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Archaeological and Anthropological Sciences

, Volume 10, Issue 3, pp 631–645 | Cite as

Lithic use-wear analysis of the Early Gravettian of Vale Boi (Cape St. Vicente, southern Portugal): insights into human technology and settlement in southwestern Iberia

  • João Marreiros
  • Juan Gibaja
  • Nuno Bicho
Original Paper

Abstract

During the Upper Paleolithic, lithic variability is one of the most important keys to recognize hunter-gatherer behavior, technology, ecology, and social dynamics. The origin and expansion of Gravettian populations in Eurasia has been seen as one of the most critical episodes in human evolution, argued to be the first clear evidence of the so-called polymorphism among modern human populations. In the case of southern Iberian Peninsula, recent data have shown a new regional and diachronic organization for the Gravettian occupation in this region. Therefore, the interpretation of such variability is one of the most important questions, and functional analysis is a fundamental proxy to recognize human technological, settlement and ecological adaptations as major factors for this polymorphism. This study focused on lithic use-wear analysis of the Early Gravettian of Vale Boi (southern Portugal), in order to understand lithic technological organization and variability within and between occupations at the site. Results show similar patterns between assemblages, showing that different materials were worked at the site, although showing reduced time of work, low variability and percentage of pieces used. Unlike other Gravettian contexts in southern Iberia, the Early Gravettian from Vale Boi is characterized by some variability of backed points, marked by the predominance of bipointed double-backed bladelets. Functional analysis of the Early Gravettian lithic industries of Vale Boi provide a new insight to interpret human technology and settlement strategy during the onset of Upper Paleolithic industries in western Eurasia.

Keywords

Iberia peninsula Gravettian Lithic variability Backed technology 

Notes

Acknowledgments

The authors acknowledge the FCT (Technological and Scientific Foundation, Portugal) for supporting the individual Ph.D. (PTDC/HIS-ARQ/117540/2010) and Post-Doc grant (SFRH/BPD/94668/2013) (J.M.) and funding for Vale Boi research project (PTDC/HIS-ARQ/117540/2010) to NB.

We also would like to thank the three anonymous reviewers who helped to improve the original paper.

References

  1. Anderson P (1990) Aspects of behaviour in the middle Palaeolithic: functional analysis of stone tools from Southwest France. In: Mellars P (ed) The emergence of modem humans: archaeological perspectives. Edinburgh University Press, New York, pp. 389–418Google Scholar
  2. Bergmann C, Newcomer M (1983) Flint arrowhead breakage: examples from Ksar Akil, Lebanon. Journal of Field Archaeology 10:239–243Google Scholar
  3. Bettinger RL, Winterhalder B, McElreath R (2006) A simple model of technological intensification. J Archaeol Sci 33:538–545. doi: 10.1016/j.jas.2005.09.009 CrossRefGoogle Scholar
  4. Bicho N, Stiner M, Lindly J, et al. (2003) Preliminary results from the Upper Paleolithic site of Vale Boi, southwestern Portugal. Journal of Iberian Archaeology 5:51–66Google Scholar
  5. Bicho N, Gibaja J, Stiner M, Manne T (2010a) Le paléolithique supérieur au sud du Portugal: le site de Vale Boi. l'Anthropologie 114:48–67. doi: 10.1016/j.anthro.2010.01.002 CrossRefGoogle Scholar
  6. Bicho N, Manne T, Cascalheira J, et al. (2010b) O Paleolitico superior do sudoeste da Peninsula Ibérica: o caso do Algarve. In: Mangado X (ed) El Paleolíitico Superior Peninsular. Novedades del siglo XXI, Monografie. Universitat de Barcelona, Barcelona, pp. 219–238Google Scholar
  7. Bicho N, Cascalheira J, Marreiros J (2012) On the (l)edge: the case of Vale Boi rockshelter. In: Bergsvik K, Skeates R (eds) Caves in Context: The Cultural Significance of Caves and Rockshelters in Europe, Oxbow book. pp 65–81Google Scholar
  8. Bicho N, Manne T, Marreiros J, et al. (2013) The ecodynamics of the first modern humans in southwestern Iberia: the case of Vale Boi, Portugal. Quat Int 318:102–116. doi: 10.1016/j.quaint.2013.06.029 CrossRefGoogle Scholar
  9. Bicho N, Marreiros J, Cascalheira J, et al. (2014) Bayesian modeling and the chronology of the Portuguese Gravettian. Quat Int 359-360:499–509CrossRefGoogle Scholar
  10. Bicho N, Cascalheira J, Marreiros J, Pereira T (2015) Rapid climatic events and long term cultural change: the case of the Portuguese Upper Paleolithic. Quat Int. doi: 10.1016/j.quaint.2015.05.044 Google Scholar
  11. Binford LR (2001) Constructing frames of reference: an analytical method for archaeological theory building using hunter-gatherer and environmental data sets. University of California PressGoogle Scholar
  12. Borgia V (2008) Le Gravettien ancien dans le sud de l’Italie: analyse fonctionnelle de pointes à dos de Grotta Paglicci (Foggia) et de Grotta della Cala (Salerno). P@lethnologie 1:47–68Google Scholar
  13. Borgia V, Ranaldo F (2009) Functional analysis of the aurignacian backed bladelets from Grotta Paglicci. Hum Evol 24:13–25Google Scholar
  14. Bradley B, Frison G (1987) Projectile points and specialized bifaces from the Horner site. In: Frison G, Todd L (eds) The Horner site. The type site of the Cody cultural complex. Academic Press, New York, pp. 199–232Google Scholar
  15. Bradtmöller M, Marreiros J, Pereira T, Bicho N (2015) Lithic technological adaptation within the Gravettian of the Iberian Atlantic region: results from two case studies. Quat Int. doi: 10.1016/j.quaint.2015.08.075 Google Scholar
  16. Bronk Ramsey C (1995) Radiocarbon calibration and analysis of stratigraphy: the OxCal program. Radiocarbon 37:425–430. doi: 10.2458/rc.v37i2.1690
  17. Cascalheira J (2010) Tecnologia lítica solutrense do Abrigo de Vale Boi (Vila do Bispo), Cadernos d. Uniarq, LisboaGoogle Scholar
  18. Cortés M (2007) El Paleolítico Medio y superior en el sector central de Andalucía (Córdoba y Málaga), 22nd edn. Monografias del Museo de AltamiraGoogle Scholar
  19. de la Peña P (2009) Revisión crítica de los conjuntos líticos gravetienses y su contexto arqueológico en la Península Ibérica. Complutum 20:29–53Google Scholar
  20. de la Peña P (2012) A propósito del Gravetiense. El paso de cultura a tecnocomplejo: Un caso ejemplar de pervivencia particularista. Complutum 23:41–62. doi: 10.5209/rev-CMPL.2012.v23.n1.39530 Google Scholar
  21. de la Peña P, Toscano V (2013) The Early Upper Palaeolithic puzzle in Mediterranean Iberia. Quartär 60:85–106. doi: 10.7485/QU60_4 Google Scholar
  22. de Araujo Igreja M (2003) Le travail des matières dures animales dans le site gravettien “ La Vigne Brun ” (Loire, France): apport de l’analyse tracéologique des outillages lithiques. Préhistoire Anthropologie méditerranéennes 12:95–101Google Scholar
  23. Fischer A, Vemming Hansen P, Rasmussen P (1984) Macro and micro wear traces on lithic projectile points: experimental results and prehistoric examples. Journal of Danish Archaeology 3:19–46Google Scholar
  24. Frison G, Bradley B (1980) Folsom tools and Technology at the Hanson Site, Wyoming. University of New Mexico Press, AlbuquerqueGoogle Scholar
  25. Fullola J., Roman D, Soler N, Villaverde V (2007) Le Gravettien de la côte méditerranéenne ibérique. Paléo Revue d’archéologie préhistorique 73–88.Google Scholar
  26. Geneste J, Plisson H (1990) Technologie fonctionnelle des pointes á cran solutréennes: l’apport des nouvelles donnees de la Grotte de Combe Sauniére (Dordogne). In: Kozłowski J (ed) Feuilles de pierre: Les industries à points foliacées du Paléolithique supérieur européen. ERAUL 42. Liège, pp 293–320Google Scholar
  27. Geneste J-M, Plisson H (1993) Hunting technologies and human behavior: lithic analysis of Solutrean shouldered points. In: Knecht H, Pike-Tay A, White R (eds) Before Lascaux: the complex record of the Early Upper Paleolithic. CRC Press, Boca Raton Gibaja, pp. 117–135Google Scholar
  28. Gibaja J, Bicho N (2006) La función de los instrumentos líticos en el asentamiento del Vale Boi (Algarve, Portugal). Estudio del utillaje gravetiense y solutrense. Saguntum 9–19Google Scholar
  29. González J. E. and Ibáñez J. J. (1994). Metodología de análisis funcional de instrumentos tallados en sílex. Cuadernos de Arqueología, 14. Universidad de Deusto. BilbaoGoogle Scholar
  30. Harrison F (1993) Variability and function among Gravette Points from shouthwestern France. In: Larsen-Peterkin G, Bricker H, Mellars P (eds) Hunting and Animal Explotation in the Late Paleolithic and Mesolithic of Eurasia, Archaeolog. Washington, pp 69–81Google Scholar
  31. Hays M, Surmely F (2005) Reflexions sur la Fonction des Microgravettes et la Question de l’Utilisation de l’arc au Gravettien Ancien. Paleo 17:145–156Google Scholar
  32. Klaric L (2003) L’unité technique des industries à burins du Raysse dans leur contexte diachronique: réflexions sur la variabilité culturelle au Gravettien à partir des exemples de la Picardie, d’Arcy-sur-Cure, de Brassempouy et du Cirque de la Patrie. Université Panthéon-Sorbonne - ParisGoogle Scholar
  33. Klaric L (2007) Regional groups in the European Middle Gravettian: a reconsideration of the Rayssian technology. Antiquity 81:176CrossRefGoogle Scholar
  34. Kozłowski JK (2015) The origin of the Gravettian. Quat Int 359-360:3–18. doi: 10.1016/j.quaint.2014.03.025 CrossRefGoogle Scholar
  35. Kuhn S (1995) Mousterian Lithic Technology: An Ecological PerspectiveGoogle Scholar
  36. Lombard M (2005) A method for identifying Stone Age hunting tools. South African Archaeological Bulletin 60:115–120Google Scholar
  37. Lombard M, Parsons I, van der Ryst M (2004) Middle Stone Age lithic experimentation for macro-fracture and residue analyses: the process and preliminary results with reference to the Sibudu Cave points. S Afr J Sci 100:159–166Google Scholar
  38. Manne T, Bicho NF (2009) Vale Boi: rendering new understandings of resource intensification and diversification in southwestern Iberia. Before Farming 1:1–21CrossRefGoogle Scholar
  39. Manne T, Bicho N (2011) Prying new meaning from limpet harvesting at Vale Boi during the Upper Paleolithic. In: Bicho N, Haws J, Loren D (eds) Trekking the shore: changing coastlines and the antiquity of coastal settlement. Springer. New York, NY, pp. 273–290CrossRefGoogle Scholar
  40. Manne T, Stiner M, Bicho N (2003) Evidence for bone grease rendering during the Upper Paleolithic at Vale Boi (Algarve, Portugal). Promontória 145–158Google Scholar
  41. Manne T, Cascalheira J, Évora M, et al. (2012) Intensive subsistence practices at Vale Boi, an Upper Paleolithic site in southwestern Portugal. Quat Int 264:83–99. doi: 10.1016/j.quaint.2012.02.026 CrossRefGoogle Scholar
  42. Marreiros J, Bicho N (2013) Lithic technology variability and human ecodynamics during the Early Gravettian of southern Iberian Peninsula. Quat Int 318:90–101. doi: 10.1016/j.quaint.2013.05.008 CrossRefGoogle Scholar
  43. Marreiros, J., Mazzucco, N., Gibaja, J., Bicho, N., (2014) Macro and micro evidences from the past: the state of the art of archaeological use-wear studies. In: Marreiros, J., Gibaja, J.F., Bicho, N. (Eds.), Use-wear and residue analysis in archaeology, Manuals in Archaeological Method, Theory and Technique, vol. 10 Springer, Geneve pp. 5–26. doi:  10.1007/978-3-319-08257-8_2
  44. Marreiros J, Bicho N, Gibaja J, et al. (2015) Lithic technology from the Gravettian of Vale Boi: new insights into Early Upper Paleolithic human behavior in southern Iberian Peninsula. Quat Int 359-360:479–498. doi: 10.1016/j.quaint.2014.06.074 CrossRefGoogle Scholar
  45. McCall G (2007) Behavioral ecological models of lithic technological change during the later Middle Stone Age of South Africa. J Archaeol Sci 34:1738–1751. doi: 10.1016/j.jas.2006.12.015 CrossRefGoogle Scholar
  46. Moreau L (2012) Le Gravettien ancien d’Europe centrale revisité: mise au point et perspectives. l'Anthropologie 116:609–638. doi: 10.1016/j.anthro.2011.10.002 CrossRefGoogle Scholar
  47. O’Farrell, M. (1996) Approche technologique et fonctionnelle des pointes de La Gravette. Dipomes d’Etudes Approfondies, Universite’ Bordeaux 1Google Scholar
  48. O’Farrell, M. (2004) Les pointes de la Gravette de Corbiac (Dordogne) et considérations sur la chasse au Paléolithique supérieur ancien. In Bodu, P & Constantin C. (Eds.), Approches Fonctionnelles en Préhistoire (pp. 121–138). Congrès Préhistorique de FranceGoogle Scholar
  49. Odell G, Cowan F (1986) Experiments with spears and arrows on animal targets. Journal of Field Archaeology 13:195–212Google Scholar
  50. Odell GH, Odell-Vereecken F (1980) Verifying the reliability of lithic use-wear assessments by “blind tests”: the low-power approach. Journal of Field Archaeology 7:87–120Google Scholar
  51. Pereira T, Bicho N, Cascalheira J, Infantini L, Marreiros J, Paixão E, Terradas X (2016) Territory and abiotic resources between 33 and 15.6 ka at Vale Boi (SW Portugal). Quaternary International. doi: 10.1016/j.quaint.2015.08.071
  52. Pesesse D (2006) La « pointe à dos alternes », un nouveau fossile directeur du Gravettien? Bulletin de la Société préhistorique française 103:465–478CrossRefGoogle Scholar
  53. Plisson H (1985) Contribution de la tracéologie a la localisation des aires d’activité et d’occupation. LAnthropologie 89(4):473–478Google Scholar
  54. Plisson, H., and J-M. Geneste, (1989). Analyse Technologique des Pointes Cran SolutrCennes du Placard, du Fourneau du Diable, du Pech de la Boissibre et de Combe SaunibreGoogle Scholar
  55. Revedin A, Aranguren B, Becattini R, et al. (2010) Thirty thousand-year-old evidence of plant food processing. Proc Natl Acad Sci 107:18815–18819. doi: 10.1073/pnas.1006993107 CrossRefGoogle Scholar
  56. Revedin A, Longo L, Mariotti Lippi M, et al. (2015) New technologies for plant food processing in the Gravettian. Quat Int 359-360:77–88. doi: 10.1016/j.quaint.2014.09.066 CrossRefGoogle Scholar
  57. Reimer PJ, Baillie MGL, Bard E, et al. (2009) IntCal09 and Marine09 radiocarbon age calibration curves, 0-50,000 years cal BP. Radiocarbon 51:1111–1150Google Scholar
  58. Rots, V. (2010). Prehension and hafting traces on flint tools: a methodology. Leuven University PressGoogle Scholar
  59. Sano K, Oba M (2015) Backed point experiments for identifying mechanically-delivered armatures. J Archaeol Sci 63:13–23. doi: 10.1016/j.jas.2015.08.005 CrossRefGoogle Scholar
  60. Santos E (2002) Estudo preliminar das matérias-primas líticas de Vale Boi (Vila do Bispo, Algarve). In: Bicho NF (ed) Actas do IV Congresso de Arqueologia Peninsular, Promontóri. Universidade do Algarve, Faro, pp. 444–455Google Scholar
  61. Stiner MC, Kuhn SL, Weiner S, Bar-yosef O (1995) Differential burning, recrystallization, and fragmentation of archaeological bone. J Archaeol Sci 22:223–237CrossRefGoogle Scholar
  62. Straus L (2005) A mosaic of change: the middle–upper Paleolithic transition as viewed from New Mexico and Iberia. Quat Int 137:47–67. doi: 10.1016/j.quaint.2004.11.019 CrossRefGoogle Scholar
  63. Svoboda J (2005) Pavlov I Southeast:a window into the Gravettian lifestyles. Dolní Vestonice studies 14:500Google Scholar
  64. Svoboda J (2007) The Gravettian on the middle Danube. Paléo Revue darchéologie préhistorique 19:203–220Google Scholar
  65. Tringham R, Cooper G, Odell G, Voytek B, Whitman A (1974) Experimentation in the formation of edge damage: a new approach to lithic analysis. Journal of Field Archaeology 1(2):171–196Google Scholar
  66. van Gijn, A. L. (1989). The wear and Ttear of Flint: principles of functional analysis applied to Dutch Neolithic Assemblages. Analecta Praehistorica Leidensia 22Google Scholar
  67. Veríssimo H (2001) Aprovisionamento de matérias-primas líticas na Pré-História do concelho de Vila do Bispo (Algarve). In: Bicho NF (ed) Actas do IV Congresso de Arqueologia Peninsular, Promontóri. Universidade do Algarve, Faro, pp. 509–523Google Scholar
  68. Villa P, Lenoir M (2006) Hunting weapons of the Middle Stone Age and the Middle Palaeolithic: spear points from Sibudu, Rose Cottage and Bouheben. South African Humanities 18:89–122 VillaverdeGoogle Scholar
  69. Yaroshevich A, Kaufman D, Nuzhnyy D, et al. (2010) Design and performance of microlith implemented projectiles during the Middle and the Late Epipaleolithic of the Levant: experimental and archaeological evidence. J Archaeol Sci 37:368–388. doi: 10.1016/j.jas.2009.09.050 CrossRefGoogle Scholar

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© Springer-Verlag Berlin Heidelberg 2016

Authors and Affiliations

  1. 1.ICArEHB. Faculdade das Ciências Humanas e SociaisUniversidade do AlgarveFaroPortugal
  2. 2.IMF-CSIC. Institución Milá i Fontanals, Groups AgrestBarcelonaSpain

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