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Human Evolution as a Theoretical Model for an Extended Evolutionary Synthesis

  • Adam Van Arsdale
Chapter

Abstract

Humans have occupied a paradoxical position within the history of evolutionary studies. On one end, humans have been central to both the academic motivation of the field and the public tensions surrounding evolution. Simultaneously, humans have been cast aside as a poor model organism for understanding the processes that underlie evolutionary theory. As a result, anthropologists who work within an evolutionary context, often chided as being two decades behind mainstream biology, have come to occupy a unique position with respect to the understanding of how evolution operates on humans. Incorporating theoretical developments from a diverse set of related evolutionary fields, biological anthropologists have begun to gather empirical data on the unique evolutionary processes that have shaped our own evolutionary path. Some of the important components that have emerged in human evolutionary studies—biocultural feedback systems, culturally mediated niche construction, and technological ratchet effects—have shed new light not only on how human evolution has proceeded but also on the range of capabilities of evolution more broadly. While not rejecting traditional neo-Darwinian theory and the importance of genetic inheritance, these new developments have highlighted the tremendous complexity afforded by the cumulative action of both selective and neutral evolutionary forces across a range of inheritance modes. Rather than a poor evolutionary model, many of these evolutionary processes are best, or perhaps only, observable in humans. The traits which have structured critical transitions in our hominin past—encephalization, expanded childhood development, and generative language—open up new windows into thinking about an Extended Evolutionary Synthesis.

Keywords

Hominin evolution Homo erectus Darwinism Modern synthesis Encephalization 

References

  1. Ackermann RR, Cheverud JM (2004) Detecting genetic drift versus selection in human evolution. Proc Natl Acad Sci 101(52):17946–17951PubMedPubMedCentralCrossRefGoogle Scholar
  2. Aiello LC, Wheeler P (1995) The expensive-tissue hypothesis: the brain and the digestive system in human and primate evolution. Curr Anthropol 36(2):199–221CrossRefGoogle Scholar
  3. Aiello LC (2007) Notes on the implications of the expensive tissue hypothesis for human biological and social evolution. In: Roebroeks W (ed) Guts and brains. Leiden University Press, Leiden, pp 17–28Google Scholar
  4. Aiello LC, Key C (2002) Energetic consequences of being a Homo erectus female. Am J Hum Biol 14(5):551–565PubMedCrossRefGoogle Scholar
  5. Aiello LC, Wells JCK (2002) Energetics and the evolution of the genus Homo. Annu Rev Anthropol 31(1):323–338CrossRefGoogle Scholar
  6. Akey JM (2009) Constructing genomic maps of positive selection in humans: where do we go from here? Genome Res 19(5):711–722PubMedPubMedCentralCrossRefGoogle Scholar
  7. Alcock J (2017) The behavioral sciences and sociobiology: a Darwinian approach. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 37–60CrossRefGoogle Scholar
  8. Antón SC (2003) Natural history of Homo erectus. Am J Phys Anthropol 122(S37):126–170CrossRefGoogle Scholar
  9. Antón SC, Potts R, Aiello LC (2014) Evolution of early Homo: an integrated biological perspective. Science 345(6192):1236828PubMedCrossRefGoogle Scholar
  10. Armelagos GJ, Goodman AH, Jacobs KH (1991) The origins of agriculture: population growth during a period of declining health. Popul Environ 13(1):9–22CrossRefGoogle Scholar
  11. Attwell L, Kovarovic K, Kendal JR (2015) Fire in the Plio-Pleistocene: the functions of hominin fire use, and the mechanistic, developmental and evolutionary consequences. J Anthropol Sci 93:1–20PubMedGoogle Scholar
  12. Baab KL (2008) The taxonomic implications of cranial shape variation in Homo erectus. J Hum Evol 54(6):827–847PubMedCrossRefGoogle Scholar
  13. Barkan E (1996) The politics of the science of race: Ashley Montagu and UNESCO’s anti-racist declarations. Race and other misadventures: essays in honor of Ashley Montagu in his ninetieth year. General Hall, New YorkGoogle Scholar
  14. Berger LR, de Ruiter DJ, Churchill SE, Carlson KJ, Dirks P, Kibii JM (2010) Australopithecus sediba: a new species of Homo-like australopith from South Africa. Science 328(5975):195–204PubMedCrossRefGoogle Scholar
  15. Berger LR (2013) The mosaic nature of Australopithecus sediba. Science 340(6129):163–165PubMedCrossRefGoogle Scholar
  16. Berger LR et al (2015) Homo naledi, a new species of the genus Homo from the Dinaledi Chamber, South Africa. elife 4:e09560PubMedCentralCrossRefGoogle Scholar
  17. Blute M (2017) Three modes of evolution by natural selection and drift: a new or an extended evolutionary synthesis? Biol Theor 12(2):67–71CrossRefGoogle Scholar
  18. Boivin N et al (2013) Human dispersal across diverse environments of Asia during the Upper Pleistocene. Quat Int 300:32–47CrossRefGoogle Scholar
  19. Bocquet-Appel JP (2011) When the world’s population took off: the springboard of the Neolithic Demographic Transition. Science 333(6042):560–561PubMedCrossRefGoogle Scholar
  20. Bowler PJ (2017) Alternatives to Darwinism in the early twentieth century. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 195–218CrossRefGoogle Scholar
  21. Bramanti B et al (2009) Genetic discontinuity between local hunter-gatherers and central Europe’s first farmers. Science 326(5949):137–140PubMedCrossRefGoogle Scholar
  22. Braun DR et al (2009) Raw material quality and Oldowan hominin toolstone preferences: evidence from Kanjera South, Kenya. J Archaeol Sci 36(7):1605–1614CrossRefGoogle Scholar
  23. Bruner E, Holloway RL (2010) A bivariate approach to the widening of the frontal lobes in the genus Homo. J Hum Evol 58(2):138–146PubMedCrossRefGoogle Scholar
  24. Bruner E (ed) (2014) Human paleoneurology, vol 3. Springer, New YorkGoogle Scholar
  25. Bunn HT (2001) Hunting, power scavenging, and butchering by Hadza foragers and by Plio-Pleistocene Homo. Meat-eating and human evolution. Oxford University Press, OxfordGoogle Scholar
  26. Caspari R, Lee SH (2004) Older age becomes common late in human evolution. Proc Natl Acad Sci USA 101(30):10895–10900PubMedPubMedCentralCrossRefGoogle Scholar
  27. Caspari R (2009) 1918: three perspectives on race and human variation. Am J Phys Anthropol 139(1):5–15PubMedCrossRefGoogle Scholar
  28. Cerling TE et al (2011) Diet of Paranthropus boisei in the early Pleistocene of East Africa. Proc Natl Acad Sci 108(23):9337–9341PubMedPubMedCentralCrossRefGoogle Scholar
  29. Cordain L et al (2005) Origins and evolution of the Western diet: health implications for the 21st century. Am J Clin Nutr 81(2):341–354PubMedCrossRefGoogle Scholar
  30. Darwin C (1859) On the origin of species by means of natural selection, or the preservation of favoured races in the struggle for life. John Murray, LondonCrossRefGoogle Scholar
  31. Darwin C (1871) Sexual selection and the descent of man. John Murray, LondonGoogle Scholar
  32. Dean MC, Smith BH (2009) Growth and development of the Nariokotome youth, KNM-WT 15000. In: Grine FE, Fleagle JG, Leakey RE (eds) The first humans – origin and early evolution of the genus Homo. Springer, Dordrecht, pp 101–120CrossRefGoogle Scholar
  33. Delisle RG (2017) From Charles Darwin to the evolutionary synthesis: weak and diffused connections only. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 133–168CrossRefGoogle Scholar
  34. Dennell R, Roebroeks W (2005) An Asian perspective on early human dispersal from Africa. Nature 438(7071):1099–1104PubMedCrossRefGoogle Scholar
  35. Demes B, Creel N (1988) Bite force, diet, and cranial morphology of fossil hominids. J Hum Evol 17:657–670CrossRefGoogle Scholar
  36. DeSilva JM, Lesnik JJ (2008) Brain size at birth throughout human evolution: a new method for estimating neonatal brain size in hominins. J Hum Evol 55(6):1064–1074PubMedCrossRefGoogle Scholar
  37. DeSilva JM (2011) A shift toward birthing relatively large infants early in human evolution. Proc Natl Acad Sci 108(3):1022–1027PubMedPubMedCentralCrossRefGoogle Scholar
  38. Dunsworth HM et al (2012) Metabolic hypothesis for human altriciality. Proc Natl Acad Sci 109(38):15212–15216PubMedPubMedCentralCrossRefGoogle Scholar
  39. Ellison PT (2009) On fertile ground: a natural history of human reproduction. Harvard University Press, CambridgeGoogle Scholar
  40. Esposito M (2017) The organismal synthesis: holistic science and developmental evolution in the English-speaking world, 1915–1954. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 219–242CrossRefGoogle Scholar
  41. Excoffier L, Schneider S (1999) Why hunter-gatherer populations do not show signs of Pleistocene demographic expansions. Proc Natl Acad Sci 96(19):10597–10602PubMedPubMedCentralCrossRefGoogle Scholar
  42. Falk D (1987) Hominid paleoneurology. Annu Rev Anthropol 16(1):13–28CrossRefGoogle Scholar
  43. Ferring R et al (2011) Earliest human occupations at Dmanisi (Georgian Caucasus) dated to 1.85–1.78 Ma. Proc Natl Acad Sci 108(26):10432–10436PubMedPubMedCentralCrossRefGoogle Scholar
  44. Finlayson C (2005) Biogeography and evolution of the genus Homo. Trends Ecol Evol 20(8):457–463PubMedCrossRefGoogle Scholar
  45. Fuentes A (2016) The extended evolutionary synthesis, ethnography, and the human niche: toward an integrated anthropology. Curr Anthropol 57(S13):S13–S26CrossRefGoogle Scholar
  46. Futuyma DJ (2015) Can modern evolutionary theory explain macroevolution? In: Serrelli E, Gontier N (eds) Macroevolution. Springer, Cham, pp 29–85Google Scholar
  47. Gabunia L, Vekua A (1995) A plio-pleistocene hominid from Dmanisi, East Georgia, Caucasus. Nature 373(6514):509PubMedCrossRefGoogle Scholar
  48. Gabunia L et al (2001) Dmanisi and dispersal. Evol Anthropol 10(5):158–170CrossRefGoogle Scholar
  49. Gibbons A (2007) The first human. Anchor, New YorkGoogle Scholar
  50. Gilbert SF, Bosch TCG, Ledón-Rettig C (2015) Eco-Evo-Devo: developmental symbiosis and developmental plasticity as evolutionary agents. Nat Rev Genet 16(10):611–622PubMedCrossRefGoogle Scholar
  51. Glantz M, Van Arsdale AP, Temirbekov S, Beeton T (2016) How to survive the glacial apocalypse: Hominin mobility strategies in late Pleistocene Central Asia. Quat Int.  https://doi.org/10.1016/j.quaint.2016.06.037
  52. Gould SJ (2002) The structure of evolutionary theory. Harvard University Press, CambridgeGoogle Scholar
  53. Grabowski M (2016) From bigger brains to bigger bodies: the correlated evolution of human brain and body size. Curr Anthropol 57(2):174–196CrossRefGoogle Scholar
  54. Haak W, Forster P, Bramanti B, Matsumura S, Brandt G, Tänzer M, Villems R, Renfrew C, Gronenborn D, Alt KW, Burger J (2005) Ancient DNA from the first European farmers in 7500-year-old Neolithic sites. Science 310(5750):1016–1018PubMedGoogle Scholar
  55. Hare B, Tomasello M (2005) Human-like social skills in dogs? Trends Cogn Sci 9(9):439–444PubMedCrossRefGoogle Scholar
  56. Harmand S, Lewis JE, Feibel CS, Lepre CJ, Prat S, Lenoble A, Boës X, Quinn RL, Brenet M, Arroyo A, Taylor N, Clément S, Daver G, Brugal JP, Leakey L, Mortlock RA, Wright JD, Lokorodi S, Kirwa C, Kent DV, Roche H (2015) 3.3-million-year-old stone tools from Lomekwi 3, West Turkana, Kenya. Nature 521(7552):310PubMedCrossRefGoogle Scholar
  57. Hawks J et al (2007) Recent acceleration of human adaptive evolution. Proc Natl Acad Sci 104(52):20753–20758PubMedPubMedCentralCrossRefGoogle Scholar
  58. Henry AG, Brooks AS, Piperno DR (2011) Microfossils in calculus demonstrate consumption of plants and cooked foods in Neanderthal diets (Shanidar III, Iraq; Spy I and II, Belgium). Proc Natl Acad Sci 108(2):486–491PubMedCrossRefGoogle Scholar
  59. Hovers E, Braun DR (eds) (2009) Interdisciplinary approaches to the Oldowan. Springer, DordrechtGoogle Scholar
  60. Jablonka E, Lamb MJ (2014) Evolution in four dimensions, revised edition: Genetic, epigenetic, behavioral, and symbolic variation in the history of life. MIT Press, CambridgeGoogle Scholar
  61. Kaifu Y (2006) Advanced dental reduction in Javanese Homo erectus. Anthropol Sci 114(1):35–43CrossRefGoogle Scholar
  62. Laland K, Wray GA, Hoekstra HE (2014) Does evolutionary theory need a rethink? Nature 514(7521):161PubMedPubMedCentralCrossRefGoogle Scholar
  63. Laland K, Uller T, Feldman MW, Sterelny K, Müller GB, Moczek A, Jablonka E, Odling-Smee J (2015) The extended evolutionary synthesis: its structure, assumptions and predictions. Proc R Soc B 282(1813):1–14CrossRefGoogle Scholar
  64. Laland K (2017) Schism and synthesis at the royal society. Trends Ecol Evol 32(5):316–317PubMedCrossRefGoogle Scholar
  65. Langley MC, Street M (2013) Long range inland–coastal networks during the Late Magdalenian: evidence for individual acquisition of marine resources at Andernach-Martinsberg, German Central Rhineland. J Hum Evol 64(5):457–465PubMedCrossRefGoogle Scholar
  66. Lee SH, Wolpoff MH (2003) The pattern of evolution in Pleistocene human brain size. Paleobiology 29(2):186–196CrossRefGoogle Scholar
  67. Leigh SR (2006) Brain ontogeny and life history in Homo erectus. J Hum Evol 50(1):104–108PubMedCrossRefGoogle Scholar
  68. Leonard WR, Robertson ML (1992) Nutritional requirements and human evolution: a bioenergetics model. Am J Hum Biol 4(2):179–195PubMedCrossRefGoogle Scholar
  69. Levit GS, Hossfeld U (2017) Major research traditions in 20th century evolutionary biology: the relations of Germany’s Darwinism with them. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 169–194CrossRefGoogle Scholar
  70. Lieberman L (1989) A discipline divided: Acceptance of human sociobiological concepts in anthropology. Curr Anthropol 30(5):676–682CrossRefGoogle Scholar
  71. Livingstone FB, Dobzhansky T (1962) On the non-existence of human races. Curr Anthropol 3:279–281CrossRefGoogle Scholar
  72. Loison L, Herring E (2017) Lamarckian research programs in French biology (1900–1970). In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 243–270CrossRefGoogle Scholar
  73. Lordkipanidze D, Vekua A, Ferring R, Rightmire GP, Zollikofer CPE, Ponde de León MS, Agusti J, Kiladze G, Mouskhelishvili A, Nioradze M, Tappen M (2006) A fourth hominin skull from Dmanisi, Georgia. Anat Rec 288(11):1146–1157CrossRefGoogle Scholar
  74. Lordkipanidze D, Jashashvili T, Vekua A, Ponce de León MS, Zollikofer CPE, Rightmire GP, Pontzer H, Ferring R, Oms O, Tappen M, Bukhsianidze M, Agusti J, Kahlke R, Kiladze G, Martinez-Navarro B, Mouskhelishvili A, Nioradze M, Rook L (2007) Postcranial evidence from early Homo from Dmanisi, Georgia. Nature 449(7160):305–310PubMedCrossRefGoogle Scholar
  75. Lordkipanidze D, Ponce de León MS, Margvelashvili A, Rak Y, Rightmire GP, Vekua A, Zollikofer CPE (2013) A complete skull from Dmanisi, Georgia, and the evolutionary biology of early Homo. Science 342(6156):326–331PubMedCrossRefGoogle Scholar
  76. Lovejoy CO (1981) The origin of man. Science 211(4480):341–350PubMedCrossRefGoogle Scholar
  77. Lovejoy CO (2009) Reexamining human origins in light of Ardipithecus ramidus. Science 326(5949):74e1–74e8PubMedGoogle Scholar
  78. Lowe WH, Kovach RP, Allendorf FW (2017) Population genetics and demography unite ecology and evolution. Trends Ecol Evol 32(2):141–152PubMedCrossRefGoogle Scholar
  79. Lynn CD, Glaze AL, Evans WA, Reed LK (eds) (2017) Evolution education in the American South: culture, politics, and resources in and around Alabama. Palgrave Macmillan, New YorkGoogle Scholar
  80. MacCord K, Maienschein J (2017) Cells, development, and evolution: teeth studies at the intersection of fields. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 289–308CrossRefGoogle Scholar
  81. Marks J (2008) Race across the physical-cultural divide in American anthropology. In: Kublick H (ed) A new history of anthropology. Blackwell, Hoboken, pp 242–258Google Scholar
  82. Matsuzawa T (2008) Primate foundations of human intelligence: a view of tool use in nonhuman primates and fossil hominids. In: Matsuzawa T (ed) Primate origins of human cognition and behavior. Springer, Tokyo, pp 3–25CrossRefGoogle Scholar
  83. Mayr E (1950) Taxonomic categories in fossil hominids. Cold Spring Harb Symp Quant Biol 15:109–118PubMedCrossRefGoogle Scholar
  84. McBrearty S, Brooks AS (2000) The revolution that wasn’t: a new interpretation of the origin of modern human behavior. J Hum Evol 39(5):453–563PubMedCrossRefGoogle Scholar
  85. McHenry HM, Coffing K (2000) Australopithecus to Homo: transformations in body and mind. Annu Rev Anthropol 29(1):125–146CrossRefGoogle Scholar
  86. McPherron SP, Alemseged Z, Marean CW, Wynn JG, Reed D, Geraads D, Bobe R, Béarat HA (2010) Evidence for stone-tool-assisted consumption of animal tissues before 3.39 million years ago at Dikika, Ethiopia. Nature 466(7308):857–860PubMedCrossRefGoogle Scholar
  87. Nielsen R, Akey JM, Jakobsson M, Pritchard JK, Tishkoff S, Willerslev E (2017) Tracing the peopling of the world through genomics. Nature 541(7637):302–310PubMedPubMedCentralCrossRefGoogle Scholar
  88. Nowell A, Davidson I (2010) Stone tools and the evolution of human cognition. University Press of Colorado, BoulderGoogle Scholar
  89. O’Connell JF, Hawkes K, Blurton Jones NG (1999) Grandmothering and the evolution of Homo erectus. J Hum Evol 36(5):461–485PubMedCrossRefGoogle Scholar
  90. Organ C, Nunn CL, Machanda Z, Wrangham RW (2011) Phylogenetic rate shifts in feeding time during the evolution of Homo. Proc Natl Acad Sci 108(35):14555–14559PubMedPubMedCentralCrossRefGoogle Scholar
  91. Pigliucci M (2007) Do we need an extended evolutionary synthesis? Evolution 61(12):2743–2749CrossRefPubMedGoogle Scholar
  92. Pigliucci M (2008) Is evolvability evolvable? Nat Rev Genet 9(1):75–82CrossRefPubMedGoogle Scholar
  93. Pigliucci M (2017) Darwinism after the modern synthesis. In: Delisle RG (ed) The Darwinian tradition in context: research programs in evolutionary biology. Springer, Cham, pp 89–104Google Scholar
  94. Plutzer E, Berkman M (2008) Trends evolution, creationism, and the teaching of human origins in schools. Public Opin Q 72(3):540–553CrossRefGoogle Scholar
  95. Pobiner B (2016) Accepting, understanding, teaching, and learning (human) evolution: obstacles and opportunities. Am J Phys Anthropol 159(S61):S232–S274PubMedCrossRefGoogle Scholar
  96. Pontzer H et al (2010) Locomotor anatomy and biomechanics of the Dmanisi hominins. J Hum Evol 58(6):492–504PubMedCrossRefGoogle Scholar
  97. Pontzer H (2012) Ecological energetics in early Homo. Curr Anthropol 53(S6):S346–S358CrossRefGoogle Scholar
  98. Potts R, Teague R (2010) Behavioral and environmental background to ‘Out-of-Africa I’ and the arrival of Homo erectus in East Asia. In: Fleagle JG (ed) Out of Africa I. Springer, Dordrecht, pp 67–85CrossRefGoogle Scholar
  99. Racimo F, Sankararaman S, Nielsen R, Huerta-Sánchez E (2015) Evidence for archaic adaptive introgression in humans. Nat Rev Genet 16(6):359–371PubMedPubMedCentralCrossRefGoogle Scholar
  100. Rightmire GP (1981) Patterns in the evolution of Homo erectus. Paleobiology 7(2):241–246CrossRefGoogle Scholar
  101. Rightmire GP (2004) Brain size and encephalization in early to Mid-Pleistocene Homo. Am J Phys Anthropol 124(2):109–123PubMedCrossRefGoogle Scholar
  102. Roebroeks W, Villa P (2011) On the earliest evidence for habitual use of fire in Europe. Proc Natl Acad Sci 108(13):5209–5214PubMedPubMedCentralCrossRefGoogle Scholar
  103. Rose MD (1984) A hominine hip bone, KNM-ER 3228, from East Lake Turkana, Kenya. Am J Phys Anthropol 63(4):371–378PubMedCrossRefGoogle Scholar
  104. Roseman CC (2016) Random genetic drift, natural selection, and noise in human cranial evolution. Am J Phys Anthropol 160(4):582–592PubMedCrossRefGoogle Scholar
  105. Ruff CB, Trinkaus E, Holliday TW (1997) Body mass and encephalization in Pleistocene Homo. Nature 387(6629):173PubMedCrossRefGoogle Scholar
  106. Sahlins MD (1976) The use and abuse of biology: an anthropological critique of sociobiology. University of Michigan Press, Ann ArborGoogle Scholar
  107. Sandgathe DM, Dibble HL, Goldberg P, McPherron SP, Turq A, Niven L, Hodgkins J (2011) On the role of fire in Neandertal adaptations in Western Europe: evidence from Pech de l’Azé IV and Roc de Marsal, France. PaleoAnthropology 216–242Google Scholar
  108. Sankararaman S, Mallick S, Patterson N, Reich D (2016) The combined landscape of Denisovan and Neanderthal ancestry in present-day humans. Curr Biol 26(9):1241–1247PubMedPubMedCentralCrossRefGoogle Scholar
  109. Schrenk F, Kullmer O, Bromage T (2015) The earliest putative Homo fossils. In: Henke W, Tattersall I (eds) Handbook of paleoanthropology. Springer, Berlin, pp 2145–2165CrossRefGoogle Scholar
  110. Sémah F, Saleki H, Falguères C, Féraud G, Djubiantono T (2000) Did early man reach Java during the Late Pliocene? J Archaeol Sci 27(9):763–769CrossRefGoogle Scholar
  111. Shipman P, Walker A (1989) The costs of becoming a predator. J Hum Evol 18(4):373–392CrossRefGoogle Scholar
  112. Slatkin M, Racimo F (2016) Ancient DNA and human history. Proc Natl Acad Sci 113(23):6380–6387PubMedPubMedCentralCrossRefGoogle Scholar
  113. Skoglund P, Malmström H, Raghavan M, Stora J, Hall P, Willerslev E, Gilbert TP, Götherström A, Jakobsson M (2012) Origins and genetic legacy of Neolithic farmers and hunter-gatherers in Europe. Science 336(6080):466–469PubMedCrossRefGoogle Scholar
  114. Skoglund P et al (2014) Genomic diversity and admixture differs for Stone-Age Scandinavian foragers and farmers. Science 344(6185):747–750PubMedCrossRefGoogle Scholar
  115. Smith BD, Zeder MA (2013) The onset of the Anthropocene. Anthropocene 4:8–13CrossRefGoogle Scholar
  116. Smocovitis VB (2012) Humanizing evolution: anthropology, the evolutionary synthesis, and the prehistory of biological anthropology, 1927–1962. Curr Anthropol 53(S5):S108–S125CrossRefGoogle Scholar
  117. Snodgrass JJ, Leonard WR, Robertson ML (2009) The energetics of encephalization in early hominids. In: Hublin JJ, Richards M (eds) The evolution of hominin diets. Springer, Dordrecht, pp 15–29CrossRefGoogle Scholar
  118. Spoor F, Leakey MG, Gathogo PN, Brown FH, Antón SC, McDougall I, Kiarie C, Manthi FK, Leakey LN (2007) Implications of new early Homo fossils from Ileret, east of Lake Turkana, Kenya. Nature 448(7154):688–691PubMedCrossRefGoogle Scholar
  119. Stedman HH, Kozyak BW, Nelson A, Thesier DM, Su LT, Low DW, Bridges CR, Shrager JB, Minugh-Purvis N, Mitchell MA (2004) Myosin gene mutation correlates with anatomical changes in the human lineage. Nature 428(6981):415–418PubMedCrossRefGoogle Scholar
  120. Steudel-Numbers KL (2006) Energetics in Homo erectus and other early hominins: the consequences of increased lower-limb length. J Hum Evol 51(5):445–453PubMedCrossRefGoogle Scholar
  121. Stiner MC, Munro ND, Surovell TA, Tchernov E, Bar-Yosef O (1999) Paleolithic population growth pulses evidenced by small animal exploitation. Science 283(5399):190–194PubMedCrossRefGoogle Scholar
  122. Strier KB (2016) Why biological anthropologists should identify as anthropologists: The meaning of membership in the AAA and the AAAS. Am J Phys Anthropol 161(1):3–5PubMedCrossRefGoogle Scholar
  123. Stringer C (2012) Lone survivors: how we came to be the only humans on earth. Macmillan, New YorkGoogle Scholar
  124. Suwa G, Asfaw B, Haile-Selassie Y, White T, Katoh S, Woldegabriel G, Hart WK, Nakaya H, Beyene Y (2007) Early Pleistocene Homo erectus fossils from Konso, southern Ethiopia. Anthropol Sci 115(2):133–151CrossRefGoogle Scholar
  125. Swisher CC, Curtis GH, Jacob T, Getty AG, Suprijo A (1994) Age of the earliest known hominids in Java, Indonesia. Science 263(5150):1118–1122PubMedCrossRefGoogle Scholar
  126. Szathmáry E (2015) Toward major evolutionary transitions theory 2.0. Proc Natl Acad Sci 112(33):10104–10111PubMedPubMedCentralCrossRefGoogle Scholar
  127. Tappen M (2009) The wisdom of the aged and out of Africa I. In: Shea J, Lieberman D (eds) Transitions in prehistory: essays in honor of Ofer Bar Yosef. Oxbow, Oakville, pp 24–41Google Scholar
  128. Teaford MF, Ungar PS, Grine FE (2002) Paleontological evidence for the diets of African Plio-Pleistocene hominins with special reference to early Homo. Human diet: its origin and evolution. Bergin & Garvey, London, pp 143–166Google Scholar
  129. Tennie C, Call J, Tomasello M (2009) Ratcheting up the ratchet: on the evolution of cumulative culture. Philos Trans R Soc Lond B Biol Sci 364(1528):2405–2415PubMedPubMedCentralCrossRefGoogle Scholar
  130. Tomasello M (1999) The human adaptation for culture. Annu Rev Anthropol 28(1):509–529CrossRefGoogle Scholar
  131. Ungar PS, Grine FE, Teaford MF (2006) Diet in early Homo: a review of the evidence and a new model of adaptive versatility. Annu Rev Anthropol 35:209–228CrossRefGoogle Scholar
  132. Van Arsdale AP, Lordkipanidze D (2012) A quantitative assessment of mandibular variation in the Dmanisi hominins. PaleoAnthropology 134–144Google Scholar
  133. Van Arsdale AP, Wolpoff MH (2013) A single lineage in early Pleistocene Homo: size variation continuity in early Pleistocene Homo crania from East Africa and Georgia. Evolution 67(3):841–850PubMedCrossRefGoogle Scholar
  134. Van Schaik CP, Deaner RO, Merrill MY (1999) The conditions for tool use in primates: implications for the evolution of material culture. J Hum Evol 36(6):719–741PubMedCrossRefGoogle Scholar
  135. Villmoare B, Kimbel WH, Seyoum C, Campisano CJ, DiMaggio EN, Rowan J, Braun DR, Arrowsmith JR, Reed KE (2015) Early Homo at 2.8 Ma from Ledi-Geraru, Afar, Ethiopia. Science 347(6228):1352–1355PubMedCrossRefGoogle Scholar
  136. Walker A (1981) Dietary hypotheses and human evolution. Philos Trans R Soc Lond B Biol Sci 292(1057):57–64PubMedCrossRefGoogle Scholar
  137. Walker A, Leakey RE (1993) The Nariokotome Homo erectus skeleton. Harvard University Press, CambridgeCrossRefGoogle Scholar
  138. Wall JD, Brandt DYC (2016) Archaic admixture in human history. Curr Opin Genet Dev 41:93–97PubMedCrossRefGoogle Scholar
  139. Want SC, Harris PL (2002) How do children ape? Applying concepts from the study of non-human primates to the developmental study of ‘imitation in children. Dev Sci 5(1):1–14CrossRefGoogle Scholar
  140. Washburn SL (1951) Section of anthropology: the new physical anthropology. Trans NY Acad Sci 13(7), Series II):298–304CrossRefGoogle Scholar
  141. Wilkins J, Schoville BJ, Brown KS, Chazan M (2012) Evidence for early hafted hunting technology. Science 338(6109):942–946PubMedCrossRefGoogle Scholar
  142. Whiten A, Goodall J, McGrew WC, Nishida T, Reynolds V, Sugiyama Y, Tutin CEG, Wrangham RW, Boesch C (1999) Cultures in chimpanzees. Nature 399(6737):682–685PubMedCrossRefGoogle Scholar
  143. Wilson EO (1975) Sociobiology: the new synthesis. Harvard Belknap, CambridgeGoogle Scholar
  144. Wolpoff MH (1975) Some aspects of human mandibular evolution. In: McNamara JA (ed) Determinants of mandibular form and growth. Craniofacial growth series monograph. Center for Human Growth and Development, Ann Arbor, vol 4, pp 1–64Google Scholar
  145. Wolpoff MH (1999) Paleoanthropology. McGraw-Hill Humanities, Social Sciences & World Languages, BostonGoogle Scholar
  146. Wood B (1992) Origin and evolution of the genus Homo. Nature 355(6363):783PubMedCrossRefGoogle Scholar
  147. Wood B, Collard M (1999) The human genus. Science 284(5411):65–71PubMedCrossRefGoogle Scholar
  148. Wray GA, Hoekstra HE (2014) Does evolutionary theory need a rethink?-COUNTERPOINT No, all is well. Nature 516:161–164Google Scholar
  149. Zaim Y, Ciochon RL, Polanski JM, Grine FE, Bettis EA, Rizal Y, Franciscus RG, Larick RR, Heizler M, Eaves KL, Marsh HE (2011) New 1.5 million-year-old Homo erectus maxilla from Sangiran (Central Java, Indonesia). J Hum Evol 61(4):363–376PubMedCrossRefGoogle Scholar
  150. Zeder M (ed) (2006) Documenting domestication: new genetic and archaeological paradigms. University of California Press, BerkeleyGoogle Scholar
  151. Zhu RX, Potts R, Xie F, Hoffman KA, Deng CL, Shi CD, Pan YX, Wang HQ, Shi RP, Wang YC, Shi GH, Wu NQ (2004) New evidence on the earliest human presence at high northern latitudes in northeast Asia. Nature 431(7008):559–562PubMedCrossRefGoogle Scholar

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© Springer International Publishing AG 2017

Authors and Affiliations

  1. 1.Department of AnthropologyWellesley CollegeWellesleyUSA

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