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Looking back to the future – Michael Huffman

Published online by Cambridge University Press:  05 May 2016

Ivan Norscia
Affiliation:
Università degli Studi, Pisa
Elisabetta Palagi
Affiliation:
Università degli Studi, Pisa
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Summary

The quest to understand what makes us humans began with the search for the ‘missing link’, that enigmatic fossilised hominid that was thought would bridge the gap between ‘them’, the non-human primates, and us. In more recent times the picture growing from this quest looks more like a chain-link fence, than the envisioned simple link idea, with each passing discovery bringing new examples of extinct species sharing a mosaic of traits shared by humans and great apes (e.g. Templeton, 2005; White, 2012). With the pioneering great ape studies in the 1960s and 1970s, the search began to incorporate studies on our closest living relatives, the great apes, species with which we share many obvious behavioural, physiological and anatomical traits. Over the years primatology has methodically removed the perceived barrier between humans and apes, with the discovery of such behaviours as tool use, tool making and hunting with or without tools, communication, conspecific warfare, even the possible use of medicinal plants to treat illness (e.g. Goodall, 1968, 1986; McGrew, 1979, 1981, 1992; Boesch and Boesch, 1981; Nishida et al., 1985; Huffman and Seifu, 1989; Huffman and Kalunde, 1993; Boesch, 1994; Van Schaik and Knott, 2001; Van Schaik et al., 2003; Mitani et al., 2010). For some, this may seem like the beginning and the end point for looking at the origins of characteristics considered unique to humans. But is it really?

As our discipline advances, the boundaries have been pushed even further, with studies promoting macaques and capuchins as suitable models for human evolution of tool use behaviour, through the discovery of their ability to use stone tools as deftly as chimpanzees (e.g. Fragaszy et al., 2004; Moura and Lee, 2004; Ottoni and Izar, 2008; Gumert et al., 2009, 2011; Visalberghi et al., 2009). In this context, behavioural innovation and the long-term maintenance of stone handling, a non-functional cultural behaviour in macaques, and the artefacts of this behaviour left behind provide thought for socioecological forces behind the emergence of tool use in early humans (Huffman and Quiatt, 1986; Quiatt and Huffman, 1993; Huffman et al., 2010). Clearly, the gap between apes and monkeys is not as large as was once thought.

Type
Chapter
Information
The Missing Lemur Link
An Ancestral Step in the Evolution of Human Behaviour
, pp. 280 - 284
Publisher: Cambridge University Press
Print publication year: 2016

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References

Birkinshaw, C. R. (1999). Use of millipedes by black lemurs to anoint their bodies. Folia Primatologica, 70, 170–171.CrossRefGoogle Scholar
Blanco, M. B., Dausmann, K. H., Ranaivoarisoa, J. F. & Yoder, A. D. (2013). Underground hibernation in a primate. Scientific Reports, 3, 1768.CrossRefGoogle Scholar
Boesch, C. (1994). Cooperative hunting in wild chimpanzees. Animal Behavior, 48, 653–667.CrossRefGoogle Scholar
Boesch, C. & Boesch, H. (1981). Sex differences in the use of natural hammers by wild chimpanzees: a preliminary report. Journal of Human Evolution, 10, 585–593.CrossRefGoogle Scholar
Carrai, V., Borgognini-Tarli, S. M., Huffman, M. A. & Bardi, M. (2003). Increase in tannin consumption by sifaka (Propithecus verreauxi verreauxi) females during the birth season: a case for self-medication in prosimians?Primates, 44, 61–66.Google Scholar
Currie, C. R., Scott, J. A., Summerbell, R. C. & Malloch, D. (1999). Fungus-growing ants use antiobiotic-producing bacteria to control garden parasites. Nature, 398, 701–703.CrossRefGoogle Scholar
Dausmann, K. H., Glost, J., Ganzhorn, J. U. & Heldmaier, G. (2004). Hibernation in a tropical primate. Nature, 429, 825–826.CrossRefGoogle Scholar
Fichtel, C., & Kappeler, P. M. (2010). Human universals and primate symplesiomorphies: establishing the lemur baseline. In: Kappeler, P. M. & Silk, J. B. (eds), Mind the Gap. Berlin: Springer-Verlag, pp. 395–426.CrossRef
Fragaszy, D., Izar, P., Visalberghi, E., Ottoni, E. B. & de Oliviera, M. G. (2004). Wild capuchin monkeys (Cebus libidinosus) use anvils and stone pounding tools. American Journal of Primatology, 64, 359–366.CrossRefGoogle Scholar
Goodall, J. (1968). Behaviour of free-living chimpanzees of the Gombe Stream area. Animal Behavioural Monograph, 1, 163–311.Google Scholar
Goodall, J. (1986). The Chimpanzees of Gombe: Patterns of Behavior. Belknap.
Gumert, M. D., Kluck, M. & Malaivijitnond, S. (2009). The physical characteristics and usage patterns of stone axe and pounding hammers used by long-tailed macaques in the Andaman Sea region of Thailand. American Journal of Primatology, 71, 594–608.CrossRefGoogle Scholar
Gumert, M. D., Hoong, L. K. & Malaivijitnond, S. (2011). Sex differences in the stone tool-use behavior of a wild population of Burmese long-tailed macaques (Macaca fascicularis aurea). American Journal of Primatology, 73, 1–11.CrossRefGoogle Scholar
Hardy, K., Buckley, S. & Huffman, M. A. (2013). Neanderthal self-medication in context. Antiquity, 87, 873–878.CrossRefGoogle Scholar
Hohmann, G. & Fruth, B. (2000). Use and function of genital contacts among female bonobos. Animal Behavior, 60, 107–120.CrossRefGoogle Scholar
Huffman, M. A. (1997). Current evidence for self-medication in primates: a multidisciplinary perspective. Yearbook of Physical Anthropology, 40, 171–200.3.0.CO;2-7>CrossRefGoogle Scholar
Huffman, M. A. (2002). Animal origins of herbal medicine. In: Fleurentin, J., Pelt, J-M. & Mazars, G. (eds), Des Sources du Savoir aux Medicaments du Future – From the Sources of Knowledge to the Medicines of the Future. Paris: IRD Editions, pp. 31–42.CrossRef
Huffman, M. A. (2007). Animals as a source of medicinal wisdom in indigenous societies. In: Bekoff, M (ed.), Encyclopedia of Human-Animal Relationships, vol. 2. Westport, Connecticut: Greenwood Publishing Group, pp. 434–441.
Huffman, M. A. (2011). Primate self-medication. In: Campbell, C., Fuentes, A, MacKinnon, K, Panger, M & Bearder, S (eds), Primates in Perspective. Oxford: Oxford University Press, pp. 677–690.
Huffman, M. A. & Kalunde, M. S. (1993). Tool-assisted predation on a squirrel by a female chimpanzee in the Mahale Mountains, Tanzania. Primates, 34, 93–98.CrossRefGoogle Scholar
Huffman, M. A. & Quiatt, D. (1986). Stone handling by Japanese macaques Macaca fuscata: Implications for tool use of stone. Primates, 27, 427–437.CrossRefGoogle Scholar
Huffman, M. A. & Seifu, M. (1989). Observations on the illness and consumption of a possibly medicinal plant Vernonia amygdalina by a wild chimpanzee in the Mahale Mountains, Tanzania. Primates, 30, 51–63.CrossRefGoogle Scholar
Huffman, M. A., Leca, J. B. & Nahallage, C. A. D. (2010). Cultured Japanese macaques – a multidisciplinary approach to stone handling behavior and its implications for the evolution of behavioral traditions in non-human primates. In: Nakagawa, N., Nakamichi, M. & Sugira, H., (eds), The Japanese Macaques. Tokyo: Springer, pp. 191–221.CrossRef
Jolly, A. (1966). Lemur social behavior and primate intelligence. Science, 153, 501–506.CrossRefGoogle Scholar
Kano, T. (1980). Social behavior of wild pygmy chimpanzees (Pan paniscus) of Wamba: A preliminary report. Journal of Human Evolution, 9, 243–260.CrossRefGoogle Scholar
Kuroda, S. (1980). Social behavior of the pygmy chimpanzees. Primates, 21, 181–197.CrossRefGoogle Scholar
Masters, J., Gamba, M. & Génin, F. (2013). Leaping Ahead: Advances in Prosimian Biology. New York: Springer Press.CrossRef
McGrew, W. C. (1979). Evolutionary implications of sex differences in chimpanzee predation and tool-use. In: Hamburg, D. A & McCown, E. R (eds), The Great Apes. Menlo Park, CA: Benjamin Cummings, pp. 441–463.
McGrew, W. C. (1981). The female chimpanzee as a human evolutionary prototype. In: Dahlberg, F. (ed.), Woman the Gatherer. New Haven: Yale University Press, pp. 35–73.
McGrew, W. C. (1992). Chimpanzee Material Culture: Implications for Human Evolution. Cambridge University Press.CrossRef
Mitani, J., Watts, D. & Amsler, S. (2010). Lethal inter-group aggression leads to territorial expansion in wild chimpanzees. Current Biology, 20, R507–508.CrossRefGoogle Scholar
Moura, A. C. D. & Lee, P. C. (2004). Capuchin stone tool use in Caatinga dry forest. Science, 306, 1909.Google Scholar
Nishida, T., Hiraiwa-Hasegawa, M., Hasegawa, T. & Takahata, Y. (1985). Group extinction and female transfer in wild chimpanzees in the Mahale National Park, Tanzania. Z. Tierpsychologie, 67, 284–301.CrossRefGoogle Scholar
Ottoni, E. & Izar, P. (2008). Capuchin monkey tool use: overview and implications. Evolutionary Anthropology: Issues, News, and Reviews, 17, 171–178.CrossRefGoogle Scholar
Palagi, E. & Paoli, T. (2008). Social play in bonobos: Not only an immature matter. In: Furuichi, T. & Thompson, J. (eds), The Bonobos: Behavior, ecology, and conservation. New York: Springer, pp. 55–74.CrossRef
Quiatt, D. & Huffman, M. A. (1993). On home bases, nesting sites, activity centers, and new analytic perspectives. Current Anthropology, 34, 68–70.CrossRefGoogle Scholar
Savage-Rumbaugh, E. S. & Wilkerson, B. J. (1978). Socio-sexual behavior in Pan paniscus and Pan troglodytes: a comparative study. Journal of Human Evolution, 7, 327–344.CrossRefGoogle Scholar
Singer, M. S., Mace, K. C. & Bernays, E. A. (2009). Self-medication as adaptive plasticity: increased ingestion of plant toxins by parasitized caterpillars. PLoS ONE, 4, e4796. http://dx.doi.org/10.1371/journal.pone.0004796.CrossRefGoogle Scholar
Su, H., Su, Y. & Huffman, M. A. (2013). Leaf-swallowing and parasite infection in the Chinese lesser civet (Viverricula indica) in northern Taiwan. Zoological Studies, 52, 22. http://www.zoologicalstudies.com/content/52/1/22.Google Scholar
Suarez-Rodriguez, M., Lopez-Rull, I. & Garcia, C. M. (2013). Incorporation of cigarette butts into nests reduces nest ectoparasite load in urban birds: new ingredients for an old recipe?Biology Letters, 9, http://dx.doi.org/10.1098/rsbl.2012.0931.CrossRefGoogle Scholar
Valderrama, X., Robinson, J. G., Attygale, A. B. & Eisner, T. (2000). Seasonal anointment with millipedes in a wild primate: a chemical defense against insects?Journal of Chemical Ecology, 26, 2781–2790.Google Scholar
van Schaik, C. P. & Knott, C. D. (2001). Geographic variation in tool use on Neesia fruits in orangutans. American Journal of Physical Anthropology, 114, 331–342.CrossRefGoogle Scholar
van Schaik, C. P., Ancrenaz, M., Borgen, G., et al. (2003). Orangutan cultures and the evolution of material culture. Science, 299, 102–105.CrossRefGoogle Scholar
Visalberghi, E., Addessi, E., Truppa, V., et al. (2009). Selection of effective stone tools by wild bearded capuchin monkeys. Current Biology, 19, 213–217.CrossRefGoogle Scholar
Templeton, A. R. (2005). Haplotype trees and modern human origins. Yearbook of Physical Anthropology, 48, 33–59.CrossRefGoogle Scholar
White, T. (2012). Paleoanthropology: Five's a crowd in our family tree. Current Biology, 23, R112–115. http://www.sciencedirect.com/science/article/pii/S0960982212014418.Google Scholar

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