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The evolution of Neolithic farming from SW Asian origins to NW European limits

Published online by Cambridge University Press:  25 January 2017

Sue Colledge
Affiliation:
University College London, UK
James Conolly
Affiliation:
Trent University, Canada
Stephen Shennan
Affiliation:
University College London, UK

Abstract

The spread of agriculture is here examined from the perspective of changes in the composition of archaeobotantical assemblages. We apply multivariate analysis to a large database of plant assemblages from early Neolithic sites across South-West Asia and Europe and show that there are coherent and meaningful changes in their composition over time, to a large extent driven by a reduction in crop-taxa diversity. We interpret these changes as being partly caused by environmental factors, and partly caused by cultural reasons linked to the relatively rapid expansion of Linearbandkeramik (LBK) groups that inhibited diversification of crops until later in the Neolithic.

La diffusion de l'agriculture est examinée ici en se basant sur les changements survenant dans la composition des ensembles archéobotaniques. Une analyse multivariate est menée sur une large base de données consistant d'assemblages de plantes de sites du Néolithique ancien à travers l'Asie du sud ouest et l'Europe. Celle-ci témoigne de modifications cohérentes et significatives dans la composition de ces assortiments au cours du temps, générées en grande partie par une réduction de la diversité des cultures. Nous interprétons ces changements comme étant provoqués en partie par des facteurs environnementaux, et en partie par des facteurs culturels liés à la relative rapidité d'expansion des groupes à Céramique Linéaire, qui empêchaient la diversification des cultures jusqu'à la fin du Néolithique.

Zusammenfassung

Zusammenfassung

Die Ausbreitung der Landwirtschaft wird hier aus der Perspektive von Änderungen in der Zusammensetzung archäobotanischer Proben untersucht. Wir haben dabei die multivariate Analyse einer größeren Datenbasis von Pflanzenfunden von neolithischen Fundplätzen zwischen Südwestasien und Europa angewendet und zeigen, dass es im Laufe der Zeit zusammenhängende und bedeutsame Änderungen in ihrer Zusammensetzung gibt, was in großem Maße auf einer Reduktion der Artenvielfalt der Getreidesorten beruht. Diese Veränderungen werden von uns als teils durch Umweltfaktoren, teils durch kulturelle Gründe in Zusammenhang mit der plötzlichen Ausbreitung der linearbandkeramischen Gruppen interpretiert, was die Zunahme der Getreidearten auch bis in spätere Phasen des Neolithikums gehindert hat.

Type
Articles
Copyright
Copyright © 2005 Sage Publications 

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References

Bakels, C., 1990. The crops of the Rössen culture: Significantly different from their bandkeramik predecessors - French influence? In Cahen, D. and Otte, M. (eds), Rubané et Cardial. Actes du colloque de Liège, Novembre 1988: 8387. Liège: Etudes et recherches archéologiques de l'Université de Liège, no.39.Google Scholar
Bakels, C., 2000. The Neolithization of the Netherlands: Two ways, one result. In Fairbairn, A.S. (ed.), Plants in Neolithic Britain and Beyond: 101106. Oxford: Oxbow Books (Neolithic Studies Group Seminar Papers 5).Google Scholar
Bakels, C., in press. Nature or culture? Cereal crops raised by Neolithic Dutch farmers on Dutch loess soils. In Colledge, S. and Conolly, J. (eds), The Origins, Spread and Use of Domestic Plants in Neolithic Southwest Asia and Europe. London: UCL Press.Google Scholar
Bentley, A., Price, T.D., Luning, J., Gronenborn, D., Wahl, J. and Fullagar, P.D., 2002. Human migration in early Neolithic Europe. Current Anthropology 43:799804.CrossRefGoogle Scholar
Biagi, P., Shennan, S.J. and Spataro, M., 2005. Rapid rivers and slow seas? New data for the radiocarbon chronology of the Balkan peninsula. In Nikolova, L. and Higgins, J. (eds), Prehistoric Archaeology and Anthropological Theory and Education: 4351. Salt Lake City, UT: International Institute of Anthropology (Reports of Prehistoric Research Projects 6–7).Google Scholar
Blumler, M.A., 2002. Changing paradigms, wild cereal ecology, and agricultural origins. In Cappers, R.T.J and Bottema, S. (eds), The Dawn of Farming in the Near East: 95111. Berlin: Ex Oriente (Studies in Early Near Eastern Production, Subsistence, and Environment 6).Google Scholar
Bogaard, A., 2002. Questioning the relevance of shifting cultivation to Neolithic farming in the loess belt of western-central Europe: evidence from the Hambach Forest experiment. Vegetation History and Archaeobotany 11:155168.CrossRefGoogle Scholar
Bogaard, A., 2004. Neolithic Farming in Central Europe. London: Routledge.CrossRefGoogle Scholar
Bogaard, A., 2005. ‘Garden agriculture’ and the nature of early farming in Europe and the Near East. World Archaeology 37(2):177196.Google Scholar
Bogucki, P., 1996. The spread of early farming in Europe. American Scientist 84:242253.Google Scholar
Bogucki, P., 2000. How agriculture came to north-central Europe. In Price, T.D. (ed.), Europe's First Farmers: 197218. Cambridge: Cambridge University Press.Google Scholar
Colledge, S., 1998. Identifying pre-domestication cultivation using multivariate analysis. In Damania, A.B., Valkoun, J., Wilcox, G. and Qualset, C.O. (eds), The Origins of Agriculture and Crop Domestication: 121131. Aleppo: International Center for Agricultural Research in Dry Areas.Google Scholar
Colledge, S., 2001. Plant Exploitation on Epipalaeolithic and Early Neolithic Sites in the Levant. Oxford: British Archaeological Reports, International Series 986.CrossRefGoogle Scholar
Colledge, S., Conolly, J. and Shennan, S., 2004. Archaeobotanical evidence for the spread of farming in the Eastern Mediterranean. Current Anthropology 45(Supplement):3558.Google Scholar
Dolukhanov, R, Shukurov, A., Gronenborn, D., Sokoloff, D., Timofeev, V. and Zaitseva, G., 2005. The chronology of Neolithic dispersal in central and eastern Europe. Journal of Archaeological Science 32:14411458.Google Scholar
Fuller, D.Q., Stevens, C. and McClatchie, M., in press. Routine activities, tertiary refuse and labour organisation: social inference from everyday archaeobotany. In Madella, M. and Savard, M. (eds), Ancient Plants and People. Contemporary Trends in Archaeobotany. Tucson: University of Arizona Press.Google Scholar
Gkiasta, M., Russell, T., Shennan, S. and Steele, J., 2003. The Neolithic transition in Europe: The radiocarbon record revisited. Antiquity 77:44 62.CrossRefGoogle Scholar
Greenacre, M., 1984. Theory and Applications of Correspondence Analysis. London: Academic Press.Google Scholar
Guilaine, J., 2003. Aspects de la Néolithisation en Méditerranée et en France. In Ammerman, A.J. and Biagi, P. (eds), The Widening Harvest. The Neolithic Transition in Europe: Looking Back, Looking Forward: 189206. Boston, MA: Archaeological Institute of America (Colloquia and Conference Papers 6).Google Scholar
Halstead, P., 1989. Like rising damp? An ecological approach to the spread of farming in south east and central Europe. In Milles, A., Williams, D. and Gardner, N. (eds), The Beginnings of Agriculture: 2353. Oxford: British Archaeological Reports, International Series 496.Google Scholar
Halstead, R, 1996. The development of agriculture, and pastoralism in Greece: when, how, who and what? In Harris, D. (ed.), The Origins of Agriculture and Pastoralism in Eurasia: 296309. London: UCL Press.Google Scholar
Harris, D., ed., 1996a. The Origins and Spread of Agriculture and Pastoralism in Eurasia. London: UCL Press.Google Scholar
Harris, D., 1996b. The origins and spread of agriculture and pastoralism in Eurasia: an overview. In Harris, D. (ed.), The Origins and Spread of Agriculture and Pastoralism in Eurasia: 552573. London: UCL Press.Google Scholar
Hillman, G., 1981. Reconstructing crop husbandry practices from charred remains of crops. In Mercer, R. (ed.), Farming Practice in British Prehistory: 123162. Edinburgh: Edinburgh University Press.Google Scholar
Hillman, G., 1984. Traditional husbandry and processing of archaic cereals in modern times. Part I: the glume-wheats. Bulletin of Sumerian Agriculture 1:114152.Google Scholar
Knörzer, K., 1971. Urgeschichtliche Unkräuter im Rheinland ein beitrag zur Entstehungsgeschichte der Segetalgesellschaften. Vegetatio 23:89110.Google Scholar
Kreuz, A., 1990. Die ersten Bauern Mitteleuropas - eine archäobotanische Untersuchung zu Umwelt und Landwirtschaft der ältesten Bandkeramik. Analecta Praehistorica Leidensia 23:1256.Google Scholar
Kreuz, A., in press. Archaeobotanical perspectives on the beginning of agriculture north of the Alps. In Colledge, S. and Conolly, J. (eds), The Origins, Spread and Use of Domestic Plants in Neolithic Southwest Asia and Europe. London: UCL Press.Google Scholar
Kreuz, A., Marinova, E., Schäfer, E. and Wiethold, J. 2005. A comparison of early Neolithic crop and weed assemblages from the Linearbandkeramik and the Bulgarian Neolithic cultures: differences and similarities. Vegetation History and Archaeobotany 14:237258.Google Scholar
Lange, A.G., 1990. De Horden near Wijk bij Duurstede: plant remains from a native settlement at the Roman Frontier: a numerical approach. Amersfoort: ROB (Nederlandse oudheden: Kromme Rijn Projekt, 3).Google Scholar
Maier, U., 1996. Morphological studies of free-threshing wheat ears from a Neolithic site in southwest Germany, and the history of naked wheats. Vegetation History and Archaeobotany 5:3955.Google Scholar
Meurers-Balke, J. and Lüning, J., 1999. Some aspects and experiments concerning the processing of glume wheats. In Anderson, P.C. (ed.), Prehistory of Agriculture. New Experimental and Ethnographic Approaches: 238253. Los Angeles: Institute of Archaeology University of California (Monograph 40).Google Scholar
Murray, M.A., 2000. Cereal production and processing. In Nicholson, P. and Shaw, I. (eds), Ancient Egyptian Materials and Technology: 505536. Cambridge: Cambridge University Press.Google Scholar
Nesbitt, M. and Samuel, D., 1996. From staple crop to extinction? The archaeology and history of the hulled wheats. In Padulosi, S., Hammer, K. and Heller, J. (eds), Hulled Wheats. Promoting the Conservation and Use of Underutilized and Negelected Crops: 41100. Rome: International Plant Genetic Resources Institute (Proceedings of the First International Workshop on Hulled Wheats, 21–22 July 1995, Castelvecchio Pascoli, Tuscany, Italy).Google Scholar
Perales, H.R., Benz, B.F. and Brush, S.B., 2005. Maize diversity and ethnolinguistic diversity in Chiapas, Mexico. Proceedings of the National Academy of Sciences of the USA 102/3:949954.Google Scholar
Percival, J., 1974. The Wheat Plant. London: Duckworth.Google Scholar
Price, T.D., ed., 2000. Europe's First Farmers. Cambridge: Cambridge University Press.Google Scholar
Rösch., M., 1998. The history of crops and crop weeds in south-western Germany from the Neolithic to modern times, as shown by archaeobotanical evidence. Vegetation History and Archaeobotany 7:109125.Google Scholar
Shennan, S. and Steele, J., 2000. Spatial and Chronological Patterns in the Neolithisation of Europe. URL (accessed May 2006) http://ads.ahds.ac.uk/catalogue/specColl/c14_meso/ Google Scholar
Smartt, J., 1990. Grain Legumes: Evolution and Genetic Resources. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Stevens, C.J., 2003. An investigation of agricultural consumption and production models for Prehistoric and Roman Britain. Environmental Archaeology 8:6176.Google Scholar
Stika, H.-P., 2005. Early Neolithic agriculture in Ambrona, Provincia Soria, central Spain. Vegetation History and Archaeobotany 14:189197.Google Scholar
Willerding, U., 1986. Zur Geschichte der Unkräuter Mitteleuropas. Göttinger Schriften Zur Vor- und Frühgeschicht 22:1382.Google Scholar
Willerding, U., 1988. Zur Entwicklung von Ackerunkrautgesellschaften im Zeitraum vom Neolithiktun bis in die Neuzeit. Forschungen und Bericht zur Vor- und Frügeschichte in Baden-Württemberg 31:3141. (Der prähistorische Mensch und seine Umwelt. Festschrifte für Uldegard Körber-Grohne.)Google Scholar
Zohary, D., 1996. The mode of domestication of the founder crops of Southwest Asian agriculture. In Harris, D. (ed.), The Origins and Spread of Agriculture and Pastoralism in Eurasia: 142158. London: UCL Press.Google Scholar
Zohary, D. and Hopf, M., 2000. Domestication of Plants in the Old World (3rd Edition). Oxford: Oxford University Press.Google Scholar
Zohary, M., 1973. Geobotanical Foundations of the Middle East (Vols I and II). Amsterdam: Gustav Fischer Verlag.Google Scholar