Abstract
The Bronze and Iron Ages were times of social change throughout Europe, with the development of hillforts and monumental architecture, technological advances and increases in economic specialization and social hierarchy. The extent to which these developments were concurrent with changes in subsistence practices, particularly in the Balkans, is less clear. Croatia provides an opportunity to compare two regions, the inland and coastal zones, with potentially different responses to the social changes through these periods. Here, we present the results of carbon and nitrogen stable isotope analysis of humans from Bronze and Iron Age coastal Croatia and compare these results to the more limited dataset from inland Croatia. The data indicate that in the coastal zone, there was little change in diet between the Bronze and Iron Ages, with perhaps a slight increase in millet consumption or a shift in the environmental carbon isotopic baseline through time. The limited inland dataset, however, suggests that there was a notable increase in millet consumption through these time periods, indicating that in the Iron Age, the inland and coastal zones followed different subsistence strategies. The Iron Age coastal site of Nadin-Gradina provides an opportunity to explore the social value of millet, as individuals buried in simple pits have higher levels of millet consumption than those buried in stone-lined graves, implying that, at this site at least, millet was a low status food.
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References
Ambrose SH (1990) Preparation and characterization of bone and tooth collagen for isotopic analysis. J Archaeol Sci 17:431–451
Amundson R, Austin AT, Schuur EAG, Yoo K, Matzek V, Kendall C, Uebersax A, Brenner D, Baisden WT (2003) Global patterns of the isotopic composition of soil and plant nitrogen. Glob Biogeochem Cycles 17(1):1031
Bartosiewicz L, Gal E (2010) Living on the frontier: ‘Scythian’ and ‘Celtic’ animal exploitation in iron age northeastern hungary. In: Campana D (ed) Anthropological approaches to zooarchaeology: complexity, colonialism, and animal transformation. Oxbow, Oxford, pp 116–127
Becker C (2001) Monkodonja in Istrien. Konsumverhalten in einem bronzezeitlichen Kastelliere. Mitteilunder Berl Ges Anthropol Ehnologie Urgeschichte Bd 22:S25–S41
Chapman J, Shiel R, Batović Š (1996) The changing face of Dalmatia: archaeological and ecological studies in a Mediterranean landscape. Leicester University Press, London
Choyke AM, Bartosiewicz L (2000) Bronze Age animal exploitation in the Central Great Hungarian Plain. Acta Archaeol Acad Sci Hung 51:43–70
Čović B (2010) Bronze Age northern Bosnia in the light of new research. Glas Zemaljskog Muzeja Bosne i Hercegovine u Sarajevu: Arheologija 52:277–286
De Niro MJ (1985) Postmortem preservation and alteration of in vivo bone collagen isotope ratios in relation to palaeodietary reconstruction. Nature 317:806–809
Dyer C (1983) English diet in the later Middle Ages. In: Aston TH, Cross PR, Dyer C, Thirsk J (eds) Social relations and ideas: essays in Honour of R.H. Hilton. Cambridge University Press, Cambridge
Farquhar GD, O’Leary MH, Berry JA (1982) On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Aust J Plant Physiol 9:121–137
Fraser R, Bogaard A, Heaton T, Charles M, Jones G, Christensen BT, Halstead P, Merbach I, Poulton PR, Sparkes D, Styring A (2011) Manuring and stable nitrogen isotope ratios in cereals and pulses: towards a new archaeobotanical approach to the inference of land use and dietary practices. J Archaeol Sci 38:2790–2804
Fuller BT, Molleson TI, Harris DA, Gilmour LT, Hedges REM (2006) Isotopic evidence for breastfeeding and possible adult dietary differences from late/sub-Roman Britain. Am J Phys Anthropol 129:45–54
Grant A (2002) Food, status and social hierarchy. In: Miracle PT, Milner N (eds) Consuming passions and patterns of consumption. McDonald Institute for Archaeological Research, Cambridge
Greenfield HJ (2005) A reconsideration of the secondary products revolution in south-eastern Europe: on the origins and use of domestic animals for milk, wool, and traction in the central Balkans. In: Mulville J, Outram AK (eds) The zooarchaeology of fats, oils, milk and dairying. Oxbow, Oxford, pp 14–31
Greenfield HJ, Arnold E (2005) The zooarchaeological remains from early Iron Age hill-top fortress at Klisura-Kadića Brdo, eastern Bosnia: a taphonomic assessment. Godišnjak Centar za Balkanološka Ispitivanja 32:107–150
Hastorf CA (2003) Andean luxury foods: special food for the ancestors, deities and the elite. Antiquity 77:545–554
Heaton THE (1987) The 15N/14N ratios of plants in South Africa and Namibia: relationship to climate and coastal/saline environments. Oecologia 74(2):236–246
Hedges REM, Clement JG, Thomas DL, O’Connell TC (2007) Collagen turnover in the adult femoral mid-shaft: modeled from anthropogenic radiocarbon tracer measurements. Am J Phys Anthropol 133:808–816
Hoefs J (2004) Stable isotope geochemistry. Springer Verlag, Heidelberg
Hunt HV, Vander Linden M, Liu X, Motuzaite-Matuzevicuite G, Jones MK (2008) Millets across Eurasia: chronology and context of early records of the genera Panicum and Setaria from archaeological sites in the Old World. Veg Hist Archaeobot 17:S5–S18
Jovanović M (2004) Žitarice u praistoriji u Podunavlju i na Balksanskom poluostrvu. Arheologija 46:101–127
Kristiansen K (1998) Europe before history. Cambridge University Press, Cambridge
Lee-Thorp JA (2008) On isotopes and old bones. Archaeometry 50:925–950
Lightfoot E, Šlaus M, O’Connell TC (2012) Changing cultures, changing cuisines: cultural transitions and dietary change in Iron Age, Roman and Early Medieval Croatia. Am J Phys Anthropol 148:543–556
Lightfoot E, Liu X, Jones MK (2013) Why move starchy cereals? A review of the isotopic evidence for prehistoric millet consumption across Eurasia. World Archaeol 45(4):574–623
Liu X, Hunt HV, Jones MK (2009) River valleys and foothills: changing archaeological perceptions of North China’s earliest farms. Antiquity 83(319):82–95
Lu H, Zhang J, Liu K, Wu N, Li Y, Zhou K, Ye M, Zhang T, Zhang H, Yang X, Shen L, Xu D, Li Q (2009) Earliest domestication of common millet (Panicum miliaceum) in East Asia extended to 10,000 years ago. Proc Natl Acad Sci U S A 106:7367–7372
Majnarić-Pandžić N (2006) The bronze and iron ages covered in the journal Opuscula archaeologica. Opuscula Archaeol 30:123–142
Mekota AM, Grupe G, Ufer S, Cuntz U (2006) Serial analysis of stable nitrogen and carbon isotopes in hair: monitoring starvation and recovery phases of patients suffering from anorexia nervosa. Rapid Commun Mass Spectrom 20:1604–1610
Motuzaite Matuzeviciute G, Staff RA, Hunt HV, Liu X, Jones MK (2013) Small-sample graphite radiocarbon dating forces re-evaluation of the early chronology of broomcorn millet (Panicum miliaceum) in Europe. Antiquity 87(338):1073–1085
Murray M, Schoeninger M (1988) Diet, status and complex social structure in Iron Age central Europe: some contributions of bone chemistry. In: Gibson DB, Geselowitz MN (eds) Tribe and polity in late prehistoric Europe: demography, production and exchange in the evolution of complex social systems. Plenum, New York, pp 155–176
O’Connell TC, Hedges REM (1999) Investigations into the effect of diet on modern human hair isotopic values. Am J Phys Anthropol 108:409–442
Pearson JA, Buitenhuis H, Hedges REM, Martin L, Russel N, Twiss KC (2007) New light on early caprine herding strategies from isotope analysis: a case study Neolithic Anatolia. J Archaeol Sci 34:2170–2179
Privat KL (2004) Palaeoeconomy of the Eurasian steppe: biomolecular studies. Dissertation, University of Oxford
Privat KL, O’Connell TC, Richards MP (2002) Stable isotope analysis of human and faunal remains from the Anglo-Saxon cemetery at Berinsfield, Oxfordshire: dietary and social implications. J Archaeol Sci 29:779–790
Rachie KO (1975) The millets: importance, utilisation and outlook. International Crops Research Institute for the Semi-arid Tropics, Hyderabad
Radović S, Forenbaher S, Brajković D, Lenardić JM, Malez V, Miracle PT (2008) Use of caves in the mountains: a view from the sheepfold. In: Kalicki T, Szmoniewski BS (eds) Man and mountains: palaeogeographical and archaeological perspectives, vol 17. Studies of the Institute of Geography, Kielce, pp 33–50
Rao MV (1989) Inaugural address. In: Seetharam A, Riley KW, Harinarayana G (eds) Small millets in global agriculture. Oxford & IBN Publishing, New Delhi
Reed K (2012) Farmers in transition: the archaeobotanical analysis of the Carpathian Basin from the Late Neolithic to the Late Bronze Age (5000–900 BC). Dissertation, University of Leicester
Sanford J (2012) Shipping sheep: a zooarchaeology of Greek colonisation. Dissertation, University of Cambridge
Schoeninger MJ, De Niro MJ (1984) Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochim Cosmochim Acta 48:624–639
Šoštarić R, Alegro A, Hršak V, Stančić Z, Küster H (2009) Plant remains from an early iron age well at Hajndl, Slovenia. Coll Anthropol 33:1295–1301
Stevens RE, Hedges REM (2004) Carbon and nitrogen stable isotope analysis of northwest European horse bone and tooth collagen, 40,000 BP-present: palaeoclimatic interpretations. Quat Sci Rev 23:977–991
Tafuri MA, Craig OE, Canci A (2009) Stable isotope evidence for the consumption of millet and other plants in Bronze Age Italy. Am J Phys Anthropol 139(2):146–153
Treherne P (1995) The warrior’s beauty: the masculine body and self-identity in Bronze-Age Europe. Eur J Archaeol 3(1):105–144
Triantaphyllou S (2001) A bioarchaeological approach to prehistoric cemetery populations from central and western Greek Macedonia. Archaeopress, Oxford
Triantaphyllou S (2014) A stable isotope analysis of skeletal assemblages from Greek Macedonia. In: Papathanasiou A, Richards MP, Fox S (eds) Were they what they ate? Dietary reconstruction in Greece from stable isotope analyses. Occasional Wiener Laboratory Series, Athens, pp 113–153
Ugan A, Coltrain J (2011) Variation in collagen stable nitrogen values in black-tailed jackrabbits (Lepus californicus) in relation to small-scale differences in climate, soil, and topography. J Archaeol Sci 38(7):1417–1429
Wilkes J (1992) The Illyrians. Blackwell, Oxford
Yang X, Wan Z, Perry L, Lu H, Wang Q, Zhao C, Li J, Xie F, Yu J, Cui T, Wang T, Li M, Ge Q (2012) Early millet use in Northern China. Proc Natl Acad Sci U S A 109:3726–3730
Acknowledgments
The authors are grateful to Catherine Kneale and James Rolfe (University of Cambridge) for their assistance with the isotopic analyses. Dr Jane S. Gaastra and Dr Kelly Reed are thanked for their useful discussions of the manuscript and provision of comparative zooarchaeological and archaeobotanical documents. Dora Kemp is also thanked for her help with the production of Fig. 1. The authors also wish to thank the two anonymous reviewers for their useful comments. This work arises out of EL’s PhD research (University of Cambridge) funded by the AHRC. EL is currently funded by Darwin College, Cambridge.
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Lightfoot, E., Šlaus, M., Šikanjić, P.R. et al. Metals and millets: Bronze and Iron Age diet in inland and coastal Croatia seen through stable isotope analysis. Archaeol Anthropol Sci 7, 375–386 (2015). https://doi.org/10.1007/s12520-014-0194-3
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DOI: https://doi.org/10.1007/s12520-014-0194-3