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Articles

Blade Technology Characterizing the MIS 5 D-A Layers of Sibudu Cave, South Africa

Viola C. SchmidDepartment of Early Prehistory and Quaternary Ecology, Eberhard Karls Universität Tübingen, Tübingen, Germany;UMR 7041, ArScAn-AnTET, Université Paris Ouest Nanterre La Défense, Nanterre Cedex, FranceCorrespondence[email protected]
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Guillaume PorrazCNRS, UMR 7041, ArScAn-AnTET, Université Paris Ouest Nanterre La Défense, Nanterre Cedex, France;Evolutionary Studies Institute, University of the Witwatersrand, Johannesburg, South Africa.ORCID Iconhttps://orcid.org/0000-0003-0103-9583View further author information
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Mohsen ZeidiDepartment of Early Prehistory and Quaternary Ecology, Eberhard Karls Universität Tübingen, Tübingen, Germany;Senckenberg Centre for Human Evolution and Palaeoenvironment, Eberhard Karls Universität Tübingen, Tübingen, GermanyView further author information
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Nicholas J. ConardDepartment of Early Prehistory and Quaternary Ecology, Eberhard Karls Universität Tübingen, Tübingen, Germany;Senckenberg Centre for Human Evolution and Palaeoenvironment, Eberhard Karls Universität Tübingen, Tübingen, GermanyORCID Iconhttps://orcid.org/0000-0002-4633-0385View further author information
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Pages 199-236 | Published online: 09 Jul 2019

References

  • Archer, W., Pop, C. M., Gunz, P., & McPherron, S. P. (2016). What is still Bay? Human biogeography and bifacial point variability. Journal of Human Evolution, 97, 58–72.
  • Auffermann, B., Burkert, W., Hahn, J., Pasda, C., & Simon, U. (1990). Ein Merkmalsystem zur Auswertung von Steinartefaktinventaren. Archäologisches Korrespondenzblatt, 20, 259–270.
  • Bader, G. D., Will, M., & Conard, N. J. (2015). The lithic technology of Holley Shelter, KwaZulu-Natal, and its place within the MSA of Southern Africa. South African Archaeological Bulletin, 70, 149–165.
  • Bar-Yosef, O., & Kuhn, S. L. (1999). The Big deal about blades: Laminar technologies and human evolution. American Anthropologist, 101, 322–338.
  • Binford, L. R. (1980). Willow smoke and dogs’ tails: Hunter-gatherer settlement systems and archaeological site formation. American Antiquity, 45, 4–20.
  • Boëda, É. (1994). Le concept Levallois: Variabilité des méthodes. Paris: Édition du CNRS.
  • Boëda, É. (1995). Levallois: A volumetric construction, methods, a technique. In H. L. Dibble, & O. Bar-Yosef (Eds.), The definition and interpretation of Levallois technology (pp. 41–68). Madison: Prehistory Press.
  • Boeda, É. (1997). Technogenèse de systèmes de production lithique au Paléolithique inférieur et moyen en Europe occidentale et au Proche-Orient. Paris: Université Paris X-Nanterre.
  • Boëda, É. (2001). Détermination des unités techno-fonctionnelles de pièces bifaciales provenant de la couche acheuléenne C’3 base du site de Barbas I. In D. Cliquet, & M. Otte (Eds.), Les industries à outils bifaciaux du Paléolithique moyen d’Europe occidentale (pp. 51–75). Liège: ERAUL.
  • Boëda, É. (2013). Techno-logique & technologie: une paléo-histoire des objets lithiques tranchants. Paris: Archéo-éditions.
  • Boëda, É, Geneste, J.-M., & Meignen, L. (1990). Identification de chaînes opératoires lithiques du Paléolithique ancien et moyen. Paléo, 2, 43–80.
  • Boëda, É, Hou, Y. M., Forestier, H., Sarel, J., & Wang, H. M. (2013). Levallois and non-Levallois blade production at Shuidonggou in Ningxia, north China. Quaternary International, 295, 191–203.
  • Bordes, F. (1968). Le Paléolithique dans le monde. Paris: Hachette.
  • Chazan, M. (2015). The Fauresmith and archaeological systematics. In J. Runge (Ed.), Changing climates, ecosystems and environments within arid Southern Africa and adjoining regions (pp. 59–70). London: CRC Press.
  • Clark, J. D. (1988). The middle stone age of East Africa and the beginnings of regional identity. Journal of World Prehistory, 2, 235–305.
  • Clarke, B. M., Schoeman, P., & Kota, M. W. (2007). The Geology of the Verulam Area. Pretoria: Council for Geoscience.
  • Cochrane, G. W. G. (2006). An analysis of lithic artefacts from the ∼60 ka layers of Sibudu Cave. Southern African Humanities, 18, 69–88.
  • Conard, N. J. (1990). Laminar lithic assemblages from the last Interglacial complex in NorthWestern Europe. Journal of Anthropological Research, 46, 243–262.
  • Conard, N. J. (1992). Tönchesberg and its position in the Palaeolithic prehistory of northern Europe. Bonn: Habelt.
  • Conard, N. J. (2005). An overview of the patterns of behavioural change in Africa and Eurasia during the Middle and Late Pleistocene. In F. d’Errico, L. Backwell, & B. Malauzat (Eds.), From tools to symbols: From early hominids to modern humans (pp. 294–332). New York: New York University Press.
  • Conard, N. J. (2012). Klingentechnologie vor dem Jungpaläolithikum. In H. Floss (Ed.), Steinartefakte vom Altpaläolithikum bis in die Neuzeit (pp. 245–266). Tübingen: Kerns Verlag.
  • Conard, N. J., & Adler, D. S. (1997). Lithic reduction and Hominid behavior in the middle paleolithic of the Rhineland. Journal of Anthropological Research, 53, 147–175.
  • Conard, N. J., Porraz, G., & Wadley, L. (2012). What is in a name? Characterizing the ‘post-Howieson's Poort’ at Sibudu. South African Archaeological Bulletin, 67, 180–199.
  • Conard, N. J., Soressi, M., Parkington, J. E., Wurz, S., & Yates, R. (2004). A unified lithic taxonomy based on patterns of core reduction. South African Archaeological Bulletin, 59, 13–17.
  • Conard, N. J., & Will, M. (2015). Examining the causes and consequences of short-term behavioral change during the middle stone age at Sibudu, South Africa. PlosOne, 10, e0130001.
  • Cotterell, B., & Kamminga, J. (1979). The mechanics of flaking. In B. Hayden (Ed.), Lithic use-wear analysis (pp. 97–112). New York: New York Academic Press.
  • Crabtree, D. E. (1972). An introduction to flintworking. Pocatello: Occasional Papers of the Idaho State Museum.
  • Dauvois, M. (1976). Précis de dessin dynamique et structural des industries lithiques préhistoriques. Fanlac: Édition du CNRS.
  • Delagnes, A. (1996). Le site d’Etoutteville (Seine-Maritime): l’organisation technique et spatiale de la production laminaire à Etoutteville. In A. Delagnes & A. Ropars (Eds.), Paléolithique moyen en Pays de Caux (Haute-Normandie): Le Pucheuil, Etoutteville: deux gisements de Plein air en milieu loessique (pp. 164–228). Paris: Maison des Sciences de l’Homme.
  • Delagnes, A. (2000). Blade production during the middle paleolithic in northWestern Europe. Acta Anthropologica Sinica, 19, 181–188.
  • Delagnes, A., Jaubert, J., & Meignen, L. (2007). Les technocomplexes du Paléolithique moyen en Europe occidentale dans leur cadre diachronique et géographique. In B. Vandermersch, & B. Maureille (Eds.), Les néandertaliens. Biologie et cultures (pp. 213–229). Paris: Editions du CTHS.
  • de la Peña, P., & Wadley, L. (2014). New knapping methods in the Howiesons Poort at Sibudu (KwaZulu- Natal, South Africa). Quaternary International, 350, 26–42.
  • d'Errico, F., Backwell, L., & Wadley, L. (2012). Identifying regional traditions in Middle Stone Age bone technology. The case of Sibudu Cave. Journal of Archaeological Science, 39, 2479–2495.
  • d'Errico, F., Henshilwood, C. S., Vanhaeren, M., & van Niekerk, K. (2005). Nassarius kraussianus shell beads from Blombos Cave: Evidence for symbolic behaviour in the middle stone age. Journal of Human Evolution, 48, 3–24.
  • de Sonneville-Bordes, D. (1960). Le Paléolithique supérieur en Périgord. Bordeaux: Delmas.
  • Dibble, H. L., & McPherron, S. P. (1996). A multimedia companion to the Middle Paleolithic site of Combe-Capelle Bas (France). Philadelphia: University of Pennsylvania Museum.
  • Dibble, H. L., & McPherron, S. P. (2006). The missing mousterian. Current Anthropology, 47, 777–803.
  • Dibble, H. L., Schurmans, U. A., Iovita, R. P., & McLaughlin, M. V. (2005). The measurement and interpretation of cortex in lithic assemblages. American Antiquity, 70, 545–560.
  • Dibble, H. L., & Whittaker, J. C. (1981). New experimental evidence on the relation between percussion flaking and flake variation. Journal of Archaeological Science, 8, 283–296.
  • Douze, K., Wurz, S., & Henshilwood, C. S. (2015). Techno-cultural characterization of the MIS 5 (c. 105–90 Ka) lithic industries at Blombos Cave, Southern Cape, South Africa. PLoS ONE, 10.
  • Evans, U. (1994). Hollow Rock Shelter, a Middle Stone Age site in the Cederberg. Southern African Field Archaeology, 3, 63–73.
  • Feathers, J. K. (2002). Luminescence dating in less than ideal conditions: Case studies from Klasies river main site and Duinefontein, South Africa. Journal of Archaeological Science, 29, 177–194.
  • Geneste, J.-M. (1985). Analyse lithique d’industries moustériennes du Périgord: approche technologique du comportement des groupes humaine au Paléolithique moyen. Bordeaux: Université de Bordeaux.
  • Geneste, J.-M. (1988). Systèmes d’approvisionnement en matières premières au Paléolithique moyen et supérieur en Aquitaine. In M. Otte (Ed.), L’homme de néandertal (pp. 61–70). Liège: ERAUL.
  • Geneste, J.-M. (1991). Systèmes techniques de production lithique: Variations techno-économiques dans les processus de réalisation des outillages paléolithiques. Techniques et Culture, 17-18, 1–35.
  • Geneste, J.-M. (1992). L’approvisionnement en matières premières dans les systèmes de production lithique: La dimension spatiale de la technologie. In R. Mora, X. Terradas, A. Parpal, & C. Plana (Eds.), Tecnologia y cadenas operativas liticas, Treballs d’Arqueologia (pp. 1–36). Barcelona: Universitat Autonòma de Barcelona.
  • Goldberg, P., Miller, C. E., Schiegl, S., Ligouis, B., Berna, E., Conard, N. J., & Wadley, L. (2009). Bedding, hearths, and site maintenance in the middle stone age of Sibudu Cave, KwaZulu-Natal, South Africa. Archaeological und Anthropological Sciences, 1(2), 95–122.
  • Goodman, M. E. (1944). The physical properties of stone tool materials. American Antiquity, 9, 415–433.
  • Goodwin, A. J. H., & Lowe, C. V. R. (1929). The stone age cultures of South Africa. Edinburgh: AMS Press.
  • Gopher, A., Ayalon, A., Bar-Matthews, M., Barkai, R., Frumkin, A., Karkanas, P., & Shahack-Gross, R. (2010). The chronology of the late Lower Paleolithic in the Levant: U series dates of speleothems from Middle Pleistocene Qesem Cave, Israel. Quaternary Geochronology, 5(6), 644–656.
  • Grün, R., & Beaumont, P. B. (2001). Border cave revisited: A revised ESR chronology. Journal of Human Evolution, 40, 467–482.
  • Hahn, J. (1977). Aurignacien, das ältere Jungpaläolithikum in Mittel-und Osteuropa. Köln and Wien: Böhlau.
  • Hahn, J. (1991). Erkennen und Bestimmen von Stein- und Knochenartefakten: Einführung in die Artefaktmorphologie. Tübingen: Verlag Archaeologica Venatoria.
  • Hammer, Ø, Harper, D. A. T., & Ryan, P. D. (2001). PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, 4, 9.
  • Henshilwood, C. S. (2012). Late Pleistocene techno-traditions in Southern Africa: A review of the still bay and Howiesons Poort, c. 75–59 ka. Journal of World Prehistory, 25, 205–237.
  • Henshilwood, C. S., d'Errico, F., & Watts, I. (2009). Engraved ochres from the middle stone age levels at Blombos Cave, South Africa. Journal of Human Evolution, 57, 27–47.
  • Herries, A. I. R. (2011). A chronological perspective on the Acheulian and its transition to the Middle Stone Age in Southern Africa: The question of the Fauresmith. International Journal of Evolutionary Biology, 2011, 1–25.
  • Högberg, A. (2014). Chronology, stratigraphy and spatial distribution of artefacts at Hollow Rock Shelter, Cape Province, South Africa. South African Archaeological Bulletin, 69, 142–151.
  • Högberg, A. (2016). A lithic attribute analysis on blades from the Middle Stone Age site, Hollow Rock Shelter, Western Cape Province, South Africa. Lithic Technology, 41, 93–113.
  • Högberg, A., & Larsson, L. (2011). Lithic technology and behavioural modernity: New results from the Still Bay site, Hollow Rock Shelter, Western Cape Province, South Africa. Journal of Human Evolution, 61, 133–155.
  • Högberg, A., & Lombard, M. (2016). Still Bay point-production strategies at Hollow Rock Shelter and Umhlatuzana Rock Shelter and knowledge-transfer systems in Southern Africa at about 80-70 thousand years ago. PLoS ONE, 11, e0168012.
  • Igreja, M., & Porraz, G. (2013). Functional insights into the innovative early Howiesons Poort technology at Diepkloof rock Shelter (Western Cape, South Africa). Journal of Archaeological Science, 40, 3475–3491.
  • Inizan, M.-L., Reduron-Ballinger, M., Roche, H., & Tixier, J. (1999). Technology and terminology of knapped stone. Nanterre: Crep.
  • Jacobs, Z., Roberts, R. G., Galbraith, R. E., Deacon, H. J., Grün, R., Mackay, A., … Wadley, L. (2008a). Ages for the middle stone age of Southern Africa: Implications for human behaviour and dispersal. Science, 322, 733–735.
  • Jacobs, Z., Wintle, A. G., Duller, G. A. T., Roberts, R. G., & Wadley, L. (2008b). New ages for the post-Howieson's Poort, late and final middle stone age at Sibudu Cave, South Africa. Journal of Archaeological Science, 35, 1790–1807.
  • Johnson, C. R., & McBrearty, S. (2010). 500,000 year old blades from the Kapthurin formation, Kenya. Journal of Human Evolution, 58, 193–200.
  • Kaplan, J. (1990). The Umhlatuzana rock shelter sequence: 100 000 years of stone Age history. Natal Museum Journal of Humanities, 2, 1–94.
  • Kelly, R. L. (2013). The lifeways of hunter-gatherers: The foraging spectrum. Cambridge: Cambridge University Press.
  • Kerkhof, F., & Müller-Beck, H. (1969). Zur bruchmechanischen Deutung der Schlagmarken an Steingeräten. Glastechnische Berichte, 42, 439–448.
  • Kuhn, S. L. (1995). Mousterian lithic technology: An ecological perspective. Princeton: Princeton University Press.
  • Kuhn, S. L. (2004). Upper Paleolithic raw material economies at Ücagızlı cave, Turkey. Journal of Anthropological Archaeology, 23, 431–448.
  • Lepot, M. (1993). Approche techno-fonctionnelle de l’outillage lithique moustérien: Essai de classification des parties actives en terme d’efficacité technique. Nanterre: University of Paris X.
  • Leroi-Gourhan, A. (1964). Le geste et la parole. Paris: Albin Michel.
  • Lombard, M., Wadley, L., Deacon, J., Wurz, S., Parsons, I., Mohapi, M., … Mitchell, P. (2012). South African and Lesotho stone age sequence updated (I). South African Archaeological Bulletin, 67, 120–144.
  • Lombard, M., Wadley, L., Jacobs, Z., Mohapi, M., & Roberts, R. G. (2010). Still bay and serrated points from Umhlatuzana rock Shelter, KwaZulu-Natal, South Africa. Journal Archaeological Science, 37, 1773–1784.
  • Mackay, A., Stewart, B. A., & Chase, B. M. (2014). Coalescence and fragmentation in the late Pleistocene archaeology of southernmost Africa. Journal of Human Evolution, 72, 1–26.
  • Mason, R. J. (1957). The transvaal middle stone age and statistical analysis. South African Archaeological Bulletin, 12, 119–137.
  • Mason, R. J. (1962). Prehistory of the transvaal. Johannesburg: Witwatersrand University Press.
  • Mason, R. J., Brain, C. K., Brown, A. J. V., Cooke, H. B. S., Deacon, H. J., Ewer, R. F., … Wells, L. H. (1988). Cave of hearths, Makapansgat, Transvaal. Johannesburg: University of the Witwatersrand.
  • McBrearty, S., & Brooks, A. S. (2000). The revolution that wasn't: A new interpretation of the origin of modern human behavior. Journal of Human Evolution, 39, 453–563.
  • McNabb, J., & Sinclair, A. (2009). The cave of hearths: Makapan middle Pleistocene research project: field research by Anthony Sinclair and Patrick Quinney, 1996–2001. Oxford: Archaeopress.
  • Meignen, L. (1994). Le Paleolithique moyen au Proche-Orient: Le phenomene laminaire. In S. Revillion, & A. Tuffreau (Eds.), Les industries laminaires au Paleolithique Moyen (pp. 125–159). Paris: Editions du CNRS.
  • Meignen, L. (2000). Early middle Palaeolithic blade technology in Southwestern Asia. Acta Anthropologica Sinica, 19, 158–168.
  • Meignen, L. (2004). Le phénomène laminaire au Proche-Orient, du Paléolithique inférieur aux débuts du Paléolithique supérieur. Un Siècle de Construction du Discours Scientifique en Préhistoire: XXVIe Congrès Préhistorique de France–Congrès du centenaire de la Société Préhistorique Française, Avignon, 21–25.
  • Miller, C. E., Conard, N. J., & Delagnes, A. (2014). High-resolution geoarchaeology and settlement dynamics at the middle stone age sites of Diepkloof and Sibudu, South Africa. In Settlement dynamics of the middle Paleolithic and middle stone Age (pp. 27–46). Tübingen: Kerns Verlag.
  • Mitchell, P. J. (2008). Developing the archaeology of Marine Isotope stage 3. South African Archaeological Society Goodwin Series, 10, 52–65.
  • Moncel, M.-H. (1996). L'industrie lithique du Paléolithique moyen de l'abri du Maras (Ardèche). Fouilles de René Gilles et de Jean Combier. La question des Moustériens tardifs et du débitage laminaire au Paléolithique moyen. Gallia Préhistoire, 38, 1–41.
  • Monigal, K. (2002). The Levantine Leptolithic: Blade production from the Lower Paleolithic to the dawn of the Upper Paleolithic. Dallas: Southern Methodist University.
  • Moreau, L. (2009). Geißenklösterle – Das Gravettien der Schwäbischen Alb im europäischen Kontext. Tübingen: Kerns Verlag.
  • Mourre, V., Villa, P., & Henshilwood, C. S. (2010). Early use of pressure flaking on lithic artifacts at Blombos Cave, South Africa. Science, 330, 659–662.
  • Nigst, P. R. (2012). The early upper Palaeolithic of the middle Danube region. Leiden: Leiden University Press.
  • Nishiaki, Y. (1989). Early blade industries in the Levant: The placement of the Douara IV industry in the context of the early Middle Palaeolithic. Paléorient, 15, 215–229.
  • Pelegrin, J. (1986). Technologie lithique: une méthode appliquée à l'étude de deux séries du Périgordien ancien (Roc de Combe, couche 8 - La Cote, niveau III). Nanterre: Université of Paris X.
  • Pelegrin, J. (1991). Sur une recherche technique expérimentale des techniques de débitage laminaire. In Archéologie expérimentale – Tome 2 - L’os et la pierre, la maison et les champs, Actes du Colloque International "Expérimentation en archéologie: Bilan et Perspectives" (pp. 118–128). Paris: Éditions Errance.
  • Pelegrin, J. (1995). Technologie lithique: Le Châtelperronien de Roc-de-Combe (Lot) et de la Cote (Dordogne), Cahiers du Quaternaire. Paris: Edition du CNRS.
  • Pelegrin, J. (2000). Les techniques de débitage laminaire au Tardiglaciaire: Critères de diagnose et quelques réflexions. In B. Valentin, P. Bodu, & M. Christensen (Eds.), L’Europe centrale et septentrionale au Tardiglaciaire, mémoires du Musée de Préhistoire d’Ile de France 7, Ed. (pp. 73–86). Nemours: APRAIF.
  • Pelegrin, J. (2006). Long blade technology in the old world: An experimental approach and some archaeological results. In J. Apel, & K. Knutsson (Eds.), Skilled production and social Reproduction - aspects of traditional stone-tool technologies, Societas Archaeologica Upsaliensis & The Department of archaeology and Ancient history (pp. 37–68). Uppsala: Uppsala University.
  • Pigeot, N. (1991). Reflexions sur l’histoire technique de l’homme: De l’évolution cognitive a l’évolution culturelle. Paléo, 3, 167–200.
  • Porat, N., Chazan, M., Grün, R., Aubert, M., Eisenmann, V., & Horwitz, L. K. (2010). New radiometric ages for the Fauresmith industry from Kathu Pan, Southern Africa: Implications for the earlier to middle stone age transition. Journal of Archaeological Science, 37, 269–283.
  • Porraz, G., Igreja, M., Schmidt, P., & Parkington, J. E. (2016). A shape to the microlithic Robberg from Elands Bay Cave (South Africa). Southern African Humanities, 29, 203–247.
  • Porraz, G., Texier, P.-J., Archer, W., Piboule, M., Rigaud, J.-P., & Tribolo, C. (2013). Technological successions in the middle stone age sequence of Diepkloof rock Shelter, Western Cape, South Africa. Journal of Archaeological Science, 40, 3376–3400.
  • Porraz, G., Val, A., Dayet, L., de La Peña, P., Douze, K., Miller, C. E., … Sievers, C. (2015). Bushman rock Shelter (Limpopo, South Africa): A perspective from the edge of the Highveld. South African Archaeological Bulletin, 70, 166–179.
  • Porraz, G., Val, A., Tribolo, C., Mercier, N., de la Peña, P., Haaland, M. M., … Schmid, V. C. (2018). The MIS5 Pietersburg at ‘28’ Bushman rock Shelter, Limpopo Province, South Africa. PLoS ONE, 13, e0202853.
  • Roche, H., & Tixier, J. (1982). Les accidents de taille. Studia Praehistorica Belgica, 2, 65–76.
  • Rots, V., Lentfer, C., Schmid, V. C., Porraz, G., & Conard, N. J. (2017). Pressure flaking to serrate bifacial points for the hunt during the MIS5 at Sibudu Cave (South Africa). PLoS ONE, 12, e0175151.
  • Sampson, C. G. (1974). The stone Age archaeology of Southern Africa. London: Academic Press.
  • Schmid, V. C., Conard, N. J., Parkington, J. E., Texier, P.-J., & Porraz, G. (2016). The ‘MSA 1’of Elands Bay Cave (South Africa) in the context of the Southern African Early MSA technologies. Southern African Humanities, 29, 153–201.
  • Shea, J. J. (2011). Homo sapiens is as Homo sapiens was: Behavioral variability versus “behavioral modernity” in Paleolithic archaeology. Current Anthropology, 52, 1–35.
  • Shimelmitz, R., Barkai, R., & Gopher, A. (2011). Systematic blade production at late lower Paleolithic (400—200 kyr) Qesem Cave, Israel. Journal of Human Evolution, 61, 458–479.
  • Singer, R., & Wymer, J. J. (1982). The Middle Stone Age at Klasies River Mouth in South Africa. Chicago: University of Chicago Press.
  • Soressi, M. (2002). Le Moustérien de tradition acheuléenne du sud-ouest de la France. Bordeaux: Université Bordeaux I.
  • Soressi, M., & Geneste, J.-M. (2011). Special Issue: Reduction sequence, chaîne opératoire, and other methods: The Epistemologies of different approaches to lithic analysis the history and efficacy of the chaîne opératoire approach to lithic analysis: Studying techniques to reveal past societies in an evolutionary perspective. PaleoAnthropology, 2011 , 334–350.
  • Soriano, S. (2001). Statut fonctionnel de l'outillage bifacial dans les industries du Paléolithique moyen: Propositions méthodologiques. In D. Cliquet, & M. Otte (Eds.), Les industries à outils bifaciaux du Paléolithique moyen d’Europe occidentale (pp. 77–83). Liège: ERAUL.
  • Soriano, S., Villa, P., Delagnes, A., Degano, I., Pollarolo, L., Lucejko, J. J., … Wadley, L. (2015). The still Bay and Howiesons Poort at Sibudu and Blombos: Understanding middle stone age technologies. PLoS ONE, 10, e0131127.
  • Soriano, S., Villa, P., & Wadley, L. (2007). Blade technology and tool forms in the middle stone age of South Africa: The Howiesons Poort and post-Howiesons Poort at Rose Cottage Cave. Journal of Archaeological Science, 35, 681–703.
  • Soriano, S., Villa, P., & Wadley, L. (2009). Ochre for the toolmaker: Shaping the still bay points at Sibudu (Kwa-Zulu-Natal, South Africa). Journal of African Archaeology, 7, 41–54.
  • Texier, P.-J. (2010). A Howiesons Poort tradition of engraving ostrich eggshell containers dated to 60,000 years ago at Diepkloof rock Shelter, South Africa. Proceedings of the National Academy of Sciences of the United States of America, 107, 6180–6185.
  • Thompson, E., Williams, H. M., & Minichillo, T. (2010). Middle and late Pleistocene middle stone age lithic technology from pinnacle point 13B (Mossel Bay, Western Cape Province, South Africa). Journal of Human Evolution, 59, 358–377.
  • Tixier, J. (1967). Procédés d’analyse et questions de terminologie dans l’étude des ensembles industriels du Paléolithique récent et de l’Epipaléolithique en Afrique du Nord-Ouest. In W. W. Bishop & J. D. Clark (Eds.), Background to evolution in Africa (pp. 771–820). Chicago and London: University of Chicago Press.
  • Tixier, J. (1980). Préhistoire et technologie lithique. Meudon: Editions du CNRS.
  • Tomasso, A., & Porraz, G. (2016). Hunter-gatherer mobility and embedded raw-material procurement strategies in the Mediterranean upper Paleolithic, Evolutionary anthropology: Issues. News, and Reviews, 25, 164–174.
  • Tostevin, G. (2003). Attribute analysis of the lithic technologies of Stránská skála II–III in their regional and inter-regional context. In J. Svoboda & O. Bar-Yosef (Eds.), Stránská skála: Origins of the Upper Paleolithic in the Brno Basin (pp. 77–118). Cambridge: Peabody Museum Press.
  • Tuffreau, A., & Sommé, J. (Eds.) (1988). Le Gisement Paléolithique Moyen de Biache-Saint-Vaast (Pas-de-Calais). Volume 1 - Stratigraphie, environnement, études archéologiques (première partie). Paris: Mémoires de la Société Préhistorique Française.
  • Underhill, D. (2011). The study of the Fauresmith: A review. South African Archaeological Bulletin, 66, 15–26.
  • Valentin, B. (2000). L’usage des percuteurs en pierre tendre pour le débitage des lames. Circonstances de quelques innovations au cours du Tardiglaciaire dans le Bassin parisien. In G. Pion (Ed.), Le Paléolithique supérieur ré-cent: Nouvelles données sur le peuplement et l’environnement (pp. 253–260). Chambery: Mémoires de la Société Préhistorique Française.
  • Villa, P., Delagnes, A., & Wadley, L. (2005). A late middle stone age artifact assemblage from Sibudu (KwaZulu-Natal): Comparisons with the European middle Paleolithic. Journal of Archaeological Science, 32, 399–422.
  • Villa, P., Soriano, S., Teyssandier, N., & Wurz, S. (2010). The Howieson’s Poort and MSA III at Klasies River main site, Cave 1A. Journal of Archaeological Science, 37, 630–655.
  • Villa, P., Soriano, S., Tsanova, T., Degano, I., Higham, T. F. G., d’Errico, F., … Beaumont, P. B. (2012). Border Cave and the beginning of the later stone age in South Africa. Proceedings of the National Academy of Sciences of the United States of America, 109, 13208–13213.
  • Vogelsang, R. (1998). Middle Stone Age Fundstellen in Südwest-Namibia. Köln: Heinrich Barth Institut.
  • Vogelsang, R., Richter, J., Jacobs, Z., Eichhorn, B., Linseele, V., & Roberts, R. G. (2010). New excavations of middle stone age deposits at Apollo 11 Rock Shelter, Namibia: Stratigraphy, archaeology, chronology and past environments. Journal of African Archaeology, 8, 185–218.
  • Wadley, L. (2005). A typological study of the final middle stone age stone tools from Sibudu Cave, KwaZulu-Natal. South African Archaeological Bulletin, 60, 51–63.
  • Wadley, L. (2007). Announcing a Still Bay industry at Sibudu Cave. Journal of Human Evolution, 52, 681–689.
  • Wadley, L. (2012). Two ‘moments in time’ during middle stone age occupations of Sibudu, South Africa. Southern African Humanities, 24, 79–97.
  • Wadley, L. (2013). MIS 4 and MIS 3 occupations in Sibudu, KwaZulu-Natal, South Africa. South African Archaeological Bulletin, 68, 41–51.
  • Wadley, L. (2015). Those marvellous millennia: The Middle stone Age of Southern Africa. Azania: Archaeological Research in Africa, 50, 155–226.
  • Wadley, L., & Jacobs, Z. (2004). Sibudu Cave, KwaZulu-Natal: Background to the excavations of middle stone age and iron age occupations. South African Journal of Science, 100, 145–151.
  • Wadley, L., & Jacobs, Z. (2006). Sibudu Cave: Background to the excavations, stratigraphy and dating. Southern African Humanities, 18, 1–26.
  • Wadley, L., & Kempson, H. (2011). A review of rock studies for archaeologists, and an analysis of dolerite and hornfels from the Sibudu area, KwaZulu-Natal. Southern African Humanities, 23, 87–107.
  • Wadley, L., & Mohapi, M. (2008). A segment is not a monolith: Evidence from the Howiesons Poort of Sibudu, South Africa. Journal of Archaeological Science, 35, 2594–2605.
  • Wadley, L., Sievers, C., Bamford, M., Goldberg, P., Berna, F., & Miller, C. E. (2011). Middle stone age bedding construction and settlement patterns at Sibudu, South Africa. Science, 334, 1388–1391.
  • Wadley, L., & Whitelaw, G. (Eds.) (2006). Sibudu cave: Background to the excavations, stratigraphy and dating.
  • Wilkins, J. (2013). Technological change in the early middle Pleistocene: The onset of the middle stone age at Kathu Pan 1, Northern Cape, South Africa. Toronto: University of Toronto.
  • Wilkins, J., & Chazan, M. (2012). Blade production ∼500 thousand years ago at Kathu Pan 1, South Africa: Support for a multiple origins hypothesis for early Middle Pleistocene blade technologies. Journal of Archaeological Science, 39, 1883–1900.
  • Will, M., Bader, G. D., & Conard, N. J. (2014). Characterizing the Late Pleistocene MSA lithic technology of Sibudu, KwaZulu-Natal, South Africa. PLoS ONE, 9, e98359.
  • Wojtczak, D. (2011). Hummal (Central Syria) and its eponymous industry. In J.-M. Le Tensorer, R. Jagher, & M. Otte (Eds.), The Lower and Middle Paleolithic in the Middle East and neighbouring regions (pp. 289–308). Liege: ERAUL.
  • Wojtczak, D. (2014). The early Middle Palaeolithic blade industry from Hummal, Central Syria. Basel: University of Basel.
  • Wurz, S. (2000). The middle stone age at Klasies river, South Africa. Stellenbosch: University of Stellenbosch.
  • Wurz, S. (2002). Variability in the Middle Stone Age lithic sequence, 115,000–60,000 years ago at Klasies River, South Africa. Journal Archaeological Science, 29, 1001–1015.
  • Wurz, S. (2012). The significance of MIS 5 shell middens on the cape coast: Lithic perspective from Klasies River and Ysterfontein 1. Quaternary International, 270, 61–69.
  • Wurz, S. (2013). Technological trends in the Middle Stone Age of South Africa between MIS 7 and MIS 3. Current Anthropology, 54, S305–S319.

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