Monkey Hunting in Early to Mid-Holocene Eastern Java (Indonesia)

doi:10.1017/9781108766500.025

19 - Monkey Hunting in Early to Mid-Holocene Eastern Java (Indonesia)

from Part IV - Asia

Published online by Cambridge University Press: 03 August 2022

Noel Amano ,

Thomas Ingicco ,

Anne-Marie Moigne ,

Anne-Marie Sémah ,

Truman Simanjuntak and

François Sémah

Edited by

Bernardo Urbani ,

Dionisios Youlatos and

Andrzej T. Antczak

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Bernardo Urbani: Affiliation:
Venezuelan Institute for Scientific Research
Dionisios Youlatos: Affiliation:
Aristotle University, Thessaloniki
Andrzej T. Antczak: Affiliation:
Universiteit Leiden

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Summary

In this chapter, we explore the patterns of nonhuman primate exploitation in Early to Mid-Holocene East Java by looking at the faunal assemblage recovered from excavations in Braholo Cave. Cercopithecid specimens account for more than 50% of the animal remains recovered from the site. Of these, 90% were identified to represent the Javan langur (Trachypithecus auratus), suggesting deliberate hunting of this arboreal species. Age-at-death profiles demonstrate targeting of prime-aged adults and skeletal element representation suggests onsite carcass processing. We observed consistent placement of butchery marks on specific skeletal elements, indicative of routine carcass processing that also involved preparation of skeletal elements for bone tool manufacture. We discuss our findings in the framework of early hunter-gatherer subsistence economies in the region.

Keywords

Human–Nonhuman primate interactions, Holocene, Subsistence economy, Southeast Asia, Indonesia, Java

Type: Chapter
Information: World Archaeoprimatology
Interconnections of Humans and Nonhuman Primates in the Past
, pp. 474 - 496

DOI: https://doi.org/10.1017/9781108766500.025 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2022

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References

Aimi, M. (1981). Fossil Macaca nemestrina (Linnaeus, 1976) from Java, Indonesia. Primates, 22(3), 409–413.CrossRef Google Scholar

Amano, N., Moigne, A. M., Ingicco, T., Sémah, F., Awe, R. D., & Simanjuntak, T. (2016). Subsistence strategies and environment in Late Pleistocene–Early Holocene Eastern Java: Evidence from Braholo Cave. Quaternary International, 416(1), 46–63.CrossRef Google Scholar

Barker, G. (2005). The archaeology of foraging and farming in Niah Cave, Sarawak. Asian Perspectives, 44(1), 90–106.CrossRef Google Scholar

Barker, G., & Farr, L. (eds.) (2016). Archaeological Investigations in the Niah Caves, Sarawak. McDonald Institute for Archaeological Research, Cambridge.Google Scholar

Barker, G., Barton, H., Bird, M., et al. (2007). The “human revolution” in lowland tropical Southeast Asia: the antiquity and behavior of anatomically modern humans at Niah Cave (Sarawak, Borneo). Journal of Human Evolution, 52(3), 243–226.Google Scholar

Barton, H. W., Piper, P. J., Rabett, R. J., & Reeds, I. (2009). Composite hunting technologies from the Terminal Pleistocene and Early Holocene, Niah Cave, Borneo. Journal of Archaeological Science, 36, 1708–1714.CrossRef Google Scholar

Bellwood, P. (1997). Prehistory of the Indo-Malaysian Archipelago (revised edition). Honolulu: University of Hawai’i Press.CrossRef Google Scholar

Bellwood, P. (2013). First Migrants: Ancient Migration in Global Perspective. Chichester: Wiley-Blackwell.Google Scholar

Birchette, M. G. (1982). The postcranial skeleton of Paracolobus chemeroni. PhD thesis, Harvard University .Google Scholar

Borries, C., Larney, E., Lu, A., Ossi, K., & Koenig, A. (2008). Costs of large groups: developmental and reproductive rates in wild Phayre’s leaf monkeys (Trachypithecus phayrei). In Proceedings of the 77th Annual Meeting of the American Journal of Physical Antropology 71.Google Scholar

Botes, I.Gh. (1926). Étude morphologique et morphogénique du squelette du bras et de l’avant-bras chez les primates. Libraire Octave Doin, Gaston Doin & cie, éditeurs. Paris.Google Scholar

Dam, R. A., Fluin, J., Suparan, P., & van der Kaars, S. (2001). Palaeoenvironmental developments in the Lake Tondano area (N. Sulawesi, Indonesia) since 33,000 yr BP. Palaeogeography, Palaeoclimatology, Palaeoecology, 171(3), 147–183.CrossRef Google Scholar

Delson, E. (1973). Fossil Colobine monkeys of the Circum-Mediterranean Region and the evolutionary history of the Cercopithecidae (Primates, Mammalia). PhD thesis. Columbia University.Google Scholar

Détroit, F. (2006). Homo sapiens in Southeast Asian archipelagos: the Holocene fossil evidence with special reference to funerary practices in East Java. In Simanjuntak, T., Pojoh, M., & Hisyam, M., eds., Austronesian Diaspora and the Ethnogeneses of People in Indonesian Archipelago, Proceedings of the International Symposium. Jakarta: LIPI Press, 186–204.Google Scholar

Dubois, N., Oppo, D. W., Galy, V. V., et al. (2014). Indonesian vegetation response to changes in rainfall seasonality over the past 25,000 years. Nature Geoscience, 7(7), 513–517.Google Scholar

Groves, C. P. (1971). Systematics of the genus Nycticebus. In Taxonomy, Anatomy, Reproduction. Proceedings of the Third International Congress of Primatology 1, 44–53.Google Scholar

Groves, C. P. (1998). Systematics of tarsiers and lorises. Primates, 39(1), 13–27.Google Scholar

Groves, C., & Maryanto, I. (2008). Craniometry of slow lorises (genus Nycticebus) of insular Southeast Asia. In Shekelle, M., Groves, C., Maryanto, I., Schulze, H., & Fitch-Snyder., H. Primates of the Oriental Night. Jakarta: LIPI Press, 115–122.Google Scholar

Harrison, T., Krigbaum, J., & Manser, J. (2006). Primate biogeography and ecology on the Sunda Shelf Islands: a paleontological and zooarchaeological perspective. In Lehman, S. N., & Fleagle, J. G.. Primate Biogeography. New York: Springer, 331–372.Google Scholar

Ingicco, T. (2010). Les primates quaternaires de Song Terus (Java Est, Indonésie) implications paléobiogéographiques et archéozoologiques pour l’Asie du Sud-Est. Ph.D. thesis, Muséum national d’Histoire naturelle, Paris.Google Scholar

Ingicco, T., Moigne, A.-M., & Gommery, D. 2012. A deciduous and permanent dental wear stage system for assessing the age of Trachypithecus sp. specimens (Colobinae, Primates). Journal of Archaeological Science, 39, 421–427.CrossRef Google Scholar

Ingicco, T., Amano, N., Setiagama, K., et al. (2020). From food to grave good: Non-human primate exploitation in Early to Mid-Holocene Eastern Java (Indonesia). Current Anthropology, 61, 264–277.CrossRef Google Scholar

Jenkins, F. A. (1973). The functional anatomy and evolution of the mammalian humero‐ulnar articulation. American Journal of Anatomy, 137(3), 281–297.CrossRef Google Scholar PubMed

Ji, X., Youlatos, D., Jablonski, N. G., et al. (2020). Oldest colobine calcaneus from East Asia (Zhaotong, Yunnan, China), Journal of Human Evolution, 147, 1–13Google Scholar

Jolly, C. (1967). The evolution of the baboons. In Vartborg, H., ed., The Baboon in Medical Research. Vol. II. Austin: University of Texas Press, 427–457.Google Scholar

Kershaw, A. P., van der Kaars, S., & Moss, P. T. (2001). Late Quaternary Milankovitch-scale climatic change and variability and its impact on monsoonal Australasia. Marine Geology, 201 (1–3), 81–95.Google Scholar

Knussmann, R. (1967). Humerus, ulna and radius der Simiae. Bibliotheca Primatologica, vol. 5, Basel: Prager.Google Scholar

Kool, K. M. (1993). The diet and feeding behavior of the silver leaf monkey (Trachypithecus auratus sondaicus) in Indonesia. International Journal of Primatology, 14(5), 667–700.CrossRef Google Scholar

Ky-Kidd, K., & Piper, P. (2004). Identification of morphological variation in the humeri of Bornean primates and its application to zooarchaeology. Archaeofauna, 13, 85–95.Google Scholar

Langley, M. C., Amano, N., Wedage, O., et al. (2020). Bows and arrows and complex symbolic displays 48,000 years ago in the South Asian tropics. Science Advances, 6, eaba3831Google Scholar

Larson, S. G., & Stern, J. T. (1989). Role of supraspinatus in the quadrupedal locomotion of vervets (Cercopithecus aethiops): implications for interpretation of humeral morphology. American Journal of Physical Anthropology, 79(3), 369–377.Google Scholar

Lewis, H., Paz, V., Lara, M., et al. (2008). Terminal Pleistocene to mid-Holocene occupation and an early cremation burial at Ille Cave, Palawan, Philippines. Antiquity, 82(316), 318–335.Google Scholar

Lucas, P. W., & Teaford, M. F. (1994). Functional morphology of colobine teeth. In Davies, G., & Oates, J., eds., Colobine Monkeys: Their Ecology, Behaviour and Evolution Cambridge: Cambridge University Press, 173–203.Google Scholar

Lucas, P. W., Corlett, R. T., & Luke, D. A. (1986). Postcanine tooth size and diet in anthropoid primates. Zeitschrift für Morphologie und Anthropologie, 76(3), 253–276.CrossRef Google Scholar PubMed

Nekaris, K. A. I., & Jaffe, S. (2007). Unexpected diversity of slow lorises (Nycticebus spp.) within the Javan pet trade implications for slow loris taxonomy. Contributions to Zoology, 76(3), 187–196.Google Scholar

Nekaris, K. A. I., Moore, R. S., Rode, E. J., & Fry, B. G. (2013). Mad, bad and dangerous to know: the biochemistry, ecology and evolution of slow loris venom. Journal of Venomous Animals and Toxins including Tropical Diseases, 19(1), 21.Google Scholar

Newsome, J., & Flenley, J. R. (1988). Late Quaternary vegetational history of the central highlands of Sumatra. II. Palaeopalynology and vegetational history. Journal of Biogeography, 1, 555–578.CrossRef Google Scholar

Nijman, V. (2000). Geographic distribution of ebony leaf monkey Trachypithecus auratus. Contributions to Zoology, 69(3), 157–177.Google Scholar

Nijman, V., & Van Balen, S. B. (1998). A faunal survey of the Dieng Mountains, Central Java, Indonesia: distribution and conservation of endemic primate taxa. Oryx, 32(02), 145–156.Google Scholar

Lara, M., Paz, V., Lewis, H., & Solheim, W. (2015). Bone modifications in an Early Holocene cremation burial from Palawan, Philippines. International Journal of Osteoarchaeology, 25(5), 637–652.Google Scholar

Lloyd-Smith, L. R. (2009). Chronologies of the dead: Later prehistoric burial practice at the Niah Caves, Sarawak. PhD thesis, University of Cambridge.Google Scholar

Maloney, B. K., & McCormac, F. G. (1995). A 30,000-year pollen and radiocarbon record from Highland Sumatra as evidence for climatic change. Radiocarbon, 37(02), 181–190.CrossRef Google Scholar

Maloney, B. K., & McCormac, F. G. (1996). Palaeoenvironments of North Sumatra: a 30,000-year-old pollen record from Pea Bullok. Bulletin of the Indo-Pacific Prehistory Association, 14, 73–82.Google Scholar

Morwood, M. J., Sutikna, T., Saptomo, E. W., et al. (2008). Climate, people and faunal succession on Java, Indonesia: evidence from Song Gupuh. Journal of Archaeological Science, 35 (7), 1776–1789.CrossRef Google Scholar

O’Connor, S. (2007). New evidence from East Timor contributes to our understanding of earliest modern human colonisation east of the Sunda Shelf. Antiquity, 81(313), 523–535.CrossRef Google Scholar

O’Connor, S., Ono, R., & Clarkson, C. (2011). Pelagic fishing at 42,000 years before the present and the maritime skills of modern humans. Science, 334(6059), 1117–1121.Google Scholar

Olivier, G., & Caix, M. (1959). L’humérus du Semnopithèque. Mammalia, 23(1), 77–90.CrossRef Google Scholar

Olivier, G., & Fenart, R. (1956). Les os de la jambe du Semnopithèque. Mammalia, 20(3), 249–275.Google Scholar

Olivier, G., & Fontaine, M. (1957). Les os du pied du Semnopithèque. Mammalia, 21(4), 142–189.CrossRef Google Scholar

Olivier, G., & Piganiol, G. (1957). Le fémur du Semnopithèque. Mammalia, 21(4), 430–451.Google Scholar

Olivier, G., & Soutoul, J. (1960). L’avant-bras du Semnopithèque. Mammalia 24(2), 228–258.Google Scholar

Olivier, G., & Soutoul, J. (1961). Les os de la main du Semnopithèque. Mammalia, 25, 499–527.Google Scholar

Pasveer, J. M. (2004). The Djief Hunters, 26,000 years of Rainforest Exploitation on the Bird’s Head of Papua, Indonesia. Modern Quaternary Research in Southeast Asia, volume 17. Rotterdam: Balkema.Google Scholar

Pawlik, A. F., Piper, P. J., Paylona, M. G. P., et al. (2014). Adaptation and foraging from the Terminal Pleistocene to the Early Holocene: Excavation at Bubog on Ilin Island, Philippines. Journal of Field Archaeology, 39(3), 230–247.CrossRef Google Scholar

Pawlik, A. F., Piper, P. J., Wood, R. E., et al. (2015). Shell tool technology in Island Southeast Asia: an early Middle Holocene Tridacna adze from Ilin Island, Mindoro, Philippines. Antiquity, 89(344), 292–308.CrossRef Google Scholar

Piper, P. J., & Rabett, R. J. (2009). Hunting in a tropical rainforest: evidence from the Terminal Pleistocene at Lobang Hangus, Niah Caves, Sarawak. International Journal of Osteoarchaeology, 19(4), 551–565.Google Scholar

Piper, P., & Rabett, R. (2016). Vertebrate fauna from the Niah Caves, In Barker, G., & Farr, L., eds., Archaeological Investigations in the Niah Caves, Sarawak. Cambridge: McDonald Institute for Archaeological Research, 401–454.Google Scholar

Piper, P. J., Rabett, R. J., & Kurui, E. B. (2008). Using community, composition and structural variation in terminal Pleistocene vertebrate assemblages to identify human hunting behavior at Niah Caves, Borneo. Bulletin of the Indo-Pacific Prehistory Association, 28, 88–98.Google Scholar

Preuschoft, H. (1969). Statische Untersuchungen am Fuß der Primaten. Zeitschrift für Anatomie und Entwicklungsgeschichte, 129, 285–345Google Scholar

Rabett, R. J. (2005). The early exploitation of Southeast Asian mangroves: Bone technology from caves and open sites. Asian Perspectives, 44, 154–179.Google Scholar

Rabett, R. J. (2012). Human Adaptation in the Asian Palaeolithic: Hominin Dispersal and Behaviour during the Late Quaternary. Cambridge: Cambridge University Press.Google Scholar

Rabett, R. J., & Piper, P. J. (2012). The emergence of bone technologies at the end of the Pleistocene in Southeast Asia: regional and evolutionary implications. Cambridge Archaeological Journal, 22, 37–56.Google Scholar

Ravosa, M. J. (1998). Cranial allometry and geographic variation in slow lorises (Nycticebus). American Journal of Primatology, 45(3), 225–243.3.0.CO;2-Y>CrossRef Google Scholar PubMed

Richardson, M., Mittermeier, R. A., Rylands, A. B., & Konstant, B. (2008). Macaca nemestrina. The IUCN Red List of Threatened Species. Version 2015.1. Available from: www.iucnredlist.org Google Scholar

Rose, M. D. (1983). Miocene hominoid postcranial morphology: monkey-like, ape-like, neither, or both? In Ciochon, R. L., & Corruccini, R. S., eds., New Interpretations of Ape and Human Ancestry. New York: Plenum Press, 405–417.Google Scholar

Rose, M. D. (1988). Another look at the anthropoid elbow. Journal of Human Evolution, 17(1–2), 193–224.Google Scholar

Russell, J. M., Vogel, H., Konecky, B. L., et al. (2014). Glacial forcing of central Indonesian hydroclimate since 60,000 y BP. Proceedings of the National Academy of Sciences of the United States of America, 111(14), 5100–5105.Google Scholar

Sémah, F., Sémah, A.-M., Falguères, C., et al. (2004). The significance of the Punung karst area (Eastern Java) for the chronology of the Javanese Palaeolithic, with special reference to the Song Terus cave. In Keates, S. G., & Pasveer, J., eds., Modern Quaternary Research in Southeast Asia, vol. 18, Rotterdam: Balkema, 45–61.Google Scholar

Senturia, S. J. (1995). Morphometry and allometry of the primate humerus. Primates 36(4), 523–547.Google Scholar

Senut, B. (1986). Long bones of the primate upper limb: monomorphic or dimorphic? Human Evolution, 1(1), 7.Google Scholar

Setiagama, F. K. (2006). L’industrie osseuse de l’horizon Keplek, Holocène de la grotte de Song Terus, Punung, Java Est (Indonésie). Master’s thesis, Muséum national d’Histoire naturelle.Google Scholar

Simanjuntak, T., & Asikin, I. N. (2004). Early Holocene human settlement in eastern Java. Bulletin of the Indo-Pacific Prehistory Association, 2, 13–19.Google Scholar

Supriatna, J., & Wahyono, E. H. (2000). PanduanLapangan Primata Indonesia. Jakarta:Yaysan Obor Indonesia.Google Scholar

Swindler, D. R. (2002). Primate Dentition. An Introduction to the Teeth of Non-human Primates. Cambridge, UK: Cambridge University Press.CrossRef Google Scholar

Szabó, K., Brumm, A., Bellwood, P., et al. (2007). Shell artefact production at 32,000–28,000 BP in Island Southeast Asia: thinking across media? Current Anthropology, 48(5), 701–723.Google Scholar

van den Bergh, G. D., de Vos, J., & Sondaar, P. Y. (2001). The Late Quaternary palaeogeography of mammal evolution in the Indonesian Archipelago. Palaeogeography, Palaeoclimatology, Palaeoecology, 171(3), 385–408.CrossRef Google Scholar

van der Kaars, W. A. (1998). Marine and terrestrial pollen records of the last glacial cycle from the Indonesian region: Bandung Basin and Banda Sea. Palaeoclimates, 3, 209–219.Google Scholar

van der Kaars, W. A., & Dam, M. A. C. (1995). A 135,000-year record of vegetational and climatic change from the Bandung area, West-Java, Indonesia. Palaeogeography, Palaeoclimatology, Palaeoecology, 117(1–2), 55–72.Google Scholar

van der Kaars, W. A., Wang, X., Kershaw, P., Guichard, F., & Setiabudi, D. A. (2000). A Late Quaternary palaeoecological record from the Banda Sea, Indonesia: Patterns of vegetation, climate and biomass burning in Indonesia and northern Australia. Palaeogeography, Palaeoclimatology, Palaeoecology, 155(1–2), 135–153.Google Scholar

Washburn, S. L. (1942). Skeletal proportions of adult langurs and macaques, Human Biology, 14(4), 444–472.Google Scholar

Wedage, O., Amano, N., Langley, M. C., et al. (2019). Specialized rainforest hunting by Homo sapiens ~45,000 years ago. Nature Commications, 10(1), 739.Google Scholar

Wedage, O., Roberts, P., Faulkner, P., et al. (2020). Late Pleistocene to early-Holocene rainforest foraging in Sri Lanka: Multidisciplinary analysis at Kitulgala Beli-lena. Quaternary Science Reviews, 231, 106200.Google Scholar

Willis, M. S., & Swindler, D. R. (2004). Molar size and shape variations among Asian colobines. American Journal of Physical Anthropology, 125(1), 51–60.Google Scholar

Wirdateti, , Okayama, T., & Kurniati, H. (2006). Genetic diversity of slow loris (Nycticebus coucang) based on mitochondrial DNA. Tropics, 15(4), 377–381.Google Scholar

Wirdateti, , Dahrudin, H., & Sumadidjaya, A. (2011). Distribution and habitat of Javan Loris (Nycticebus javanicus) in plantations at Lebak District and Salak Mount (West Java). Journal Zoo Indonesia, 20(1), 17–26.Google Scholar

Wurster, C. M., Bird, M. I., Bull, I. D., et al. (2010). Forest contraction in north equatorial Southeast Asia during the Last Glacial Period. Proceedings of the National Academy of Sciences of the United States of America, 107 (35), 15508–15511.Google Scholar

Yeager, C. P., & Kirkpatrick, R. C. (1998) Asian colobine social structure: ecological and evolutionary constraints. Primates, 39(2), 147.Google Scholar

Youlatos, D. (2003). Calcaneal features of the Greek Miocene primate Mesopithecus pentelicus (Cercopithecoidea: Colobinae). Geobios, 36(2), 229–239.CrossRef Google Scholar

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19 - Monkey Hunting in Early to Mid-Holocene Eastern Java (Indonesia)

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