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A generic geomorphological approach to archaeological interpretation and prospection in British river valleys: a guide for archaeologists investigating Holocene landscapes

Published online by Cambridge University Press:  02 January 2015

A. J. Howard
Affiliation:
School of Geography, University of Leeds, Leeds LS2 9JT, England
M. G. Macklin
Affiliation:
Institute of Geography & Earth Sciences, University of Wales, Aberystwyth, Ceredigion SY23 3DB, Wales

Abstract

Landscape archaeology depends greatly on the nature of the underlying physical landscape, and an understanding of its formation processes and change. We are pleased to publish this contribution on the Holocene river valleys of Britain, which provides important guidance on the integration of archaeological and geomorphological evidence, in building models for assessing potential archaeological preservation and erosion.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd. 1999

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References

Allen, T., Hey, G. & Miles, D.. 1997. A line of time: approaches to archaeology in the Upper and Middle Thames Valley, England, World Archaeology 29: 11429.CrossRefGoogle Scholar
Bell, M. & Neumann, H.. 1997. Prehistoric intertidal archaeology and environments in the Severn Estuary, Wales, World Archaeology 29: 95113.Google Scholar
Berendsen, H.J.A. 1993. Holocene fluvial geomorphology of the floodplain of the rivers Rhine and Meuse in the Netherlands, in Douglas, I. & Hagedorn, J. (ed.), Geomorphology and Geoecology, Fluvial Geomorphology: 97107. Zeitschrift fur Geomorphologie supplement 85.Google Scholar
Bettis, E.A. 1995. Archaeological geology of the Archaic Period in North America. Boulder (CO): Geological Society of America. Special paper 297.Google Scholar
Bettis, E.A. & Hajic, E.R. 1995. Landscape development and the location of evidence of Archaic cultures in the Upper Midwest, in Bettis, E.A. (ed.), Archaeological geology of the Archaic Period in North America: 87113. Boulder (CO): Geological Society of America. Special paper 297.Google Scholar
Bradley, R. 1990. The passage of arms: an archaeological analysis of prehistoric hoards and votive deposits. Cambridge: Cambridge University Press.Google Scholar
Brazier, V.G. Whittington & Ballantyne, C.K.. 1988. Holocene debris cone evolution in Glen Etive, Western Grampian Highlands, Scotland, Earth Surface Processes and Landforms 13: 52531.Google Scholar
Brown, A.G. 1987. Holocene floodplain sedimentation and channel response of the lower Severn, United Kingdom, Zeitschrift fur Géomorphologie 31: 293310.CrossRefGoogle Scholar
Brown, A.G. 1997. Alluvial geoarchaeology. Floodplain archaeology and environmental change. Cambridge: Cambridge University Press.Google Scholar
Brown, A.G. & Keough, M.. 1992a. Holocene floodplain metamorphosis in the Midlands, United Kingdom, Geomorphology 4: 43345.CrossRefGoogle Scholar
Brown, A.G. & Keough, M.. 1992b. Palaeochannels, palaeo-landsurfaces and three dimensional reconstruction of floodplain environmental change, in Carling, P.A. & Petts, G.E. (ed.), Lowland flood-plain rivers: Geomorphological perspectives: 185202. Chichester: Wiley.Google Scholar
Brown, A.G., Keough, M. & Rice, R.J.. 1994. Floodplain evolution in the East Midlands, United Kingdom: the Lateglacial and Flandrian alluvial record from the Soar and Nene valleys, Philosophical Transactions of the Royal Society of London A348: 26193.Google Scholar
Burrin, P.J. & Scaife, R.G.. 1984. Aspects of Holocene valley sedimentation and floodplain development in Southern England, Proceedings of the Geologists Association 95: 8196.CrossRefGoogle Scholar
Cardwell, P. 1995. Excavation at the hospital of St Giles by Brompton Bridge, North Yorkshire, Archaeological Journal 152: 109245.Google Scholar
Cardwell, P. & Speed, G.. 1996. Prehistoric occupation at St. Giles by Brompton Bridge, North Yorkshire, Durham Archaeological Journal 12: 2740.Google Scholar
Church, M. & Ryder, J.M.. 1972. Paraglacial sedimentation: A consideration of fluvial processes conditioned by glaciation, Geological Society of America Bulletin 83: 305972.CrossRefGoogle Scholar
Coles, B. & Coles, J.M.. 1986. Sweet Track to Glastonbury. The Somerset Levels in Prehistory. London: Thames & Hudson.Google Scholar
Coles, J.M. 1978. Man and landscape in the Somerset Levels, in Limbrey, S. & Evans, J.G. (ed.), The effect of man on the landscape: the Lowland Zone: 869. London: Council for British Archaeology. Research report 21.Google Scholar
Darvill, T. & Fulton, A.K.. 1998. MARS: The Monuments at Risk Survey in England 1995. Main Report. Bournemouth & London: Bournemouth University & English Heritage.Google Scholar
Dinnin, M. 1997. Holocene beetle assemblages from the Lower Trent floodplain at Bole Ings, Nottinghamshire, UK, in Ashworth, A.C., Buckland, P.C. & Sadler, J.P. (ed.), Studies in Quaternary Entomology. An inordinate fondness for insects: 83104. London: Quaternary Research Association. Quaternary Proceedings 5.Google Scholar
Evans, J.G. 1991. River valley bottoms and archaeology in the Holocene, in Coles, B. (ed.), The wetland revolution in prehistory: 4753. London: Prehistoric Society. WARP occasional paper 6.Google Scholar
French, C.A.I., Macklin, M.G. & Passmore, D.G.. 1992. Archaeology and palaeochannels in the Lower Welland and Nene valleys: alluvial archaeology at the fen-edge, Eastern England, in Needham, & Macklin, (ed.): 16976.Google Scholar
Gaunt, G.D. 1981. Quaternary history of the southern part of the Vale of York, in Neale, J. & Flenley, J. (ed.), The Quaternary in Britain: Essays, Reviews and Original Work on the Quaternary. 8297. Oxford: Pergamon Press.Google Scholar
Gibson, A. 1994. Excavations at the Sarn-y-bryn-caled cursus complex, Welshpool, Powys, and the timber circles of Great Britain and Ireland, Proceedings of the Prehistoric Society 60: 143223.Google Scholar
Hageman, B.P. 1969. Development of the western part of the Netherlands during the Holocene, Geol. Mijnbouw 48: 37388.Google Scholar
Hall, D. 1987. The Fenland Project, Number 2: Fenland Landscapes and Settlement between Peterborough and March, East Anglian Archaeology Report 35.Google Scholar
Hall, D., Evans, C., Hodder, I. & Pryor, F.. 1987. The Fenlands of East Anglia, England: Survey and Excavation, in Coles, J.M. & Lawson, A.J. (ed.), European wetlands in prehistory: 169202. Oxford: Clarendon Press.Google Scholar
Harvey, A.M., Oldfield, F., Baron, A.F. & Pearson, G.W.. 1981. Dating of post-glacial landforms in the central Howgills, Earth Surface Processes & Landforms 6: 40112.Google Scholar
Harvey, A.M. & Renwick, W.H.. 1987. Holocene alluvial fan and terrace formation in the Bowland Fells, Northwest England, Earth Surface Processes and Landforms 12: 24957.Google Scholar
Hayes, P.P. & Lane, T.W.. 1992. The Fenland Project Number 5: Lincolnshire Survey, The South-West Fens, East Anglian Archaeology Report 55.Google Scholar
Hobley, B. 1981. The London waterfront — the exception or the rule, in Milne, G. & Hobley, B.. (ed.), Waterfront archaeology in Britain and northern Europe: 19. London: Council for British Archaeology. Research report 41.Google Scholar
Hooke, J.M., Harvey, A.M., Miller, S.Y. & Redmond, C.E.. 1990. The chronology and stratigraphy of the alluvial terraces of the River Dane valley, Cheshire, NW England, Earth Surface Processes and Landforms 15: 71737.Google Scholar
Howard, A.J., Garton, D., Hillam, J., Pearce, M. & Smith, D.N.. 1999. Middle to Late Holocene environments in the Middle to Lower Trent Valley, in Brown, A.G. & Quine, T.M. (ed.), Fluvial processes and environmental change: 16578. Chichester: Wiley.Google Scholar
Howard-Davis, C. 1996. Seeing the sites: survey and excavation on the Anglezarke Uplands, Lancashire, Proceedings of the Prehistoric Society 61: 13366.CrossRefGoogle Scholar
Jing, Z., Rapp, G. & Gao, T.. 1997. Geoarchaeological aids in the investigation of early Shang civilisation on the floodplain of the lower Yellow River, China, World Archaeology 29: 3650.Google Scholar
Joyce, A.A. & Mueller, R.G.. 1997. Prehispanic human ecology of the Rio Verde drainage basin, Mexico, World Archaeology 29: 7594.Google Scholar
Lane, T.W. 1993. The Fenland Project Number 8: Lincolnshire Survey, The Northern Fen-Edge, East Anglian Archaeology Report 66.Google Scholar
Leopold, L.B. & Wolman, M.G.. 1957. River channel patternsbraided, meandering and straight. U.S. Geological Survey. Professional paper 282B.Google Scholar
Leopold, L., Wolman, B.M.G. & Miller, J.P.. 1964. Fluvial processes in geomorphology. San Francisco (CA): W.H. Freeman.Google Scholar
Lewin, J. 1981. British rivers. London: George Allen & Unwin.Google Scholar
Lewin, J. 1992. Alluvial sedimentation style and archaeological sites: the Lower Vyrnwy, Wales, in Needham, & Macklin, (ed.): 10310.Google Scholar
Long, D.J., Chambers, F.M. & Barnatt, J.. 1998. The palaeo-environment and the vegetation history of a Later Prehistoric Field System at Stoke Flat on the Gritstone Uplands of the Peak District, Journal of Archaeological Science 25: 50519.Google Scholar
Macklin, M.G. 1997. Fluvial geomorphology of North-east England, in Gregory, K.J. (ed.) Fluvial geomorphology of Great Britain: 20238. London: Chapman & Hall.Google Scholar
Macklin, M.G. 1999. Holocene river environments in prehistoric Britain: human interaction and impact, Journal of Quaternary Science (Quaternary Proceedings 7).Google Scholar
Macklin, M.G. & Lewin, J.. 1986. Terraced fills of Pleistocene and Holocene age in the Rheidol Valley, Wales, Journal of Quaternary Science 1: 2134.Google Scholar
Macklin, M.G. & Lewin, J.. 1989. Sediment transfer and transformation of an alluvial valley floor: the river South Tyne, Northumbria, UK, Earth Surface Processes and Landforms 14: 23346.Google Scholar
Macklin, M.G. & Lewin, J.. 1993. Holocene river alluviation in Britain, in Douglas, I. & Hagedorn, J.. (ed.), Geomorphology and Geoecology, Fluvial Geomorphology: 10922. Zeitschrift fur Geomorphologie supplement 85.Google Scholar
Macklin, M.G. & Needham, S.. 1992. Studies in British alluvial archaeology: potential and prospect, in Needham, & Macklin, (ed.): 923.Google Scholar
Macklin, M.G., Passmore, D.G., Stevenson, A.C., Cowley, D.C., Edwards, D.N. & O’Brien, C.F.. 1991. Holocene alluviation and land-use change on Callaly Moor, Northumberland, England, Journal of Quaternary Science 6: 22532.Google Scholar
Macklin, M.G., Passmore, D.G. & Rumsby, B.T.. 1992a. Climatic and cultural signals in Holocene alluvial sequences: the Tyne basin, northern England, in Needham, & Macklin, (ed.): 12339.Google Scholar
Macklin, M.G., Rumsby, B.T. & Heap, T.. 1992b. Flood alluviation and entrenchment: Holocene valley floor development and transformation in the British uplands, Geological Society of America Bulletin 104: 63143.2.3.CO;2>CrossRefGoogle Scholar
Macklin, M.G., Passmore, D.G., Cowley, D.C., Stevenson, T.C. & O’Brien, C.F.. 1992c. Geoarchaeological enhancement of river valley archaeology in North East England, in Spoerry, P.. (ed.) Geosprospection in the archaeological landscape: 4358. Oxford: Oxbow. Monograph 18.Google Scholar
Martin-Consuegra, E., Chisvert, N., Càceres, L. & Ubera, J.L.. 1998. Archaeological, palynological and geological contributions to landscape reconstruction in the alluvial plain of the Guadalquivir River at San Bernardo, Sevilla (Spain), Journal of Archaeological Science 25, 52132.Google Scholar
McEwen, L.J. & Werritty, A.. 1988. The hydrological and long-term geomorphic significance of a flash flood in the Cairngorm Mountains, Scotland, Catena 15: 36177.Google Scholar
Meddens, F.M. 1996. Sites from the Thames estuary wetlands, and their Bronze Age use, Antiquity 70: 32534.Google Scholar
Merrett, S.P. & Macklin, M.G.. 1999. Historic river response to extreme flooding in the Yorkshire Dales, Northern England, in Brown, A.G. & Quine, T.M. (ed.), Fluvial processes and environmental change: 34560. Chichester: Wiley.Google Scholar
Nanson, G.C. & Croke, J.C.. 1992. A genetic classification of floodplains, Geomorphology 4: 45986.Google Scholar
Nayling, N. & Caseldine, A.. 1997. Excavations at Caldicot, Gwent: Bronze Age palaeochannels in the Lower Nedern Valley. London: Council for British Archaeology. Research report 108.Google Scholar
Needham, S.P. 1991. Excavation and salvage at Runnymede Bridge 1978: The Late Bronze Age waterfront site. London: British Museum Press.Google Scholar
Needham, S.P. 1992. Holocene alluviation and interstratified settlement evidence in the Thames Valley at Runnymede Bridge, in Needham, & Macklin, (ed.): 24960.Google Scholar
Needham, S. & Macklin, M.G. (ed.). 1992. Alluvial archaeology in Britain. Oxford: Oxbow. Monograph 27.Google Scholar
Newson, M.D. & Macklin, M.G.. 1990. The geomorphologically effective flood and vertical instability in river channels: a feedback mechanism in the flood series for gravel-bed rivers, in White, W.R. (ed.), International Conference on River Flood Hydraulics: 12341. Chichester: Wiley.Google Scholar
Parker-Pearson, M. & Sydes, R.E.. 1997. The Iron Age enclosures and prehistoric landscape of Sutton Common, South Yorkshire, Proceedings of the Prehistoric Society 63: 22159.Google Scholar
Passmore, D.G. & Macklin, M.G.. 1997. Geoarchaeology of the Tyne Basin: Holocene River Valley Environments and the Archaeological Record, in Tolan-Smith, C. (ed.), Landscape archaeology in Tynedale: 1127. Newcastle: University of Newcastle upon Tyne, Tyne Solway Ancient and Historic Landscapes Research Programme. Monograph 1.Google Scholar
Passmore, D.G., Macklin, M.G., Brewer, P.A., Lewin, J., Rumsby, B.T. & Newson, M.D.. 1993. Variability of late Holocene braiding in Britain, in Best, J.L. & Bristow, C.S. (ed.), Braided rivers: 20529. Bath: Geological Society. Special publication 75.Google Scholar
Pollard, J. 1996. Iron Age riverside pit alignments at St Ives, Cambridgeshire, Proceedings of the Prehistoric Society 62: 93115.Google Scholar
Pryor, R, French, C., Crowther, D., Gurney, D., Simpson, G. & Taylor, M.. 1985. The Fenland Project No. 1: Archaeology and Environment in the Lower Welland Valley Volume 1, East Anglian Archaeology Report 27(1).Google Scholar
Pryor, F.M.M., French, C.A.I. & Taylor, M.. 1986. Flag Fen, Fengate, Peterborough I: discovery, reconnaissance and initial excavations (1982–85), Proceedings of the Prehistoric Society 52: 124.Google Scholar
Richards, K.S., Peters, N.R., Robertson-Rintoul, M.S.E. & Switsur, V.R.. 1987. Recent valley sediments in the North York Moors: Evidence and Interpretation, in Gardiner, V. (ed.), International Geomorphology Part 1: 869883. Chichester: Wiley.Google Scholar
Rippon, S. 1996. Gwent Levels: The evolution of a wetland landscape. London: Council for British Archaeology. Research report 105.Google Scholar
Robertson-Rintoul, M.S.E. 1986. A quantitative soil-stratigraphic approach to the correlation and dating of post-glacial river terraces in Glen Feshie, western Cairngorms, Earth Surface Processes and Landforms 11: 60517.Google Scholar
Robinson, M.A. 1978. A comparison between the effects of man on the environment of the first gravel terrace and floodplain of the Upper Thames Valley during the Iron Age and Roman periods, in Limbrey, S. & Evans, J.G. (ed.), The effect of man on the landscape: the lowland zone: 3543. London: Council for British Archaeology. Research report 21.Google Scholar
Robinson, M.A. 1992. Environment, archaeology and alluvium on the river gravels of the South Midlands, in Needham, & Macklin, (ed.): 197208.Google Scholar
Robinson, M.A. & Lambrick, G.H.. 1984. Holocene alluviation and hydrology in the Upper Thames Basin, Nature 308: 80914.CrossRefGoogle Scholar
Rose, J., Turner, C., Coope, G.R. & Bryan, M.D.. 1980. Channel changes in a lowland river catchment over the last 13,000 years, in Cullingford, R.A., Davidson, D.A. & Lewin, J.. (ed.), Timescales in Geomorphology. 15976. Chichester: Wiley.Google Scholar
Rumsby, B.T. & Macklin, M.G.. 1996. River response to the last Neoglacial cycle (the ‘Little Ice Age’) in northern, western and central Europe, in Branson, J., Brown, A.G. & Gregory, K.J. (ed.), Global continental changes: the context of palaeohydrology. 21733. Bath: Geological Society. Special publication 115.Google Scholar
Salisbury, C.R., Whitley, P.J., Litton, C.D. & Fox, J.L.. 1984. Flandrian courses of the River Trent at Colwick, Nottingham, Mercian Geologist 9: 189207.Google Scholar
Seale, R.S. 1979. Ancient courses of the Great and Little Ouse in Fenland, Proceedings of the Cambridgeshire Antiquarian Society 69: 119.Google Scholar
Smith, D.G. & Smith, N.D.. 1983. Sedimentation in anastomosed river systems: Examples from alluvial valleys near Banff, Alberta, Journal of Sedimentary Petrology 50:15764.Google Scholar
Taylor, M.P. & Lewin, J.. 1996. River behaviour and Holocene alluviation: The River Severn at Welshpool, Mid-Wales, U.K., Earth Surface Processes and Landforms 21: 7791.Google Scholar
Taylor, M.P. & Macklin, M.G.. 1997. Holocene alluvial sedimentation and valley floor development: the River Swale, Catterick, North Yorkshire, UK, Proceedings of the Yorkshire Geological Society 51: 31727.Google Scholar
Thomas, C. & Rackham, J.. 1996. Bramcote Green, Bermondsey: a Bronze Age trackway and palaeo-environmental sequence, Proceedings of the Prehistoric Society 61: 22153.Google Scholar
Thomas, C., Robinson, M., Barrett, J. & Wilson, B.. 1986. A Late Bronze Age riverside settlement at Wallingford, Oxfordshire, Archaeological Journal 143: 174200.Google Scholar
Tipping, R. 1994. Fluvial chronology and valley floor evolution of the Upper Bowmont Valley, Borders Region, Scotland, Earth Surfaces Processes and Landforms 19: 64157.Google Scholar
Tipping, R. 1995a. Holocene landscape change at Carn Dubh, near Pitlochry, Perthshire, Scotland, Journal of Quaternary Science 10: 5975.Google Scholar
Tipping, R. 1995b. Holocene evolution of a lowland Scottish landscape: Kirkpatrick Fleming. Part III, fluvial history, The Holocene 5: 18495.Google Scholar
Tipping, R. 1995c. Holocene evolution of a lowland Scottish landscape: Kirkpatrick Fleming. Part I, peat and pollen-stratigraphic evidence for raised moss development and climatic change, The Holocene 5: 6981.Google Scholar
Tipping, R. 1995d. Holocene evolution of a lowland Scottish landscape: Kirkpatrick Fleming. Part II, regional vegetation and land-use change, The Holocene 5: 8396.Google Scholar
Tipping, R. & Halliday, S.P.. 1994. The age of alluvial fan deposition at a site in the Southern Uplands of Scotland, Earth Surfaces Processes and Landforms 19: 33348.Google Scholar
Van De Noort, R. & Ellis, S.. 1997. Wetland Heritage of the Humberhead Levels. An Archaeological Survey. London: English Heritage.Google Scholar
Van De Noort, R. & Ellis, S.. 1998. Wetland Heritage of the Ancholme and Lower Trent Valleys. An Archaeological Survey. London: English Heritage.Google Scholar
Walker, M.J.C., Bell, M., Caseldine, A.E., Cameron, N.G., Hunter, K.L., James, J.H., Johnson, S. & Smith, D.N.. 1998. Palaeoecological investigations of Middle & Late Flandrian buried peats on the Caldicot Levels, Severn Estuary, Wales, Proceedings of the Geologists Association 109: 5178.Google Scholar
Whimster, R. 1989. The emerging past. Air photography and the buried landscape. London: RCHME.Google Scholar
White, R.F. 1998. The lead industry in the Yorkshire Dales, in Howard, A.J. & Macklin, M.G. (ed.), The Quaternary of the eastern Yorkshire Dales. Field Guide: 5566. London: Quaternary Research Association.Google Scholar
Wilkinson, T.J., Murphy, P., Juggins, S. & Manson, K.. 1988. Wetland development and human activity in Essex estuaries during the Holocene transgression, in Murphy, P. & French, C. (ed.), The exploitation of wetlands: 21338. Oxford: British Archaeological Reports. British series 186.Google Scholar
Woodfield, C. & Johnson, C.. 1989. A Roman site at Stanton Low, on the Great Ouse, Buckinghamshire, Archaeological Journal 146: 135278.Google Scholar