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El Mirón Cave and the 14C Chronology of Cantabrian Spain

Published online by Cambridge University Press:  18 July 2016

Lawrence Guy Straus  and
Manuel González Morales
Lawrence Guy Straus*
Affiliation:
Department of Anthropology, University of New Mexico, Albuquerque, New Mexico 87131, USA.
Manuel González Morales
Affiliation:
Departamento de Ciencias Históricas, Universidad de Cantabria, 39005 Santander, Spain. Email: moralesm@unican.es.
*
Corresponding author. Email: lstraus@unm.edu.
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Abstract

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Excavations since 1996 in the large El Mirón Cave in the Cantabrian Cordillera of northern Spain have revealed a cultural sequence of late Mousterian, early Upper Paleolithic, Solutrean, Magdalenian, Azilian, Mesolithic, Neolithic, Chalcolithic, Bronze Age, and Medieval occupations. These components have been dated by 51 generally coherent radiocarbon determinations, all run by the Geochron labs, in association with the Lawrence Livermore labs for AMS. This series is one of the largest for a single prehistoric site in Iberia or even Europe. The series is consistent with the record from Cantabrian Spain and provides new detail on the age of the Middle–Upper Paleolithic transition, on the various phases of the Magdalenian culture, on the appearance of the Neolithic in the Atlantic zone of Spain, and on the origins of the socioeconomic complexity in the metal ages. The stratigraphic relationship of 14C-dated levels to a roof-fall block and adjacent cave walls (both with engravings) provides rare terminus post and ante quem ages for execution of the rupestral art in El Mirón during the early to mid Magdalenian. The 14C record has also been instrumental in revealing the existence of depositional hiati during the early Holocene.

Type
Archaeology
Information
Radiocarbon , Volume 45 , Issue 1 , 2003 , pp. 41 - 58
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

References

Aguirre, M, López, J, Sáenz de Buruaga, A. 2000. Medio ambiente, industrias y poblamiento prehistórico en Urdaibai (Gemika, Bizkaia) del Würm reciente al Holoceno medio. Illunzar 4:1338.Google Scholar
Alvarez, E, Jöris, O. 1998. El significado cronológico de algunas especies de fauna fría durante el Tardiglaciar en la Península lbérica. Zephyrus 51:6186.Google Scholar
Arias, P, Altuna, J, Armendariz, A, González, J, Ibáñez, J, Ontañón, R, Zapata, L. 1999. Nuevas aportaciones al conocimiento de las primeras sociedades productoras en la región cantabrica. Saguntum-PLAV Extra 2:549–57.Google Scholar
Arias, P, González, C, Moure, A, Ontañón, R. 2000. Estudio integral del complejo arqueológico de La Garrna. In: Ontañón, R, editor. Actuaciones Arqueológicas en Cantabria, 1984–1999. Santander: Gobierno de Cantabria. p 271–7.Google Scholar
Apellániz, J. 1971. El Mesolítico de la Cueva de Tarrerón y su datación por el C-14. Munibe 23:91104.Google Scholar
Bischoff, J, Ludwig, K, García, J, Carbonell, E, Vaquero, M, Stafford, T, Jull, AJT. 1994. Dating of the basal Aurignacian sandwich at Abric Romaní (Catalunya, Spain) by radiocarbon and uranium-series. Journal of Archaeological Science 21:541–51.CrossRefGoogle Scholar
Cabrera, V, Bernaldo de Quirós, F. 2000. Excavaciones arqueológicas en la Cueva del Castillo, 1980–1999. In: Ontañón, R, editor. Actuaciones Arqueológicas en Cantabria, 1984–1999. Santander: Gobierno de Cantabria. p 2334.Google Scholar
Cabrera, V, Valladas, H, Bernaldo de Quirós, F, Hoyos, M. 1996. La transition Paléolithique moyen-Paléolithique supérieur à El Castillo: nouvelles datations par le carbone-14. Comptes-Rendus de I'Académie des Sciences de Paris Series IIa (322):1093–8.Google Scholar
Clark, GA. 1976. El Asturiense Cantábrico. Madrid: Bibliotheca Praehistorica Hispana 13.Google Scholar
Crane, H, Griffin, J. 1960. University of Michigan radiocarbon dates V. Radiocarbon 2:3148.Google Scholar
Fortea, J. 2001. El Paleolítico superior en Galicia y Asturias. In: Noiret, P, editor. Paléolithique supérieur Européen. Bilan Quinquennal 1996–2001. ERAUL 97. p 149–60.Google Scholar
Fortea, J. 2002. Trente-neuf dates C14-SMA pour l'art pariétal paléolithique des Asturies. Bulletin de la Société Préhistorique Ariége-Pyrénées 57:728.Google Scholar
Freeman, LG. 1988. Dimensions of research at El Juyo. In: Dibble, H, Montet-White, A, editors. Upper Pleistocene Prehistory of Western Eurasia. Philadelphia: University of Pennsylvania Museum. p 139.Google Scholar
Freeman, LG. 1996. Obermaier y Altamira: las nuevas excavaciones. In: Moure, A, editor. El Hombre Fósil: 80 Años Después. Santander: Universidad de Cantabria. p 249–69.Google Scholar
García, M. 2001. Comportamiento gráfico durante el Paleolitico superior en el Alto Asón: análisis de los dispositivos iconográficos rupestres. PhD dissertation. Victoria: Department of Geography, Prehistory, and Archeology, Universidad del Pais Vasco, Victoria.Google Scholar
González Morales, M. 1995. La transición al Holoceno en la Región Cantábrica: en contrastste con el modelo del Mediterráneo español. In: Villaverde, V, editor. Los Ultimos Cazadores. Alicante: Instituto de Cultura Juan Gil-Albert. p 6378.Google Scholar
González Morales, M, Straus, LG. 2000. La Cueva del Mirón (Ramales de la Victoria, Cantabria): excavaciones 1996–1999. Trabajos de Prehistoria 57:121–33.Google Scholar
International Study Group. 1982. An interlaboratory comparison of radiocarbon measurements in tree rings. Nature 298:619–23.Google Scholar
Mariezkurrena, C. 1990. Dataciones absolutes para la arqueología vasca. Munibe 42:287304.Google Scholar
Mariezkurrena, K, Altuna, J. 1995. Fauna de mamíferos del yacimiento costero de Herriko Barra. Munibe 47: 2332.Google Scholar
Moure, A, González Sainz, C. 2000a. Cronología del arte paleolitico cantábrico: últimas aportaciones y estado actual de la cuestión. In: Oliveira Jorge, V, editor. Actas, III Congesso de Arqueología Peninsular. Volume 2. Porto: ADECAP. p 461–73.Google Scholar
Moure, A, González Sainz, C. 2000b. Documentación del arte rupestre en el sector central de la costa cantábrica. In: Ontañón, R, editor. Actuaciones Arqueológicas en Cantabria, 1984–1999. Santander: Gobierno de Cantabria. p 227–9.Google Scholar
Ruiz, J, Smith, P. 2001. El yacimiento del Cubio Redondo (Matienzo, Ruesga): una estación mesolítica de montaña en Cantabria. Munibe 53:3155.Google Scholar
Serna, MR. 2000. Excavaciones en la estación megalítica de Alto de Guriezo-Hayas. In: Ontañón, R, editor. Actuaciones Arqueológicas en Cantabria, 1984–1999. Santander: Gobierno de Cantabria. p 197202.Google Scholar
Straus, LG. 1991. SW Europe at the Last Glacial Maximum. Current Anthropology 32:189–99.Google Scholar
Straus, LG. 1992. Iberia before the Iberians. Albuquerque: University of New Mexico Press.Google Scholar
Straus, LG. 1997. The Iberian situation between 40,000 and 30,000 BP in light of European models of migration and convergence. In: Clark, GA, Willermet, C, editors. Conceptual Issues in Modern Human Origins Research. New York: Aldine de Gruyter. p 235–52.Google Scholar
Straus, LG. 2001. Solutrean. In: Peregrine, P, Ember, M, editors. Encyclopedia of Prehistory, Volume 4. New York: Kluwer Academic/Plenum. p 328–50.Google Scholar
Straus, LG, Clark, GA. 1986. La Riera Cave. Tempe: Anthropological Research Papers 36.Google Scholar
Straus, LG, González Morales, M. 2003. The Mesolithic in the Cantabrian interior: fact or fantasy? In: Larsson, L et al., editors. Mesolithic on the Move. Oxford: Oxbow Books. p 359–68.Google Scholar
Straus, LG, González Morales, M, Farrand, W, Hubbard, W. 2001. Sedimentological and stratigraphic observations in El Mirón: a late Quaternary cave site in the Cantabrian Cordillera. Geoarchaeology 16:603–30.Google Scholar
Straus, LG, González Morales, M, García-Gelabert, MP, Fano, M. 2002a. The late Quaternary human uses of a natural territory: the case of the Rio Asón drainage (eastern Cantabria Province, Spain). Journal of Iberian Archaeology 4:2161.Google Scholar
Straus, LG, González Morales, M, Fano, M, García-Gelabert, MP. 2002b. Last Glacial human settlement in eastern Cantabria. Journal of Archaeological Science 29: 1403–14.CrossRefGoogle Scholar
Stuckenrath, R. 1978. Dataciones de carbono-14. In: González Echegaray, J, Freeman, LG, editors. Vida y Muerte en Cueva Morín. Santander: Institución Cultural de Cantabria. p 215.Google Scholar
Stuiver, M, Reimer, P, Bard, E, Beck, J, Burr, G, Hughen, K, Kromer, B, McCormac, G, van der Plicht, J, Spurk, M. 1998. INTCAL98 radiocarbon age calibration, 24000–0 cal BP. Radiocarbon 40:1041–83.CrossRefGoogle Scholar
Yarritu, MJ, Gorrochategui, X. 1995. El megatitismo en el Cantábrico oriental. In: Primeros Agricultores y Ganaderos en el Cantábrico y Alto Duero. Cuadernos de Sección: Prehistoria y Arqueología 6:155–98.Google Scholar
Zapata, L. 1995. La excavación del depósito sepulcral calcolítico de la Cueva Pico Ramos. Munibe 47:3590.Google Scholar