Hostname: page-component-76fb5796d-22dnz Total loading time: 0 Render date: 2024-04-28T09:32:15.751Z Has data issue: false hasContentIssue false
  • English
  • Français

Mesolithic to Bronze Age Vegetation Change and Human Activity in the Exe Valley, Devon, UK

Published online by Cambridge University Press:  18 February 2014

R.M. Fyfe ,
A.G. Brown  and
B.J. Coles
R.M. Fyfe
Affiliation:
School of Geography and Archaeology, University of Exeter, Amory Building, Rennes Drive, Exeter EX4 4RJ
A.G. Brown
Affiliation:
School of Geography and Archaeology, University of Exeter, Amory Building, Rennes Drive, Exeter EX4 4RJ
B.J. Coles
Affiliation:
School of Geography and Archaeology, University of Exeter, Amory Building, Rennes Drive, Exeter EX4 4RJ
Get access Rights & Permissions [Opens in a new window]

Abstract

This paper presents the results of the first investigation of vegetation change and human activity from a river valley west of the Somerset Levels. The record is contrasted with the pollen and archaeological record from south-west uplands (Dartmoor and Exmoor) and the Somerset Levels. Vegetation change and archaeological evidence are shown to be generally consistent, with evidence from the middle valley of Mesolithic vegetation disturbance (with nearby lithics), Neolithic clearance of terraces and slopes in the lower valley and Neolithic–Bronze Age ceremonial and domestic activity, but in the upper reach the maintenance of wooded valley floor conditions probably with management until historic times. The valley floor and surrounding slope vegetation history is found to be significantly different to that of the uplands with lime and elm being significant components of the prehistoric woodland record. The data suggest that lime is restricted to terraces and lowlands below 200 m OD throughout the prehistoric period. The pollen data from the valley suggest the lowlands had a rich and mixed ecology providing a wide range of resources and that, despite less visible archaeological remains, human activity is manifest through palynological evidence from the Mesolithic to the Bronze Age. The largest expanse of valley-floor terrace, the Nether Exe Basin, which was at least partially deforested in the early Neolithic contains a rich assemblage of Neolithic–Bronze Age ceremonial, funerary and domestic archaeology associated with an early and clear palynological record of woodland clearance, arable and pastoral activity.

Résumé

Cette étude présente les résultats d'une première investigation des changements dans la végétation et de l'activité humaine dans une vallée fluviale à l'ouest de la plaine des Somerset levels. Les résultats sont comparés aux résultats polliniques et archéologiques des hautes terres du sud-ouest (Dartmoor & Exmoor) et des Somerset levels. Il est apparu que les témoignages de changements dans la végétation et les vestiges archéologiques étaient en général consistants, avec des témoignages, provenant de la moyenne vallée, de perturbation de la végétation au mésolithique (avec des lithiques à proximité), de défrichage néolithique des terrasses et des versants de la vallée basse et d'activités cérémonielles et domestiques du néolithique – âge du bronze, mais dans la partie supérieure de la vallée ont persisté les conditions typiques d'une vallée boisée, probablement exploitée, jusqu'à la période historique. Il s'est avéré que l'histoire de la végétation du fond de la vallée et des pentes environnantes différait significativement de celle des hautes-terres, tilleuls et ormes constituant des composants non négligeables des résultats de la forêt préhistorique. Les données nous conduisent à penser que durant toute la période préhistorique les tilleuls se retrouvaient uniquement sur les terrasses et les basses-terres en-dessous de 200 m. Les données polliniques provenant de la vallée donnent à penser que les basses-terres avaient une écologie riche et variée, offrant une gamme étendue de ressources et que, bien que les vestiges archéologiques soient moins visibles, l'activité humaine se manifeste sous la forme de vestiges palynologiques allant du mésolithique à l'âge du bronze. La plus importante surface de terrasse de fond de vallée, le bassin inférieur de l'Exe, qui fut au moins partiellement déboisé au début du néolithique contient un riche assemblage d'archéologie cérémonielle, funéraire et domestique du néolithique-âge du bronze associé à un témoignage palynologique ancien et clair de déforestation et d'activités de culture et d'élevage.

Zusammenfassung

Dieser Artikel präsentiert die Ergebnisse der ersten Untersuchung der Vegetationsveränderung und menschlichen Aktivität in einem Flusstal westlich der Somerset Ebene. Der Datensatz wird den Pollen und archäologischen Daten aus dem südwestlichen Hochland (Dartmoor und Exmoor) und aus der Somerset Ebene gegenüber gestellt. Vegetationsveränderung und archäologische Nachweise sind im allgemeinen konsistent, und zeigen eine mesolithische Störung der Vegetation im mittleren Talabschnitt (mit Steinartefakten in der Nähe), eine Beseitigung von Terrassen und Hängen während der Neolithikums und schließlich neolithisch-bronzezeitliche zeremonielle Aktivitäten und Siedlungstätigkeit; im höher gelegenen Bereich zeigt sich hingegen eine Pflege der bewaldeten Talsohle, die sich wahrscheinlich bis in die historische Zeit nachweisen lässt. Die Vegetationsgeschichte der Talsohle und der sie umgebenden Hänge, wo Linde und Ulme als signifikante Komponenten der prähistorischen Waldlandschaft nachgewiesen sind, unterscheidet sich sehr stark von der Vegetation des Hochlands. Die Daten deuten darauf hin, dass Linde während der gesamten prähistorischen Periode auf die Terrassen und das Tiefland unter 200 m u.M. beschränkt ist. Die Pollen-Daten aus dem Tal zeigen weiterhin, dass das Tiefland eine reiche und gemischte Ökologie mit einer großen Anzahl Resourcen aufwies, und dass sich trotz einer weniger sichtbaren menschlichen Aktivität in den archäologischen Hinterlassenschaften eine solche vom Mesolithikum bis zur Bronzezeit nachweisen lässt. Das Nether Ex Becken, das während des Frühen Neolithikums wenigstens teilweise abgeholzt war, bildet die größte Ausdehnung der Talsohlenterrasse und lieferte eine reiche Kollektion neolithisch-bronzezeitlicher archäologischen Hinterlassen¬schaften zu zeremoniellen, Grab- und Hauskontexten; Pollenanalysen konnten das Abholzen von Wald, Pflügen und Beweidung nachweisen.

Résumen

Este informe presenta los resultados de las primeras investigaciones acerca de los cambios en la vegetación y la actividad humana en un valle fluvial al oeste de los Somerset Levéis. Se compara el registro con los datos palinológicos y arqueológicos de las tierras altas del sudoeste (Dartmoor and Exmoor) y los Somerset Levéis. Se demuestra que los cambios en la vegetación y la evidencia arqueológica son generalmente consistentes, con evidencia de perturbaciones en la vegetación del valle medio durante el Mesolítico (con la presencia de objetos líticos en las cercanías), despeje de las terrazas y laderas en el valle bajo durante el Neolítico, y actividad ceremonial y doméstica durante el Neolítico-Edad del Bronce, mientras que se mantenían en las zonas altas las condiciones de suelos de valle boscoso probablemente bajo supervisión hasta tiempos históricos. La historia del suelo del valle y de la vegetación de ladera alrededor es significativamente distinta de la de las tierras altas, con tilo y haya como componentes más significativos en el registro del bosque prehistórico. Los datos sugieren que el tilo queda restringido a las terrazas y tierras por debajo de los 200 metros OD (Ordnance Datum) a lo largo de todo el periodo prehistórico. La evidencia del polen del valle sugiere que las tierras bajas tenían una ecología variada y rica que proporcionaba una amplia gama de recursos, y que, a pesar de ser menos visibles los restos arqueológicos, la actividad humana entre el Mesolítico y la Edad del Bronce queda manifiesta a través de la evidencia palinológica. La extensión más amplia de terraza en el suelo del valle, la cuenca del Nether Exe, que fue por lo menos parcialmente deforestada durante el primer Neolítico, contiene una rica colección de arqueología ceremonial, funeraria y doméstica del Neolítico-Edad del Bronce, asociada con un registro palinológico temprano y muy claro de deforestación, y actividad agraria y pastoral.

Type
Research Article
Information
Proceedings of the Prehistoric Society , Volume 69 , 2003 , pp. 161 - 181
Copyright
Copyright © The Prehistoric Society 2003

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

BIBLIOGRAPHY

Andersen, S.T. 1978. Identification of wild grass and cereal pollen. Danmarks Geologiske Undersøgelse Årbog 1978 6992Google Scholar
Andrew, R. 1984. A Practical Pollen Guide to the British Flora. Cambridge: Quaternary Research Association Technical Guide 1Google Scholar
Barclay, A. & Bayliss, A. 1999. Cursus monuments and the radiocarbon problem. In Barclay, A. & Harding, J. (eds), Pathways and Ceremonies: the Cursus monuments of Britain and Ireland, 1129. Oxford: OxbowBooksGoogle Scholar
Barrett, J. 1994. Fragments from Antiquity. An Archaeology of Social Life in Britain, 2900–1200 BC. Oxford: BlackwellGoogle Scholar
Beckett, S.C. & Hibbert, F.A. 1979. Vegetational change and the influence of prehistoric man in the Somerset Levels. New Phytologist 83, 577600CrossRefGoogle Scholar
Bennett, K.D. 1994. Annotated Catalogue of Pollen and Pteridophyte Spore Types. Unpublished report, Department of Plant Sciences, University of CambridgeGoogle Scholar
Bennett, K.D. & Birks, H.J.B. 1990. Postglacial history of alder (Alnus glutinosa (L.) Gaertn.) in the British Isles. Journal of Quaternary Science 5, 123–33CrossRefGoogle Scholar
Birks, H.J.B. 1989. Holocene isochrone maps and patterns of tree-spreading in the British Isles. Journal of Biogeography 16, 503–40CrossRefGoogle Scholar
Brown, A.G. 1988. The palaeoecology of Alnus (alder) and the Postglacial history of floodplain vegetation. Pollen percentage and influx data from the West Midlands, United Kingdom. New Phytologist 110, 425–36CrossRefGoogle Scholar
Brown, A.G. 1997. Clearances and clearings: deforestation in Mesolithic/Neolithic Britain. Oxford Journal of Archaeology 16, 133–46CrossRefGoogle Scholar
Brown, A.P. 1977. Late-Devensian and Flandrian vegetational history of Bodmin Moor, Cornwall. Philosophic Transactions of the Royal Society of London B276, 251320Google Scholar
Caseldine, C.J. 1999. Archaeological and environmental change on prehistoric Dartmoor – current understandings and future directions. Journal of Quaternary Science 14, 575–833.0.CO;2-G>CrossRefGoogle Scholar
Caseldine, C.J., Coles, B.J., Griffith, F.M. & Hatton, J.M. 2000. Conservation or change? Human influence on the mid-Devon landscape. In Nicholson, R.A. & O'Connor, T.P. (eds), People as an Agent of Environmental Change, 6070. Oxford: Oxbow BooksGoogle Scholar
Caseldine, C.J. & Hatton, J. 1993. The development of high moorland on Dartmoor: fire and the influence of Mesolithic activity on vegetation change. In Chambers, F.M. (ed.), Climate Change and Human Impact on the Landscape, 119–32. London: Chapman & HallGoogle Scholar
Caseldine, C.J., Juggins, S. & Straker, V. 1988. Preliminary palaeoenvironmental analyses of floodplain deposits from a section near the River Exe, in Exeter, Devon. In Murphy, P. & French, C. (eds), The Exploitation of Wetlands, 145–62. Oxford: British Archaeological Report 186Google Scholar
Caseldine, C.J. & Maguire, D.J. 1986. Late-glacial/early Flandrian vegetation change on northern Dartmoor, south west England. Journal of Biogeography 13, 255–64CrossRefGoogle Scholar
Chambers, F.M. 1983. Three radiocarbon-dated pollen diagrams from upland peats north west of Merthyr Tydfil, south Wales. Journal of Ecology 71, 475–87CrossRefGoogle Scholar
Christie, P.M. 1988. A barrow cemetery on Davidstow Moor, Cornwall: wartime excavations by C.K. Croft Andrew. Cornish Archaeology 27, 27170Google Scholar
Coles, J.M. 1989. Prehistoric settlement in the Somerset Levels. Somerset Levels Papers 15, 1432Google Scholar
Coles, B.J. 1992. Further thoughts on the impact of beaver on temperate landscapes. In Needham, . & Macklin, (eds) 1992, 93–9Google Scholar
Coles, B.J. 2000. Beaver territories: the resource potential for humans. In Bailey, G., Charles, R. & Winder, N. (eds), Human Ecodynamics, 8089. Oxford: Oxbow BooksGoogle Scholar
Dinnin, M. & Noort, R. van de 1999. Wetland habitats, their resource potential and exploitation: a case study from the Humber wetlands. In Coles, B., Coles, J. & Jorgensen, M.S. (eds), Bog Bodies, Sacred Sites and Wetland Archaeology, 6978. Exeter: WARPGoogle Scholar
Edwards, K.J. & MacDonald, G.M. 1991. Holocene palynology: II human influence and vegetation change. Progress in Physical Geography 15, 364–91CrossRefGoogle Scholar
Evans, J. 1992. River valley bottoms and archaeology in the Holocene. In Coles, B. (ed.), The Wetland Revolution in Prehistory, 4754. Exeter: Prehistoric Society and WARPGoogle Scholar
Faegri, K., Kaland, P.E. & Krzywinski, K. 1989. Textbook of pollen analysis. 4th edn. Chichester: WileyGoogle Scholar
Fitzpatrick, A.P., Butterworth, C.A. & Grove, J. 1999. Prehistoric and Roman sites in East Devon: the A30 Honiton to Exeter DBFO scheme, 1996–9. Salisbury: Wessex Archaeology Report 14Google Scholar
Fleming, A. 1979. The Dartmoor reaves: boundary patterns and behaviour patterns in the second millenium BC. Proceedings of the Devon Archaeological Society 37, 115–31Google Scholar
Fleming, A. 1988. The Dartmoor Reaves. London: BatsfordGoogle Scholar
Fleming, A. 1994. The Reaves revisited. Proceedings of the Devon Archaeological Society 52, 6374Google Scholar
Fowler, M.J.F. 1988. The standing stones of Exmoor. Proceedings of the Somerset Archaeology & Natural History Society 132, 113Google Scholar
Fowler, M.J.F. 1993. The standing stones of Exmoor: a provisional catalogue of 86 North Devon sites. Transactions of the Devonshire Association 125, 155–77Google Scholar
Fox, A. 1963. Neolithic charcoal from Hembury. Antiquity 37, 228–9CrossRefGoogle Scholar
Fox, A. 1964. South west England, 3500 BC to 600 AD. Newton Abbot: David & CharlesGoogle Scholar
Fox, A. 1969. The Upton Pyne cemetery. Proceedings of the Devon Archaeological Society 27, 75–8Google Scholar
Francis, P.D. & Slater, D.S. 1990. A record of vegetation and land use change from upland peat deposits on Exmoor. Part 2: Hoar Moor. Somerset Archaeology & Natural History Society Proceedings 134, 125Google Scholar
Francis, P.D. & Slater, D.S. 1992. A record of vegetation and land use change from upland peat deposits on Exmoor. Part 3: Codsend Moor. Somerset Archaeology & Natural History Society Proceedings 136, 928Google Scholar
Gibson, A. 1994. Excavations at the Sarn-Y-Bryn-Caled cursus complex, Welshpool, Powys, and the timber circles of Great Britain and Ireland. Proceeding of the Prehistoric Society 60, 143223CrossRefGoogle Scholar
Greig, J. 1982. Past and present lime woods of Europe. In Bell, M. & Limbrey, S. (eds), Archaeological Aspects of Woodland Ecology, 2355. Oxford: British Archaeological Report S146Google Scholar
Griffith, F. 1984. Aerial reconnaissance in Devon in 1984. Proceedings of the Devon Archaeological Society 42, 711Google Scholar
Griffith, F. 1985. Some recently discovered ritual monuments in mid Devon. Proceedings of the Prehistoric Society 51, 310–15CrossRefGoogle Scholar
Griffith, F. & Quinnell, H. 1999. Barrow and ceremonial sites in the Neolithic and Earlier Bronze Age. In Kain, R.J.P. & Ravenhill, W. (eds), Historical Atlas of south-west England, 5561. Exeter: University PressGoogle Scholar
Grinsell, L.V. 1970. The Archaeology of Exmoor. Newton Abbot: David & CharlesGoogle Scholar
Hatton, J. & Caseldine, C.J. 1991. Vegetation changes and landuse history during the 1st millenium AD at Aller Farm, East Devon as indicated by pollen analysis. Proceedings of the Devon Archaeological Society 49, 107–14Google Scholar
Hirons, K.R. & Edwards, K.J. 1986. Events at and around the 1st and 2nd Ulmus declines. Palaeoecological investigations in Co Tyrone, Northern Ireland. New Phytologist 104, 131–40CrossRefGoogle Scholar
Huntley, B. & Birks, H.J.B. 1983. An Atlas of Past and Present Pollen Maps for Europe: 0–13000 years ago. Cambridge: University PressGoogle Scholar
Law, C. 1998. The uses and fire-ecology of reedswamp vegetation. In Mellars, & Day, (eds) 1998, 197206Google Scholar
Mellars, P. 1976. Fire ecology, animal populations and man: a study of some ecological relationships in prehistory. Proceedings of the Prehistoric Society 42, 1545CrossRefGoogle Scholar
Mellars, P. & Day, S.P. 1988. Star Can in Context. Cambridge: McDonald Institute for Archaeological ResearchGoogle Scholar
Merryfield, D.L. & Moore, P.D. 1974. Prehistoric human activity and blanket peat initition on Exmoor. Nature 250, 439–41CrossRefGoogle Scholar
Miles, H. 1976. Flint scatters and prehistoric settlement in Devon. Proceedings of the Devon Archaeological Society 34, 316Google Scholar
Moore, P.D., Merryfield, D.L. & Price, M.D.R. 1984. The vegetation and development of blanket mires. In Moore, P.D. (ed.), European Mires, 203–35. London: Academic PressCrossRefGoogle Scholar
Moore, P.D., Webb, J.A. & Collinson, M.E. 1991. Pollen Analysis. Oxford: BlackwellGoogle Scholar
Needham, S. & Macklin, M.G. 1992. Archaeology undeer Alluvium. Oxford: Oxbow BooksGoogle Scholar
Peglar, S.M. 1993. The mid-Holocene Ulmus decline at Diss Mere, Norfolk, UK: A year-by-year pollen stratigraphy from annual laminations. The Holocene 3, 113CrossRefGoogle Scholar
Pigott, C.D. 1991. Tilia cordata Miller. Journal of Ecology 79, 1147–207CrossRefGoogle Scholar
Pollard, S.M.H. & Russell, P.M.G. 1969. Excavation of round barrow 248a, Upton Pyne, Exeter. Proceedings of the Devon Archaeological Society 27, 4978Google Scholar
Quinnell, H. 1997. Excavations of an Exmoor barrow and ring cairn. Proceedings of the Devon Archaeological Society 55, 138Google Scholar
Riley, H. & Wilson-North, R. 2001. The Field Archaeology of Exmoor. Swindon: English HeritageGoogle Scholar
Scaife, R.G. 1988. The Ulmus decline in the pollen record of South East England and its relationship to early agriculture. In Jones, M. (ed.), Archaeology and the Flora of the British Isles, 2133. Oxford: Oxford University Committee for Archaeology Monograph 14Google Scholar
Silvester, R.J., Berridge, P.J. & Uglow, J. 1987. A fieldwalking exercise on Mesolithic and Neolithic sites at Nether Exe. Proceedings of the Devon Archaeological Society 45, 121Google Scholar
Smith, A.G. & Cloutman, E.W. 1988. Palaeoenvironments in the Vale of Pickering. Part 3: environmental history at Star Carr. Proceedings of the Prehistoric Society 54, 3758Google Scholar
Stockmarr, J. 1971. Tablets with spores used in absolute pollen analysis. Pollen et Spores 13, 615–21Google Scholar
Straker, V. & Crabtree, K. 1995. Palaeoenvironmental studies on Exmoor: past research and future potential. In Binding, H. (ed.), The Changing Face of Exmoor, 4351. Tiverton: Exmoor BooksGoogle Scholar
Stuiver, M. & Reimer, P.J. 1993. Extended 14C database and a revised CALIB radiocarbon calibration program. Radiocarbon 35, 215–30CrossRefGoogle Scholar
Tallantire, P.D. 2002. The early-Holocene spread of hazel (Corylus avellana L.) in Europe north and west of the Alps: an ecological hypothesis. The Holocene 12, 8196CrossRefGoogle Scholar
Todd, M. 1984. Excavations at Hembury (Devon), 1980–1983: a summary report. Journal of Antiquities 64, 251–68CrossRefGoogle Scholar
Todd, M. 1987. The South West to AD 1000. London: LongmanGoogle Scholar
Tornqvist, T.E., de Jong, A.F.M., Oosterbaan, W.A. & Borg, K. van der 1992. Accurate dating of organic deposits by AMS 14C measurement of macrofossils. Radiocarbon 34, 566–77CrossRefGoogle Scholar
Waller, M.P. 1993. Flandrian vegetational history of south-eastern England. Pollen data from Pannel Bridge, East Sussex. New Phytologist 124, 345–69CrossRefGoogle ScholarPubMed
Wardle, P. 1961. Biological flora of the British Isles: Fraxinus excelsior L. Journal of Ecology 49, 739–51CrossRefGoogle Scholar
Wiltshire, E.J. & Edwards, K.J. 1993. Mesolithic, early Neolithic, and later prehistoric impacts on vegetation at a riverine site in Derbyshire, England. In Chambers, F.M. (ed.), Climate Change and Human Impact on the Landscape, 157–68. London: Chapman & HallGoogle Scholar