Ohio State University, Columbus. A native of Nebraska, he received his B.A. from Kansas State University and M.A. and Ph.D. from the Uni- versity of Michigan. Clark’s research is in bioarchaeology, skeletal biol- ogy, and paleoanthropology. He has worked in North America, Europe, and Asia. He has taught at the University of Massachusetts, Northern Illi- nois University, Purdue University, and the University of North Carolina. Since 2001, he has been a member of the faculty at Ohio State, where he is Distinguished Professor of Social and Behavioral Sciences. He teaches introductory physical anthropology, osteology, bioarchaeology, and paleoanthropology. Clark has served as president of the American Association of Physical Anthropologists and as editor- in- chief of the American Journal of Physical Anthropology. In addition to Our Origins, he has authored or edited 30 books and monographs, including Bioar- chaeology: Interpreting Behavior from the Human Skeleton, Skeletons in Our Closet, Advances in Dental Anthropology, and A Companion to Biological Anthropology.
ABOUT THE AUTHOR
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To the Instructor xx To the Student xxviii
CHAPTER 1 What Is Physical Anthropology? 2
PART I The Present: Foundation for the Past 19
CHAPTER 2 Evolution: Constructing a Fundamental Scientific Theory 20
CHAPTER 3 Genetics: Reproducing Life and Producing Variation 42
CHAPTER 4 Genes and Their Evolution: Population Genetics 70
CHAPTER 5 Biology in the Present: Living People 100
CHAPTER 6 Biology in the Present: The Other Living Primates 132
CHAPTER 7 Primate Sociality, Social Behavior, and Culture 164
PART II The Past: Evidence for the Present 183
CHAPTER 8 Fossils and Their Place in Time and Nature 184
CHAPTER 9 Primate Origins and Evolution: The First 50 Million Years 216
CHAPTER 10 Early Hominin Origins and Evolution: The Roots of Humanity 244
CHAPTER 11 The Origins and Evolution of Early Homo 282
CHAPTER 12 The Origins, Evolution, and Dispersal of Modern People 306
CHAPTER 13 Our Last 10,000 Years: Agriculture, Population, Biology 350
BASIC TABLE OF CONTENTS
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TABLE OF CONTENTS
Two-Page Spreads xix
To the Instructor xx
Tools for Teaching and Learning xxiii
Who Helped xxv
To the Student xxviii
CHAPTER 1 WHAT IS PHYSICAL ANTHROPOLOGY? 2
Big Questions 3 What Is Anthropology? 5 What Is Physical Anthropology? 7
What Do Physical Anthropologists Do? 7 What Makes Humans So Different from Other Animals?: The Six Steps to
Humanness 8 How We Know What We Know: The Scientific Method 14 Answering the Big Questions 16 Key Terms 17 Evolution Review 17 Additional Readings 17
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x Table of Contentsx Table of Contents
PART I THE PRESENT: FOUNDATION FOR THE PAST 19
CHAPTER 2 EVOLUTION: CONSTRUCTING A FUNDAMENTAL SCIENTIFIC THEORY 20
Big Questions 21 The Theory of Evolution: The Context for Darwin 23
Geology: Reconstructing Earth’s Dynamic History 24 Paleontology: Reconstructing the History of Life on Earth 25 Taxonomy and Systematics: Classifying Living Organisms and Identifying Their
Biological Relationships 26 Concept Check Pre-Darwinian Theory and Ideas: Groundwork for
Evolution 27 Demography: Influences on Population Size and Competition for Limited
Resources 28 Evolutionary Biology: Explaining the Transformation of Earlier Life-Forms into
Later Life-Forms 28 Concept Check Darwin Borrows from Malthus 30 The Theory of Evolution: Darwin’s Contribution 31 Since Darwin: Mechanisms of Inheritance, the Evolutionary Synthesis, and the
Discovery of DNA 33 Mechanisms of Inheritance 33 The Evolutionary Synthesis, the Study of Populations, and the Causes of
Evolution 36 DNA: Discovery of the Molecular Basis of Evolution 37
Answering the Big Questions 39 Key Terms 39 Evolution Review: Past, Present, and Future of a Fundamental Scientific
Theory 40 Additional Readings 41
CHAPTER 3 GENETICS: REPRODUCING LIFE AND PRODUCING VARIATION 42
Big Questions 43 The Cell: Its Role in Reproducing Life and Producing Variation 44 The DNA Molecule: The Genetic Code 46
DNA: The Blueprint of Life 48 The DNA Molecule: Replicating the Code 48 How Do We Know? Ancient DNA Opens New Windows on the Past 50 Concept Check The Two Steps of DNA Replication 51
Chromosome Types 51 Mitosis: Production of Identical Somatic Cells 52 Meiosis: Production of Gametes (Sex Cells) 54 Producing Proteins: The Other Function of DNA 56
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Concept Check The Two Steps of Protein Synthesis 60 Genes: Structural and Regulatory 61 Polymorphisms: Variations in Specific Genes 61
Genotypes and Phenotypes: Genes and Their Expression 63 The Complexity of Genetics 65 Answering the Big Questions 67 Key Terms 68 Evolution Review: Insights from Genetics 68 Additional Readings 69
CHAPTER 4 GENES AND THEIR EVOLUTION: POPULATION GENETICS 70
Big Questions 71 Demes, Reproductive Isolation, and Species 72 Hardy-Weinberg Law: Testing the Conditions of Genetic Equilibrium 76 Mutation: The Only Source of New Alleles 77 Natural Selection: Advantageous Characteristics, Survival, and
Reproduction 80 Patterns of Natural Selection 81 Natural Selection in Animals: The Case of the Peppered Moth and Industrial
Melanism 82 Natural Selection in Humans: Abnormal Hemoglobins and Resistance to
Malaria 84 The Geography of Sickle-Cell Anemia and the Association with Malaria 86 The Biology of Sickle-Cell Anemia and Malarial Infection 87 The History of Sickle-Cell Anemia and Malaria 87 Other Hemoglobin and Enzyme Abnormalities 89
Genetic Drift: Genetic Change due to Chance 90 Founder Effect: A Special Kind of Genetic Drift 93
Gene Flow: Spread of Genes across Population Boundaries 93 Concept Check What Causes Evolution? 97 Answering the Big Questions 97 Key Terms 98 Evolution Review: The Four Forces of Evolution 99 Additional Readings 99
CHAPTER 5 BIOLOGY IN THE PRESENT: LIVING PEOPLE 100
Big Questions 101 Is Race a Valid, Biologically Meaningful Concept? 102
Brief History of the Race Concept 102 Debunking the Race Concept: Franz Boas Shows that Human Biology Is Not
Static 103
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xii Table of Contentsxii Table of Contents
So-Called Racial Traits Are Not Concordant 103 Human Variation: Geographic Clines, Not Racial Categories 103
Life History: Growth and Development 104 The Growth Cycle: Conception through Adulthood 105 Prenatal Stage: Sensitive to Environmental Stress, Predictive of Adult Health
105 Postnatal Stage: The Maturing Brain, Preparing for Adulthood 106 Adult Stage: Aging and Senescence 109 Evolution of Human Life History: Food, Sex, and Strategies for Survival and
Reproduction 111 Concept Check Life History Stages in Humans: Prenatal, Postnatal, and
Adult 111 Prolonged Childhood: Fat-Bodied Moms and Their Big-Brained Babies 112 Grandmothering: Part of Human Adaptive Success 112
Adaptation: Meeting the Challenges of Living 113 Climate Adaptation: Living on the Margins 114
Heat Stress and Thermoregulation 114 Body Shape and Adaptation to Heat Stress 114 Cold Stress and Thermoregulation 115 Solar Radiation and Skin Color 116 Solar Radiation and Vitamin D Synthesis 117 Solar Radiation and Folate Protection 118 High Altitude and Access to Oxygen 118
Concept Check Adaptation: Heat, Cold, Solar Radiation, High Altitude 119 Nutritional Adaptation: Energy, Nutrients, and Function 120
Macronutrients and Micronutrients 120 Human Nutrition Today 121 Overnutrition and the Consequences of Dietary Excess 123
Concept Check Nutritional Adaptation 126 Workload Adaptation: Skeletal Homeostasis and Function 126 Excessive Activity and Reproductive Ecology 128
Answering the Big Questions 129 Key Terms 130 Evolution Review: Human Variation Today 130 Additional Readings 131
CHAPTER 6 BIOLOGY IN THE PRESENT: THE OTHER LIVING PRIMATES 132
Big Questions 133 What Is a Primate? 135
Arboreal Adaptation—Primates Live in Trees and Are Good at It 138 Primates Have a Versatile Skeletal Structure 138 Primates Have an Enhanced Sense of Touch 140
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Primates Have an Enhanced Sense of Vision 141 Primates Have a Reduced Reliance on Senses of Smell and Hearing 141
Concept Check What Makes Primates Good at Living in Trees? 142 Dietary Plasticity—Primates Eat a Highly Varied Diet, and Their Teeth Reflect This
Adaptive Versatility 142 Primates Have Retained Primitive Characteristics in Their Teeth 142 Primates Have a Reduced Number of Teeth 142 Primates Have Evolved Different Dental Specializations and Functional
Emphases 143 Concept Check What Gives Primates Their Dietary Flexibility? 143
Parental Investment—Primate Parents Provide Prolonged Care for Fewer but Smarter, More Socially Complex, and Longer-Lived Offspring 146
Concept Check Primate Parenting 148 What Are the Kinds of Primates? 148
The Strepsirhines 153 Concept Check Monkey or Ape? Differences Matter 154
The Haplorhines 155 Concept Check Strepsirhines and Haplorhines Differ in Their Anatomy and
Senses 161 Answering the Big Questions 162 Key Terms 162 Evolution Review: Our Closest Living Relatives 163 Additional Readings 163
CHAPTER 7 PRIMATE SOCIALITY, SOCIAL BEHAVIOR, AND CULTURE 164
Big Questions 165 Primate Societies: Diverse, Complex, Long-Lasting 166
Diversity of Primate Societies 166 Primate Social Behavior: Enhancing Survival and Reproduction 167 Primate Residence Patterns 168 Primate Reproductive Strategies: Males’ Differ from Females’ 169
Concept Check Male and Female Reproductive Strategies 170 The Other Side of Competition: Cooperation in Primates 170
Getting Food: Everybody Needs It, but the Burden Is on Mom 172 Acquiring Resources and Transmitting Knowledge: Got Culture? 173 Vocal Communication Is Fundamental Behavior in Primate Societies 175 Answering the Big Questions 181 Key Terms 181 Evolution Review: Primate Social Organization and Behavior 182 Additional Readings 182
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PART II THE PAST: EVIDENCE FOR THE PRESENT 183
CHAPTER 8 FOSSILS AND THEIR PLACE IN TIME AND NATURE 184
Big Questions 185 Fossils: Memories of the Biological Past 188
What Are Fossils? 188 Taphonomy and Fossilization 188 Types of Fossils 188 Limitations of the Fossil Record: Representation Is Important 191
Just How Old Is the Past? 192 Time in Perspective 192 Geologic Time: Earth History 193 Relative and Numerical Age 195 Relative Methods of Dating: Which Is Older, Younger, the Same Age? 196
Stratigraphic Correlation 196 Chemical Dating 196 Biostratigraphic (Faunal) Dating 197 Cultural Dating 198
Absolute Methods of Dating: What Is the Numerical Age? 198 The Radiometric Revolution and the Dating Clock 198 The Revolution Continues: Radiopotassium Dating 203 Non-Radiometric Absolute Dating Methods 205
Genetic Dating: The Molecular Clock 207 Concept Check How Old Is It? 208 Reconstruction of Ancient Environments and Landscapes 209
The Driving Force in Shaping Environment: Temperature 210 Chemistry of Animal Remains and Ancient Soils: Windows onto Diets and
Habitats 211 Answering the Big Questions 213 Key Terms 214 Evolution Review: The Fossil Record 214 Additional Readings 215
CHAPTER 9 PRIMATE ORIGINS AND EVOLUTION: THE FIRST 50 MILLION YEARS 216
Big Questions 217 Why Did Primates Emerge? 218 The First True Primate: Visual, Tree-Dwelling, Agile, Smart 220
Primates in the Paleocene? 220 Eocene Euprimates: The First True Primates 220 The Anthropoid Ancestor: Euprimate Contenders 224 The First Anthropoids 225
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Early Anthropoids Evolve and Thrive 227 Concept Check When Were They Primates?: Anatomy through Time 227 Coming to America: Origin of New World Higher Primates 230
How Anthropoids Got to South America 230 Apes Begin in Africa and Dominate the Miocene Primate World 231 Apes Leave Africa: On to New Habitats and New Adaptations 234
Apes in Europe: The Dryopithecids 234 Apes in Asia: The Sivapithecids 235 Dead End in Ape Evolution: The Oreopithecids 235 Climate Shifts and Habitat Changes 238 Miocene Ape Survivors Give Rise to Modern Apes 238
Apes Return to Africa? 238 Concept Check The First Apes: A Remarkable Radiation 239 Monkeys on the Move 239 Answering the Big Questions 241 Key Terms 242 Evolution Review: Primate Social Organization and Behavior:
The Deep Roots of the Order Primates 242 Additional Readings 243
CHAPTER 10 EARLY HOMININ ORIGINS AND EVOLUTION: THE ROOTS OF HUMANITY 244
Big Questions 245 What Is a Hominin? 246
Bipedal Locomotion: Getting Around on Two Feet 248 Nonhoning Chewing: No Slicing, Mainly Grinding 248
Why Did Hominins Emerge? 251 Charles Darwin’s Hunting Hypothesis 251
Concept Check What Makes a Hominin a Hominin? 252 Peter Rodman and Henry McHenry’s Patchy Forest Hypothesis 254 Owen Lovejoy’s Provisioning Hypothesis 254 Sexual Dimorphism and Human Behavior 255 Bipedality Had Its Benefits and Costs: An Evolutionary Trade-Off 255
What Were the First Hominins? 256 The Pre-Australopithecines 256
Sahelanthropus tchadensis (7–6 mya) 257 Orrorin tugenensis (6 mya) 257 Ardipithecus kadabba and Ardipithecus ramidus (5.8–4.4 mya) 258
Concept Check The Pre-Australopithecines 263 The Australopithecines (4–1 mya) 264
Australopithecus anamensis (4 mya) 265 Australopithecus afarensis (3.6–3.0 mya) 266 Australopithecus (Kenyanthropus) platyops (3.5 mya) 269
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Diversification of the Homininae: Emergence of Multiple Evolutionary Lineages from One (3–1 mya) 269
Australopithecus garhi (2.5 mya) 270 The First Tool Makers and Users: Australopithecus or Homo? 270
Evolution and Extinction of the Australopithecines 273 Concept Check The Australopithecines 276 Answering the Big Questions 280 Key Terms 280 Evolution Review: The First Hominins 281 Additional Readings 281
CHAPTER 11 THE ORIGINS AND EVOLUTION OF EARLY HOMO 282
Big Questions 283 Homo habilis: The First Species of the Genus Homo 285
The Path to Humanness: Bigger Brains, Tool Use, and Adaptive Flexibility 285
Homo habilis and Australopithecus: Similar in Body Plan 287 Homo habilis’s Adaptation: Intelligence and Tool Use Become Important 287 Habitat Changes and Increasing Adaptive Flexibility 288
Concept Check Homo habilis: The First Member of Our Lineage 288 Homo erectus: Early Homo Goes Global 289
Homo erectus in Africa (1.8–.3 mya) 290 Homo erectus in Asia (1.8–.3 mya) 293 Homo erectus in Europe (1.2 million–400,000 yBP) 296 Evolution of Homo erectus: Biological Change, Adaptation, and Improved
Nutrition 297 Patterns of Evolution in Homo erectus 302
Concept Check Homo erectus: Beginning Globalization 303 Answering the Big Questions 304 Key Terms 305 Evolution Review: The Origins of Homo 305 Additional Readings 305
CHAPTER 12 THE ORIGINS, EVOLUTION, AND DISPERSAL OF MODERN PEOPLE 306
Big Questions 307 What Is So Modern about Modern Humans? 309 Modern Homo sapiens: Single Origin and Global Dispersal or Regional
Continuity? 309 What Do Homo sapiens Fossils Tell Us about Modern Human Origins? 311
Early Archaic Homo sapiens 311 Archaic Homo sapiens in Africa (350,000–200,000 yBP) 312
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Early Archaic Homo sapiens in Asia (350,000–130,000 yBP) 312 Early Archaic Homo sapiens in Europe (500,000–130,000 yBP) 313 Early Archaic Homo sapiens’ Dietary Adaptations 313
Late Archaic Homo sapiens 314 Late Archaic Homo sapiens in Asia (60,000–40,000 yBP) 315 Late Archaic Homo sapiens in Europe (130,000–30,000 yBP) 316 The Neandertal Body Plan: Aberrant or Adapted? 319 Neandertal Hunting: Inefficient or Successful? 321 Neandertals Buried Their Dead 324 Neandertals Talked 325 Neandertals Used Symbols 327
Early Modern Homo sapiens 327 Concept Check Archaic Homo sapiens 328
Early Modern Homo sapiens in Africa (200,000–6,000 yBP) 329 Early Modern Homo sapiens in Asia (90,000–18,000 yBP) 331 Early Modern Homo sapiens in Europe (35,000–15,000 yBP) 332
Modern Behavioral and Cultural Transitions 334 How Has the Biological Variation in Fossil Homo sapiens Been
Interpreted? 335 Ancient DNA: Interbreeding between Neandertals and Early Modern People? 336
Concept Check Early Modern Homo sapiens 337 Living People’s Genetic Record: Settling the Debate on Modern Human Origins 338
Assimilation Model for Modern Human Variation: Neandertals Are Still with Us 339
Concept Check Models for Explaining Modern Homo sapiens’ Origins 340 Modern Humans’ Other Migrations: Colonization of Australia, the Pacific, and
the Americas 340 Down Under and Beyond: The Australian and Pacific Migrations 342 Arrival in the Western Hemisphere: The First Americans 344
Answering the Big Questions 348 Key Terms 349 Evolution Review: The Origins of Modern People 349 Additional Readings 349
CHAPTER 13 OUR LAST 10,000 YEARS: AGRICULTURE, POPULATION, BIOLOGY 350
Big Questions 351 The Agricultural Revolution: New Foods and New Adaptations 353
Population Pressure 354 Regional Variation 355 Survival and Growth 359
Agriculture: An Adaptive Trade-Off 360 Population Growth 360 Environmental Degradation 361
Concept Check The Good and Bad of Agriculture 362
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How Did Agriculture Affect Human Biology? 362 The Changing Face of Humanity 363
Two Hypotheses 363 Implications for Teeth 365
Concept Check Soft Food and Biological Change 365 Building a New Physique: Agriculture’s Changes to Workload/Activity 366 Health and the Agricultural Revolution 369
Population Crowding and Infectious Disease 369 Concept Check Labor, Lifestyle, and Adaptation in the Skeleton 370
The Consequences of Declining Nutrition: Tooth Decay 371 Nutritional Consequences Due to Missing Nutrients: Reduced Growth and
Abnormal Development 371 Nutritional Consequences of Iron Deficiency 373
Concept Check Health Costs of Agriculture 374 Nutritional Consequences: Heights on the Decline 375
If It Is So Bad for You, Why Farm? 375 The Past Is Our Future 375 Our Ongoing Evolution 376 Answering the Big Questions 378 Key Terms 379 Evolution Review: Setting the Stage for the Present and Future 379 Additional Readings 380
Appendix: The Skeleton A1
Glossary A11
Glossary of Place Names A19
Bibliography A21
Permissions Acknowledgments A47
Index A51
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T WO- PAGE SPRE ADS
I1
ENHANCED TOUCH
Primates have an enhanced sense of touch. This sensitivity is due in part to the presence of dermal ridges (fingerprints and toe prints) on the inside surfaces of the hands and feet. The potto, a prosimian, has primitive dermal ridges, whereas the human, a higher primate, has more derived ridges, which provide better gripping ability.
Em er
gi ng
c an
op y
M ai
n ca
no py
U nd
er st
or y
GENERALIZED SKELETAL STRUCTURE
Primates have a generalized skeletal structure. The bones that make up the shoulders, upper limbs, lower limbs, and other major joints such as the hands and feet are separate, giving primates a great deal of flexibility when moving in trees. In this monkey skeleton, note the grasping hands and feet, the long tail, and the equal length of the front and hind limbs relative to each other.
REDUCED SMELL
Primates have a reduced sense of smell. The smaller and less projecting snouts of most primates indicate their decreased reliance on smell.
DIETARY VERSATILITY
Primates have dietary plasticity. Part of the record of primate dietary adaptation is found in the teeth. The red colobus monkey dentition shown here is typical of a catarrhine dentition with a 2/1/2/3 dental formula. Note the differences in morphology of the four different tooth types: incisors (I1, I2), canines (C), premolars (P3, P4), and molars (M1, M2, M3).
ENHANCED VISION
Primates have an enhanced sense of vision. Evolution has given primates better vision, including increased depth perception and seeing in color. The eyes’ convergence provides significant overlap in the visual fields and thus greater sense of depth.
Human Potto
Overlapping visual fields
Taï Forest
MonkeyDog
Reduced snout length
I1 I2I2
CC
P3P3 P4P4 M1
M2
M3
M1
M2
M3
I1I1 I2I2 CC
P3P3
P4P4
M1
M2
M3
M1
M2
M3
Black-and-white colobus
Campbell’s
Chimpanzee
Demidoff’s galago
Diana monkey
Human
Lesser spot-nosed
Olive colobus
Potto
Putty-nosed
Red colobus
Sooty mangabey
Thomas’s galago
Eagle
F I G U R E
6.2 Primate Adaptation in Microcosm: The Taï Forest, Ivory Coast, West Africa
Apes Leave Africa: On to New Habitats and New Adaptations | 237236 | CHAPTER 9 Primate Origins and Evolution: The First 50 Million Years
Primate evolution began with primitive primates in the Eocene, setting the stage for the origin of all hominoids. Euprimates of the Eocene had the basic characteristics of living primates, such as convergent eye orbits and grasping digits. In the last 20 million years, primates diversified in appearance and behavior. These changes included the shift, for some, from life in the trees to life on the ground, and eventually the beginning of bipedality in the late miocene. (Based on Fleagle, J. G. Primate Adaptation and Evolution, 2nd ed. 1999. Academic Press.)
Scenes from the late Eocene in the Paris Basin. Top: The diurnal Adapis is feeding on leaves. Bottom: Several taxa of omomyids (Pseudoloris, Necrolemur, Microchoerus). Note the large eyes, a nocturnal adaptation, typical of both ancient and modern prosimians who are active at night.
Scene from the early Miocene of Rusinga Island, Kenya. Apes first appeared during this period, and these are the first apes (two species of Proconsul, Dendropithecus, Limnopithecus). These and other taxa form the ancestry of all later apes and hominins. Note the range of habitats occupied by these primates within the forest, including some in the middle and lower canopies and some on the forest floor. These primates show a combination of monkeylike and apelike features, in the skeleton and skull, respectively.
Scenes from the early Oligocene of the Fayum, Egypt. These anthropoid ancestors include Aegyptopithecus, Propliopithecus, and Apidium. These primates were adept arborealists, using their hands and feet for climbing and feeding.
Convergent eyes and grasping hands
Large eyes for nocturnal vision
Eocene 34–56 mya
Oligocene 23–34 mya Miocene 5.3–23 mya
Quadrupedal, monkeylike primate with superb arboreal skills
Quadrupedal, apelike primate. Note the lack of a tail, an ape characteristic.
Eocene-Oligocene-Miocene Habitats and Their Primates
F I G U R E
9.21
Figure 1.3 The Six Big Events of Human Evolution: Bipedalism, Nonhoning Chewing, Dependence on Material Culture, Speech, Hunting, and Domestication of Plants and Animals pp. 10–11
Figure 3.17 Protein Synthesis pp. 58–59
Figure 6.2 Primate Adaptation in Microcosm: The Taï Forest, Ivory Coast, West Africa pp. 136–137
Figure 9.21 Eocene– Oligocene– Miocene Habitats and Their Primates pp. 236–237
Figure 10.16 From Discovery to Understanding: Ardipithecus of Aramis pp. 260–261
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TO THE INSTRUCTOR
HOW THIS BOOK CAN HELP YOUR STUDENTS DISCOVER PHYSICAL ANTHROPOLOGY
IT IS ABOUT ENGAGEMENT
Teaching is about engagement— connecting the student with knowledge, making it real to the student, and having the student come away from the course with an understanding of core concepts. Essentials of Physical Anthropology seeks to engage the student in the learning process. Engaging the student is perhaps more of a challenge in the study of phys- ical anthropology than in the study of other sciences, mainly because the student has likely never heard of the subject. The average student has probably taken a precollege course in chemistry, physics, or biology. Physical anthropology, though, is rarely mentioned or taught in precollege settings. Commonly, the student first finds out about the subject when an academic advisor explains that physical anthro- pology is a popular course that fulfills the college’s natural science requirement.
Once taking the course, however, that same student usually connects quickly with the subject because so many of the topics are familiar— fossils, evolution, race, genet- ics, DNA, monkeys, forensic investigations, and origins of speech, to name a few. The student simply had not real- ized that these separately engaging topics come under the umbrella of one discipline, the subject of which is the study of human evolution and human variability.
Perhaps drawn to physical anthropology because it focuses on our past and our present as a species, the student quickly sees the fundamental importance of the discipline. In Discover magazine’s 100 top stories of 2009, 18 were from physical anthropology. Three topics from the field were in the top 10, including the remarkable new discovery of our earliest human ancestor, Ardipithecus. So important was this discovery that Science, the leading international professional science journal, called it the “Breakthrough of the Year” for
2009. The discussions in this textbook of topics familiar and unfamiliar give the student stepping- stones to science and to the centrality of physical anthropology as a window into understanding our world. Whether the students find the material familiar or unfamiliar, they will see that the book relates the discipline to human life: real concerns about human bodies and human identity. They will see themselves from an entirely different point of view and gain new awareness.
In writing this book, I made no assumptions about what the reader knows, except to assume that the reader— the stu- dent attending your physical anthropology class— has very little or no background in physical anthropology. As I wrote the book, I constantly reflected on the core concepts of phys- ical anthropology and how to make them understandable. I combined this quest for both accuracy and clarity with my philosophy of teaching— namely, engage the student to help the student learn. Simply, teaching is about engagement. While most students in an introductory physical anthro- pology class do not intend to become professional physical anthropologists, some of these students become interested enough to take more courses. So this book is written for stu- dents who will not continue their study of physical anthro- pology, those who get “hooked” by this fascinating subject (a common occurrence!), and those who now or eventually decide to become professionals in the field.
The book is unified by the subject of physical anthropol- ogy. But equally important is the central theme of science— what it is, how it is done, and how scientists (in our case, anthropologists) learn about the natural world. I wrote the book so as to create a picture of who humans are as organ- isms, how we got to where we are over the last millions of years of evolution, and where we are going in the future in light of current conditions. In regard to physical anthro- pology, the student should finish the book understanding human evolution and how it is studied, how the present helps us understand the past, the diversity of organisms living and past, and the nature of biological change over
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time and across geography. Such knowledge should help the student answer questions about the world. For example, how did primates emerge as a unique group of mammals? Why do people look different from place to place around the world? Why is it important to gain exposure to sunlight yet unsafe to prolong that exposure? Why is it unhealthy to be excessively overweight? Throughout their history, what have humans eaten, and why is it important to know?
I have presented such topics so that the student can come to understand the central concepts and build from them a fuller understanding of physical anthropology. Throughout the book, I emphasize hypothesis testing, the core of the scientific method, and focus on that process and the excite- ment of discovery. The narrative style is personalized. Often I draw on my own experiences and those of scientists I know or am familiar with through their teaching and writing, to show the student how problems are addressed through field- work or through laboratory investigations.
Scientists do not just collect facts. Rather, they collect data and make observations that help them answer questions about the complex natural world we all inhabit. Reflecting this practice, Essentials of Physical Anthropology is a collec- tion not of facts for the student to learn but of answers to questions that help all of us understand who we are as living organisms and our place in the world. Science is a way of knowing, it is a learning process, and it connects our lives with our world. In these ways, it is liberating.
HOW THE BOOK IS ORGANIZED
The book is divided into two parts. Following an introduc- tory overview of anthropology and physical anthropology, Part I presents the key principles and concepts in biology, especially from an evolutionary perspective. This material draws largely on the study of living organisms, including humans and nonhuman primates. Because much of our understanding of the past is drawn from what we have learned from the present, this part lays the foundation for the presentation in Part II— the past record of primate and human evolution. In putting the record of the living up front, this book departs from the style of most other introductory physical anthropology textbooks, which start out with the earliest record and end with the living. This book takes the position that most of what we learn about the past is based on theory and principles learned from the living record. Just as all of Charles Darwin’s ideas were first derived from seeing living plants and animals, much of our understanding of function and adaptation comes from living organisms as models. Therefore, this book views the living as the window
into what came before— the present contextualizes and informs our understanding of the past. It is no mistake, then, that Discovering Our Origins is the subtitle of the book. The origins of who we are today do not just lie in the record of the past, but are very much embodied in the living. Our origins are expressed in our physical makeup (bone, teeth, and muscles), in our behavior, and in so many other ways that the student taking this course will learn about from this book and from you. You can teach individual chapters in any order, and that is partly because each chapter reinforces the central point: we understand our past via what we see in the living.
Part II presents evidence of the past, covering more than 50 million years of primate and human evolution. Most textbooks of this kind end the record of human evolution at about 25,000 years ago, when modern Homo sapiens evolved worldwide. This textbook also provides the record since the appearance of modern humans, showing that important bio- logical changes occurred in just the last 10,000 years, largely relating to the shift from hunting and gathering to the domestication of plants and animals. Food production was a revolutionary development in the human story, and Part II presents this remarkable record, including changes in health and well- being that continue today. A new subdiscipline of physical anthropology, bioarchaeology, is contributing pro- found insights into the last 10,000 years, one of the most dynamic periods of human evolution.