Abstract
The Machiavellian intelligence hypothesis and the social brain hypothesis have revolutionized traditional views on how primate cognition can be studied. Beyond the study of individual problem-solving capacities of various primates, these hypotheses have demonstrated the close relationship between the complexity of primate social life and the emergence of more sophisticated cognitive skills. The social brain hypothesis demonstrated the existence of a close correlation between the volume of the neocortex and the number of individuals in primate social groups. The amount of studies in this area have increased dramatically and have successfully enhanced our understanding of the evolutionary roots of complex social phenomena, including theory of mind, cultural transmission, social learning, and shared attention. The cognitive capacities present in primates also underlie the evolution of cognitive capacities in humans. This chapter introduces present avenues taken in research on primate social cognition, and it walks the reader through the chapters of this volume.
Now, if some one man in a tribe, more sagacious than the others, invented a new snare or weapon, or other means of attack or defense, the plainest self-interest, without the assistance of much reasoning power, would prompt the other members to imitate him; and all would thus profit.
(Charles Darwin, The Descent of Man, and Selection in Relation to Sex, 1871)
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References
Boesch C (1994) Cooperative hunting in wild chimpanzees. Anim Behav 48(3):653–667
Bonnie KE, de Waal FB (2006) Affiliation promotes the transmission of a social custom: handclasp grooming among captive chimpanzees. Primates 47(1):27–34
Boyd R, Richerson PJ (1996) Why culture is common, but cultural evolution is rare. Proc Br Acad 88:77–94
Bräuer J, Call J, Tomasello M (2005) All great ape species follow gaze to distant locations and around barriers. J Comp Psychol 119(2):145
Burkart JM, van Schaik CP (2010) Cognitive consequences of cooperative breeding in primates? Anim Cogn 13(1):1–19
Burkart JM, Fehr E, Efferson C, van Schaik CP (2007) Other-regarding preferences in a non-human primate: common marmosets provision food altruistically. Proc Natl Acad Sci USA 104(50):19762–19766
Buttelmann D, Carpenter M, Call J, Tomasello M (2007) Enculturated chimpanzees imitate rationally. Dev Sci 10(4):F31–F38
Byrne RW (1996) Relating brain size to intelligence in primates. In: Mellars PA, Gibson KR (eds) Modelling the early human mind. McDonald Institute for Archaeological Research, Cambridge, pp 49–56
Call J, Tomasello M (2008) Does the chimpanzee have a theory of mind? 30 years later. Trends Cogn Sci 12(5):187–192
Clark A, Chalmers D (1998) The extended mind. Analysis 58(1):7–19
Clutton-Brock TH, Harvey PH (1980) Primates, brains and ecology. J Zool 190(3):309–323
De Waal FB, Ferrari PF (2010) Towards a bottom-up perspective on animal and human cognition. Trends Cogn Sci 14(5):201–207
Dunbar RI (1992) Neocortex size as a constraint on group size in primates. J Hum Evol 22(6):469–493
Dunbar RI (1998) The social brain hypothesis. Brain 9(10):178–190
Dunbar RI, Shultz S (2007) Evolution in the social brain. Science 317(5843):1344–1347
Fehr E, Fischbacher U, Gächter S (2002) Strong reciprocity, human cooperation, and the enforcement of social norms. Hum Nat 13(1):1–25
Flombaum JI, Santos LR (2005) Rhesus monkeys attribute perceptions to others. Curr Biol 15(5):447–452
Fragaszy D, Izar P, Visalberghi E, Ottoni EB, de Oliveira MG (2004) Wild capuchin monkeys (Cebus libidinosus) use anvils and stone pounding tools. Am J Primatol 64(4):359–366
Goodall J (1986) The chimpanzees of Gombe: patterns of behavior. Belknap Press of Harvard University Press, Cambridge, MA
Hare B (2017) Survival of the friendliest: Homo sapiens evolved via selection for prosociality. Annu Rev Psychol 68:155–186
Hare B, Call J, Agnetta B, Tomasello M (2000) Chimpanzees know what conspecifics do and do not see. Anim Behav 59(4):771–785
Henrich J (2015) The secret of our success: how culture is driving human evolution, domesticating our species, and making us smarter. Princeton University Press, Princeton, NJ
Herrmann E, Call J, Hernández-Lloreda MV, Hare B, Tomasello M (2007) Humans have evolved specialized skills of social cognition: the cultural intelligence hypothesis. Science 317(5843):1360–1366
Huffman MA (1996) Acquisition of innovative cultural behaviors in nonhuman primates: a case study of stone handling, a socially transmitted behavior in Japanese macaques. In: Heyes CM, Galef BG Jr (eds) Social learning in animals: the roots of culture. Academic Press, San Diego, CA, pp 267–289
Humphrey NK (1976) The social function of intellect. In: Bateson PPG, Hinde RA (eds) Growing points in ethology. Cambridge University Press, Cambridge, pp 303–317
Hunt GR, Gray RD (2003) Diversification and cumulative evolution in New Caledonian crow tool manufacture. Proc R Soc Lond B Biol Sci 270(1517):867–874
Jerison HJ (1973) Evolution of the brain and intelligence. Academic, New York
Jolly A (1966) Lemur social behavior and primate intelligence. Science 153(3735):501–506
Kaminski J, Call J, Tomasello M (2008) Chimpanzees know what others know, but not what they believe. Cognition 109(2):224–234
Krupenye C, Kano F, Hirata S, Call J, Tomasello M (2016) Great apes anticipate that other individuals will act according to false beliefs. Science 354(6308):110–114
Lehmann J, Dunbar RIM (2009) Network cohesion, group size and neocortex size in female-bonded Old World primates. Proc R Soc Lond B Biol Sci 276(1677):4417–4422
Lindenfors P (2005) Neocortex evolution in primates: the ‘social brain’is for females. Biol Lett 1(4):407–410
Marticorena DC, Ruiz AM, Mukerji C, Goddu A, Santos LR (2011) Monkeys represent others’ knowledge but not their beliefs. Dev Sci 14(6):1406–1416
Melis AP, Hare B, Tomasello M (2006) Engineering cooperation in chimpanzees: tolerance constraints on cooperation. Anim Behav 72(2):275–286
Odling-Smee FJ, Laland KN, Feldman MW (2003) Niche construction: the neglected process in evolution. Princeton University Press, Princeton, NJ
Okamoto-Barth S, Call J, Tomasello M (2007) Great apes’ understanding of other individuals’ line of sight. Psychol Sci 18(5):462–468
Onishi KH, Baillargeon R (2005) Do 15-month-old infants understand false beliefs? Science 308(5719):255–258
Perner J (1991) Understanding the representational mind. MIT Press, Cambridge
Perry S, Panger M, Rose LM, Baker M, Gros-Louis J, Jack K, MacKinnon KC, Manson J, Fedigan L, Pyle K (2003) Traditions in wild white-faced capuchin monkeys. In: Fragaszy D, Perry S (eds) The biology of traditions: models and evidence. Cambridge University Press, Cambridge, pp 391–425
Rendell L, Whitehead H (2001) Culture in whales and dolphins. Behav Brain Sci 24(2):309–324
Richerson PJ, Boyd R (2005) Not by genes alone: how culture transformed human evolution. University of Chicago Press, Chicago, IL
Tennie C, Call J, Tomasello M (2009) Ratcheting up the ratchet: on the evolution of cumulative culture. Philos Trans R Soc B Biol Sci 364(1528):2405–2415
Tomasello M (2009) The cultural origins of human cognition. Harvard University Press, Cambridge, MA
Tomasello M, Call J (1997) Primate cognition. Oxford University Press, New York
Tomasello M, Carpenter M (2007) Shared intentionality. Dev Sci 10(1):121–125
Tomasello M, Hare B, Agnetta B (1999) Chimpanzees, Pan troglodytes, follow gaze direction geometrically. Anim Behav 58(4):769–777
Tomasello M, Melis AP, Tennie C, Wyman E, Herrmann E (2012) Two key steps in the evolution of human cooperation: the interdependence hypothesis. Curr Anthropol 53(6):673–692
Van Schaik CP, Ancrenaz M, Borgen G, Galdikas B, Knott CD, Singleton I, Suzuki A, Utami SS, Merrill M (2003) Orangutan cultures and the evolution of material culture. Science 299(5603):102–105
Varela F, Thompson E, Rosch E (1991) The embodied mind: cognitive science and human experience MIT press. Massachusetts, Cambridge
Wellman HM (1992) The child’s theory of mind. MIT Press, Cambridge, MA
Whiten A, Byrne RW (1988) Machiavellian intelligence hypothesis. In: Byrne RW, Whiten A (eds) Machiavellian intelligence. Clarendon, Oxford, pp 1–9
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
Woodward AL (1998) Infants selectively encode the goal object of an actor’s reach. Cognition 69(1):1–34
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De Petrillo, F., Di Vincenzo, F., Di Paolo, L.D. (2018). An Evolutionary Perspective on Primate Social Cognition. In: Di Paolo, L.D., Di Vincenzo, F., De Petrillo, F. (eds) Evolution of Primate Social Cognition. Interdisciplinary Evolution Research, vol 5. Springer, Cham. https://doi.org/10.1007/978-3-319-93776-2_1
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