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Roman vineyards in Britain: stratigraphic and palynological data from Wollaston in the Nene Valley, England

Published online by Cambridge University Press:  02 January 2015

A. G. Brown
Affiliation:
School of Geography and Archaeology, Amory Building, Rennes Drive, University of Exeter, Exeter EX4 4RJ, England. a.g.brown@exeter.ac.uk
I. Meadows
Affiliation:
Northamptonshire Archaeology, Northamptonshire County Council, 2 Bolton House, Wootton Hall Park, Northampton NN4 8BE, England
S. D. Turner
Affiliation:
School of Geography and Archaeology, Amory Building, Rennes Drive, University of Exeter, Exeter EX4 4RJ, England. a.g.brown@exeter.ac.uk
D. J. Mattingly
Affiliation:
School of Archaeology & Ancient History, University of Leicester, Leicester LE1 7RH, England

Abstract

Stratigraphic and palynological evidence from trenches at Wollaston, Northamptonshire, suggest viticulture was extensively practised at this Roman site. It is argued that the apparent lack of viticultural tools and wine presses in the archaeological record in Britain is not reliable evidence for the absence of viticulture at that time.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd. 2001

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References

Andreev, A.A., Nikolaev, V.I., Boisheiynov, D.Y. & Petrov, V.. 1997. Pollen and isotope investigations of an ice core from Vavilov Ice Cap, October Revolution Island, Severnaya Zomlya archipelago, Russia, Géographie Physique et Quaternaire 51: 37989.Google Scholar
Barber, K.E. 1981. Peat stratigraphy and climate change. Rotterdam: A.A. Balkema.Google Scholar
Boissinot, P. 1997. Archéologie des façons culturales, in Burnouf, J., Bravard, J.-P. & Chouquer, G. (ed.), La dynamique des paysages protohistoriques, antiques, médiévaux et modernes. XVIIe rencontres internationales d’archéologie et d’histoire d’Antihes: 85112. Sophia-Antipolis: CNRS/Editions APDCA.Google Scholar
Boissinot, P. 1998. Les vignobles antiques du Midi de la France. Poster to Geoarchaeology of the Landscapes of Classical Antiquity Conference, Ghent, 2324 October.Google Scholar
Boissinot, P. & Brochier, J.-E.. 1998. Pour une archéologie du champ, in Chouquer, G. (ed.), Les formes des paysages: 3556. Paris: Editions Errance.Google Scholar
Brown, A.G. 1999a. Biodiversity from pollen analysis: modem pollen studies and the recent history of a floodplain woodland in SW Ireland, Journal of Biogeography 26: 1932.Google Scholar
Brown, A.G. 1999b. Characterising prehistoric lowland environments using local pollen assemblages, in Edwards, K. & Sadler, J. (ed.), Holocene environments of prehistoric Britain, Quaternary Proceedings 7: 58594.Google Scholar
Brun, J.-P. 1993. l’oléiculture et la viticulture antiques en Gaule: instruments et installations de production, in Amouretti, M.-C. & Brun, J.-P. (eds), La production du vin et de l’huile en Méditerranée: 30741. Bulletin de Correspondence Hellénique Supplement 26.Google Scholar
Brun, J.-P. & Tchernia, A.. 1999. Le vin romain antique. Grenoble: Glonat.Google Scholar
Gushing, E.J. 1967. Evidence for differential pollen preservation in Late Quaternary sediments in Minnesota, Review of Palaeobotany and Palynology 4: 87101.CrossRefGoogle Scholar
Davidson, D.A., Carter, S., Boag, B., Long, D., Tipping, R. & Tyler, A.. 1999. Analysis of pollen in soils: processes of incorporation and redistribution of pollen in five soil profile types, Soil Biology and Biochemistry 31: 64353.Google Scholar
Perdiere, A. 1988. Les Campagnes en Gaule Romaine 2. Paris: Edition Errance.Google Scholar
Foster, I.D.L., Mighall, T.M., Owens, P.N. & Walling, D.E.. 2000. Evidence for Mediaeval soil erosion in the South Hams region of Devon, UK, The Holocene 10: 26171.Google Scholar
Frère, S. 1974. Britannia: A history of Roman Britain. London: Cardinal.Google Scholar
Gilles, K.-J. 1995. Neuere Forschungen zum rômischen Weinbau an Mosel und Rhein. Trier: Rheinisches Landesmuseum. Schriftenreihe des Rheinischen Landosmuseums Trier 11.Google Scholar
Godwin, H. 1975. The history of the British Flora. Cambridge: Cambridge University Press. 2nd edition.Google Scholar
Greig, J. 1982. The interpretation of pollen spectra from urban archaeological deposits, in Hall, A.R. & Kenward, H.K. (ed.), Environmental archaeology in the urban context: 4765. London: Council for British Archaeology. Research report 43.Google Scholar
Greig, J. 1994. Pollen analyses of latrine fills from archaeological sites in Britain; results and future potential, American Association of Stratigraphic Pnlynologists Contribution Se ries 29: 10114.Google Scholar
Hyams, E. 1949. The grape vine in England. London: Bodley Head.Google Scholar
Jackson, D. 1991. An archaeological evaluation at Wollaston, Northamptonshire Archaeology 23: 825.Google Scholar
Jackson, D. 1995. Archaeology at Grendon quarry, Northamptonshire Part 2: Other Prehistoric, Iron Age and later sites excavated 1974–5 and further observations between 1976–80, North amptonshire Archaeology 26.Google Scholar
Jones, B.W. 1992. The Emperor Domitian. London: Routledge.Google Scholar
Jones, G. & Legge, A.. 1987. The grape (Vitis vinifera L.) in the Neolithic of Britain, Antiquity 61: 4525.Google Scholar
Kimura, P., Okamoto, G. & Hitano, K.. 1998. The mode of pollination and stigma receptivity in Vitis coignetiae Pulliat., American Journal of Enology & Viticulture 49: 15.CrossRefGoogle Scholar
Manning, W.H. 1985. Catalogue of the Romano-British iron tools, fittings and weapons in the British Museum. London: British Museum Publications.Google Scholar
Planchais, N. 1967. Analyse pollinique de la tourbière de Giseux (Indre-et-Loire) et étude du chêne vert à l’optimum climatique, Pollen et Spores 9: 505ff.Google Scholar
Rees, S.E. 1979. Agricultural implements in prehistoric and Roman Britain. Oxford: British Archaeological Reports. British series 69.Google Scholar
Tipping, R., Carter, S. & Johnston, D.. 1994. Soil pollen and soil micromorphological analyses of old ground surfaces on Biggar Common, Borders Region, Journal of Archeological Science 21: 387401.Google Scholar
Tipping, R., Long, D., Carter, S., Davidson, D., Tyler, A., & Boag, B.. 1999. Testing the potential of soil-stratigraphic palynology in podsols, in Pollard, A.M. (ed.), Geoarchaeology: exploration, environments, resources: 7990. London: Geological Society. Special publication 165.Google Scholar
Turner, C. 1968. A note on the occurrence of Vitis and other new plant records from the Pleistocene deposits at Hoxne, Suffolk, New Phytologist 67: 32732.Google Scholar
Turner, S. & Brown, A.G.. In preparation. Vitis taphonomy in modern organic vineyards.Google Scholar
Webster, D., Webster, H. & Petch, D.. 1967. A possible vineyard of the Romano-British period at North Thoresby, Lincolnshire, Lincolnshire History and Archaeology 2: 5661.Google Scholar
West, L. 1931. Roman Britain: the objects of trade. Oxford: Blackwell.Google Scholar
White, K.D. 1970. Roman farming. London: Thames & Hudson.Google Scholar
Williams, D. 1977. A consideration of the sub-fossil remains of Vitis vinifera L. as evidence for viticulture in Roman Britain, Britannia 8: 32734.Google Scholar
Woodfield, C. 1989. A Roman site at Stanton Low, on the Great Ouse, Bucks., Archaeological Journal 135278.Google Scholar