Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-29T01:45:41.908Z Has data issue: false hasContentIssue false

Chronology of Megalithic Funerary Practices in Southeastern Iberia: The Necropolis of Panoria (Granada, Spain)

Published online by Cambridge University Press:  02 November 2017

Gonzalo Aranda Jiménez*
Affiliation:
Department of Prehistory and Archaeology, University of Granada, Campus Cartuja s/n, 18071, Granada, Spain
Águeda Lozano Medina
Affiliation:
Department of Prehistory and Archaeology, University of Granada, Campus Cartuja s/n, 18071, Granada, Spain
Margarita Sánchez Romero
Affiliation:
Department of Prehistory and Archaeology, University of Granada, Campus Cartuja s/n, 18071, Granada, Spain
Marta Díaz-Zorita Bonilla
Affiliation:
Institut für Ur- und Frühgeschichte und Archäologie des Mittelalters, University of Tübingen, Hölderlinstr. 12, 72074, Tübingen, Germany
Hervé Bocherens
Affiliation:
Department of Geosciences, Biogeology, and Centre for Human Evolution and Palaeoenvironment (HEP), University of Tübingen, Hölderlinstr. 12, 72074, Tübingen, Germany
*
*Corresponding author. Email: [email protected].

Abstract

An excavation carried out at the megalithic necropolis of Panoria in 2015 offered an excellent opportunity for dating a widespread variety of polygonal, rectangular, and trapezoidal-shaped tombs with short passages for which, surprisingly, there were previously no known radiocarbon (14C) measurements available. Based on the anthropological remains, a series of 19 14C dates was obtained and modeled in a Bayesian statistical framework. The results stress a long period of use that began in the Late Neolithic (3525–3195 cal BC), reaching the most intensive ritual activity during the Copper Age and ending in the Early Bronze Age (2125–1980 cal BC). Throughout this period, tombs were built at different times and used at different temporal scales and intensities, ranging from a few decades to centuries.

Type
Research Article
Copyright
© 2017 by the Arizona Board of Regents on behalf of the University of Arizona 

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

REFERENCES

Aranda Jiménez, G. 2013. Against Uniformity Cultural Diversity: The «Others» in Argaric Societies. In: Cruz Berrocal M, García Sanjuán L, Gilman A, editors. The Prehistory of Iberia. Debating Early Social Stratification and the State. New York: Routledge. p. 99118.Google Scholar
Aranda Jiménez, G, Lozano Medina, A. 2014. The chronology of megalithic funerary practices: a Bayesian approach to Grave 11 at El Barranquete necropolis (Almería, Spain). Journal of Archaeological Science 50:369382.Google Scholar
Aranda Jiménez, G, Lozano Medina, A. Forthcoming 2017. La datación arqueológica de palimpsestos: el caso de las sepulturas megalíticas. In: Barceló JA, Morell B, editors. Métodos cronométricos en Arqueología e Historia. Barcelona: Editorial Dextra.Google Scholar
Aranda Jiménez, G, García Sanjuán, L, Lozano Medina, A, Costa Caramé, ME. 2013. Nuevas dataciones radiométricas del dolmen de Viera (Antequera, Málaga). Colección Gómez-Moreno. Menga. Revista de Prehistoria de Andalucía 4:235248.Google Scholar
Aranda Jiménez, G, Montón-Subias, S, Sánchez Romero, M. 2015. The Archaeology of Bronze Age Iberia. Argaric Societies. New York: Routledge.Google Scholar
Aranda Jiménez, G, Lozano Medina, A, Díaz-Zorita Bonilla, M, Sánchez Romero, M, Escudero Carrillo, J. 2017a. Cultural Continuity and Social Resistance: The Chronology of Megalithic Funerary Practices in Southern Iberia. European Journal of Archaeology. https://doi.org/10.1017/eaa.2017.42 Google Scholar
Aranda Jiménez, G, Lozano, JA, Pérez Valera, F. 2017b. The Megalithic Necropolis of Panoria, Granada, Spain. Geoarchaeological characterization and Provenance Studies. Geoarchaeology. https://doi.org/10.1002/gea.21643 Google Scholar
Bayliss, A. 2009. Rolling out revolution: using radiocarbon dating in Archaeology. Radiocarbon 51(1):123177.Google Scholar
Bayliss, A, Beavan, N, Bronk Ramsey, C, Delgado-Huertas, A, Díaz-Zorita Bonilla, M, Dunbar, E, Fernández-Flores, A, García Sanjuán, L, Hamilton, D, Mora-González, A, Whittle, A. 2016. La cronología radiocarbónica del tholos de Montelirio. In: Fernández Flores A, García Sanjuán L, Díaz-Zorita Bonilla M, editors. Monterilio. Un gran monumneto megalítico de la Edad del Cobre. Sevilla: Consejería de Cultura de la Junta de Andalucía. p. 482502.Google Scholar
Benavides López, JA, Aranda Jiménez, G, Sánchez Romero, M, Alarcón García, E, Fernández Martín, S, Lozano Medina, A, Esquivel Guerrero, JA. 2016. 3D modeling in archaeology: The application of Structure from Motion methods to the study of the megalithic necropolis of Panoria (Granada, Spain). Journal of Archaeological Science: Reports 10:495506.Google Scholar
Bocherens, H, Drucker, D. 2003. Trophic level isotopic enrichments for carbon and nitrogen in collagen: case studies from recent and ancient terrestrial ecosystems. International Journal of Osteoarchaeology 13:4653.Google Scholar
Bonani, G, Beer, J, Hofmann, H, Synal, HA, Suter, M, Wölfli, W, Pfleiderer, C, Junghans, C, Münnich, KO. 1987. Fractionation, precision and accuracy in 14C and 13C measurements. Nuclear Instruments and Methods in Physics Research 29:8790.Google Scholar
Bowman, S. 1990. Radiocarbon Dating. Interpreting the past. London: British Museum.Google Scholar
Bronk Ramsey, C. 1995. Radiocarbon calibration and analysis of stratigraphy: the OxCal program. Radiocarbon 37(2):425430.Google Scholar
Bronk Ramsey, C. 2001. Development of the radiocarbon calibration program. Radiocarbon 43(2):355363.Google Scholar
Bronk Ramsey, C. 2009. Bayesian Analysis of radiocarbon dates. Radiocarbon 51(1):337360.Google Scholar
Bronk Ramsey, C. 2013. Recent and planned developments of the program OxCal. In: Jull AJT, Hattlé C. editors. Proceedings of the 21st International Radiocarbon Conference (Paris, 2012). Radiocarbon 55:720-730.Google Scholar
Buck, CE, Kenworthy, J, Litton, CD, Smith, AFM. 1991. Combining archaeological and radiocarbon information: a Bayesian approach to calibration. Antiquity 65:808821.Google Scholar
Cabrero García, R, Ruiz Moreno, MT, Cuadrado Martín, LB, Sabaté Díaz, I, Malgosa Morena, A, Valverde Lasanta, M, Safont Mas, S, González Rodríguez, M, Subirà, DE, Galdàcano, ME, González Vilches, MC, Pascual Martínez, E, Bardera Soler, DE, Morell, R. 1997. El poblado metalúrgico de Amarguillo II en los Molares (Sevilla) y su entorno inmediato en la campiña: últimas analíticas realizadas. Anuario Arqueológico de Andalucía 1993:131141.Google Scholar
Cámara Serrano, JA, Molina González, F. 2015. Implantación, diversidad y duración del Megalitismo en Andalucía. In: Gonçalves V, Diniz M., Sousa AC, editors. Actas del 5º Congresso do Neolítico Peninsular (Lisboa, 2011). Lisboa: Centro de Arqueologia da Universidade de Lisboa, estudos & memórias. p. 598609.Google Scholar
Cook, GT, Bonsall, C, Hedges, REM, Mcsweeney, K, Boroneanț, V, Pettitt, PT. 2001. A freshwater diet-derived 14C reservoir effect at the stone age sites in the Iron Gates Gorge. Radiocarbon 43:453460.Google Scholar
DeNiro, MJ and Eptein, S. 1981. Influence of diet on the distribution of nitrogen isotopes in animals. Geochimica Cosmochimica Acta 45:341351.Google Scholar
DeNiro, MJ. 1985. Post-mortem preservation and alteration of in vivo bone collagen isotope ratios in relation to paleodietary reconstruction. Nature 317:806809.Google Scholar
Díaz-Zorita Bonilla, M. 2017. The Copper Age in South-West Spain: A bioarchaeological approach to prehistoric social organisation. BAR International Series S2840. Oxford: BAR Publishing.Google Scholar
Díaz-Zorita Bonilla, M, Aranda Jiménez, G, Bocherens, H, Escudero Carrillo, J, Sánchez Romero, M, Lozano Medina, A, Alarcón García, E. forthcoming. Multi-isotopic diet determination of Mediterranean megalithic societies: El Barranquete necropolis (Almería, Spain). Archaeological and Athropological Science Google Scholar
Dunbar, E, Cook, GT, Naysmith, P, Tripney, BG, Xu, S. 2016. AMS 14C dating at the Scottish Universities Environmental Research Centre (SUERC) Radiocarbon Dating Laboratory. Radiocarbon 58(1):923.Google Scholar
Fernández Ruiz, J, Márquez Romero, JE. 2001. Megalitismo en la cuenca media del Río Grande (Málaga). Málaga: Universidad de Málaga.Google Scholar
Fernández Ruiz, J, Márquez Romero, JE. 2008. Nuevos datos sobre la cronología del sepulcro megalítico del “Tesorillo de la Llaná” (Alozaina, Málaga). Mainake XXX:345354.Google Scholar
Fernández Ruiz, J, Ferrer, JE, Marques Melero, I, Baldomero Navarro, A. 1997. Los enterramientos colectivos de El Tardón (Antequera, Málaga). In: De Balbín Berhmann R, Bueno Ramírez P, editors. Actas del II Congreso de Arqueología Peninsular (Zamora, 1996), Tomo II. Zamora: Fundación Rei Afonso Henriques. p. 371380.Google Scholar
Ferrer, JE. 1976. La necrópolis megalítica de Fonelas (Granada). El sepulcro “Moreno 3” y su estela funeraria. Cuadernos de Prehistoria de la Universidad de Granada 1:75110.Google Scholar
Ferrer, JE, Marques Melero, I, Baldomero, A. 1988. La necrópolis megalítica de Fonelas (Granada). Noticiario Arqueológico Hispánico 30:2182.Google Scholar
Fontanals-Coll, M, Subirá, ME, Díaz-Zorita Bonilla, M, Gibaja, J. 2017. First insight into the Neolithic subsistence economy in the north-east Iberian Peninsula: paleodietary reconstruction through stable isotopes. American journal of Physical Anthropology 162(1):3650.Google Scholar
García Sánchez, M, Spahni, JC. 1959. Sepulcros megalíticos en la región de Gorafe. Archivo de Prehistoria Levantina VIII:43113.Google Scholar
Hajdas, I. 2008. Radiocarbon dating and its application in Quaternary studies. Eiszeitalter und Gegenwart 57(1-2):224.Google Scholar
Lanting, JN, Van der Plicht, J. 1998. Reservoir effects and apparent 14C ages. Journal of Irish Archaeology 9:151165.Google Scholar
Leisner, G, Leisner, V. 1943. Die Megalithgräber der Iberischen Halbinsel: Der Süden. Berlin: Walter de Gruyter.Google Scholar
Linares Catela, JA, García Sanjuán, L. 2010. Contribuciones a la cronología absoluta del megalitismo andaluz. Nuevas fechas radiocarbónicas de sitios megalíticos del Andévalo Oriental (Huelva). Menga. Revista de Prehistoria de Andalucía 1:135152.Google Scholar
Lorrio Alvarado, AJ. 2008. Qurénima. El Bronce Final del Sureste de la Península Ibérica. Madrid: Real Academia de la Historia. Universidad de Alicante.Google Scholar
Lozano Medina, A, Aranda Jiménez, G. 2017. La temporalidad de las sepulturas megalíticas tipo Tholos del sur de la Península Ibérica. Spal. Revista de Prehistoria y Arqueología 26:1731.CrossRefGoogle Scholar
Millard, A. 2014. Conventions for Reporting Radiocarbon Determinations. Radiocarbon 56(2):555559.Google Scholar
Nocete Calvo, F. (ed.) 2004. Odiel. Proyecto de Investigación Arqueológica para el Análisis del Origen de la Desigualdad Social en el Suroeste de la Península Ibérica. Sevilla: Consejería de Cultura de la Junta de Andalucía.Google Scholar
Nocete Calvo, F, Sáez, R, Bayona, MR, Peramo, A, Inacio, N, Abril, D. 2011. Direct chronometry (14C AMS) of the earliest copper metallurgy in the Guadalquivir Basin (Spain) during the Third millennium BC: first regional database. Journal of Archaeological Science 38(12):32783295.Google Scholar
Ramos Muñoz, J, Giles Pacheco, F. 1996. El Dolmen de Alberite (Villamartín). Aportaciones a las Formas Económicas y Sociales de las Comunidades Neolíticas en el Noroeste de Cádiz. Cádiz: Universidad de Cádiz.Google Scholar
Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, et al. 2013. IntCal13 and Marine 13 radiocarbon age calibration curves 0-50,000 years cal BP. Radiocarbon 55(4):18691887.Google Scholar
Scarre, C. 2010. Rocks of ages: tempo and time in megalithic monuments. European Journal of Archaeology 13(2):175193.Google Scholar
Schoeninger, M J, DeNiro, M J. 1984. Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochimica et Cosmochimica Acta 48:625639.Google Scholar
Siret, L. 1891 [2001]. L’Espagne préhistorique. Almería: Consejería de Cultura de la Junta de Andalucía y Arráez Editores.Google Scholar
Siret, L. 1908. Religions néolithiques de l’ibérique. Revue Préhistorique 3(7/8):193269.Google Scholar
Stuiver, MA, Polach, HA. 1977. Reporting of 14C data. Radiocarbon 19(3):355363.Google Scholar
Stuiver, M, Braziunas, TF. 1993. Modeling atmospheric 14C influences and 14C ages of marine samples to 10,000 BC. Radiocarbon 35(1):137189.Google Scholar
Stuiver, M, Reimer, PJ. 1993. Extended 14C data base and revised CALIB 3.0 14C age calibration program. Radiocarbon 35(1):215230.Google Scholar
Synal, HA, Stocker, M, Suter, M. 2007. MICADAS: A new compact radiocarbon AMS system. Nuclear Instruments and Methods in Physics Research Section B 259:713.Google Scholar
Van Klinken, GJ. 1999. Bone collagen quality indicators for paleodietary and radiocarbon measurements. Journal of Archaeological Science 26(6):687695.Google Scholar
Ward, GK, Wilson, SR. 1978. Procedures for comparing and combining radiocarbon age determinations: a critique. Archaeometry 20:1931.Google Scholar
Waterbolk, HT. 1971. Working with radiocarbon dates. Proceedings of the Prehistoric Society 37:1533.Google Scholar
Waterman, AJ, Beck, JL, Thomas, JT, Tykot, RH. Forthcoming 2017. Stable isotope analysis of human remains from Los Millares (Almería, Spain, c. 2500-1800 BC): Regional Comparisons and Dietary Variability. Menga. Journal of Andalusian Prehistory 8.Google Scholar
Whittle, A, Bayliss, A, Healy, F. 2008. The timing and tempo of change: examples from the fourth millennium cal BC in Southern England. Cambridge Archaeological Journal 18(1):6570.Google Scholar
Whittle, A, Healy, F, Bayliss, A. 2011. Gathering Time: Dating the early Neolithic Enclosures of Southern Britain and Ireland. Oxford: Oxbow books.Google Scholar