Abstract
The Weald is a denuded anticlinorium with many landscapes of sufficiently high scenic value to qualify as ‘Areas of Outstanding Natural Beauty ’ and even to form part of a National Park . This chapter begins by focusing on the anticlinal structure formed over the period Late Cretaceous to Mid-Tertiary, the unroofing of which has revealed four main concentric geological outcrops, each of which has produced a range of differing terrains which combine to form ‘the Weald’. Time is spent describing each outcrop zone, beginning with the Chalk rim which is often taken for granted, but is actually surprisingly varied. Next comes the ‘Greensand belt’, where spatial changes in thickness and composition have major influences on topography, ranging from low hummocky terrain to three of the highest cuestas in the Weald; then the Weald Clay/Low Weald which is only flat in some areas; culminating with the Central Weald, a picturesque, well-wooded upland of sandstones and clays, terminated in the east by the sea coast and cut into steep-sided stream valleys. Overall, it is a young landscape, predominantly shaped during the Pleistocene , with great contrasts, such as the high peaks of the west contrasting with the extensive flat plain of Romney Marsh in the east; or the well-wooded Central Weald contrasting with the sometimes virtually treeless South Downs .
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Notes
- 1.
OD means Ordnance Datum and refers to the absolute elevation above the sea level, as measured at Newlyn on the south coast of Cornwall.
References
Allen P (1959) The wealden environment: Anglo-Paris Basin. Phil Trans Royal Soc London B242:283–346
Amedro F, Robaszynski F (1987) Influences eustatiques et contrộle tectonique de la sedimentation dans la partie moyenne du Crétacé du Nord de la France. Mémoires geologiques de l’Universté de Dijon 11:57–66
Anderton R, Bridges PH, Leeder MR, Bentley BW (1979) A dynamic stratigraphy of the British Isles: a study of crustal evolution. George Allen and Unwin, London, p 301
Battiau-Queney Y (1999) Crustal anisotropy and differential uplift: their role in long-term landform development. In: Smith BJ, Whalley WB, Warke PA (eds) Uplift, erosion and stability: perspectives on long-term landscape development. Geol Soc London, Spec Publ 162:65–74
Bird ECF (1963) Denudation of the Weald Clay vale in West Kent. Proc Geol Assoc 74:445–455
Burrin PJ, Jones DKC (1991) Environmental processes and fluvial responses in a small temperate zone catchment: a case study of the Sussex Ouse Valley, England. In: Starkel LS, Gregory KJ, Thornes JB (eds) Temperate paleohydrology. Wiley, Chichester, pp 217–252
Bury H (1910) On the denudation of the western end of the Weald. Quart J Geol Soc London 66:640–692
Catt JA (1977) Loess and coversands. In: Shotton FW (ed) British Quaternary studies. Oxford University Press, Oxford, pp 222–229
Chadwick RA (1993) Aspects of basin inversion in southern Britain. J Geol Soc London 150:311–322
Colbeaux JP, Dupuis C, Robaszynski F, Auffret JP, Haesaerts P, Somme J (1980) Le Detroit du Pas de Calais: un elémént dans la tectonique de L’Europe Nord- Occidentale. Bull Inf Geol du Bassin de Paris 17:41–54
Davis WM (1895) On the origin of certain English rivers. Geogr J 5:128–146
Duggleby JC, Argherinos PJ, Powderham AJ (1991) Channel Tunnel foundation engineering at the UK Portal. In: Proceedings of the IVth international conference on piling and deep foundations, Stresa, Italy
Edwards RA, Freshney EC (1987) The geology of the country around Southampton. Memoir of the Geological Survey, Sheet 135 (England and Wales)
Foster CLN, Topley W (1865) On the superficial deposits of the valley of the Medway. Quart J Geol Soc London 21:443–474
Funnell BM (1995) Global sea-level and the (pen-)insularity of late Cenozoic Britain. In: Preece RC (ed) Island Britain: a quaternary perspective. Geol Soc London, Spec Publ 96:3–13
Gallois RW (1965) The Wealden district. Mem Geol Survey UK, HMSO, London, p 101
Gibbard PL, Lewin J (2003) The history of the major rivers of southern Britain during the Tertiary. J Geol Soc London 160:829–845
Gordon P, Shakesby RA (1973) Study of the valley in-fill, Rake Bottom, Butser Hill. South Hampshire Geogr 5:10–20
Green CP (1974) The summit surface of the Wessex Chalk. In: Brown EH, Waters RS (eds) Progress in geomorphology. Inst Brit Geogr Spec Publ 7:127–138
Green CP (1985) Pre-quaternary weathering residues, sediments and landform development: examples from southern Britain. In: Richards KS, Arnett RR, Ellis S (eds) Geomorphology and soils. George Allen & Unwin, London, pp 56–77
Greenwood G (1857) Rain and Rivers. London, p 195
Griffiths JS, Brunsden D, Lee EM, Jones DKC (1995) Geomorphological investigations for the Channel Tunnel terminal and portal. Geogr J 161:275–284
Gupta S, Collier JS, Palmer-Felgate A, Potter G (2007) Catastrophic flooding origin of shelf valley systems in the English channel. Nature 446(7151):342–345
Gupta S, Collier JS, Garcia-Moreno D, Oggioni F, Trentesaux A, Vanneste K, De Batist M, Camelbeeck T, Potter G, Van Vliet-Lanoe B, Arthur JCR (2017), Two-stage opening of the Dover Strait and the origin of Island Britain. Nature Comm 8:15101
Hutchinson JN (1969) A reconsideration of the coastal landslides at Folkestone Warren, Kent. Geotechnique 19:6–38
Hutchinson JN, Bromhead EN, Lupini JF (1980) Additional observations on the Folkestone Warren landslides. Quart J Eng Geol 13:1–31
Hutchinson JN, Poole C, Lambert N, Bromhead EN (1985) Combined archaeological and geotechnical investigations of the Roman fort at Lympne, Kent. Brittania 16:209–236
John DT (1980) The soils and superficial deposits of the North Downs. In: Jones DKC (ed) The shaping of Southern England. Inst Brit Geogr Spec Publ 11:101–130
Jones DKC (1974) The influence of the Calabrian Transgression on the drainage evolution of south-east England. In: Brown EH, Waters RS (eds) Progress in geomorphology. Inst Brit Geogr Spec Publ 7:139–174
Jones DKC (1980) The Tertiary evolution of South-East England with particular reference to the Weald. In: Jones DKC (ed) The Shaping of Southern England. Inst Brit Geogr Spec Publ 11:13–47
Jones DKC (1981) The Geomorphology of the British Isles: southeast and southern England. Methuen, London, p 322
Jones DKC (1999a) Evolving models of the Tertiary evolutionary geomorphology of southern England, with special reference to the Chalklands. In: Smith BJ, Whalley WB, Warke PA (eds) Uplift, erosion and stability: perspectives on long-term landscape development. Geol Soc London, Spec Publ 162:1–23
Jones DKC (1999b) On the uplift and denudation of the Weald In: Smith BJ, Whalley WB, Warke PA (eds) Uplift, erosion and stability: perspectives on long-term landscape development. Geol Soc London, Spec Publ 162:25–43
Jones DKC, Lee EM (1994) Landsliding in Great Britain. Department of the Environment, HMSO, London, p 361
Kaye-Smith S (1953) The Weald of Kent and Sussex. Robert Hale, London, p 232
Kerney MP, Brown EH, Chandler TJ (1964) The Late-glacial and post glacial history of the Chalk escarpment near Brook, Kent. Phil Trans Royal Soc London B248:135–204
King C (1981) The stratigraphy of the London Clay. Tertiary Research Special Paper 6, Backhuys, Rotterdam
Kirkaldy JF, Bull AJ (1940) The geomorphology of the rivers of the southern Weald. Proc Geol Assoc 51:115–150
Lewis WV (1932) The formation of Dungeness foreland. Geogr J 80:309–324
Long AJ, Waller MP, Plater AJ (2006) Coastal resilience and late Holocene tidal inlet history: the evolution of Dungeness Foreland and the Romney Marsh depositional complex (U.K.). Geomorphology 82:309–330
Linton DL (1932) The origin of the Wessex Rivers. Scot Geogr Mag 48:149–166
Linton DL (1956) The Sussex rivers. Geography 41:233–247
Lyell C (1833) Principles of geology. John Murray, London, p 346
Martin PJ (1828) A geological memoir of part of Western Sussex. London, p 135
Mortimore RN (2018) Late Cretaceous tectono-sedimentary events in NW Europe. Proc Geol Assoc 129:392–420
Mortimore RN, Pomerol B (1987) Correlation of the Upper Cretaceous White Chalk (Turonian and Campanian) in the Anglo-Paris Basin. Proc Geol Assoc 98:97–143
Piper DJW (1971) Pleistocene superficial deposits, Balcombe area, Central Weald. Geol Mag 108:517–523
Prestwich J (1852) On the structure of the strata between the London Clay and the Chalk in the London and Hampshire Tertiary systems. Quart J Geol Soc London 8:235–264
Rackham O (1976) Trees and woodland in the British landscape. Dent, London, p 234
Rackham O (1985) Ancient woodland and hedges in England. In: Woodell RSJ (ed) The English landscape: past, present and future. Oxford University Press, Oxford, pp 68–105
Rippon S (2002) Romney Marsh: evolution of the historic landscape and its wider significance. In: Long A, Hipkin S, Clark H (eds) Romney Marsh: Coastal and landscape change through the ages, OUSA Monograph 56:84–100
Shennan I, Milne G, Bradley SL (2009) Late Holocene relative land- and sea-level changes. GSA Today 19:52–53
Shephard-Thorn ER (1975) The Quaternary of the Weald—a review. Proc Geol Assoc 86:537–547
Skempton AW, Weeks AG (1976) The Quaternary history of the Lower Greensand escarpment and Weald Clay vale near Sevenoaks, Kent. Phil Trans Royal Soc London A283:493–526
Small RJ (1958) The origin of Rake Bottom, Butser Hill. Proc Hampshire Field Club 21:22–30
Small RJ (1970) The study of landforms. Cambridge University Press, Cambridge, p 486
Smith AJ (1989) The English Channel—by geological design or catastrophic accident? Proc Geol Assoc 100:325–337
Stamp LD (1921) On the beds at the base of the Ypresian (London Clay) in the Anglo-Franco-Belgian Basin. Proc Geol Assoc 32:57–108
Stamp LD (1927) The Thames drainage system and the age of the Strait of Dover. Geogr J 70:386–390
Topley W (1875) The geology of the Weald. Memoir of the Geological Survey, London, p 503
Whitaker W (1867) On sub-aerial denudation. Geol Mag 23:447–483
Whiteman CA, Haggart BA (2018) Chalk landforms of Southern England and Quaternary landscape development. Proc Geol Assoc. https://doi.org/10.1016/j.pgeola.2018.05.002
Williams RBG (1971) Aspects of the geomorphology of the South Downs. In: Williams RBG (ed) Guide to Sussex Excursions, Institute of British Geographers Conference, University of Sussex, pp 35–42
Wooldridge SW (1927) The Pliocene period in the London Basin. Proc Geol Assoc 39:49–132
Wooldridge SW, Goldring F (1953) The Weald. Collins, London, p 276
Wooldridge SW, Linton DL (1939) Structure, surface and drainage in South-East England. Inst Brit Geogr, Publ 10:124
Wooldridge SW, Linton DL (1955) Structure, surface and drainage in South-East England. Philip, London, p 176
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Jones, D.K.C. (2020). The Weald. In: Goudie, A., Migoń, P. (eds) Landscapes and Landforms of England and Wales. World Geomorphological Landscapes. Springer, Cham. https://doi.org/10.1007/978-3-030-38957-4_5
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