Qesem Cave and the Acheulo-Yabrudian Cultural Complex of the Levant

Avi Gopher; Ran Barkai

doi:10.1017/9781316106754.023

23 - Qesem Cave and the Acheulo-Yabrudian Cultural Complex of the Levant

from Part III: - Archaeology of Human Evolution

Published online by Cambridge University Press: 04 May 2017

Avi Gopher and

Ran Barkai

Edited by

Yehouda Enzel and

Ofer Bar-Yosef

Show author details

Yehouda Enzel: Affiliation:
Hebrew University of Jerusalem
Ofer Bar-Yosef: Affiliation:
Harvard University, Massachusetts

Book contents

Get access

Summary

Qesem Cave is a Middle Pleistocene, Acheulo-Yabrudian Cultural Complex site in Israel and well dated to MIS 11-7 (420-200 ka). The rich and well preserved lithic and faunal assemblages found in the cave provide evidence for a wealth of innovative behaviors, most likely practiced by a new hominin lineage. These include the habitual use of fire for dietary purposes, spatially differentiated activities around a central hearth, very early large-scale blade production technologies, a fully-fledged Quina technology and a large assemblage of Quina scrapers, systematic flint and bone recycling, social hunting strategies and unique meat butchering and sharing practices and more. The paleoenvironmental reconstruction indicates a mosaic of Mediterranean forest, shrubland, rocky areas, riverbanks and swamps. Human remains (teeth) indicate a post-erectus hominin showing similarity to later, local modern humans as well as to Neanderthals. This paper presents a summary of the research carried out in the cave in the last decade and offers a framework to explain the significant cultural and biological transformations that took shape in the post-Acheulian, Middle Pleistocene Levant.

Type: Chapter
Information: Quaternary of the Levant
Environments, Climate Change, and Humans
, pp. 203 - 214

DOI: https://doi.org/10.1017/9781316106754.023 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2017

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

Agam, A., Marder, O. & Barkai, R. 2015. Small flake production and lithic recycling at late Acheulian Revadim, Israel. Quaternary Inter-national 361: 46–60.Google Scholar

Assaf, E., Parush, Y., Gopher, A. & Barkai, R. 2015. Intra-site variability in lithic recycling at Qesem Cave, Israel. Quaternary International 361: 88–102.Google Scholar

Assaf, E., Barkai, R. & Gopher, A. 2016. Knowledge transmission and apprentice flint-knappers in the Acheulo-Yabrudian: A case study from Qesem Cave, Israel. Quaternary International 398: 70–85.CrossRef Google Scholar

Bar-Yosef, O. 1994. The Lower Paleolithic of the Near East. Journal of World Prehistory 8: 211–265.Google Scholar

Bar-Yosef, O. 2006. The known and unknown about the Acheulian. In Axe Age: Acheulian Tool-Making from Quarry to Discard, ed. Goren-Inbar, N. & Sharon, G.. London: Equinox.Google Scholar

Barkai, R. & Gopher, A. 2011. Innovative human behavior between Acheulian and Mousterian: A view from Qesem Cave, Israel. In The Lower and Middle Palaeolithic in the Middle East and neighbouring regions, ed. Le Tensorer, J.M., Jagher, R. & Otte, M., ERAUL 126. Liège: Université de Liège.Google Scholar

Barkai, R. & Gopher, A. 2013. Cultural and biological transformations in the Middle Pleistocene Levant: A view from Qesem Cave, Israel. In Dynamics of Learning in Neanderthals and Modern Humans, Vol. 1. The Replacement of Neanderthals by Modern Humans series. Springer, pp. 115–37.Google Scholar

Barkai, R. & Gopher, A. 2016. On anachronism: The curious presence of spheroids and polyhedrons at Acheulo-Yabrudian Qesem Cave. Quaternary International 398: 118–128.Google Scholar

Barkai, R., Gopher, A., Lauritzen, S.E. & Frumkin, A. 2003. Uranium series dates from Qesem Cave, Israel, and the end of the Lower Palaeolithic. Nature 423: 977–9.Google Scholar

Barkai, R., Gopher, A. & Shimelmitz, R. 2005. Middle Pleistocene blade production in the Levant: An Amudian assemblage from Qesem Cave, Israel. Eurasian Prehistory 3: 39–74.Google Scholar

Barkai, R., Lemorini, C., Shimelmitz, R. et al. 2009. A blade for all seasons? Making and using Amudian blades at Qesem Cave, Israel. Journal of Human Evolution 24: 57–75.Google Scholar

Barkai, R., Lemorini, C. & Gopher, A. 2010. Palaeolithic cutlery 400 000–200 000 years ago: Tiny meat-cutting tools from Qesem Cave, Israel. Antiquity 84: 325.Google Scholar

Barkai, R., Solodenko, N. & Lemorini, C. 2013. An Amudian oddity: A giant biface from Late Lower Paleolithic Qesem Cave in context. Tel-Aviv 40: 176–86.Google Scholar

Ben-Dor, M., Gopher, A., Hershkovitz, I. & Barkai, R. 2011. Man the fat hunter: The demise of Homo erectus and the emergence of a new hominin lineage in the Middle Pleistocene (ca. 400 kyr) Levant. PLoS ONE 6: e28689. doi:10.1371/journal.pone.0028689.Google Scholar

Bermúdes de Castro, J.L. & Martinón-Torres, M. 2012. A new model for the evolution of the human Pleistocene populations of Europe. Quaternary International 295: 102–12.Google Scholar

Binford, L.R. 1978. Nunamiut Ethnoarchaeology. New York: Academic Press.Google Scholar

Binford, L.R. 1983. In Pursuit of the Past. Decoding Archaeological Record. London: Thames and Hudson.Google Scholar

Blasco, R., Rosell, J., Cuartero, F. et al. 2013. Using bones to shape stones: MIS 9 bone retouchers at both edges of the Mediterranean Sea. PLoS ONE 8: e76780.CrossRef Google Scholar PubMed

Blasco, R., Rosell, J. Gopher, A. & Barkai, R. 2014. Subsistence economy and social life around the hearth: A zooarchaeological perspective from Middle Pleistocene (300 kya) Qesem Cave, Israel. Journal of Anthropological Archaeology 35: 248–68.Google Scholar

Blasco, R., Rosell, J., Gopher, A. & Barkai, R. 2016. What happens around a fire: Faunal processing sequences and spatial distribution at Qesem Cave (300 ka), Israel. Quaternary International 398: 190–209.Google Scholar

Boaretto, E., Barkai, R., Gopher, A., Berna, F. & Weiner, S. 2009. Specialized flint procurement strategies for hand axes, scrapers and blades in the Late Lower Paleolithic: A ¹⁰Be study at Qesem Cave, Israel. Journal of Human Evolution 24: 1–12.Google Scholar

Bourguignon, L. 2001. Apports de l'expérimentation et de l'analyse techno-morpho-fonctionnelle à la reconnaissance des processus d'aménagement de la retouche Quina. In Préhistoire et approche expérimentale, ed. Bourguigno, L., Ortega, I. & Frère-Sautot, M.C., Préhistoires no. 5. Montagnac: Monique Mergoil Editions.Google Scholar

Claud, E., Soressi, M., Jaubert, J. & Hublin, J.-J. 2012. Étude tracéologique de l'outillage moustérien de type Quina du bonebed de Chez-Pinaud à Jonzac (Charente-Maritime). Nouveaux éléments en faveur d'un site de boucherie et de traitement des peaux. Gallia Préhistoire 54: 3–32.Google Scholar

Copeland, L. 1983. The Amudian beach industry at Abri Zumoffen. In Adlun in the Stone Age, ed. Roe, D.A., BAR International Series 159. Oxford: British Archaeological Reports.Google Scholar

Copeland, L. 2000. Yabrudian and related industries: The state of research in 1996. In Toward Modern Humans: Yabrudian and Micoquian, 400–50 kyears Ago, ed. Ronen, A. & Weinstein-Evron, M., BAR International Series 850. Oxford: British Archaeological Reports.Google Scholar

Dennell, R. 2009. The Palaeolithic Settlement of Asia. Cambridge: Cambridge University Press.Google Scholar

Endicott, P., Ho, S. & Stringer, C. 2010. Using genetic evidence to evaluate four palaeoanthropological hypotheses for the timing of Neanderthal and modern human origins. Journal of Human Evolution 59: 87–95.Google Scholar

Falguères, C., Richard, M., Tombret, O. et al. 2016. New ESR/U-series dates in Yabrudian and Amudian layers at Qesem Cave, Israel. Quaternary International 398: 6–12.Google Scholar

Fornai, C., Benazzi, S., Gopher, A. et al. 2016. Morphological and morphometric analysis of I/12a hominin deciduous lower second molar from Qesem Cave, Israel. Quaternary International 398: 175–189.Google Scholar

Freidline, S.E., Gunz, P., Janković, I., Harvati, K. & Hublin, J.J. 2012. A comprehensive morphometric analysis of the frontal and zygomatic bone of the Zuttiyeh fossil from Israel. Journal of Human Evolution 62: 225–41.Google Scholar

Frumkin, A., Karkanas, P., Bar-Matthews, M. et al. 2009. Gravitational deformations and filling of aging caves: The example of Qesem Cave karst system, Israel. Geomorphology 106: 154–64.Google Scholar

Garrod, D.A.E. 1956. Acheuleo-Jabrudian et Pre-Aurignacian de la Grotte du Taboun (Mont Carmel): etude stratigraphique et chronologique. Quaternaria 3: 39–59.Google Scholar

Garrod, D.A.E. 1970. Pre-Aurignacian and Amudian: A comparative study of the earliest blade industries of the Near East. In Frühe Menschheit und Umwelt, ed. Gripp, K., Schütrumpf, R. & Schabedissen, H.. Köln: Böhlau Verlag.Google Scholar

Garrod, D.A.E. & Bate, D.M.A. 1937. The Stone Age of Mount Carmel Vol. 1. Oxford: Oxford University Press.Google Scholar

Garrod, D.A.E. & Kirkbride, D. 1961. Excavation of the Abri Zumffen, a paleolithic rock-shelter near Adlun, South Lebanon, 1958. Bulletin du Musée de Beyrouth XVI: 7–48.Google Scholar

Gissis, I. & Bar-Yosef, O. 1974. New excavations in Zuttiyeh Cave, Wadi Amud, Israel. Paléorient 5: 175–80.Google Scholar

Gopher, A., Barkai, R., Shimelmitz, R. et al. 2005. Qesem Cave: An Amudian site in central Israel. Journal of the Israel Prehistoric Society – Mitekufat Haeven 35: 69–92.Google Scholar

Gopher, A., Ayalon, A., Bar-Matthews, M. et al. 2010. The chronology of the late Lower Paleolithic in the Levant based on U–Th ages of speleothems from Qesem Cave, Israel. Quaternary Geochronology 5: 644–56.Google Scholar

Gopher, A., Parush, Y., Assaf, E. & Barkai, R. 2016. Spatial aspects as seen from a density analysis of lithics at Middle Pleistocene Qesem Cave: Preliminary results and observations. Quaternary Inter-national 398: 103–117.Google Scholar

Goren-Inbar, N. 1995. The Lower Paleolithic of Israel. In The Archaeology of Society in the Holy Land, ed. Levy, T.. London: Leicester University Press, pp. 93–109.Google Scholar

Hardy, K., Radini, A., Buckley, S. et al. 2016. Dental calculus reveals potential respiratory irritants and ingestion of essential plant-based nutrients at Lower Palaeolithic Qesem Cave Israel. Quaternary Inter-national 398: 129–35.Google Scholar

Hershkovitz, I., Smith, P., Sarig, R. et al. 2011. Middle Pleistocene dental remains from Qesem Cave, Israel. American Journal of Physical Anthropology 144: 575–92.Google Scholar

Hershkovitz, I., Weber, G., Fornai, C. et al. 2016. New Middle Pleistocene dental remains from Qesem cave (Israel). Quaternary International 398: 148–58.CrossRef Google Scholar

Horáček, I., Maul, L., Smith, K.T., Barkai, R. & Gopher, A. 2013. Bat remains (Mammalia, chiroptera) from the middle Pleistocene site of Qesem Cave, Israel, with the first Pleistocene record of fruit bats in the Mediterranean region. Palaeontologia Electronica 16.3.23A.Google Scholar

Jagher, R. & Le Tensorer, J.-M. 2011. El Kowm, a key area for Palaeolithic of the Levant in Central Asia. In The Lower and Middle Palaeolithic in the Middle East and Neighboring Regions, ed. Le Tensorer, J.-M., Jagher, R. & Otte, M., ERAUL 126. Liege: Liege University Press, pp. 197–208.Google Scholar

Jelinek, A.J. 1990. The Amudian in the context of the Mugharan tradition at the Tabun Cave (Mount Carmel), Israel. In The Emergence of Modern Humans, ed. Mellars, P.. Ithaca: Cornell University Press.Google Scholar

Johnson, C.R. & McBrearty, S. 2010. 500,000 year old blades from the Kapthurin Formation, Kenya. Journal of Human Evolution 58: 193–200.Google Scholar

Karkanas, P., Shahack-Gross, R., Ayalon, A. et al. 2007. Evidence for habitual use of fire at the end of the Lower Paleolithic: Site formation processes at Qesem Cave, Israel. Journal of Human Evolution 53: 197–212.Google Scholar

Keith, A. 1927. A report on the Galilee skull. In Researches in Prehistoric Galilee, 1925–1926, ed. Turville-Pétre, F.. London: Council of the British School of Archaeology in Jerusalem.Google Scholar

Le Cabec, A., Gunz, P., Kupczik, K., Braga, J. & Hublin, J.J. 2012. Anter-ior tooth root morphology and size in Neanderthals: Taxonomic and functional implications. Journal of Human Evolution 64: 169–93.Google Scholar

Lemorini, C., Gopher, A., Shimelmitz, R., Stiner, M. & Barkai, R. 2006. Use-wear analysis of an Amudian laminar assemblage from Acheuleo-Yabrudian Qesem Cave, Israel. Journal of Archaeological Science 33: 921–34.Google Scholar

Lemorini, C., Venditti, F., Assaf, E. et al. 2015. The function of re-cycled lithic items at late Lower Paleolithic Qesem Cave, Israel: An overview of the use-wear data. Quaternary International 361:103–12.Google Scholar

Lemorini, C., Bourguignon, L., Zupancich, A., Gopher, A. & Barkai, R. 2016. A scraper's life history: Morpho-techno-functional and use-wear analysis of Quina and demi-Quina scrapers form Qesem Cave, Israel. Quaternary International 398: 86–93.Google Scholar

Le Tensorer, J.-M., Hauck, Th., Woitczak, D. et al. 2007a. Hummal et Nadaouiyeh (El Kowm, Syrie centrale), Resultats de la campagne 2007. http://elkowm.unibas.ch/Bilder/Publikationen/2007/RAP%20Fouille%2007.pdf.Google Scholar

Le Tensorer, J.-M., Jagher, R., Rentzel, P. et al. 2007b. Long-term site formation processes at the natural springs Nadaouiyeh and Hummal in the El Kowm oasis, Central Syria. Geoarchaeology 22: 621–39.CrossRef Google Scholar

Le Tensorer, J.-M., Von Falkenstein, V., Le Tensorer, H. & Muhesen, S. 2011. Hummal: A very long paleolithic sequence in the steppe of Central Syria – considerations on Lower Paleolithic and the beginning of Middle Paleolithic. In The Lower and Middle Palaeolithic in the Middle East and Neighboring Regions, ed. Le Tensorer, J.-M., Jagher, R. & Otte, M., ERAUL 126. Liege: Liege University Press, pp. 235–48.Google Scholar

Liu, W., Schepartz, L.A., Xing, S. et al. 2013. Late Middle Pleistocene hominin teeth from Panxian Dadong, South China. Journal of Human Evolution 64: 337–55.Google Scholar

Maul, L., Smith, K., Barkai, R. et al. 2011. Of men and mice at Middle Pleistocene Qesem Cave, Israel: Small vertebrates, environment and biostratigraphy. Journal of Human Evolution 60: 464–80.Google Scholar

Maul, L.C., Bruch, A.A., Smith, K.T. et al. 2016. Palaeoecological and biostratigraphical implications of the microvertebrates of Qesem Cave in Israel. Quaternary International. 398: 219–32.Google Scholar

Mendez, F.L., Krahn, T., Schrack, B. et al. 2013. An African American paternal lineage adds an extremely ancient root to the human y chromosome phylogenetic tree. American Journal of Human Genetics 92: 1–6.Google Scholar

Mercier, N., Valladas, H., Falguères, C. et al. 2013. New datings of Amudian layers at Qesem cave (Israel): Results of TL applied to burnt flints and ESR/U-series to teeth. Journal of Archaeological Science 40: 3011–20.Google Scholar

Nishiaki, Y., Kanjo, Y., Muhesen, S. & Akazawa, T. 2011. Recent progress in lower and middle Palaeolithic research at Dederiyeh Cave, northwest Syria. In The Lower and Middle Palaeolithic in the Middle East and Neighboring Regions, ed. Le Tensorer, J.-M., Jagher, R. & Otte, M., ERAUL 126. Liege: Liege University Press, pp. 67–76.Google Scholar

Nowell, A. 2010. Defining behavioral modernity in the context of Neandertal and anatomically modern human populations. Annual Review of Anthropology 39: 437–52.Google Scholar

Parush, Y., Assaf, E., Gopher, A. & Barkai, R. 2015. Looking for sharp edges: Modes of flint recycling at Middle Pleistocene Qesem Cave, Israel. Quaternary International 361: 61–87.Google Scholar

Parush, Y., Gopher, A. & Barkai, R. 2016. Amudian versus Yabrudian under the rock shelf: A study of two lithic assemblages from Qesem Cave, Israel. Quaternary International. 398: 13–36.Google Scholar

Rabinovich, R., Gaudzinski-Windheuser, S. & Goren-Inbar, N. 2008. Systematic butchering of fallow deer (Dama) at the early middle Pleistocene Acheulian site of Gesher Benot Ya‘aqov (Israel). Journal Human Evolution 54: 134–49.Google Scholar

Rink, W.J., Mercier, N., Mihalović, D. et al. 2013. New radiometric ages from the BH-1 hominin from Balanica (Serbia): Implications for understanding the role of the Balkans in Middle Pleistocene human evolution. PLoS One 8: e54608. doi:10.1371.Google Scholar

Roebroek, W. & Villa, P. 2011. On the earliest evidence for habitual use of fire in Europe. Proceedings of National Academy of Science, USA 108: 5209e5214.Google Scholar

Rosell, J. Blasco, R. Gopher, A. & Barkai, R. 2015. Recycling bones in the Middle Pleistocene: Some reflections from Gran Dolina TD10–1 (Spain), Bolomor Cave (Spain) and Qesem Cave (Israel). Quaternary International 361: 297–312.Google Scholar

Rust, A. 1950. Die Hohlenfunde von Jabrud (Syrien). Neumunster: Karl Wachholtz.Google Scholar

Sánchez-Marco, A., Blasco, R., Rosell, J., Gopher, A. & Barkai, R. 2016. Birds as indicators of high biodiversity zones around the Middle Pleistocene Qesem Cave, Israel. Quaternary International 421: 23–31.Google Scholar

Sandgathe, D.M., Dibble, H.L., Goldberg, P. et al. 2011. Timing of the appearance of habitual fire use. Proceedings of National Academy of Science, USA 108: E298.Google Scholar

Sarig, R., Gopher, A., Barkai, R. et al. 2016. How did the Qesem Cave people use their teeth? Analysis of dental wear patterns. Quaternary International 398: 136–47.CrossRef Google Scholar

Shahack-Gross, R., Berna, F., Karkanas, T. et al. 2014. Evidence for the repeated use of a central hearth at Middle Pleistocene (300 ka ago) Qesem Cave, Israel. Journal of Archaeological Science 44: 12–21.Google Scholar

Shimelmitz, R. 2015. The recycling of flint throughout the Lower and Middle Paleolithic sequence of Tabun Cave, Israel. Quaternary Inter-national 361: 34–46.Google Scholar

Shimelmitz, R., Gopher, A., Barkai, R. 2011. Systematic blade production at Late Lower Paleolithic (400–200 kar) Qesem Cave, Israel. Journal of Human Evolution 61: 458–79.Google Scholar

Shimelmitz, R., Barkai, R. & Gopher, A. 2016. Regional variability in late Lower Paleolithic Amudian blade technology: Analyzing new data from Qesem, Tabun and Yabrud I. Quaternary International 398: 37–60.Google Scholar

Smith, K.T., Maul, L.C., Barkai, R. & Gopher, A. 2013. To catch a chameleon, or actualism vs. natural history in the taphonomy of the microvertebrate fraction at Qesem cave, Israel. Journal of Archaeological Science 40: 3326–39.Google Scholar

Smith, K., Maul, L., Flemming, F., Barkai, R. & Gopher, A. 2016. The microvertebrates of Qesem Cave: A comparison of the two main concentrations. Quaternary International 398: 233–45.Google Scholar

Speth, J.D. 2012. Middle Palaeolithic subsistence in the Near East: Zoo-archaeological perspectives past, present and future. Before Farming 2: 1e45.Google Scholar

Starkovich, B.M. & Conard, J.N. 2014. Lower Paleolithic hunting and butchery strategies: Faunal evidence from the ‘Ober Berme’ (13II) at Schoningen, Germany. Poster presented at the Hugo Obermaier 56th conference, Braunschweig and Schoninngen, April 22–26th. Abstracts book, pp. 46.Google Scholar

Stiner, M., Gopher, A. & Barkai, R. 2009. Cooperative hunting and meat sharing 400–200 kya at Qesem Cave, Israel. Proceedings of National Academy of Science, USA 106: 13207–12.CrossRef Google Scholar PubMed

Stiner, M., Gopher, A. & Barkai, R. 2011. Hearth-side socioeconomics, hunting and paleoecology during the late Lower Paleolithic at Qesem Cave, Israel. Journal of Human Evolution 60: 213–33.Google Scholar

Turville-Petre, F. 1927. Researches in prehistoric Galilee (1925–1926). Bulletin of the British School of Archaeology in Jerusalem XIV.Google Scholar

Verri, G., Barkai, R., Bordeanu, C. et al. 2004. Flint mining in prehistory record by in situ produced cosmogenic 10Be. Proceedings of National Academy of Science, USA 101: 7880–4.CrossRef Google Scholar PubMed

Verri, G., Barkai, R., Gopher, A. et al. 2005. Flint procurement strategies in the Late Lower Palaeolithic record by in situ produced cosmogenic ¹⁰Be in Tabun and Qesem Caves (Israel). Journal of Archaeological Science 32: 207–13.Google Scholar

Weber, G.W., Fornai, C., Gopher, A. et al. 2014. The Qesem Cave mandibular premolars and molar from a morphometric perspective. American Journal of Physical Anthropology 153: 268–9.Google Scholar

Weber, G., Fornai, C., Gopher, A. et al. 2016. The Qesem Cave hominin material (part 1): A morphometric analysis of the mandibular premolars and molar. Quaternary International 398: 159–74.Google Scholar

Weisner, W.P. 2014. Embers of society: Firelight talk among the Ju/‘hoansi Bushmen. Proceedings of the American Academy of Sciences 111: 14027–35.Google Scholar

Wilkins, J. & Chazan, M. 2012. Blade production ∼500 thousand years ago at Kathu Pan 1, South Africa: Support for a multiple origins hypoth-esis for early Middle Pleistocene blade technology. Journal of Archaeological Science 39: 1883–990.Google Scholar

Wilson, L., Agam, A., Barkai, R. & Gopher, A. 2016. Raw material choices in the Amudian versus the Yabrudian at Qesem Cave: A preliminary evaluation. Quaternary International 398: 61–9.Google Scholar

Zeitoun, V. 2001. The taxonomical position of the skull of Zuttiyeh. Comptes Rendus de l'Académie des Sciences, série IIa: Sciences de la Terre et des Planètes 332: 521–5.Google Scholar

Zupancich, A., Lemorini, C., Barkai, R. & Gopher, A. 2016. On scraper handling: Preliminary results from use-wear and experimental approaches on the Lower Palaeolithic site of Qesem Cave, Israel. Quaternary International 398: 94–102.CrossRef Google Scholar

Book contents

23 - Qesem Cave and the Acheulo-Yabrudian Cultural Complex of the Levant

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive