Forty years striving to capture culture among the Taï chimpanzees

doi:10.1017/9781108674218.013

12 - Forty years striving to capture culture among the Taï chimpanzees

Published online by Cambridge University Press: 25 November 2019

Christophe Boesch

Edited by

Christophe Boesch and

Roman Wittig

Edited in association with

Catherine Crockford ,

Linda Vigilant ,

Tobias Deschner and

Fabian Leendertz

Show author details

Christophe Boesch: Affiliation:
Max-Planck-Institut für Evolutionäre Anthropologie, Germany
Roman Wittig: Affiliation:
Max-Planck-Institut für Evolutionäre Anthropologie, Germany
Catherine Crockford: Affiliation:
Max-Planck-Institut für Evolutionäre Anthropologie, Germany
Linda Vigilant: Affiliation:
Max-Planck-Institut für Evolutionäre Anthropologie, Germany
Tobias Deschner: Affiliation:
Max-Planck-Institut für Evolutionäre Anthropologie, Germany
Fabian Leendertz: Affiliation:
Robert Koch-Institut, Germany

Book contents

Get access

Summary

First established to distinguish humans from other animals, the concept of culture provides a stimulating framework to address complexity and diversity of social responses to environmental and social factors in animals. The ‘Golden Barrier’ separating humans from other animals thinned as observations of behavioural diversity in wild chimpanzees accumulated. For 40 years, the Taï Chimpanzee Project has contributed to discussions of animal culture. The ant-dipping and nut-cracking differences reported between chimpanzee populations across Africa produced insights into cultural attributes of chimpanzees. Observed differences between neighbouring communities in the same environment of Taï forest with routine gene flow presented strong evidence for a social process sustaining group-specific cultural differences. Today, the concept of chimpanzee culture implies not only varied behaviours, group-specific forms of social learning, but also conformity within groups, accumulation of variation within traits, presence of material, symbolic and social cultural traits and diverse forms of maternal tutoring. Future work will elucidate cultural transmission mechanisms in wild animal populations.

Keywords

Chimpanzees Culture Tropical rainforest Nut-cracking Cooperation Ant-dipping Neighbour groups

Type: Chapter
Information: The Chimpanzees of the Taï Forest
40 Years of Research
, pp. 178 - 193

DOI: https://doi.org/10.1017/9781108674218.013 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2019

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ambrose, S. (2001). Paleolithic technology and human evolution. Science, 291, 1748–1753.Google Scholar

Barnard, A. (2000). History and Theory in Anthropology. Cambridge: Cambridge University Press.CrossRef Google Scholar

Beck, B. (1980). Animal Tool Behavior. New York: Garland Press.Google Scholar

Bissonnette, A., Franz, M., Schülke, O. & Ostner, J. (2014). Socioecology, but not cognition, predicts male coalitions across primates. Behavioral Ecology, 25, 794–801.Google Scholar

Boas, F. (1940). Race, Language, and Culture. New York: The MacMillan Company.Google Scholar

Boesch, C. (1991). Symbolic communication in wild chimpanzees? Human Evolution, 6, 81–90.Google Scholar

Boesch, C. (1996). Three approaches for assessing chimpanzee culture. In Russon, A., Bard, K. & Parker, S. (eds.), Reaching into Thought (pp. 404–429). Cambridge: Cambridge University Press.Google Scholar

Boesch, C. (2003). Is culture a golden barrier between human and chimpanzee? Evolutionary Anthropology, 12, 26–32.CrossRef Google Scholar

Boesch, C. (2012). Wild Cultures: A Comparison Between Chimpanzee and Human Cultures. Cambridge: Cambridge University Press.Google Scholar

Boesch, C. (2015). Similarities between chimpanzee and human culture. In Gelfand, M. J., Chiu, C.-Y. and Hong, Y.-Y. (eds.), Handbook of Advances in Culture and Psychology (Volume 5, pp. 1–37). Oxford: Oxford University Press.Google Scholar

Boesch, C. & Boesch, H. (1984). Mental map in wild chimpanzees: An analysis of hammer transports for nut cracking. Primates, 25, 160–170.Google Scholar

Boesch, C. & Boesch, H. (1989). Hunting behavior of wild chimpanzees in the Taï National Park. American Journal of Physical Anthropology, 78, 547–573.Google Scholar

Boesch, C. & Boesch, H. (1990). Tool use and tool making in wild chimpanzees. Folia Primatologica, 54, 86–99.Google Scholar

Boesch, C. & Boesch-Achermann, H. (2000). The Chimpanzees of the Taï Forest: Behavioural Ecology and Evolution. Oxford: Oxford University Press.Google Scholar

Boesch, C., Crockford, C., Herbinger, I., Wittig, R., Moebius, Y. & Normand, E. (2008). Intergroup conflicts among chimpanzees in Taï National Park: Lethal violence and the female perspective. American Journal of Primatology, 70, 1–14.Google Scholar

Boesch, C., Marchesi, P., Marchesi, N., Fruth, B. & Joulian, F. (1994). Is nut cracking in wild chimpanzees a cultural behaviour? Journal of Human Evolution, 26, 325–338.Google Scholar

Bonner, J. (1980). The Evolution of Culture in Animals. Princeton: Princeton University Press.Google Scholar

Bril, B., Smaers, J., Steele, J., Rein, R., Nonaka, T., Dietrich, G., et al. (2012). Functional mastery of percussive technology in nut-cracking and stone-flaking actions: Experimental comparison and implications for the evolution of the human brain. Philosophical Transactions of the Royal Society B, 367, 59–74.Google Scholar

Buchanan, K., Grindstaff, J. & Pravosudov, V. (2014).Condition dependence, developmental plasticity, and cognition: Implications for ecology and evolution. Trends in Ecology and Evolution, 28, 290–296.CrossRef Google Scholar

Cissewski, J. & Boesch, C. (2016). How great apes may cover crucial advantages of language without creating a system of symbolic communication. Gesture, 15, 224–249.Google Scholar

Dart, R. (1925). Australopithecus africanus, the man-ape of South Africa. Nature, 115, 195–199.Google Scholar

Foley, R. & Lahr, M. (2003). On stony ground: Lithic technology, human evolution, and the emergence of culture. Evolutionary Anthropology, 12, 109–122.CrossRef Google Scholar

Galef, B. (1990). Tradition in animals: Field observations and laboratory analyses. In Bekoff, M., and Jamieson, D. (eds.), Interpretation and Explanation in the Study of Animal Behavior (pp. 74–95). Boulder: Westview Press.Google Scholar

Galef, B. (1992). The question of animal culture. Human Nature, 3, 157–178.CrossRef Google Scholar PubMed

Galef, B. (2004). Approaches to the study of traditional behaviors of free-living animals. Learning and Behavior, 32, 53–61.CrossRef Google Scholar

Goodall, J. (1963). Feeding behaviour of wild chimpanzees: A preliminary report. Symposium of the Zoological Society, London, 10, 39–48.Google Scholar

Goodall, J. (1964). Tool-using and aimed throwing in a community of free-living chimpanzees. Nature, 201, 1264–1266.Google Scholar

Goodall, J. (1968). Behaviour of free-living chimpanzees of the Gombe Stream area. Animal Behaviour Monograph, 1, 163–311.Google Scholar

Goodall, J. (1973). Cultural elements in a chimpanzee community. In Menzel, E. (ed.), Precultural Primate Behaviour, Fourth IPC Symposia Proceedings (Volume 1, pp. 195–249). Basel: Karger.Google Scholar

Günther, M. M. & Boesch, C. (1993). Energetic cost of nut cracking behaviour in wild chimpanzees. In Preuschoft, H. & Chivers, D.J. (eds.), Hands of Primates (pp. 109–129). Vienna: Springer.Google Scholar

Haidle, M., Bolus, M., Collard, M., Conard, N., Garofoli, D., Lombard, M., et al. (2015). The Nature of Culture: An eight-grade model for the evolution and expansion of cultural capacities in hominins and other animals. Journal of Anthropological Sciences, 93, 43–70.Google Scholar

Henrich, J. & McElreath, R. (2003). The evolution of cultural evolution. Evolutionary Anthropology, 12, 123–135.Google Scholar

Heyes, C. M. (1994). Imitation, culture and cognition. Animal Behaviour, 46, 999–1010.Google Scholar

Heyes, C.M. (2012). Grist and mills: On the cultural origins of cultural learning. Philosophical Transactions of the Royal Society B, 367, 2181–2191.Google Scholar

Humle, T. & Matsuzawa, T. (2002). Ant-dipping among the chimpanzees of Bossou, Guinea, and some comparisons with other sites. American Journal of Primatology, 58, 133–148.Google Scholar

Isaac, G. (1978). The food sharing behavior of protohuman hominids. Scientific American, 238, 90–108.CrossRef Google Scholar PubMed

Kawai, M. (1965). Newly acquired precultural behavior of the natural troop of Japanese monkeys on Koshima islet. Primates, 6, 1–30.Google Scholar

Kroeber, A. & Kluckhohn, C. (1952). Culture: A Critial Review of Concepts and Definitions. Cambridge, MA: Peabody Museum.Google Scholar

Kuper, A. (1999). Culture: An Anthropologist Perspective. Boston: Harvard University Press.Google Scholar

Laland, K. & Hoppitt, W. (2003). Do animals have culture? Evolutionary Anthropology, 12, 150–159.Google Scholar

Laland, K. & Janik, V. (2006). The animal cultures debate. Trends in Ecology and Evolution, 21, 542–547.Google Scholar

Leakey, L. S. B. (1961). The Progress and Evolution of Man in Africa. London: Oxford University Press.Google Scholar

Luncz, L. V. & Boesch, C. (2014). Tradition over trend: Neighboring chimpanzee communities maintain differences in cultural behavior despite frequent immigration of adult females. American Journal of Primatology, 76, 649–657.Google Scholar

Luncz, L. V. & Boesch, C. (2015). The extent of cultural variations between adjacent chimpanzee (Pan troglodytes verus) communities; A microecological approach. American Journal of Physical Anthropology, 156, 67–75.Google Scholar

Luncz, L. V., Mundry, R. & Boesch, C. (2012). Evidence for cultural differences between neighboring chimpanzee communities. Current Biology, 22, 922–926.Google Scholar

Luncz, L., Sirianni, G., Mundry, R. & Boesch, C. (2018). Costly culture: Differences in nut-cracking efficiency between chimpanzee groups. Animal Behaviour, 137, 63–73.Google Scholar

Luncz, L. V., Wittig, R. M. & Boesch, C. (2015). Primate archaeology reveals cultural transmission in wild chimpanzees (Pan troglodytes verus). Philosophical Transactions of the Royal Society B, 370, 20140348.Google Scholar

Maynard-Smith, J. & Szathmary, E. (1995). The Major Transitions in Evolution. Oxford: Freeman.Google Scholar

Mercader, J., Barton, H., Gillespie, J., Harris, J., Kuhn, S., Tyler, R., et al. (2007). 4,300-year-old chimpanzee sites and the origins of percussive stone technology. Proceedings of the National Academy of Sciences of the United States of America, 104, 3043–3048.CrossRef Google Scholar PubMed

Mercader, J., Panger, M. & Boesch, C. (2002). Excavation of a chimpanzee stone tool site in the African rainforest. Science, 296: 1452–1455.Google Scholar

Mesoudi, A. (2011). Variable cultural acquisition cost constrains cumulative cultural evolution. PLoS ONE, 6(3), e18236.Google Scholar

Möbius, Y., Boesch, C., Koops, K., Matsuzawa, T. & Humle, T. (2008). Cultural differences in army ant predation by West African chimpanzees? A comparative study of microecological variables. Animal Behaviour, 76, 37–45.Google Scholar

Morimura, N. & Mori, Y. (2010). Effects of early rearing conditions on problem-solving skill in captive male chimpanzees (Pan troglodytes). American Journal of Primatology, 72, 626–633.Google Scholar

Nishida, T. (1968). The social group of wild chimpanzees in the Mahali Mountains. Primates, 9, 167–224.Google Scholar

Nishida, T. (1987). Local traditions and cultural transmission. In Smuts, S. S., Cheney, D. L., Seyfarth, R. M., Wrangham, R. W. & Struhsaker, T. T. (eds.), Primate Societies (pp. 462–474). Chicago: University of Chicago Press.Google Scholar

O’Brien, M. J., Darwent, J. & Lyman, L. (2001). Cladistics is useful for reconstructing archaeological phylogenies: Paleoindian points from the Southeastern United States. Journal of Archaeological Science, 28, 1115–1136.Google Scholar

O’Brien, M., Lyman, L., Mesoudi, A. & Van Pool, T. (2010). Cultural traits as units of analysis. Philosophical Transactions of the Royal Society B, 365, 3797–3806.Google Scholar

Ottoni, E. & Izar, P. (2008). Capuchin monkey tool use: Overview and implications. Evolutionary Anthropology, 17, 171–178.Google Scholar

Panger, M., Perry, S., Rose, L., Gros-Louis, J., Vogel, E., MacKinnon, K., et al. (2002). Cross-site differences in foraging behavior of white-faced capuchins (Cebus capucinus). American Journal of Physical Anthropology, 119, 52–66.Google Scholar

Perry, S. & Manson, J. (2003). Traditions in monkeys. Evolutionary Anthropology, 12, 71–81.Google Scholar

Pravosudov, V. & Clayton, N. (2002). A test of the adaptive specialization hypothesis: Population differences in caching, memory, and the hippocampus in black-capped chickadees (Poecile atricapilla). Behavioral Neuroscience, 116, 515–522.Google Scholar

Pravosudov, V. & Smulders, T. (2010). Integrating ecology, psychology and neurobiology within a food-hoarding paradigm. Philosophical Transactions of the Royal Society B, 365, 859–867.Google Scholar

Premack, D. (2007). Human and animal cognition: Continuity and discontinuity. Proceedings of the National Academy of Sciences of the United States of America, 104, 13,861–13,867.Google Scholar

Rahm, U. (1971). L’emploi d’outils par les chimpanzés de l’ouest de la Côte d’Ivoire. La Terre et la Vie, 25, 506–509.Google Scholar

Rendell, L. & Whitehead, H. (2001). Culture in whales and dolphins. Behavioral and Brain Sciences, 24, 309–324.Google Scholar

Roux, V., Bril, B. & Dietrich, G. (1995). Skills and learning difficulties involved in stone knapping: The case of stone-bead knapping in Khambhat, India. World Archaeology, 27, 63–87.Google Scholar

Russell, J., Lyn, H., Schaeffer, J. & Hopkins, W. (2011). The role of socio-communicative rearing environment in the development of social and physical cognition in apes. Developmental Science, 14, 1459–1470.CrossRef Google Scholar PubMed

Sanchez, M., Hearn, E., Do, D., Rilling, J. & Herndon, J. (1998). Differential rearing affects corpus callosum size and cognitive function of rhesus monkeys. Brain Research, 812, 38–49.Google Scholar

Sanz, C., Morgan, D. & Gulick, S. (2004). New insights into chimpanzees, tools, and termites from the Congo Basin. American Naturalist, 164, 567–581.Google Scholar

Sanz, C. M., Schöning, C. & Morgan, D. B. (2009). Chimpanzees prey on army ants with specialized tool set. American Journal of Primatology, 71, 1–8.Google Scholar

Schrijver, N., Pallier, P., Brown, V. & Würbel, H. (2004). Double dissociation of social and environmental stimulation on spatial learning and reversal learning in rats. Behavioural Brain Research, 152, 307–314.Google Scholar

Sirianni, G., Mundry, R. & Boesch, C. (2015). When to choose which tool: Multidimensional and conditional selection of nut-cracking hammers in wild chimpanzees. Animal Behaviour, 100, 152–165.Google Scholar

Shennan, S. (2000). Population, culture history and the dynamics of culture change. Current Anthropology, 41, 811–835.Google Scholar

Smulders, T., Gould, K. & Leaver, L. (2010). Using ecology to guide the study of cognitive and neural mechanisms of different aspects of spatial memory in food-hoarding animals. Philosophical Transactions of the Royal Society B, 365, 883–900.Google Scholar

Sol, S., Duncan, R., Blackburn, T., Cassey, P. & Lefebvre, L. (2005). Big brains, enhanced cognition, and response of birds to novel environments. Proceedings of the National Academy of Sciences of the United States of America, 102, 5460–5465.Google Scholar

Stout, D. (2002). Skill and cognition in stone tool production: An ethnographic case study from Irian Jaya. Current Anthropology, 43, 693–715.Google Scholar

Struhsaker, T. T. & Hunkeler, P. (1971). Evidence of tool-using by chimpanzees in the Ivory Coast. Folia Primatologica, 15, 212–219.Google Scholar

Sugiyama, Y. (1981). Observations on the population dynamics and behavior of wild chimpanzees of Bossou, Guinea, 1979–1980. Primates, 22, 435–444.Google Scholar

Tomasello, M. & Call, J. (1997). Primate Cognition. Oxford: Oxford University Press.Google Scholar

Tomasello, M., Carpenter, M., Call, J., Behne, T. & Moll, H. (2005). Understanding and sharing intentions: The origins of cultural cognition. Behavioral and Brain Sciences, 28, 675–691.Google Scholar

Tomasello, M., Savage-Rumbaugh, S. & Kruger, A. (1993). Imitative learning of actions on objects by children, chimpanzees, and enculturated chimpanzees. Child Development, 64, 1688–1705.Google Scholar

Tylor, E. (1871). Primitive Cultures: Researches into the Development of Mythology, Philosophy, Religion, Art and Custom, Volume 1. London: John Murray.Google Scholar

Udell, M., Dorey, N. & Wynne, C. (2010). The performance of stray dogs (Canis familiaris) living in a shelter on human-guided object-choice tasks. Animal Behaviour, 79, 717–725.Google Scholar

van Schaik, C. P., Ancrenaz, M., Brogen, G., Galdikas, B., Knott, C., Singleton, I., et al. (2003). Orangutan cultures and the evolution of material culture. Science, 299, 102–105.Google Scholar

Weedman, K. (2002). On the spur of the moment: Effects of age and experience on hafted stone scraper morphology. American Antiquity, 67, 731–744.Google Scholar

Whitehead, H. (1998). Cultural selection and genetic diversity in matrilineal whales. Science, 282, 1708–1711.Google Scholar

Whiten, A., Goodall, J., McGrew, W., Nishida, T., Reynolds, V., Sugiyama, Y., et al. (1999). Cultures in chimpanzee. Nature, 399, 682–685. https://doi.org/10.1038/21415 Google Scholar

Whiten, A., Hinde, R., Laland, K. & Stringer, C. (2011). Culture evolves. Philosophical Transactions of the Royal Society B, 366, 938–948.Google Scholar

Wrangham, R. (2006). Chimpanzees: The culture-zone concept becomes untidy. Current Biology, 16, R634–R635.Google Scholar

Book contents

12 - Forty years striving to capture culture among the Taï chimpanzees

Summary

Keywords

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive