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Did the first farmers of central and eastern Europe produce dairy foods?

Published online by Cambridge University Press:  10 March 2015

Oliver E. Craig
Affiliation:
Ancient Biomolecules Group, Drummond Building, University of Newcastle upon Tyne, NE4 5PD, UK. Current address for correspondence: Centro di antropologia molecolare per lo studio del DNA antico, Dipartimento di Biologia, Università di Roma “Tor Vergata” 00133 Roma, Italy (Email: oliver.craig@uniroma2.it)
John Chapman
Affiliation:
Department of Archaeology, University of Durham, South Road, Durham DH1 3LE, UK
Carl Heron
Affiliation:
Department of Archaeological Sciences, University of Bradford, Bradford BD7 1DP, UK
Laura H. Willis
Affiliation:
Department of Archaeological Sciences, University of Bradford, Bradford BD7 1DP, UK
László Bartosiewicz
Affiliation:
Institute of Archaeological Sciences, Eötvös Loránd University, Budapest, Hungary
Gillian Taylor
Affiliation:
Ancient Biomolecules Group, Drummond Building, University of Newcastle upon Tyne, NE4 5PD, UK
Alasdair Whittle
Affiliation:
School of History and Archaeology, Cardiff University, Humanities Building, Colum Drive, Cardiff, CF10 3EU, UK
Matthew Collins
Affiliation:
BioArch, Departments of Biology & Archaeology, University of York, BOX 373, York, YO10 5YW, UK

Abstract

Although the origins of domestic animals have been well-documented, it is unclear when livestock were first exploited for secondary products, such as milk. The analysis of remnant fats preserved in ceramic vessels from two agricultural sites in central and eastern Europe dating to the Early Neolithic (5900-5500 cal BC) are best explained by the presence of milk residues. On this basis, the authors suggest that dairying featured in early European farming economies. The evidence is evaluated in the light of analysis of faunal remains from this region to determine the scale of dairying. It is suggested that dairying—perhaps of sheep or goats—was initially practised on a small scale and was part of a broad mixed economy.

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Copyright
Copyright © Antiquity Publications Ltd. 2005

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References

Bartosiewicz, L. 1999. The role of sheep versus goat in meat consumption at archaeological sites, in Bartosiewicz, L. & Greenfield, H. (ed.) Transhumant pastoralism in Southern Europe: 4760. Budapest: Archaeolingua Kiadó.Google Scholar
Bartosiewicz, L. forthcoming. The mammalian bone, in Whittle, A. (ed.) The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Bartosiewicz, L., Boroneant, V., Bonsall, C. & Stallibrass, S.. 2001. New data on the prehistoric fauna of the Iron Gates: a case study from Schela Cladovei, Romania, in Kertész, R. & Makkay, J. (ed.) From the Mesolithic to the Neolithic: 1522. Budapest: Archaeolingua.Google Scholar
Beja-Pereira, A., Luikart, G., England, P.R., Bradley, D.G., Jann, O.C., Bertorelle, G., Chamberlain, A.T., Nunes, T.P., Metodiev, S., Ferrand, N. & Erhardt, G.. 2003. Gene-culture coevolution between cattle milk protein genes and human lactase genes. Nature Genetics 35: 311–3.Google Scholar
Bogaard, A., Jones, G. & Bending, J.. forthcoming. The plant remains, in Whittle, A. (ed.) The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Bogucki, P. 1984a. The antiquity of dairying in temperate Europe. Expedition 28: 518.Google Scholar
Bogucki, P. 1984b. Linear pottery ceramic sieves and their economic implications. Oxford Journal of Archaeology 3: 1530.Google Scholar
Bogucki, P. 1996. The spread of early farming in Europe. American Scientist 84: 242–53.Google Scholar
Bökönyi, S. 1974. History of domestic animals in Central and Eastern Europe. Budapest: Akadémiai Kiadó.Google Scholar
Bökönyi, S. 1981. Early Neolithic vertebrate fauna from Lánycsók-Égettmalom. Acta Archaeologica Academiae Scientiarum Hungaricae 33: 2134.Google Scholar
Bökönyi, S. 1988. The neolithic fauna of Divostin, in Mcpherron, A. & Srejović, D. (ed.) Divostin and the Neolithic of Central Serbia: 419–45. Ethnolology monograph 10. Pittsburgh: Department of Anthropology, University of Pittsburgh.Google Scholar
Bökönyi, S. 1992a. The Early Neolithic vertebrate fauna of Endrõd 119, in Bökönyi, S. (ed.) Cultural and landscape changes in South-East Hungary I. Reports on the Gyomaendröd project: 195300. Budapest: Archaeolingua.Google Scholar
Bökönyi, S. 1992b. Animal remains of Mihajlovac-Knjepište, an early Neolithic settlement of the Iron Gate Gorge. Balcanica 23: 7787.Google Scholar
Bonsall, C., Lennon, R., Mcsweeney, K., Stewart, C., Harkness, D., Boroneant, V., Bartosiewicz, L., Payton, R. & Chapman, J.. 1997. Mesolithic and early Neolithic in the Iron Gates: a palaeodietary perspective. Journal of European Archaeology 5: 5092.Google Scholar
Bonsall, C., Macklin, M.G., Payton, R.W. & Boronean¸t, A.. 2000. Climate, floods and river gods: environmental change and the Meso-Neolithic transition in southeast Europe. Before Farming: the archaeology of hunter-gatherers 3–4(2): 115.Google Scholar
Boronean¸t, V., Bonsall, C., Mcsweeney, K., Payton, R. & Macklin, M.. 1999. A Mesolithic burial area at Schela Cladovei, Romania, in Thévenin, A. (ed.) L’Europe des derniers chasseurs, Epipaléolithique et Mésolithique: 385–90. Paris: Éditions du CNRS.Google Scholar
Bronk Ramsey, C., Higham, T. & Whittle, A.. forthcoming. Radiocarbon dating and Bayesian modelling, in Whittle, A. (ed.) The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Chapman, J.C. 1982. The ‘Secondary Products Revolution’ and the limitations of the Neolithic. Bulletin of the Institute of Archaeology (London) 19: 107–22.Google Scholar
Charters, S., Evershed, R.P., Goad, L.J., Leyden, A., Blinkhorn, P.W. & Denham, V.. 1993. Quantification and distribution of lipid in archaeological ceramics: implications for sampling potsherds for organic residue analysis and the classification of vessel use. Archaeometry 35: 211–23.Google Scholar
Copley, M.S., Berstan, R., Dudd, S.N., Docherty, G., Murkherjee, A.J., Straker, V., Payne, S. & Evershed, R.P.. 2003. Direct chemical evidence for widespread dairying in prehistoric Britain. Proceedings of the National Academy of Sciences of the USA 100: 152429.Google Scholar
Craig, O.E. 2002. The development of dairying in Europe: potential evidence from food residues on ceramics. Documenta Praehistorica 29: 97107.Google Scholar
Craig, O.E. & Collins, M.J.. 2000. An improved method for the immunological detection of mineral bound protein using hydrofluoric acid and direct capture. Journal of Immunological Methods 236: 8997.CrossRefGoogle ScholarPubMed
Dinu, M. 1981. Clay models of wheels discovered in Copper Age cultures of Old Europe mid-fifth millennium B.C. Journal of Indo-European Studies 9: 114.Google Scholar
Dudd, S.N. & Evershed, R.P.. 1998. Direct demonstration of milk as an element of archaeological economies. Science 282: 147881.CrossRefGoogle ScholarPubMed
Dudd, S.N., Evershed, R.P. & Gibson, A.M.. 1999. Evidence for varying patterns of exploitation of animal products in different prehistoric pottery traditions based on lipids preserved in surface and absorbed residues. Journal of Archaeological Science 26: 147382.Google Scholar
Enser, M. 1991. Animal carcass fats and fish oils, in Rosell, J.B. & Protchard, J.L.R. (ed.) Analysis of oilseed, fats and fatty foods: 329–94. London: Elsevier.Google Scholar
Evershed, R.P., Dudd, S.N., Copley, M.S. & Mutherjee, A.. 2002. Identification of animal fats via compound specific δ 13C values of individual fatty acids: assessments of results for reference fats and lipid extracts of archaeological pottery vessels. Documenta Praehistorica 21: 7396.Google Scholar
Evershed, R.P., Stott, A.W., Raven, A., Dudd, S.N., Charters, S. & Leyden, A.. 1995. Formation of long-chain Ketones in ancient-pottery vessels by pyrolysis of acyl lipids. Tetrahedron Letters 36: 88758.CrossRefGoogle Scholar
Fechner, K., Baes, R. & Devos, Y.. 2001. Using ad hoc checklists for identifying archaeological structures. Paper presented at First International Conference on Soils and Archaeology, Százhalombatta, Hungary 30/V–3/VI/2001.Google Scholar
Friedli, H., Lotscher, H., Oeschger, H., Siegenthaler, U. & Stauffer, B.. 1986. Ice core record of the 13C/12C ratio of atmospheric CO2 in the past two centuries. Nature 324: 237–8.Google Scholar
Gál, E. forthcoming. Aspects of Neolithic Bird Hunting in Hungary, in Bailey, D.W. & Whittle, A. (ed.) Sedentism, settlement and the Neolithic of Central and Southeastern Europe. Oxford: Oxbow.Google Scholar
Greenfield, H.J. 1988. The origins of milk production in the Old World – a zooarchaeological perspective from the Central Balkans. Current Anthropology 29: 573–93.CrossRefGoogle Scholar
Ss, J. 1933. Ü ber Milchreste aus der Hallstattzeit und andere Funde. Forschungen und Fortschritte 9: 105–6.Google Scholar
Halstead, P. 1998. Mortality models and milking: problems of uniformitarianism, optimality and equifinality reconsidered. Anthropozoologica 27: 320.Google Scholar
Hodder, I. 1990. The domestication of Europe. Oxford: Blackwell.Google Scholar
Holmes, W. 1970. Animals for food. Proceedings of the Nutritional Society 29: 273–81.CrossRefGoogle ScholarPubMed
Legge, A.J. 1981. The agricultural economy, in Mercer, R. (ed.) Grimes Graves, Norfolk excavations 1971–72: 79118. London: Archaeological Reports.Google Scholar
Loftus, R.T., Ertugrul, O., Harba, A.H., El-Barody, M.A., Machugh, D.E., Park, S.D. & Bradley, D.G.. 1999. A microsatellite survey of cattle from a centre of origin: the Near East. Molecular Ecology. 8: 201522.CrossRefGoogle ScholarPubMed
Mainland, I. forthcoming. A microwear analysis of selected sheep and goat mandibles, in Whittle, A. (ed.) The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Midgley, M. 1992. TRB culture. The first farmers of the north European plain. Edinburgh: Edinburgh University Press.Google Scholar
Moore, J.H. & Christie, W.W.. 1981. Digestion, absorption and transport of fats in ruminant animals, in Christie, W.W. (ed.) Progress in lipid research: 227–77. Oxford: Pergamon.Google Scholar
Oross, K. forthcoming. The pottery, in Whittle, A. (ed.) The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Payne, S. 1973. Kill-off patterns in sheep and goats. Anatolian Studies 23: 281303.Google Scholar
Pike-Tay, A., Bartosiewicz, L., Gál, E. & Whittle, A.. 2004. Body-part representation and seasonality: sheep/goat, bird and fish remains from early Neolithic Ecsegfalva 23, SE Hungary. Journal of Taphonomy 2/4: 221–46.Google Scholar
Raven, A.M., Van Bergen, P.F., Stott, A.W., Dudd, S.N. & Evershed, R.P.. 1997. Formation of long-chain ketones in archaeological pottery vessels by pyrolysis of acyl lipids. Journal of Analytical and Applied Pyrolysis 40: 267–85.Google Scholar
Richards, M.P. 2000. Human consumption of plant foods in the British Neolithic; direct evidence from bone stable isotopes, in Fairbairn, A. (ed.) Plants in Neolithic Britain and beyond: 123–35. Oxford: Oxbow.Google Scholar
Sherratt, A. 1981. Plough and pastoralism: aspects of the secondary products revolution, in Hodder, I., Isaac, G. & Hammond, N. (ed.) Pattern of the past: studies in honour of David Clarke: 261305. Cambridge: Cambridge University Press.Google Scholar
Sherratt, A. 1983. The secondary exploitation of animals in the Old World. World Archaeology 15: 90104.Google Scholar
Sherratt, A. 1997. Economy and society in prehistoric Europe: changing perspectives. Edinburgh: Edinburgh University Press.Google Scholar
Troy, C.S., Machugh, D.E., Bailey, J.F., Magee, D.A., Loftus, R.T., Cunningham, P., Chamberlain, A.T., Sykes, B. & Bradley, D.G.. 2001. Genetic evidence for Near-Eastern origins of European cattle. Nature 410: 108891.Google Scholar
Uerpmann, H.-P. 1996. Animal domestication – accident or intention?, in Harris, D.R. (ed.) The origins and spread of agriculture and pastoralism in Eurasia: 227–37. Washington: Smithsonian.Google Scholar
Whittle, A. 1985. Neolithic Europe. A new synthesis. Cambridge: Cambridge University Press.Google Scholar
Whittle, A. 1996. Europe in the Neolithic: the creation of new worlds. Cambridge: Cambridge University Press.Google Scholar
Whittle, A. 2000. New research on the Hungarian Early Neolithic. Antiquity 74: 1314.Google Scholar
Whittle, A. (ed.) forthcoming. The Early Neolithic on the Great Hungarian Plain: investigations of the Körös culture site of Ecsegfalva 23, Co. Békés.Google Scholar
Whittle, A., Bartosiewicz, L., Borić, D., Pettitt, P. & Richards, M.. 2002. In the beginning: new radiocarbon dates for the Early Neolithic in northern Serbia and south-east Hungary. Antaeus 25: 63117.Google Scholar