Bioenergetics, the study of the use and transfer of energy, can provide important insights into the ecology and evolution of early hominids. Despite a relatively large brain with high metabolic demands, contemporary humans and other primates have resting metabolic rates (RMRs) that are similar to those of other mammals. As a result, a comparatively large proportion of their resting energy budget is spent on brain metabolism among humans (~20–25%) and other primates (~8–10%) compared to other mammals (~3–5%). To understand this shift in energy budget, Aiello and Wheeler's Expensive Tissue Hypothesis (ETH) posits a metabolic trade-off — a reduction in gut size with brain size increase — to explain this phenomenon. Here, we explore the interrelationships between brain size, body size, diet, and body composition using comparative data for humans, non-human primates, and other mammals. Among living primates, the relative proportion of energy allocated to brain metabolism is positively correlated with dietary quality. Contemporary humans fall at the positive end of this relationship, having both a high quality diet and a large brain. Thus, high costs associated with the large human brain are supported, in part, by energy-rich diets. Although contemporary humans display relatively small guts, primates as a group have gut sizes that are similar to non-primate mammals. In contrast, humans and other primates have significantly less skeletal muscle for their size compared to other mammals. These comparative analyses suggest that alterations in diet quality and body composition were necessary conditions for overcoming the constraints on encephalization. Fossil evidence indicates that brain expansion with the emergence of Homo erectus at about 1.8 million years ago was likely associated with important changes in diet, body composition, and body size.
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References
Aiello, L.C., 1997. Brains and guts in human evolution: the expensive tissue hypothesis. Brazilian Journal of Genetics 20, 141–148.
Aiello, L.C., Key, C., 2002. Energetic consequences of being a Homo erectus female. American Journal of Human Biology 14, 551–565.
Aiello, L.C., Wells, J.C.K., 2002. Energetics and the evolution of the genus Homo. Annual Review of Anthropology 31, 323–338.
Aiello, L.C., Wheeler, P., 1995. The expensive-tissue hypothesis: the brain and the digestive system in human and primate evolution. Current Anthropology 36, 199–221.
Aiello, L.C., Bates, N., Joffe, T., 2001. In defense of the expensive tissue hypothesis. In: Falk, D., Gibson, K. (Eds.), Evolutionary Anatomy of the Primate Cerebral Cortex. Cambridge University Press, Cambridge, pp. 57–78.
Antón, S.C., 2003. A natural history of Homo erectus. Yearbook of Physical Anthropology 46, 126–170.
Antón, S.C., 2008. Framing the question: diet and evolution in early Homo. In: Vinyard, C., Ravosa, M.J., Wall, C. (Eds.), Primate Craniofacial Function and Biology. Springer, New York.
Antón, S.C., Swisher, C.C., 2001. Evolution of cranial capacity in Asian Homo erectus. In: Indriati, E. (Ed.), A Scientific Life: Papers in Honor of Dr. T. Jacob. Bigraf, Yogyakarta, pp. 25–39.
Antón, S.C., Aziz, F., Zaim, Y., 2001. Plio-Pleistocene Homo: patterns and determinants of dispersal. In: Tobias, P.V., Raath, M.A., Moggi-Cecchi, J., Doyle, G.A. (Eds.), Humanity from African Naissance to Coming Millenia. Florence University Press, Florence, pp. 91–102.
Antón, S.C., Leonard, W.R., Robertson, M.L., 2002. An ecomorpho-logical model of the initial hominid dispersal from Africa. Journal of Human Evolution 43, 773–785.
Antón, S.C., Spoor, F., Fellmann, C.D., Swisher, C.C., 2007. Defining Homo erectus: size considered. In: Henke, W., Tattersall, I. (Eds.), Handbook of Paleoanthropology, Vol. 3. Springer, Berlin, pp. 1655–1693.
Asfaw, B., Beyene, Y., Suwa, G., Walter, R.C., White, T.D., WoldeGabriel, G., Yemane, T., 1992. The earliest Acheulean from Konso-Gardula. Nature 360, 732–735.
Backwell, L.R., d'Errico, F., 2001. Evidence of termite foraging by Swartkrans early hominids. Proceedings of the National Academy of Sciences of the USA 98, 1358–1363.
Bauchot, R., Stefan, H., 1969. Encephalisation et niveau evolutif ches les simiens. Mammalia 33, 225–275.
Behrensmeyer, K., Todd, N.E., Potts, R., McBrinn, G.E., 1997. Late Pliocene faunal turnover in the Turkana basin, Kenya and Ethiopia. Science 278, 1589–1594.
Bell, R.H., 1971. A grazing ecosystem in the Serengeti. Scientific American 225, 86–93.
Bellomo, R.V., 1994. Methods of determining early hominid behavioral activities associated with the controlled use of fire at FxJj 20 Main, Koobi Fora. Journal of Human Evolution 27, 173–195.
Blumenschine, R.J., 1987. Characteristics of an early hominid scavenging niche. Current Anthropology 28, 383–407.
Bobe, R., Behrensmeyer, A.K., 2002. Faunal change, environmental variability and late Pliocene hominin evolution. Journal of Human Evolution 42, 475–497.
Bogin, B., 1999. Patterns of Human Growth, 2nd ed. Cambridge University Press, Cambridge.
Bogin, B., 2002. The evolution of human growth. In: Cameron, N. (Ed.), Human Growth and Development. Academic Press, Amsterdam, pp. 295–320.
Brain, C.K., Sillen, A., 1988. Evidence from the Swartkrans cave for the earliest use of fire. Nature 336, 464–466.
Brody, S., 1945. Bioenergetics and Growth: With Special Reference to the Efficiency Complex in Domestic Animals. Reinhold, New York.
Butte, N.F., Hopkinson, J.M., Wong, W.W., Smith, E.O., Ellis, K.J., 2000. Body composition during the first 2 years of life: an updated reference. Pediatric Research 47, 578–585.
Calder W.A., 1984. Size, Function, and Life History. Harvard University Press, Cambridge, MA.
Chivers, D.J., Hladik, C.M., 1980. Morphology of the gastrointestinal tract in primates: comparisons with other mammals in relation to diet. Journal of Morphology 166, 337–386.
Chugani, H.T., 1998. A critical period of brain development: studies of cerebral glucose utilization with PET. Preventative Medicine 27, 184–197.
Cordain, L., Brand Miller, J., Eaton, S.B., Mann, N., Holt, S.H.A., Speth, J.D., 2000. Plant-animal subsistence ratios and macro-nutrient energy estimations in worldwide hunter-gatherer diets. American Journal of Clinical Nutrition 71, 682–692.
Cordain, L., Watkins, B.A., Mann, N.J., 2001. Fatty acid composition and energy density of foods available to African hominids: evolutionary implications for human brain development. World Review of Nutrition and Dietetics 90, 144–161.
Cunnane, S.C., Crawford, M.A., 2003. Survival of the fattest. Comparative Biochemistry and Physiology 136A, 17–36.
deMenocal, P.B., 1995. Plio-Pleistocene African climate. Science 270, 53–59.
deMenocal, P.B., 2004. African climate change and faunal evolution during the Pliocene-Pleistocene. Earth and Planetary Science Letters 220, 3–24.
Dewey, K.G., Heinig, M.J., Nommsen, L.A., Peerson, J.M., Lonnderdal, B., 1993. Breast-fed infants are leaner than formula-fed infants at 1 y of age: the Darling study. American Journal of Clinical Nutrition 52, 140–145.
Elia, M., 1992. Organ and tissue contribution to metabolic rate. In: Kinney, J.M., Tucker, H.N. (Eds.), Energy Metabolism: Tissue Determinants and Cellular Corollaries. Raven Press, New York, pp. 61–79.
Ellison, P.T., 2001. On Fertile Ground: A Natural History of Human Reproduction. Harvard University Press, Cambridge.
Elton, S., Foley, R., Ulijaszek, S.J., 1998. Habitual energy expenditure of human climbing and clambering. Annals of Human Biology 25, 523–531.
Englyst, K.N., Englyst, H.N., 2005. Carbohydrate bioavailability. British Journal of Nutrition 94, 1–11.
FAO/WHO/UNU., 1985. Energy and Protein Requirements. WHO Technical Report Series #724. World Health Organization, Geneva.
Fernstrom, J.D., Fernstom, M.H., 2003. Nutrition and the brain. In: Gibney, M., MacDonald, I., Roche, H.M. (Eds.), Nutrition and Metabolism. Blackwell, Ames, IA, pp. 145–167.
Fish, J.L., Lockwood, C.A., 2003. Dietary constraints on encephali-zation in primates. American Journal of Physical Anthropology 120, 171–181.
Foote, K.D., Marriott, L.D., 2003. Weaning of infants. Archives of Disease in Childhood 88, 488–492.
Gabunia, L., Vekua, A., Lordkipanidze, D., Swisher, C.C., Ferring, R., Justus, A., Nioradze, M., Tvalchrelidze, M., Antón, S.C., Bosinski, G., Joris, O., de Lumley, M.-A., Majsuradze, G., Mouskhelishivili, A., 2000. Earliest Pleistocene cranial remains from Dmanisi, Republic of Georgia: taxonomy, geological setting, and age. Science 288, 1019–1025.
Gabunia, L., Antón, S.C., Lordkipanidze, D., Vekua, A., Justus, A., Swisher, C.C., 2001. Dmanisi and dispersal. Evolutionary Anthropology 10, 158–170.
García-Alonso, A., Goñi, I., 2000. Effect of processing on potato starch: in vitro availability and glycemic index. Nahrung 44, 19–22.
Gaulin, S.J.C., 1979. A Jarman/Bell model of primate feeding niches. Journal of Human Evolution 7, 1–20.
Grand, T.I., 1977. Body weight: its relation to tissue composition, segment distribution, and motor function. American Journal of Physical Anthropology 47, 211–239.
Grand, T.I., 1978. Adaptations of tissues and limb segments to facilitate moving and feeding in arboreal folivores. In: Montgomery, G.G. (Ed.), The Ecology of Arboreal Folivores. Smithsonian, Washington, DC, pp. 231–241.
Haeusler, M., McHenry, H.M., 2004. Body proportions of Homo habilis reviewed. Journal of Human Evolution 46, 433–465.
Harris, J.W.K., Capaldo, S., 1993. The earliest stone tools: their implications for an understanding of the activities and behavior of late Pleistocene hominids. In: Berthelet, A., Chavaillon, J. (Eds.), The Use of Tools by Human and Nonhuman Primates. Oxford Science Publications, Oxford, pp. 196–220.
Hatley, T., Kappelman, J., 1980. Bears, pigs, and Plio-Pleistocene hominids: a case for the exploitation of below-ground good resources. Human Ecology 8, 371–387.
Hladik, C.M., Chivers, D.J., Pasquet, P., 1999. On diet and gut size in non-human primates and humans: is there a relationship to brain size? Current Anthropology 40, 695–697.
Holliday, M.A., 1986. Body composition and energy needs during growth. In: Falkner, F., Tanner, J.M. (Eds.), Human Growth: A Comprehensive Treatise, 2nd ed., Vol. 2. Plenum Press, New York, pp. 101–117.
Hopley, P.J., Weedon, G.P., Marshall, J.D., Herries, A.I.R., Latham, A.G., Kuykendall, K.L., 2007. High- and low-latitude orbital forcing of early hominin habitats in South Africa. Earth and Planetary Science Letters 256, 419–432.
Jarman, P.J., 1974. The social organization of antelope in relation to their ecology. Behaviour 58, 215–267.
Jerison, H.J., 1973. The Evolution of the Brain and Intelligence. Academic Press, New York.
Kaplan, H., Hill, K., Lancaster, J., Hurtado, A.M., 2000. A theory of human life history evolution: diet, intelligence, and longevity. Evolutionary Anthropology 9, 156–185.
Kappeler, P.M., 1996. Causes and consequences of life-history variation among strepsirhine primates. The American Naturalist 148, 868–891.
Kay, R.F., 1984. On the use of anatomical features to infer foraging behavior in extinct primates. In: Rodman, P.S., Cant, J.G.H. (Eds.), Adaptations for Foraging in Nonhuman Primates. Columbia University Press, New York, pp. 21–53.
Kennedy, G.E., 2005. From the ape's dilemma to the weanling's dilemma: early weaning and its evolutionary context. Journal of Human Evolution 48, 123–145.
Kleiber, M., 1961. The Fire of Life. Wiley, New York.
Klein, R.G., 1999. The Human Career. University of Chicago Press, Chicago, IL.
Kuzawa, C., 1998. Adipose tissue in human infancy and childhood: an evolutionary perspective. Yearbook of Physical Anthropology 41, 177–209.
Laden, G., Wrangham, R.W., 2005. The rise of the hominids as an adaptive shift in fallback foods: plant underground storage organs (USOs) and australopith origins. Journal of Human Evolution 49, 482–498.
Leonard, W.R., Robertson, M.L., 1992. Nutritional requirements and human evolution: a bioenergetics model. American Journal of Human Biology 4, 179–195.
Leonard, W.R., Robertson, M.L., 1994. Evolutionary perspectives on human nutrition: the influence of brain and body size on diet and metabolism. American Journal of Human Biology 6, 77–88.
Leonard, W.R., Robertson, M.L., 1997. Comparative primate energetics and hominid evolution. American Journal of Physical Anthropology 102, 265–281.
Leonard, W.R., Robertson, M.L., 2000. Ecological correlates of home range variation in primates: implications for hominid evolution. In: Boinski, S., Garber, P. (Eds.), On the Move: How and Why Animals Travel in Groups. University of Chicago Press, Chicago, IL, pp. 628–648.
Leonard, W.R., Ulijaszek, S.J., 2002. Energetics and evolution: an emerging research domain. American Journal of Human Biology. 14, 547–550.
Leonard, W.R., Robertson, M.L., Snodgrass, J.J., Kuzawa, C.W., 2003. Metabolic correlates of hominid brain expansion. Comparative Biochemistry and Physiology. 136A, 5–15.
Leonard, W.R., Robertson, M.L., Snodgrass, J.J., 2007. Energetic models of human nutritional evolution. In: Ungar, P.S. (Ed.), Evolution of the Human Diet: The Known, the Unknown, and the Unknowable. Oxford University Press, Oxford, pp. 344–359.
Lordkipanidze, D., Jashashvili, T., Vekua, A., Ponce de León, M.S., Zollikofer, C.P.E., Rightmire, G.P., Pontzer, H., Ferring, R., Oms, O., Tappen, M., Bukhsianidze, M., Agusti, J., Kahlke, R., Kiladze, G., Martinez-Navarro, B., Mouskhelishvili, A., Nioradz, M., Rook, L., 2007. Postcranial evidence from early Homo from Dmanisi, Georgia. Nature 449, 305–310.
Marlowe, F.W., 2005. Hunter-gatherers and human evolution. Evolutionary Anthropology 14, 54–67.
Martin, R.D., 1983. Human Brain Evolution in an Ecological Context. American Museum of Natural History, New York.
Martin, R.D., 1990. Primate Origins and Evolution: A Phylogenetic Reconstruction. Chapman & Hall, London.
Martin, R.D., 1996. Scaling of the mammalian brain: the maternal energy hypothesis. News in Physiological Sciences 11, 149–156.
Martin, R.D., Chivers, D.J., MacLarnon, A.M., Hladik, C.M., 1985. Gastrointestinal allometry in primates and other mammals. In: Jungers, W.L. (Ed.), Size and Scaling in Primate Biology. Plenum Press, New York, pp. 61–89.
McArdle, W.D., Katch, F.I., Katch, V.L., 2001. Exercise Physiology: Energy, Nutrition, and Human Performance. Lippincott, Williams, & Wilkins, Philadelphia, PA.
McHenry, H.M., 1994a. Tempo and mode in human evolution. Proceedings of the National Academy of Sciences of the USA 91, 6780–6786.
McHenry, H.M., 1994b. Behavioral ecological implications of early hominid body size. Journal of Human Evolution 27, 77–87.
McHenry, H.M., Coffing, K., 2000. Australopithecus to Homo: trans formations in body and mind. Annual Review of Anthropology 29, 125–146.
McNab, B.K., 2002. The Physiological Ecology of Vertebrates: A View from Energetics. Cornell University Press, Ithaca, N Y.
McNab, B.K., Wright, P.C., 1987. Temperature regulation and oxygen consumption in the Philippine tarsier Tarsius syrichta. Physiological Zoology 60, 596–600.
Milton, K., 1987. Primate diets and gut morphology: implications for hominid evolution. In: Harris, M., Ross, E.B. (Eds.), Food and Evolution: Toward a Theory of Human Food Habits. Temple University Press, Philadelphia, PA, pp. 93–115.
Milton, K., 1999. A hypothesis to explain the role of meat-eating in human evolution. Evolutionary Anthropology 8, 11–21.
Milton, K., 2003. The critical role played by animal source foods in human (Homo) evolution. Journal of Nutrition 133, 3886S–3892S.
Milton, K., Demment, M., 1988. Digestive and passage kinetics of chimpanzees fed high- and low-fiber diets and comparison with human data. Journal of Nutrition 118, 1–7.
Muchlinski, M.N., Snodgrass, J.J., Terranova, C.J., 2003. Scaling of muscle mass in primates. American Journal of Physical Anthropology (Suppl.) 36, 155.
Muchlinski, M.N., Snodgrass, J.J., Terranova, C.J., in preparation. Muscle mass scaling in primates and other mammals. Journal of Mammalian Evolution.
Pennisi, E., 1999. Did cooked tubers spur the evolution of big brains? Science 283, 2004–2005.
Pitts, G.C., Bullard, T.R., 1968. Some interspecific aspects of body composition in mammals. In: National Research Council (Ed.), Body Composition in Animals and Man. National Academy of Sciences Press, Washington, DC, pp. 45–79.
Plummer, T., 2004. Flaked stones and old bones: biological and cultural evolution at the dawn of technology. Yearbook of Physical Anthropology. 47, 118–164.
Pond, C.M., 1998. The Fats of Life. Cambridge University Press, Cambridge.
Potts, R., 1998. Environmental hypotheses of hominin evolution. Yearbook of Physical Anthropology 41, 93–136.
Preece, R.C., Gowlett, J.A.J., Parfitt, S.A., Bridgland, D.R., Lewis, S.G., 2006. Humans in the Hoxnian: habitat, context and fire use at Beeches Pit, West Stow, Suffolk, UK. Journal of Quaternary Science 21, 485–496.
Richard, A.F., 1985. Primates in Nature. WH Freeman, New York.
Rogers, M.J., Harris, J.W.K., Feibel, C.S.S., 1994. Changing patterns of land use by Plio-Pleistocene hominids in the Lake Turkana basin. Journal of Human Evolution 27, 139–158.
Rosenberg, K.R., 1992. The evolution of modern human childbirth. Yearbook of Physical Anthropology 35, 89–124.
Rowe, N., 1996. The Pictorial Guide to Living Primates. Pogonias Press, New York.
Ruff, C.B., 1993. Climatic adaptation and hominid evolution: the ther-moregulatory imperative. Evolutionary Anthropology. 2, 53–60.
Ruff, C.B., Walker, A., 1993. Body size and shape. In: Walker, A., Leakey, R. (Eds.), The Nariokotome Homo erectus Skeleton. Harvard University Press, Cambridge, MA, pp. 234–265.
Sailer, L.D., Gaulin, S.J.C., Boster, J.S., Kurland, J.A., 1985. Measuring the relationship between dietary quality and body size in primates. Primates 26, 14–27.
Schmidt-Nielsen, K., 1984. Scaling: Why is Animal Size so Important? Cambridge University Press, Cambridge.
Schoeninger, M.J., Bunn, H.T., Murray, S.S., Marlett, J.A., 2001. Nutritional composition of some wild plant foods and honey used by Hadza foragers of Tanzania. Journal of Food Composition and Analysis 14, 3–13.
Sellen, D.W., 2001. Comparison of infant feeding patterns reported for nonindustrial populations with current recommendations. Journal of Nutrition 131, 2707–2715.
Semaw, S., Rogers, M.J, Quade, J., Renne, P.R., Butler, R.F., Dominguez-Rodrigo, M., Stout, D., Hart, W.S., Pickering, T., Simpson, S.W, 2003. 2.6-million-year-old stone tools and associated bones from OGS-6 and OGS-7, Gona, Afar, Ethiopia. Journal of Human Evolution 45, 169–177.
Snodgrass, J.J., Leonard, W.R., Robertson, M.L., 1999. Interspecific variation in body composition and its influence on metabolic variation in primates and other mammals. American Journal of Physical Anthropology (Suppl.) 28, 255.
Snodgrass, J.J., Leonard, W.R., Robertson, M.L., 2007. Primate bioen-ergetics. In: Ravosa, M.J., Dagosto, M. (Eds.), Primate Origins: Adaptations and Evolution. Springer, New York, pp. 703–737
Snodgrass, J.J., Leonard, W.R., Robertson, M.L., in preparation. Interspecific variation in body composition in primates and other mammals: implications for human evolution. Journal of Human Evolution.
Sponheimer, M., Lee-Thorp, J., de Ruiter, D., Codron, D., Codron, J., Baugh, A.T., Thackeray, F., 2005. Hominins, sedges, and termites: new carbon isotope data from Sterkfontein valley and Kruger National Park. Journal of Human Evolution 48, 301–312.
Spoor, F., Leakey, M.G., Gathogo, P.N., Brown, F.H., Antón, S.C., McDougall, I., Kiarie, C., Manthi, F.K., Leakey, L.N., 2007. Implications of new early Homo fossils from Ileret, east of Lake Turkana, Kenya. Nature 448, 688–691.
Stahl, W.R., 1965. Organ weights in primates and other mammals. Science 150, 1039–1042.
Stanford, C.B., 1996. The hunting ecology of wild chimpanzees: implications for the evolutionary ecology of Pliocene hominids. American Anthropologist 98, 96–113.
Stephan, H., Frahm, H., Baron, G., 1981. New and revised data on volumes of brain structures in insectivores and primates. Folia Primatologica 35, 1–29.
Steudel-Numbers, K.L., 2006. Energetics in Homo erectus and other early hominins: the consequences of increased lower-limb length. Journal of Human Evolution 51, 445–453.
Straus, L.G., 1989. On early hominid use of fire. Current Anthropology 30, 488–491.
Sussman, R.W., 1987. Species-specific dietary patterns in primates and human dietary adaptations. In: Kinzey, W. (Ed.), Evolution of Human Behavior: Primate Models. SUNY Press, Albany, NY, pp. 151–179.
Tagliabue, A., Raben, A., Heijnen, M.L., Duerenberg, P., Pasquali, E., Astrup, A., 1995. The effect of raw potato starch on energy expenditure and substrate oxidation. American Journal of Clinical Nutrition 61, 1070–1075.
Teaford, M.F., Ungar, P.S., 2000. Diet and the evolution of the earliest human ancestors. Proceedings of the National Academy of Sciences of the USA 97, 13506–13511.
Thompson, S.D., Power, M.L., Rutledge, C.E., Kleiman, D.G., 1994. Energy metabolism and thermoregulation in the golden lion tama-rin (Leontopithecus rosalia). Folia Primatologica 63, 131–143.
Tipton, I.H., Cook, M.J., 1969. Weight of Total Gastrointestinal Tract and Its Subfractions. Oak Ridge National Laboratories, Oak Ridge, TN.
Tracer, D.P., 1991. Fertility-related changes in maternal body composition among the Au of Papua New Guinea. American Journal of Physical Anthropology 85, 393–405.
Valeggia, C.R., Ellison, P.T., 2001. Lactation, energetics and post-partum fecundity. In: Ellison, P.T. (Ed.), Reproductive Ecology and Human Evolution. Aldine, New York, pp. 85–105.
Wang, Z., Moonseong, H., Lee, R.C., Kotler, D.P., Withers, R.T., Heymsfield, S.B., 2001. Muscularity in human adults: proportion of adipose tissue-free body mass in skeletal muscle. American Journal of Human Biology 13, 612–619.
Weiner, S., Qunqu, X., Goldberg, P., Liu, J., Bar-Yosef, O., 1998. Evidence for the use of fire at Zhoukoudian, China. Science 281, 251–253.
Wells, J.C.K., 2006. The evolution of human fatness and susceptibility to obesity: an ethological approach. Biological Reviews 81, 183–205.
Whitehead, R.G., Paul, A.A., 2000. Long-term adequacy of exclusive breast-feeding: how scientific research has led to revised opinions. Proceedings of the Nutrition Society 59, 17–23.
Wood, B., Collard, M., 1999. The human genus. Science 284, 65–71.
Wrangham, R.W., 2007. The cooking enigma. In: Ungar, P.S. (Ed.), Evolution of the Human Diet: The Known, the Unknown, and the Unknowable. Oxford University Press, Oxford, pp. 308–323.
Wrangham, R.W., Conklin-Brittain, N.L., 2003. The biological significance of cooking in human evolution. Comparative Biochemistry and Physiology A 136, 35–46.
Wrangham, R.W., Jones, J.H., Laden, G., Pilbeam, D., Conklin-Brittain, N.L., 1999. The raw and the stolen: cooking and the ecology of human origins. Current Anthropology 40, 567–594.
Wynn, J.G., 2004. Influence of Plio-Pleistocene aridification on human evolution: evidence from paleosols from the Turkana Basin, Kenya. American Journal of Physical Anthropology 123, 106–118.
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Snodgrass, J.J., Leonard, W.R., Robertson, M.L. (2009). The Energetics of Encephalization in Early Hominids. In: Hublin, JJ., Richards, M.P. (eds) The Evolution of Hominin Diets. Vertebrate Paleobiology and Paleoanthropology. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-9699-0_2
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