The Early Palaeolithic of Southeast Asia

doi:10.1017/CHO9781139017831.024

1.21 - The Early Palaeolithic of Southeast Asia

from III. - South and Southeast Asia

Published online by Cambridge University Press: 05 August 2014

Roy Larick and

Russell L. Ciochon

Edited by

Colin Renfrew and

Paul Bahn

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Roy Larick: Affiliation:
Cleveland State University
Russell L. Ciochon: Affiliation:
University of Iowa
Colin Renfrew: Affiliation:
University of Cambridge

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Summary

Southeast Asia is the warm, humid corner of the Eurasian landmass (Map 1.21.1). The region lies east of the Indian Subcontinent and, essentially, south of China. It covers the Indonesian and Philippine archipelagos as well as the Malay and Indochina peninsulas. Herein the northern border is the Tropic of Cancer (23.3o N). The region has a generally tropical, rainy climate with the wet monsoon dominating the annual cycle. Current political distinctions are Brunei, Cambodia, Indonesia, Laos, Malaysia, Myanmar, the Philippines, Singapore, Thailand, Vietnam and the southern portions of Yunnan, Guangxi, and Guangdong provinces in China. The Southeast Asian Early Palaeolithic has a highly varied representation across three internal provinces: the mainland, Sunda and the eastern island arc.

The mainland province descends from the Tropic of Cancer to the present coastline. The mainland is mountainous and traversed by large rivers draining the Tibetan Plateau and eastern flanks to the north. These include Thanlwin, Ayeyarwady, Chao Phraya and Mekong. The mainland climate is generally humid subtropical. Subject to archaeological survey for more than a century, the mainland has just one set of undisputed Early Palaeolithic sites: those of the Bose Basin, Guangxi Province, China. The major rivers have terrace deposits holding lithic assemblages of controversial temporal provenance.

Type: Chapter
Information: The Cambridge World Prehistory , pp. 346 - 368

DOI: https://doi.org/10.1017/CHO9781139017831.024 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2014

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References

Ambrose, S. H. 1998. Late Pleistocene human population bottlenecks, volcanic winter, and differentiation of modern humans. Journal of Human Evolution 34: 623–51.Google Scholar

Augustin, L., Barbante, C., Barnes, P. R., et al. 2004. Eight glacial cycles from an Antarctic ice core. Nature 429: 623–8.Google Scholar

Aziz, F., Shibasaki, T. & Suminto, . 1985. Pucung Site, pp. 87–90 in (Watanabe, N., & Kadar, D., eds.) Quaternary Geology of the Hominid Fossil Bearing Formations in Java. Geological Research and Development Centre: Bandung.

Aziz, F., van den Bergh, G. D., Morwood, M. J., Hobbs, D. R., Collins, J., Jatmiko, & Kurniawan, I. 2009. Excavations at Tangi Talo, central Flores, Indonesia, pp. 41–58 in (Aziz, F., Morwood, M. J. & van den Bergh, G. D., eds.) Palaeontology and Archaeology of the Soa Basin, Central Flores, Indonesia. Indonesian Geological Survey Institute: Bandung.

Baba, H., Aziz, F., Kaifu, Y., Suwa, G., Kono, R. T. & Jacob, T. 2003. Homo erectus calvarium from the Pleistocene of Java. Science 299: 1384–.Google Scholar

Bartstra, G.-J. 1976. Contributions to the Study of the Palaeolithic Patjitan Culture, Java, Indonesia. E. J. Brill: Leiden.

Bartstra, G.-J. 1989. Late Homo erectus of Ngandong Man of Java. Palaeohistoria 29: 1–7.Google Scholar

Bartstra, G.-J., Soegondho, S. & van der Wijk, A. 1988. Ngandong Man: age and artifacts. Journal of Human Evolution 17: 325–37.Google Scholar

Bautista, A. P. 1991. Recent zooarchaeological researches in the Philippines. Journal Arkeologi 4: 45–58.Google Scholar

Berger, W. H. & Jansen, E. 1994. Mid-Pleistocene climate shift: the Nansen connection, pp. 295–311 in (Johannessen, O. M., Muench, R. D. & Overland, J. E., eds.) The Polar Oceans and Their Role in Shaping the Global Environment. American Geophysical Union: Washington, D.C.

Berger, W. H. & Wefer, G. 2003. On the dynamics of the ice ages: Stage-11 paradox, Mid-Brunhes climate shift and 100-ky cycle, pp. 41–59 in (Droxler, A. W., Poore, R. Z., & Burckle, L. H., eds.) Earth’s Climate and Orbital Eccentricity: The Marine Isotope Stage 11 Question. American Geophysical Union: Washington, D.C.

Berger, W. H., Yasuda, M. K., Bickert, T., Wefer, G., & Takayama, T. 1994. Quaternary time scale for the Ontong Java Plateau: Milankovitch template for Ocean Drilling Program Site 806. Geology 22: 463–7.Google Scholar

Bettis, E., Milius, A., Carpenter, S., Larick, R., Zaim, Y., Risal, Y., Ciochon, R. L., Tassier-Surine, S., Murray, D., Suminto, & Bronto, S. 2009. Way out of Africa: Early Pleistocene palaeoenvironments inhabited by Homo erectus in Sangiran, Java. Journal of Human Evolution 56: 11–24.Google Scholar

Bettis, E., Zaim, Y., Larick, R., Ciochon, R., Suminto, , Risal, Y., Reagan, M. & Heizler, M. 2004. Landscape development preceding Homo erectus immigration into Central Java, Indonesia: the Sangiran Formation Lower Lahar. Palaeogeography, Palaeoclimatrology, Palaeocology 206: 115–31.Google Scholar

Bouteaux, A. & Moigne, A-M. 2010. New taphonomical approaches: the Javanese Pleistocene open-air sites (Sangiran, Central Java). Quaternary International 223–224: 220–5.Google Scholar

Bowen, D. Q. & Sykes, G. A. 1998. Correlation of marine events and glaciations on the northeast Atlantic margin. Philosophical Transactions of the Royal Society of London 318: 619–35.Google Scholar

Brumm, A., Aziz, F., van den Bergh, G. D., Morwood, M. J., Moore, M. W., Kurniawan, I., Hobbs, D. R. & Fullager, R. 2006. Early stone technology on Flores and its implications for Homo floresiensis. Nature 441: 624–8.Google Scholar

Brumm, A., Jensen, G., van den Bergh, G., Morwood, M., Kurniawan, I., Aziz, F. & Storey, M. 2010a. Hominins on Flores, Indonesia, by one million years ago. Nature 464: 748–52.Google Scholar

Brumm, A., Moore, M., van den Bergh, G., Kurniawan, I., Morwood, M. & Aziz, F. 2010b. Stone technology at the Middle Pleistocene site of Mata Menge, Flores, Indonesia. Journal of Archaeological Science 37: 451–73.Google Scholar

Chappell, J. & Shackleton, N. J. 1986. Oxygen isotopes and sea level. Nature 324: 137–40.Google Scholar

Chesner, C. A., Rose, W. I., Deino, A., Drake, R. & Westgate, J. A. 1991. Eruptive history of earth’s largest Quaternary caldera (Toba, Indonesia) clarified. Geology 19: 200–3.Google Scholar

Ciochon, R. L. 2009. The mystery ape of Pleistocene Asia. Nature 459: 910–11.Google Scholar

Ciochon, R. L., Huffman, O. F., BettisIII, E. A., Zaim, Y., Rizal, Y. & Aswan, . 2009. Rediscovery of the Homo erectus bed at Ngandong: Site formation of a Late Pleistocene hominin site in Asia. American Journal of Physical Anthropology Suppl. 48: 110.Google Scholar

Ciochon, R. L. 2010. Divorcing hominins from the Stegodon-Ailuropoda Fauna: new views on the antiquity of hominins in Asia, pp. 111–26 in (Fleagle, J. G., Shea, J. J., Grine, F. E., Baden, A. L. & Leakey, R. E., eds.) Out of Africa I: The First Hominin Colonisation of Eurasia. Springer: New York.

Delson, E., Harvati, K., Reddy, D., Marcus, L., Mowbray, K., Sawyer, G. J., Jacob, T. & Márquez, S. 2001. The Sambungmacan 3 Homo erectus calvaria: a comparative morphometric and morphological analysis. Anatomical Record 262: 380–97.Google Scholar

Dennell, R. W., Coard, R. & Turner, A. 2008. Predators and scavengers in Early Pleistocene southern Asia. Quaternary International 192: 78–88.Google Scholar

Dizon, E. 1998. Origins of people, pp. 70–91 in (Magdaraog, G., ed.) Environment and Natural Resources Atlas of the Philippines. Environmental Centre of the Philippines Foundation: Quezon City.

Dizon, E. & Pawlik, A. 2010. The lower Palaeolithic record in the Philippines. Quaternary International 223–224: 444–50.Google Scholar

Gaillard, C., Singh, M. & Malassé, A. D. 2011. Late Pleistocene to Early Holocene lithic industries in the southern fringes of the Himalaya. Quaternary International 229: 112–22.Google Scholar

Glass, B. P. 2003. Australasian microtektites in the South China Sea: implications regarding the location and size of the source crater. Abstracts of the 34th Lunar and Planetary Science Conference, March 17–21, 2003, League City, Texas, Abstract No. 1092.

Hameau, S. 2004. Datation des Paléolithques du Pléistocène moyen et supérieur de Punung (Pacitan, Java) Application des méthodes ESR et U/Th aux grottes du Song Terus et Goa Tabuhan. Thèse du Muséum National d’Histoire Naturelle: Paris.

Hou, Y., Potts, R., Yuan, B., Guo, Z., Deino, A., Wang, W., Clark, J., Xie, G. & Huang, W. 2000. Mid-Pleistocene Acheulian-like stone technology of the Bose Basin, South China. Science 287: 1622–6.Google Scholar

Huffman, O. F., Balzeau, A., Berkhout, A. W., de Vos, J. & Voight, B. 2010b. Mass death and lahars in the taphonomy of the Ngandong Homo erectus bone-bed, and volcanism in the hominin record of Eastern Java. PalaeoAnthropology 2010: A14.Google Scholar

Huffman, O. F., de Vos, J., Berkhout, A. W. & Aziz, F. 2010a. Provenience reassessment of the 1931–1933 Ngandong Homo erectus (Java), confirmation of the bone-bed origin reported by the discoverers. PalaeoAnthropology 2010: 1–60.Google Scholar

Imbrie, J., Berger, A., Boyle, E. A., Clemens, S. C., Duffy, A., Howard, W. R., Kukla, G., Kutzbach, J., Martinson, D. G., Mcintyre, A., Mix, A. C., Molfino, B., Morley, J. J., Peterson, L. C., Pisias, N. G., Prell, W. L., Raymo, M. E., Shackleton, N. J., & Toggweiler, J. R. 1993. On the structure and origin of major glaciation cycles 2. The 100,000-year cycle. Palaeoceanography 8: 699−735.Google Scholar

Itihara, M., Wikarno, & Kagemori, Y. 1985. Tektites from the Sangiran area, pp. 125–33 in (N. Watanabe & D. Kadar, eds.) Quaternary Geology of the Hominid Fossil Bearing Formations in Java. Geological Research and Development Centre, Special Publication: Bandung.

Jansen, J. H. F., Kuijpers, A. & Troelstra, S. R. 1986. A Mid-Brunhes climatic event: long-term changes in global atmosphere and ocean circulation. Science 232: 619–22.Google Scholar

Jensen, G. M., Storey, M., Roberts, R. G., Lachlan, T. J., Thomsen, K. J. & Murray, A. 2010. Combined 40Ar/39Ar and OSL dating of Pleistocene pyroclastic and fluvial deposits in the Cagayan Valley Basin, Northern Luzon, Philippines. Geophysical Research Abstracts 12: EGU2010–3937–2.Google Scholar

Jones, S. C. 2007. The Toba supervolcanic eruption: tephra-fall deposits in India and palaeoanthropological implications, pp. 173–200 in (Petraglia, M. D. & Allchin, B., eds.) The Evolution and History of Human Populations in South Asia. Springer: New York.

Koeberl, C. & Glass, B. P. 2000. Tektites and the age paradox in Mid-Pleistocene China. Science 289: 507.Google Scholar

Larick, R., Ciochon, R. L. & Zaim, Y. 2004. Homo erectus and the emergence of Sunda in the Tethys realm. Athena Review 4: 32–9.

Larick, R., Ciochon, R. L., Zaim, Y., Sudijono, Suminto, Risal, Y. & Aziz, F. 2000. Lithostratigraphic context for Kln-1993.05-SNJ, a fossil colobine maxilla from Jokotingkir, Sangiran Dome. International Journal of Primatology 21: 731–59.Google Scholar

Larick, R., Ciochon, R. L., Zaim, Y., Sudijono, Suminto, Risal, Y., Aziz, F., Reagan, M. & Heizler, M. 2001. Early Pleistocene 40Ar/39Ar ages for Bapang Formation hominins, Central Jawa, Indonesia. Proceedings of the National Academy of Sciences USA 98: 4866–71.Google Scholar

Lee, M.-Y., Chen, C. H., Wei, K.-Y., Iizuka, Y. & Carey, S. 2004. First Toba supereruption revival. Geology 32: 61–4.Google Scholar

Márquez, S., Mowbray, K., Sawyer, G. J., Jacob, T. & Silvers, A. 2001. New fossil hominid calvaria from Indonesia – Sambungmacan 3. Anatomical Record 262: 344–68.Google Scholar

Mathisen, M. E. & Vondra, C. F. 1983. The fluvial and pyroclastic deposits of the Cagayan Basin, northern Luzon, Philippines – an example of non-marine volcaniclastic sedimentation in an interarc basin. Sedimentology 30: 369–92.Google Scholar

Mijares, A. S. B. 2005. The archaeology of Penablanca cave sites, northern Luzon, Philippines. Journal of Austronesian Studies 1: 65–93.Google Scholar

Mijares, A. S., Detroit, F., Piper, P., Grün, R., Bellwood, P., Aubert, M., Guillaume, C., Cuevas, N., De Leon, A. & Dizon, E. 2010. New evidence for a 67,000-year-old human presence at Callao Cave, Luzon, Philippines. Journal of Human Evolution 59: 123–32.Google Scholar

Mishra, S., Gaillard, C., Hertler, C., Moigne, A. -M. & Simanjuntak, H. T. 2010. India and Java: contrasting records, intimate connections. Quaternary International 223–224: 265–70.Google Scholar

Morwood, M. J., Aziz, F., O’Sullivan, P. & Raza, A. 1998. Fission-track age of stone tools and fossils on the east Indonesian island of Flores. Nature 392: 173–6.Google Scholar

Morwood, M. J., Soejono, R. P., Roberts, R. A., Sutikna, T., Turney, C. S. M., Westaway, K. E., Rink, W. J., Zhao, J. X., van den Bergh, G. D., Due, R. A., Hobbs, D. R., Moore, M. W., Bird, M. I. & Fifield, L. K. 2004. Archaeology and age of a new hominin from Flores in eastern Indonesia. Nature 431: 1087–91.Google Scholar

Movius, H. L., 1944. Early man and Pleistocene stratigraphy in southern and eastern Asia. Papers of the Peabody Museum 19: 125.Google Scholar

Movius, H. L. 1948. The Lower Palaeolithic cultures of southern and eastern Asia. Transactions of the American Philosophical Society 38: 329–420.Google Scholar

Ninkovich, D., Sparks, R. S. J. & Ledbetter, M. T. 1978. The exceptional magnitude and intensity of the Toba eruption, Sumatra: an example of the use of deep-sea tephra layers as a geological tool. Bulletin of Volcanology 41: 286–98.Google Scholar

O’Sullivan, P. B., Morwood, M., Hobbs, D., Aziz, F., Suminto, , Situmorang, M., Raza, A. & Maas, R. 2001. Archaeological implications of the geology and chronology of the Soa Basin, Flores, Indonesia. Geology 29: 607–10.Google Scholar

Pawlik, A. F. 2002. Acheulian in Nueva Ecija? Hukay. Journal of the University of the Philippines Archaeological Studies Program 4 (1): 1–22.Google Scholar

Petraglia, M., Korisettar, R., Boivin, N., Clarkson, C., Ditchfield, P., Jones, S., Koshy, J., Lahr, M. M., Oppenheimer, C., Pyle, D., Roberts, R., Schwenninger, J.-C., Arnold, L. & White, K. 2007. Middle Palaeolithic Assemblages from the Indian Subcontinent before and after the Toba super-eruption. Science 317: 114–16.Google Scholar

Rampino, M. R. & Self, S. 1993. Climate-volcanism – feedback and the Toba eruption of ~74,000 years ago. Quaternary Research 40: 269–80.Google Scholar

Saleki, H. 1997. Apport d’une intercomparaison des méthodes nucléaires (230Th/234U, ESR et 40Ar/39Ar) à la datation de couches fossilifères pléistocènes dans le dôme de Sangiran (Java, Indonésie). Ph.D. thesis, Muséum National d’Histoire Naturelle: Paris.

Sathiamurthy, E. & Voris, H. K. 2006. Maps of Holocene sea level transgression and submerged lakes on the Sunda Shelf. Natural History Journal, Chulalongkorn University Suppl 2: 1–44.Google Scholar

Sémah, A. M. 1984. Palynology and Javanese Pithecanthropus environment. Courier Forschungsinstitut Senckenberg 69: 237–43.Google Scholar

Sémah, A. M., Sémah, F., Moudrikah, R., Fröhlich, F. & Djubiantono, T. 2004. A Late Pleistocene and Holocene sedimentary record in Central Java and its palaeoclimatic significance. Modern Quaternary Research in Southeast Asia 18: 63–88.Google Scholar

Sémah, F. 2001. La position stratigraphique du site de Ngebung 2 (dôme de Sangiran, Java Central, Indonésie), pp. 299–377 in (Sémah, F., Falguères, C., Grimaud-Hervé, D. & Sémah, A.-M., eds.) Origine des Peuplements et Chronologie des Cultures Paléolithiques dans le Sud-Est Asiatique. Semenanjung: Paris.

Sémah, F. & Sémah, A. M. 2006. Palaeolithic settlements in the Southeast Asian archipelagos: an Indonesian perspective, pp. 148–61 in (Simanjuntak, T., Hisyam, M., Prasetyo, B. & Nastiti, T. S., eds.) Archaeology: Indonesian Perspective: R.P. Soejono Festschrift. Indonesian Institute of Sciences: Jakarta.

Sémah, F., Sémah, A. M., Djubiantono, T. & Simanjuntak, H. T. 1992. Did they also make stone tools? Journal of Human Evolution 23: 439–46.Google Scholar

Simanjuntak, T. 2004. New insight on the prehistoric chronology of Gunung Sewu, Java, Indonesia. Modern Quaternary Research in Southeast Asia 18: 9–30.Google Scholar

Simpson, G. G. 1980. Splendid Isolation: The Curious History of South American Mammals. Yale University Press: New Haven, CT.

Sondaar, P. Y., Aziz, F., de Vos, J., Bantu, U. L., Mubroto, B. & van den Bergh, G. D. 1994. Middle Pleistocene faunal turnover and colonisation of Flores (Indonesia) by Homo erectus. Les Comptes Rendus de l’Académie des Sciences 319: 1255–62.Google Scholar

Sudijono, , Shibasaki, T., Yokshikawa, S., Aziz, F. & Furutani, M. 1985. Brangkal Site, pp. 71–3 in (Watanabe, N. & Kadar, D., eds.) Quaternary Geology of the Hominid Fossil Bearing Formations in Java. Geological Research and Development Centre, Special Publication 4: Bandung.

Swisher, C. C., Rink, W. J., Antón, S. C., Schwarcz, H. P., Curtis, G. H., Suprijo, A. & Widiasmoro, . 1996. Latest Homo erectus of Java: potential contemporaneity with Homo sapiens in Southeast Asia. Science 274: 1870–4.Google Scholar

Tauxe, L., Herbert, T., Shackleton, N. J. & Kok, Y. S. 1996. Astronomical calibration of the Matuyama-Brunhes boundary: consequences for magnetic remanence acquisition in marine carbonates and Asian loess sequences. Earth and Planetary Science Letters 140: 143–6.Google Scholar

Teodosio, S. 2006. A Functional Analysis of the Arubo Stone Tools. Master’s thesis, University of the Philippines, Archaeological Studies Program.

Tonkunaga, S., Oshima, H., Polhaupesy, A. & Ito, Y. 1985. A palynological study of the Pucangan and Kabuh formations in the Sangiran area, pp. 199–217 in (Watanabe, N. & Kadar, D., eds.) Quaternary Geology of the Hominid Fossil Bearing Formations in Java. Geological Research and Development Centre: Bandung.

van den Bergh, G. D. 1999. The Late Neogene elephantoid-bearing faunas of Indonesia and their palaeozoogeographic implications: a: study of the terrestrial faunal succession of Sulawesi, Flores and Java, including evidence for early hominid dispersal east of Wallace’s Line. Scripta Geologica 117: 1–419.Google Scholar

van den Bergh, G. D., Due Awe, R. A., Morwood, M. J., Sutikna, T., Jatmiko, & Saptomo, E. W. 2008. The youngest Stegodon remains in Southeast Asia from the Late Pleistocene archaeological site Liang Bua, Flores, Indonesia. Quaternary International 182: 16–48.Google Scholar

van den Bergh, G. D., Meijer, H. J. M., Awe, R. A., Morwood, M. J., Szabó, K., van den Hoek Ostende, L. W., Sutikna, T., Saptomo, E. W., Piper, P. J. & Dobney, K. M. 2009. The Liang Bua faunal remains: a 95 k.yr. sequence from Flores, East Indonesia. Journal of Human Evolution 57: 527–37.Google Scholar

van den Bergh, G. D., de Vos, J., Aziz, F. & Morwood, M. J. 2001. Elephantoidea in the Indonesian region: new Stegodon findings from Flores, pp. 623–27 in (Cavaretta, G., Giola, P., Mussi, M. & Palombo, M. R., eds.) The World of Elephants: Proceedings of the First International Congress. Consiglio Nazionale delle Ricerche: Rome.

van den Bergh, G. D., de Vos, J., Aziz, F. & Sondaar, P. Y. 1999. Homo erectus in S.E. Asia: time, space and migration routes: I. The Flores case, pp. 353–62 in (Gilbert, J., Sanchez, F., Gilbert, L. & Ribot, F., eds.) The Hominids and Their Environment during the Lower and Middle Pleistocene of Eurasia: Proceedings of the International Conference of Human Palaeontology. Museo de Prehistoria y Palaeontología: Orce.

van Heekeren, H. R. 1972. The Stone Age of Indonesia. Martinus Nijhoff: The Hague.

von Koenigswald, G. H. R. 1939. Das Pleistocän Javas. Quartär Jahrbuch für die Erforschung des Eiszeitalters und seiner Kulturen (Berlin) 2: 28–53.Google Scholar

de Vos, J. & Bautista, A. 2001. An update on the vertebrate fossils from the Philippines. National Museum Papers 11: 62–105.Google Scholar

de Vos, J., Sondaar, P. Y., van den Bergh, G. D. & Aziz, F. 1994. The Homo bearing deposits of Java and its ecological context. Courier Forschungsinstitut Senckenberg 171: 129–40.Google Scholar

de Vos, J. 1956. Fossil mammals from the Philippines, pp. 1–24 in Proceedings of the Fourth Far-Eastern Prehistory Congress. National Research Council of the Philippines, University of the Philippines: Quezon City.

Wasson, R. J. & Cochrane, R. M. 1979. Geological and geomorphological perspectives on archaeological sites in the Cagayan Valley, Northern Luzon, the Philippines. Modern Quaternary Research in Southeast Asia 5: 1–26.Google Scholar

Watanabe, N. & Kadar, D. (eds.) 1985. Quaternary Geology of the Hominid Fossil Bearing Formations in Java. Geological Research and Development Centre, Special Publication 4: Bandung.

Weidenreich, F. 1951. Morphology of Solo Man. Anthropological Papers of the American Museum of Natural History 43: 205–90.Google Scholar

Westaway, K. E., Sutikna, T., Saptomo, W. E., Jatmiko, , Morwood, M. J., Roberts, R. G. & Hobbs, D. R. 2009. Reconstructing the geomorphic history of Liang Bua, Flores, Indonesia: a stratigraphic interpretation of the occupational environment. Journal of Human Evolution 57: 465–83.Google Scholar

Widianto, H. & Zeitoun, V. 2003. Morphological description, biometry and phylogenetic position of the skull of Ngawi 1 (East Java, Indonesia). International Journal of Osteoarchaeology 13: 339–51.Google Scholar

Willoughby, P. R. 2007. The Evolution of Modern Humans in Africa: A Comprehensive Guide. AltaMira Press: Lanham, MD.

Yokoyama, Y., Falguères, C., Sémah, F., Jacob, T. & Grün, R. 2008. Gamma-ray spectrometric dating of late Homo erectus skulls from Ngandong and Sambungmacan. Central Java, Indonesia. Journal of Human Evolution 55: 274–.Google Scholar

Zaim, Y., Ciochon, R. L., Polanski, J. M., Grine, F. E., BettisIII, E. A., Rizal, Y., Franciscus, R. G., Larick, R. R., Heizler, M., Aswan, , Eaves, K. L. & Marsh, H. 2011. New 1.5 million-year-old Homo erectus maxilla from Sangiran (Central Java, Indonesia). Journal of Human Evolution 61: 363–76.Google Scholar

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