Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-03T05:20:20.131Z Has data issue: false hasContentIssue false
  • English
  • Français

Iron Age to Early Modern Activity and Palaeochannels at Magor Pill, Gwent: An Exercise in Lowland Coastal-Zone Geoarchaeology

Published online by Cambridge University Press:  21 April 2011

J. R. L. Allen  and
S. J. Rippon
Get access Rights & Permissions [Opens in a new window]

Extract

A geological and geomorphological survey, combined with sedimentological results, has provided a detailed, trans-zonal famework in which to examine the significance of an eclectic variety of artefactual and documentary evidence relating to prolonged human activity on the tidal stream known as Magor Pill.

The shoreline, underlain by estuarine silts and peats of the Flandrian Wentlooge Formation, has retreated by a minimum of some 800m since Iron Age-Roman times, leaving exposed on the modern foreshore the earlier but silted-up courses of Magor Pill. As the coast retreated, fishing stakes, one a double row from the tenth century, were set up on the widening lower foreshore. The palaeochannel deposits yielded small amounts of stratified Iron Age, Romano-British, medieval and early modern occupation debris, together with woven baskets and hurdles related to the early modern and probably also medieval fishing activities in the area. One of the palaeochannels contained the wreck of a medieval, clinker-built boat carrying high-grade iron ores. By far the largest amounts of occupation debris, however, were transposed and mixed into semi-mobile foreshore gravels. This material demonstrates that there was a thriving Romano-British settlement at Magor Pill, apparently in sea connection with the southern shores of the Bristol Channel. From the eleventh to the early fourteenth century, there existed a port to which much pottery from various English sources was imported. In early modern times at Magor Pill, a vigorous outward trade in store cattle to west and south-west England was balanced by pottery imports chiefly from Devon and Somerset. Coastal erosion not only destroyed the primary evidence for these activities, and the wetland landscapes in which they occurred, but also forced, probably in late medieval times, the repositioning inland of the (?) Romano-British sea defences of the area. As part of the general process of reorganizing the defences and drainage of the wetland, the seabanks along Magor Pill and its tributaries were shortened in a number of stages and the outfalls moved further seaward.

Type
Research Article
Information
The Antiquaries Journal , Volume 77 , March 1997 , pp. 327 - 370
Copyright
Copyright © The Society of Antiquaries of London 1997

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

Alabaster, C.J. 1982. ‘The minerals of Mendip’, J. Somerset Mines Res. Group, 1(4), 152Google Scholar
Allen, J.R.L. 1982. Sedimentary Structures, their Character and Physical Basis, vol. 2, AmsterdamGoogle Scholar
Allen, J.R.L. 1984. ‘Truncated fossil thermal contraction polygons (?Devensian) in the Mercia Mudstone Formation (Trias), Oldbury upon Severn, Gloucestershire’, Proc. Geol. Ass., 95, 262–73CrossRefGoogle Scholar
Allen, J.R.L. 1985. ‘Intertidal drainage and mass-movement processes in the Severn Estuary: rills and creeks (pills)’, J. Geol. Soc. London, 142, 849–61CrossRefGoogle Scholar
Allen, J.R.L. 1987a. ‘Dimlington Stadial (late Devensian) ice-wedge casts and involutions in the Severn Estuary, south-west Britain’, Geol. J., 22, 109–18CrossRefGoogle Scholar
Allen, J.R.L. 1987b. ‘Late Flandrian shoreline oscillations in the Severn Estuary: the Rumney Formation at its typesite (Cardiff area)’, Phil. Trans. Roy. Soc. London, B315, 157–84Google Scholar
Allen, J.R.L. 1990a. ‘The Severn Estuary in south-west Britain: its retreat under marine transgression, and fine-sediment regime’, Sedimentary Geol., 66, 1328CrossRefGoogle Scholar
Allen, J.R.L. 1990b. ‘Reclamation and sea defence in Rumney Parish (Monmouthshire)’. Archaeol. Cambrensis, 137, 135–40Google Scholar
Allen, J.R.L. 1991. ‘Salt-marsh accretion and sea-level movement in the inner Severn Estuary: the archaeological and historical contribution’, J. Geol. Soc. London, 148, 485–94CrossRefGoogle Scholar
Allen, J.R.L. 1993. ‘Muddy alluvial coasts of Britain: field criteria for shoreline position and movement’, Proc. Geol. Ass., 104, 241–62CrossRefGoogle Scholar
Allen, J.R.L. 1994. ‘A continuity-based sedimentological model for temperate-zone tidal salt marshes’, J. Geol. Soc. London, 151, 41–9CrossRefGoogle Scholar
Allen, J.R.L. forthcoming. ‘Three latest Bronze Age occupations at Rumney Great Wharf on the Wentlooge Level, Gwent’, Studia CelticaGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1986. ‘The Wentlooge Level: a Romano-British saltmarsh reclamation in southeast Wales’, Britannia, 17, 91117CrossRefGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1987. ‘Romano-British settlement and industry on the wetlands of the Severn Estuary’, Antiq. J., 67, 237–89CrossRefGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1990 [1992]. ‘Romano-British wetland reclamations at Longney, Gloucestershire, and the evidence for early settlement of the inner Severn Estuary’, Antiq. J., 70, 288326CrossRefGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1992. ‘Romano-British and later geoarchaeology at Oldbury Flats: reclamation and settlement on the changeable coast of the Severn Estuary, south-west Britain’, Archaeol. J., 149, 82123CrossRefGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1996. ‘Late Flandrian coastal change and tidal palaeochannel development at Hills Flats, Severn Estuary (SW Britain)’, J. Geol. Soc. London, 153, 151–62CrossRefGoogle Scholar
Allen, J.R.L. and Fulford, M.G. 1996. ‘The distribution of South-east Dorset Black Burnished Category I pottery in southwest Britain’, Britannia, 27, 223–81CrossRefGoogle Scholar
Allen, J.R.L. and Pye, K. (eds.) 1992. Saltmarshes, Morphodynamics, Conservation and Engineering Significance, CambridgeGoogle Scholar
Allen, J.R.L. and Rae, J.E. 1987. ‘Late Flandrian shoreline oscillations in the Severn Estuary: a geomorphological and stratigraphical reconnaissance’, Phil. Trans. Roy. Soc. London, B315, 185230Google Scholar
Allen, J.R.L. and Rae, J.E. 1988. ‘Vertical saltmarsh accretion since the Roman period in the Severn Estuary, south-west Britain’, Marine Geol., 83, 225–35CrossRefGoogle Scholar
Allen, J.R.L. and Rippon, S.J. 1996. ‘The historical simplification of coastal flood defences: four case histories from the Severn Estuary Levels’, Trans. Bristol Gloucestershire Archaeol. Soc., 113, 7388Google Scholar
Allen, J.R.L. and Rippon, S.J. forthcoming. ‘A Romano-British shaft of dressed stone and the settlement at Oldbury on Severn, County of Avon’, Trans. Bristol Gloucestershire Archaeol. Soc.Google Scholar
Andrews, J.T., Gilbertson, D.D. and Hawkins, A.B. 1984. ‘The Pleistocene succession of the Severn Estuary: a revised model based upon amino acid recemization studies’, J. Geol. Soc. London, 141, 967–74CrossRefGoogle Scholar
Astill, G. 1988. ‘Fields’ in The Countryside of Medieval England (eds. G., Astill and A., Grant), Oxford, 6285Google Scholar
Barnett, C. 1961. ‘A find of Roman pottery at Uskmouth’, Monmouthshire Antiq., 1(1), 1213Google Scholar
Bell, M. 1990. Brean Down Excavations 1983–1987, English Heritage Archaeol. Rep., 15, LondonGoogle Scholar
Bell, M. 1993. ‘Field survey and excavation at Goldcliff, Gwent 1993’ in Archaeology in the Severn Estuary 1993 (ed. Bell, M.), Annu. Rep. Severn Estuary Levels Res. Comm., Lampeter, 81101, 119–25Google Scholar
Bell, M. 1995. ‘Field survey and excavation at Goldcliff, Gwent 1994’ in Archaeology in the Severn Estuary 1994 (ed. Bell, M.), Ann. Rep. Severn Estuary Levels Res. Comm., Lampeter, 115–44, 157–65Google Scholar
Bettey, J.H. 1983. ‘Livestock trade in the West Country during the seventeenth century’, Proc. Somerset Archaeol. Natur. Hist. Soc., 127, 123–28Google Scholar
Boon, G.C. 1967. ‘Roman pottery from the base of the alluvium at Magor’, Monmouthshire Antiq., 2(3), 121–27Google Scholar
Boon, G.C. 1980. ‘Caerleon and the Gwent Levels in early historic times’ in Archaeology and Coastal Change (ed. Thompson, F.H.), Soc. Antiq. London Occ. Pap. (new ser.), 1, 2436, LondonGoogle Scholar
Bradney, J. 1929. A History of Monmouthshire, Part I of Vol. IV. The Hundred of Caldicot, LondonGoogle Scholar
Brooks, I.P. 1990. The Lindsey Coastal Survey 1989–90, Lincoln Archaeol. Services, LincolnGoogle Scholar
Cantrill, T.C., Sherlock, R. and Dewey, H. 1919. Special Reports on the Mineral Resources of Great Britain. IX — Iron ores: Sundry Unbedded Ores of Durham, east Cumberland, North Wales, Derbyshire, the Isle of Man, Bristol District and Somerset, Devon and Cornwall, Memoirs Geol. SurveyGreat Britain, LondonGoogle Scholar
Courtney, P. 19861987. ‘Some exotic ‘imports’ and other wares from the South Wales coast’, Medieval Later Pottery Wales, 9, 2330Google Scholar
Cunliffe, B. (ed.) 1979. Excavations in Bath, 1950–1975, Comm. Rescue Archaeol. Avon, Gloucestershire and Somerset Excavation Rep., 1, BristolGoogle Scholar
Davies, P. and Williams, A.T. 1991. ‘The enigma of the destruction of Colhuw port, Wales’, Geogr. Rev., 81, 257–66CrossRefGoogle Scholar
Eddison, J. 1995. Romney Marsh: the Debatable Ground, Oxford Univ. Comm. Archaeol. Monogr., 41, OxfordGoogle Scholar
Eddison, J. and Green, R.D. 1988. Romney Marsh: Evolution, Occupation, Reclamation, Oxford Univ. Comm. Archaeol. Monogr., 24, OxfordGoogle Scholar
Fulford, M.G., Allen, J.R.L. and Rippon, S.J. 1994. ‘The settlement and drainage of the Wentlooge Level, Gwent: excavation and survey at Romney Great Wharf 1992’, Britannia, 25, 175211CrossRefGoogle Scholar
Fulford, M.G., Champion, T.C. and Long, A.J. 1997. England's Coastal Heritage, LondonGoogle Scholar
Fulford, M.G., Rippon, S.J., Allen, J.R.L. and Hillam, J. 1992. ‘The medieval quay at Woolaston Grange, Gloucestershire’, Trans. Bristol Gloucestershire Archaeol. Soc., 110, 101127Google Scholar
Gayer, R.A. and Criddle, A.J. 1970. ‘Mineralogy and genesis of the Llanharry iron ore deposits, Glamorgan’ in Mining and Petroleum, London, 605–26Google Scholar
Godbold, S. and Turner, R.C. 1994. ‘Medieval fishtraps in the Severn Estuary’, Medieval Archaeol., 38, 1954CrossRefGoogle Scholar
Gough, J.W. 1930. The Mines of Mendip, OxfordGoogle Scholar
Green, C. 1992. ‘The Severn fisheries’ in Archaeology in the Severn Estuary 1992 (ed. Bell, M.), Annu. Rep. Severn Estuary Levels Res. Comm., Lampeter, 6976Google Scholar
Green, G.W. and Welch, F.B.A. 1965. Geology of the Country around Wells and Cheddar, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Grieve, H.E.P. 1959. The Great Tide, ChelmsfordGoogle Scholar
Grove, J.M. 1988. The Little Ice Age, LondonCrossRefGoogle Scholar
Hall, D. 1982. Medieval Fields, Princes RisboroughGoogle Scholar
Hall, D. 1995. The Open Fields of Northamptonshire, NorthamptonGoogle Scholar
Hall, D. and Coles, J. 1994. Fenland Survey. An Essay in Landscape and Persistence, English Heritage Archaeol. Rep., I, LondonGoogle Scholar
Hawkins, A.B. 1973. ‘Sea-level changes around south-west England’ in Marine Archaeology (ed. Blackman, D.J.), London, 6787Google Scholar
Heighway, C. 1983. The East and North Gates of Gloucester and Associated Sites: Excavations 1974–81, Western Archaeol. Trust Excavation Monogr., 4, BristolGoogle Scholar
Houghton, J.T., Jenkins, G.J. and Ephraims, J.J. 1990. Climate Change. IPCC Scientific Assessment, CambridgeGoogle Scholar
Kellaway, G. and Welch, F.B.A. 1993. Geology of the Bristol District, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Knight, J.K. 1962. ‘The Goldcliff stone — a reconsideration’, Monmouthshire Antiq., 1(2), 34–6Google Scholar
Lambeck, K. 1995. ‘Late Devensian and Holocene shorelines of the British Isles and North Sea from models for glaciohydro- isostatic rebound’, J. Geol. Soc. London, 152, 437–48CrossRefGoogle Scholar
Lawler, M. and Nayling, N. 1993. ‘Investigations at Barland's Farm, Magor, 1993’ in Archaeology in the Severn Estuary 1993 (ed. Bell, M.), Annu. Rep. Severn Estuary Levels Res. Comm., Lampeter, 109–12, 119–25Google Scholar
Lewis, E.A. 1927. The Welsh Port Books (1550–1603), Cymmrodorion Rec. Ser., 12, LondonGoogle Scholar
Locke, S. 19701971. ‘The post glacial deposits of the Caldicot Level and the associated archaeological discoveries’, Monmouthshire Antiq, 3(1), 116Google Scholar
Matthews, J.H. 1900. Cardiff Records, being Material for a History of the County Borough from the Earliest Times, CardiffGoogle Scholar
McDonnell, R.R.J. 1980. ‘Tidal fishweirs, West Somerset’, Proc. Somerset Archaeol. Natur. Hist. Soc., 123, 7582Google Scholar
Mellor, M., Cowell, M., Newns, S. and Vince, A. 1994. ‘A synthesis of middle and late Saxon, medieval and early post-medieval pottery in the Oxford region’, Oxoniensia, 59, 17217Google Scholar
Nash-Williams, V.E. 1951. ‘New Roman site at Redwick (Mon.)’. Bull. Board Celtic Stud., 14, 254–55Google Scholar
Nayling, N. 1996. ‘The excavation, recovery and provisional analysis of a medieval wreck from Magor Pill, Gwent Levels’ in Archaeology in the Severn Estuary 1995 (ed. Bell, M.), Annu. Rep. Severn Estuary Levels Res. Coram., vol 6, 8595, 112–22, LampeterGoogle Scholar
Parry, S.J. and McGrail, S. 1991. ‘A prehistoric plank boat fragment from Caldicot Castle Lake, Gwent’, Int. J. Naut. Archaeol., 20, 321–4CrossRefGoogle Scholar
Pethick, J.S. 1992. ‘Saltmarsh geomorphology’ in Allen, J.R.L. and Pye, K. (eds.), Cambridge, 4162Google Scholar
Rankin, A.H. and Criddle, A.J. 1985. ‘Mineralising fluids and metastable low temperature inclusion brines at Llanharry iron deposits, South Wales’. Trans. Inst. Mining Metallurgy, 94, B126–B132Google Scholar
Rippon, S.J. 1996. The Gwent Levels: the Evolution of a Wetland Landscape, Council Brit. Archaeol. Res. Rep., 105, LondonGoogle Scholar
Rippon, S.J. 1997. The Severn Estuary: Landscape Evolution and Wetland Reclamation, LeicesterGoogle Scholar
Rippon, S.J. forthcoming. ‘Roman settlement and salt production on the Somerset coast: the work of Samuel Nash, a Somerset archaeologist and historian 19131985’, Proc. Somerset Archaeol. Natur. Hist. Soc, 139Google Scholar
Robinson, W.R.B. 1972. ‘Dr Thomas Phaer's report on the harbours and customs administration of Wales under Edward VI’, Bull. Board Celtic Stud., 24, 485503Google Scholar
Salisbury, C.R. 1991. ‘Primitive British fishweirs’ in Waterfront Archaeology (eds. Good, G.L., Jones, R.H. and Ponsford, M.W.), Council Brit. Archaeol. Res. Rep., 74, 7687, LondonGoogle Scholar
Scarth, H.M. 1886. ‘The Roman villa Wemberham in Yatton: and discovery of Roman coins near Kingston Seymour’, Proc. Somerset Archaeol. Natur. Hist. Soc., 31(2), 19Google Scholar
Shennan, I. 1989. ‘Holocene crustal movements and sea-level changes in Great Britain’, J. Quaternary Science, 4, 7789CrossRefGoogle Scholar
Shoesmith, R. 1991. Excavations at Chepstow 1973–1974, Cambrian Archaeol. Ass. Monogr., 4, BangorGoogle Scholar
Sibly, T.F. 1927. Special Reports on the Mineral Resources of Great Britain. X — Iron Ores - the Haematites of the Forest of Dean and South Wales, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Skeel, C. 1926. ‘The cattle trade between Wales and England from the fifteenth to nineteenth centuries’, Trans. Roy. Hist. Soc., (4)9, 135–58CrossRefGoogle Scholar
Smith, A.G. and Morgan, L.A. 1989. ‘A succession to ombrotrophic bog in the Gwent Levels, and its demise: a Welsh parallel to the peats of the Somerset Levels’, New Phytologist, 112, 145–67CrossRefGoogle Scholar
Stuiver, M. and Becker, B. 1993. ‘Highprecision decadal calibration of the radiocarbon time scale, AD 1950-BC 6000’, Radiocarbon, 35, 3566CrossRefGoogle Scholar
Summers, D. 1978. The East Coast Floods, Newton AbbotGoogle Scholar
Van de Noort, R. and Davies, P. 1993. Wetland Heritage. An Archaeological Assessment of the Humber Wetlands (ed. S. Ellis), Kingston upon HullGoogle Scholar
Van de Noort, R. and Ellis, S. 1995. Wetland Heritage of Holderness. An Archaeological Survey, Humber Wetlands Project, Univ. HullGoogle Scholar
Waller, M. 1994. The Fenland Project, Number 9: Flandrian Environmental Change in the Fenland, East Anglian Archaeol. Rep., 70, CambridgeGoogle Scholar
Waters, R.A. and Lawrence, D.J.D. 1987. Geology of the South Wales Coalfield. III. The Country around Cardiff, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Watts, L. and Rahtz, P. 1985. Mary-le-port, Bristol. Excavations 1962–63, City of Bristol Museum and Art Gallery Monogr., 7, BristolGoogle Scholar
Welch, F.B.A. and Trotter, F.M. 1961. The Country around Monmouth and Chepstow, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Whittle, A.W.R., with Antoine, S., Gardiner, N., Milles, A. and Webster, P. 1989. ‘Two later Bronze Age occupations and an Iron age channel on the Gwent foreshore’, Bull. Board Celtic Stud., 36, 200–23Google Scholar
Wilkinson, T.J. and Murphy, P. 1995. The Archaeology of the Essex Coast, Vol. 1: The Hullbridge Survey, East Anglian Archaeol. Rep., 71, CambridgeGoogle Scholar
Williams, D. 1965. ‘Tintern Abbey: its economic history’, Monmouthshire Antiq., 2(1), 132Google Scholar
Wilson, D., Davies, J.R., Fletcher, C.H.J.N and Smith, M. 1990. Geology of the South Wales Coalfield. VI. The Country around Bridgend, Memoirs Geol. Survey Great Britain, LondonGoogle Scholar
Wood, J.G. 1914. The Manor and Mansion of Moynes Court, Monmouthshire (with an Appendix on the Ancient Harbours of South Monmouthshire), NewportGoogle Scholar
Woodworth, P.L., Shaw, M.S.M. and Blackman, D.L. 1991. ‘Secular trends in mean tidal range around the British Isles and along the adjacent European coastline’, Geophysical J. Int., 104, 593609CrossRefGoogle Scholar
Woolnough, S.J., Allen, J.R.L. and Wood, W.L. 1995. ‘An exploratory numerical model of sediment deposition over tidal salt marshes’, Estuarine Coastal and Shelf Science, 41, 515–43CrossRefGoogle Scholar
Wright, E.V. and Churchill, D.M. 1965. ‘The boats of North Ferriby, Yorkshire, England’, Proc. Prehist. Soc., 31, 124CrossRefGoogle Scholar