Hostname: page-component-78c5997874-xbtfd Total loading time: 0 Render date: 2024-11-03T05:18:48.719Z Has data issue: false hasContentIssue false
  • English
  • Français

The soil clays of Great Britain: I. England and Wales

Published online by Cambridge University Press:  09 July 2018

P. J. Loveland
P. J. Loveland*
Affiliation:
Soil Survey of England and Wales, Rothamsted Experimental Station, Harpenden, Hertfordshire AL5 2JQ
Get access Rights & Permissions [Opens in a new window]

Abstract

The mineralogy of the clay fractions (<2 µm) of the major soils of England and Wales is reviewed, and the data presented in terms of the 1:250 000 National Soil Map. Most soils developed in pre-Rhaetic sediments are dominated by mica with lesser amounts of chlorite and kaolin. Exceptions are soils developed in calcareous Coal Measure shales which have significant smectite contents, and freely drained soils in Keuper Marl which contain swelling chlorite, sepiolite and palygorskite. Soils developed in post-Triassic sediments are dominated generally by expansible minerals, except for those developed in Lower Lias and Estuarine Series rocks (Jurassic) which are dominated by mica and kaolin respectively. The presence of loess in soils seems to be associated with the occurrence of a complex interstratified mineral with X-ray diffraction properties akin to vermiculite. Weathering of soil clays is most marked in the wetter uplands, but over most of lowland England is detectable only by slight changes in non-exchangeable potassium content and cation-exchange capacity towards the soil surface. Applications of soil clay mineralogy in the fields of plant nutrition and soil mechanics are discussed, in particular the production of maps showing mineralogical provinces.

Type
Research Article
Information
Clay Minerals , Volume 19 , Issue 5 , December 1984 , pp. 681 - 707
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1984

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

Abdulla, H.H. (1966) A study of the development of podzol profiles in the Dovey Forest. PhD thesis, Univ. Wales (Aberystwyth), UK.Google Scholar
Adams, W.A. (1974) Pedogenesis of soils derived from Lower Palaeozoic sediments in mid-Wales. Reports of the Welsh Soils Discussion Group 15, 6169. Google Scholar
Adams, W.A. (1976) Experimental evidence on the origin of vermiculite in soils on Lower Palaeozoic sediments. Soil Sci. Soc. Am. J. 40, 793796.CrossRefGoogle Scholar
Adams, W.A. & Kassim, J.K. (1983) The origin of vermiculite in soils developed from Lower Palaeozoic sedimentary rocks in mid-Wales. Soil Sci. Soc. Am. J. 47, 316320.CrossRefGoogle Scholar
Adams, W.A., Evans, L.J. & Abdulla, H. (1971) Quantitative pedological studies on soils derived from silurian mudstones, III: Laboratory and in situ weathering in chlorite. J. Soil Sci. 22, 158165.CrossRefGoogle Scholar
Ahmad, N. (1957) A pedological study of the soils of the University farm with reference to the development of morphological features associated with impeded drainage. PhD thesis, Univ. Nottingham, UK.Google Scholar
Akamigbo, F.O.R. (1976) Lessivage: the identification and laboratory simulation of the results of clay translocation in the B horizons of soils in the Reading area. PhD thesis, Univ. Reading, UK.Google Scholar
Ali, M.A. (1964) A comparative study of arable, permanent grass and associated forest, slope soils on Ordovician and Silurian parent materials in mid-Wales, with special reference to soil moisture relationships andgley-phenomena. MSc thesis, Univ. Wales (Bangor), UK.Google Scholar
Ali, M.A. (1964) A comparative study of arable, permanent grass and associated forest, slope soils on Ordovician and Silurian parent materials in mid-Wales, with special reference to soil moisture relationships andgley-phenomena. MSc thesis, Univ. Wales (Bangor), UK.Google Scholar
Aanold, P.W. & Close, B.M. (1961) Release of non-exchangeable potassium from some British soils cropped in the glasshouse. J. Agric. Sci. 57, 295304.CrossRefGoogle Scholar
Avery, B.W. (1964) The soils and land use of the district around Aylesbury and Hemel Hempstead. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Avery, B.W. (1980) Soil Classification in England and Wales: Higher Categories. Technical Monograph of the Soil Survey No. 14, Harpenden, UK.Google Scholar
Avery, B.W. & Bullock, P. (1977) Mineralogy of clayey soils in relation to soil classification. Soil Survey Technical Monograph 10, pp. 64, Harpenden, UK.Google Scholar
Avery, B.W., Stephen, I., Brown, G. & Yaalon, D.H. (1959) The origin and development of Brown Earths on Clay-with-Flints and Coombe deposits. J. Soil Sci. 10, 177195.CrossRefGoogle Scholar
Avery, B.W., Bullock, P., Catt, J.A., Rayner, J.H. & Weir, A.H. (1982) Composition and origin of some Brickearths on the Chiltern Hills, England. Catena 9, 153174.CrossRefGoogle Scholar
Avery, B.W., Bullock, P., Catt, J.A., Newman, A.C.D., Rayner, J.H. & Weir, A.H. (1972) The soil of Barnfield. Pp. 537 in: Rothamsted Experimental Station, Report for 1971, part 2. Harpenden, UK.Google Scholar
Babiker, I.A. (1960) Studies on some profiles on Millstone Grit and Limestone till soils. MSc thesis, Nottingham, UK.Google Scholar
Bajwa, M.I. (1971) Investigation of clay minerals in relation to soil micromorphology. MSc thesis, Univ. Wales (Bangor), UK.Google Scholar
Ball, D.F. (1963) The soils and land use of the district around Bangor and Beaumaris. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Ball, D.F. (1966) Chlorite clay minerals in pumice-tuff and derived soils in Snowdonia. Clay Miner. 6, 195210.CrossRefGoogle Scholar
Bastow, A.D. (1968) Chlorite clay minerals in some Snowdonian soils. MSc thesis, Univ. Wales (Bangor), UK.Google Scholar
Bower, R.P. (1970) Trace elements and pedogenesis of podzols in North Wales: detailed studies of three selected profiles. PhD thesis, Univ. Wales (Bangor), UK.Google Scholar
Bridges, E.M. (1966) The soils and land use of the district north of Derby. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Brown, G. (1953) The occurrence of lepidocrocite in some British soils. J. Soil Sci. 4, 220228.CrossRefGoogle Scholar
Brown, G., Catt, J.A. & Weir, A.H. (1969) Zeolites of the clinoptilolite-heulandite type in sediments of south-east England. Mineral. Mag. 37, 480488.CrossRefGoogle Scholar
Bryan, R.B. (1971) The efficiency of aggregation indices in the comparison of some English and Canadian soils. J. Soil Sci. 22, 166178.CrossRefGoogle Scholar
Bullock, P. (1964) A study of the origin and development of soils over Carboniferous Limestone in the Malham district of Yorkshire. MSc thesis, Univ. Leeds, UK.Google Scholar
Bullock, P. & Loveland, P.J. (1974) Mineralogical Analysis. Pp. 5769 in: Soil Survey Laboratory Methods (Avery, B.W. & Bascomb, C.L., editors). Soil Survey Technical Monograph No. 6, Harpenden, UK.Google Scholar
Burnett, A.D. & Fookes, P.G. (1974) A regional engineering geological study of the London Clay in the London and Hampshire Basins. Q. J. Engng. Geol. 7, 257295.CrossRefGoogle Scholar
Carroll, D., Hartnup, R. & Jarvis, R.A. (1979) Soils of South and West Yorkshire. Bulletin of the Soil Survey of Great Britain No. 7, Harpenden, UK.Google Scholar
Catt, J.A. (1969) The origin and development of the [Broadbalk] soils. Pp. 8993 in: Rothamsted Experimental Station, Report for 1968, part 2. Harpenden, UK.Google Scholar
Catt, J.A. (1977) Loess and Coversands. Pp. 221229 in: British Quaternary Studies (Shotton, F. W., editor). Oxford University Press, Oxford, UK.Google Scholar
Catt, J.A. (1979). Soils and Quaternary geology in Britain. J. Soil Sci. 30, 607642.CrossRefGoogle Scholar
Catt, J.A. & Staines, S.J. (1982) Loess in Cornwall. Proc. Ussher Soc. 5, 368375.Google Scholar
Catt, J.A., Corbett, W.M., Hodge, C.A.H., Madgett, P.A., Tatler, W. & Weir, A.H. (1971) Loess in the soils of north Norfolk. J. Soil Sci. 22, 444452.CrossRefGoogle Scholar
Chartres, C.J. (1975) Soil development on the terraees of the River Kennett. PhD thesis, Univ. Reading, UK.Google Scholar
Chaudry, M.S. (1967) The potassium fixing and releasing powers of the clay and silt fractions in some British and Pakistani soils. PhD thesis, Univ. Newcastle, UK.Google Scholar
Clayden, B. (1964) Soils of the Middle Teign Valley district of Devon. Bulletin of the Soil Survey of Great Britain No. 1, Harpenden, UK.Google Scholar
Clayden, D. (1971) Soils of the Exeter District. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Clayden, B. & Hollis, J.M. (1984) Criteria for differentiating soil series. Soil Survey Technical Monograph No. 17, Harpenden, UK.Google Scholar
Conway, J.S. (1980) The nature of void surfaces in soils of the Salop and related series. PhD. thesis, Univ. Wales (Bangor), UK.Google Scholar
Coombe, D.E., Frost, L.C., Le Bas, M. & Watters, W. (1956) The nature and origin of the soils over the Cornish serpentine. J. Ecol. 44, 605615.CrossRefGoogle Scholar
Cope, D.W. (1976) Soils in Wiltshire I: Sheet SU03 (Wilton). Soil Survey Record No. 32, pp. 166174, Harpenden, UK.Google Scholar
Coulthard, J.M. (1975) Petrology of weathered Lower Lias clays. PhD thesis, Univ. Aston, UK.Google Scholar
Crampton, C.B. (1972) Soils of the Vale of Glamorgan. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Crompton, E. (1966) The soils of the Preston district of Lancashire. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Crompton, A. & Matthews, B. (1970) Soils of the Leeds district. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Crowther, E.M. (1930) The relationship of climatic and geological factors to the composition of soil clay and distribution of soil types. Proc. Roy. Soc. (Ser. B) 197, 130.Google Scholar
Davies, B.E. (1963) Soils developed on Silurian Shales and leys on them, with special reference to potassium, magnesium, and trace elements. PhD thesis, Univ. Wales (Bangor), UK.Google Scholar
Driscoll, R. (1983) The influence of vegetation on the swelling and shrinking of clay soils in Britain. Geotechnique 32, 93106.CrossRefGoogle Scholar
Dumbleton, M.J. & West, G. (1966) Studies of the Keuper Marl: Mineralogy. Road Research Laboratory Report No. 40, Ministry of Transport, Crowthorne, UK.Google Scholar
Evans, L.J. (1972) Mineralogical changes in Lower Palaeozoic mudstones during pedogenesis in mid-Wales. Reports of the Welsh Soils Discussion Group 13, 91105.Google Scholar
Evans, L.J. (1973) Clay mineral alteration and elemental redistribution during pedogenesis in mid-Wales. PhD thesis, Univ. Wales (Aberystwyth), UK.Google Scholar
Evans, L.J. & Adams, W.A. (1975a) Quantitative pedological studies on soils derived from Silurian mudstones, V: Redistribution and loss of mobilized constituents. J. Soil Sci. 26, 327335.CrossRefGoogle Scholar
Evans, L.J. & Adams, W.A. (1975b) Chlorite and illlite in some lower Palaeozoic mudstones in mid-Wales. Clay Miner. 10, 387398.CrossRefGoogle Scholar
Findlay, D.C. (1965) The soils ofthe Mendip district of Somerset. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Findlay, D.C. (1976) Soils of the southern Cotswolds. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Findlay, D.C., Colborne, G.J.W. Cope, D.W., Harrod, T.R., Hogan, D.V. & Staines, S.J. (1984) Soils and their use in South-West England. Bulletin of the Soil Survey of Great Britain No. 14, Harpenden, UK.Google Scholar
Gilkes, R.J. (1968) Clay mineral provinces in the Tertiary sediments of the Hampshire Basin. Clay Miner. 7, 351362.CrossRefGoogle Scholar
Glentworth, R. & Dion, H.G. (1949) The association or hydrologic sequence in certain soils of the podzolic zone of North-East Scotland. J. Soil Sci. 1, 3549.CrossRefGoogle Scholar
Goulding, K.W.T. (1981) Potassium retention and release in Rothamsted and Saxmundham soils. J. Sci. Food Agric. 32, 667670.CrossRefGoogle Scholar
Greene-Kelly, R. (1974) Shrinkage of clay soils: a statistical correlation with other soil properties. Geoderma. 11, 243257.CrossRefGoogle Scholar
Greenland, D.J. (1977) Soil damage by intensive arable cultivation: temporary or permanent. Phil. Trans. R. Soc. Lond. B 281, 193208.Google Scholar
Hall, A.D. & Russell, E.J. (1911) Soil surveys and soil analyses. J. Agric. Sci. 4, 182223.CrossRefGoogle Scholar
Hamblin, A.P. (1977) Factors determining the structural stability of East Anglian soils of high silt content. PhD thesis, Univ. Reading, UK.Google Scholar
Harrod, T.R., Catt, J.A. & Weir, A.H. (1973) Loess in Devon. Proc. Ussher Soc. 2, 554564.Google Scholar
Hatton, A.A. (1978) Deep alteration in the Whin Sill, northern England. MSc thesis, Univ. Wales (Bangor), UK.Google Scholar
Hodge, C.A.H. & Seale, R.A. (1966) The soils of the district around Cambridge. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Hodgson, J.M., Catt, J.A. & Weir, A.H. (1967) The origin and development of clay-with-flints and associated soil horizons on the South Downs. J. Soil Sci. 18, 85102.CrossRefGoogle Scholar
Hollis, J.M. (1975) Soils in Staffordshire I: Sheet SK05 (Onecote). Soil Survey Record No. 29, Harpenden, UK.Google Scholar
Hornung, M. (1968) The morphology, mineralogy and genesis of soils on the Moor House national nature reserve. PhD. thesis, Univ. Durham, UK.Google Scholar
Hornung, M. & Hatton, A.A. (1974) Deep weathering in the Great Whin Sill, northern England. Proc. Yorks. Geol. Soc. 40, 105114.CrossRefGoogle Scholar
Jarvis, M.G., Allen, R.H., Fordham, S.J., Hazelden, J., Moffatt, A.L & Sturdy, R. (1984) Soils and their use in South East England. Bulletin of the Soil Survey of Great Britain 15, Harpenden, UK.Google Scholar
Jeans, C.V. (1968) The origin of the montmorillonite of the European Chalk with special reference to the Lower Chalk of England. Clay Miner. 7, 311330.CrossRefGoogle Scholar
Jones, A.A. & Greenland, D.J. (1980) Quantitative determination of the interlamellar volume in an interstratified mica-smectite soil clay. Clay Miner. 15, 175191.CrossRefGoogle Scholar
Jones, O.T. & Pugh, W.J. (1935) The geology of the districts around Machynlleth and Aberystwyth. Proc. Geol. Assoc. 46, 247300.CrossRefGoogle Scholar
Kerney, M.P. (1963) Late glacial deposits on the Chalk of south-east England. Phil. Trans. Roy. Soc. B 246, 203254.Google Scholar
Khan, D.H. (1957) A pedological study of some red and brown soils on limestone. PhD thesis, Univ. London, UK.Google Scholar
Livesey, N.T. (1964) The physical and chemical behaviour of clay in some North Wales soils, especially in relation to potassium. PhD thesis, Univ. Wales (Bangor), UK.Google Scholar
Loveday, J. (1958) A study of the soils and their relation to landscape form in the southern Chilterns. PhD thesis, Univ. London, UK.Google Scholar
Loveday, J. (I962) Plateau deposits of the southern Chiltern Hills. Proc. Geol. Assoc. 73, 83102.CrossRefGoogle Scholar
Loveland, P.J. (1978) An investigation into the nature and genesis of some glaueonitie soils in central southern England. PhD thesis, Univ. London, UK.Google Scholar
Loveland, P.J. (1981) Weathering of a soil glauconite in southern England. Geoderma 25, 3554.CrossRefGoogle Scholar
Loveland, P.J. & Bullock, P. (1975) Crystalline and amorphous components of the clay fractions in brown podzolic soils. Clay Miner. 10, 451469.Google Scholar
Loveland, P.J. & Bullock, P. (1976) Chemical and mineralogical properties of brown podzolic soils in comparison with soils of other groups. J. Soil Sci. 27, 523540.CrossRefGoogle Scholar
Loveland, P.J. & Findlay, D.C. (1982) Composition and development of some soils on glauconitic Cretaceous (Upper Greensand) rocks in southern England. J. Soil Sci. 33, 279294.CrossRefGoogle Scholar
Luna, C.Z. (1959) Fertility of upland soils in relation to mineralogy and nutrient status. MSc thesis. Univ. Wales (Bangor), UK.Google Scholar
Mackney, D. & Burnham, C.P. (1966) The soils of the Church Stretton district of Shropshire. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Madgett, P.A. (1974) The mineralogy and weathering of Devensian tills in eastern England. PhD thesis, Univ. London, UK.Google Scholar
Madgett, P.A. & Catt, J.A. (1978) Petrography, stratigraphy and weathering of Late Pleistocene tills in East Yorkshire, Lincolnshire and north Norfolk. Proc. Yorks. Geol. Soc. 42, 55108.CrossRefGoogle Scholar
Majumdar, N.N. (1963) A study of the pedological processes involved in the development of soils from dolomitie limestones and their relation to those of calcie limestones. PhD thesis, Univ. Leeds, UK.Google Scholar
McRae, S.G. (1971) Some studies on glauconite in soils with special reference to selected soils in southeast England. PhD thesis, Univ. London, UK.Google Scholar
McRae, S.G. (1975a) The presence of indigenous glauconite in soils and its effect on soil fertility I. Soils developed on sandy drift (Barming series). J. Agric. Sci. 84, 137141.CrossRefGoogle Scholar
McRae, S.G. (1975b) The presence of indigenous glauconite in soils and its effect on soil fertility II. Soils developed on Gault Clay (Denchworth series). J. Agric. Sci. 84, 143147.CrossRefGoogle Scholar
McRae, S.G. & Lambert, J.L.M. (1968) A study of some glauconites from Cretaceous and Tertiary formations in south-east England. Clay Miner. 7, 431440.CrossRefGoogle Scholar
Morgan-Jones, M. (1977) Mineralogy of the non-carbonate material from the Chalk of Berkshire and Oxfordshire. Clay Miner. 12, 331344.CrossRefGoogle Scholar
Nagelschmidt, G. (1939) The identification of minerals in soil colloids. J. Agric. Sci. 29, 477501.CrossRefGoogle Scholar
Nagelschmidt, G. (1944) The mineralogy of soil colloids. Imperial Bureau of Soil Science, Technical Communication No. 42, Harpenden, UK.Google Scholar
Newman, A.C.D. (1983) The specific surface of soils determined by water sorption. J. Soil Sci. 34, 2332.CrossRefGoogle Scholar
Pahm, K.E. (1967) Studies of the potassium Status of some limestone and Chalk soils. MSc thesis, Univ. Nottingham, UK.Google Scholar
Page, E.R. (1979) The effect of poly (vinyl alcohol) on the crust strength of silty soils. J. Soil Sci. 30, 643 651.CrossRefGoogle Scholar
Perrin, R.M.S. (1956) The clay mineralogy of some tills in the Cambridge district. Clay Miner. 3, 193205.CrossRefGoogle Scholar
Perrin, R.M,S. (1964) Analysis of calcareous materials. Pp. 208221 in: Society for the Chemical Industry, Monograph 18. London, UK.Google Scholar
Perrin, R.M.S., Davies, H. & Fysh, M.D. (1974) Distribution of Late Pleistocene aeolian deposits in eastern and southern England. Nature 248, 320–3.CrossRefGoogle Scholar
Perry, R. (1971) Caesium adsorption studies on the clay fraction of a Suffolk soil. PhD thesis, Univ. Manchester, UK.Google Scholar
Piggott, C.D. (1962) The phenomenon of adsorption in its relation to soils, J. Agric. Sci. 8, 111130.Google Scholar
Pitman, J.I. (1978) Chemistry and mineralogy of some Lower and Middle Chalks from Givendale, East Yorkshire. Clay Miner. 13, 93100.CrossRefGoogle Scholar
Prescott, J.A. (1916) The phenomenon of adsorption in its relation to soils. J. Agric. Sci. 8, 111130.CrossRefGoogle Scholar
Qureshi, R.H. (1969) The distribution of some nutrient elements within soil fabric. PhD thesis, Univ. Wales (Bangor), UK.Google Scholar
Ragg, J.M., Beard, G.R., George, H., Heaven, F.W., Hollis, J.M., Jones, R.J.A., Palmer, R.C., Reeve, M.J., Robson, J.D. & Whitfield, W.A.D. (1984) Soils and their use in Midland and Western England. Bulletin of the Soil Survey of Great Britain No. 12, Harpenden, UK.Google Scholar
Reeve, M.J., Hall, D.G.M. & Bullock, P. (1980) The effect of soil composition and environmental factors on the shrinkage of some clayey British soils. J. Soil Sci. 31, 429442.CrossRefGoogle Scholar
Rimmer, D.L. & Greenland, D.J. (1976) Effects of calcium carbonate on the swelling behaviour of a soil clay. J. Soil Sci. 27, 129139.CrossRefGoogle Scholar
Roberts, E. (1958) The county of Anglesey: soils and agriculture. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Rowell, D.L. & Dillon, P.J. (1972) Migration and aggregation of Na and Ca clays by the freezing of dispersed and flocculated suspensions. J. Soil Sci. 23, 442447.CrossRefGoogle Scholar
Rudeforth, C.C. (1970) Soils of north Cardiganshire. Memoir of the Soil Survey of Great Britain, Harpenden, UK.Google Scholar
Rudeforth, C.C., Hartnup, R., Lea, J.W., Thompson, T.R.E. & Wright, P.S. (1984) Soils in Wales and their use. Bulletin of the Soil Survey of Great Britain No. 11, Harpenden, UK.Google Scholar
Sabine, P.A., Young, B.R. & Dangerfield, J. (1963) Brickearth and Clay-with-Flints from Kent. Clay Miner. 5, 248253.CrossRefGoogle Scholar
Schofield, R.K. (1940) Clay mineral structures and their physical significance. Trans. Brit. Ceram. Soc. 39, 147161.Google Scholar
Searl, P.L. (1968) A study of some Northumbrian boulder clays and their associated soils. PhD thesis, Univ. Newcastle, UK.Google Scholar
Soil Survey of England and Wales (1983) Soil Map of England and Wales, Scale 1:250 000. Harpenden, UK.Google Scholar
Spoor, G., Leeds-Harrison, P.B. & Godwin, R.J. (1982) Potential role of soil density and clay mineralogy in assessing the suitability of soils for mole drainage. J. Soil Sci. 33, 427441.CrossRefGoogle Scholar
Staines, S.J. (1984) Soils in Cornwall III: Sheets SW 61, 62, 71 and 72 (The Lizard). Soil Survey Record No. 79, Harpenden, UK.Google Scholar
Stephen, I. (1951) A study of rock weathering with reference to the soils of the Malvern Hills. PhD thesis, Univ. London, UK.Google Scholar
Stephen, I. (1952a) A study of rock weathering with reference to the soils of the Malvern Hills. Part 1: Weathering of biotitite and granite. J. Soil Sci. 3, 2033.CrossRefGoogle Scholar
Stephen, I. (1952b) A study of rock weathering with reference to the soils of the Malvern Hills II. Weathering of appinite and ‘ivy-scar’ rock. J. Soil Sci. 2, 219237.CrossRefGoogle Scholar
Storrier, R.R. (1958) An investigation into the Ironstone and related soils in the Banbury district, Oxfordshire. PhD thesis, Univ. London, UK.Google Scholar
Storrier, R.R. & Muir, A. (1962) The characteristics and genesis of a ferritic brown earth. J. Soil Sci. 13, 259270.CrossRefGoogle Scholar
Sturdy, R.G., Allen, R.H., Bullock, P., Catt, J.A. & Greenfield, S. (1979) Palaeosols developed on Chalky Boulder Clay in Essex. J. Soil Sci. 30, 117137.CrossRefGoogle Scholar
Talibudeen, O. & Weir, A.H. (1972) Potassium reserves in a ‘Harwell’ Series soil. J. Soil Sci. 23, 456474.CrossRefGoogle Scholar
Valentine, K.W.G. (1973) The identification, lateral variation and chronology of three buried palaeocatenas in Lowland England. PhD thesis, Univ. Reading, UK.Google Scholar
Waters, R.S. (1964) The Pleistocene legacy to the geomorphology of Dartmoor. In: Dartmoor Essays. Devon Association for the Advancement of Science.Google Scholar
Weir, A.H. & Catt, J.A. (1965) The mineralogy of some Upper Chalk samples from the Arundel area, Sussex. Clay Miner. 6, 97110.CrossRefGoogle Scholar
Weir, A.H. & Catt, J.A. (1969) The mineralogy of the Palaeogene sediments in northeast Kent. Sediment. Geol. 3, 1723.CrossRefGoogle Scholar
Weir, A.H. & Rayner, J.H. (1974) An interstratified illitesmectite from Denchworth Series soil in weathered Oxford Clay. Clay Miner. 10, 173187.CrossRefGoogle Scholar
Weir, A.H., Catt, J.A. & Ormerod, E.C. (1969) The mineralogy of Broadbalk soils. Pp. 8189 in: Rothamsted Experimental Station, Report for 1968, part 2, Harpenden, U.K.Google Scholar
Weir, A.J., Catt, J.A. & Madgett, P. (1971) Postglacial soil formation in the loess of Pegwell Bay, Kent (England). Geoderma, 5, 131149.CrossRefGoogle Scholar
Whitfield, W.A.D. & Beard, G.R. (1980) Soils in Warwickshire IV: Sheet SP29/39 (Nuneaton). Soil Survey Record No. 32, Harpenden, UK.Google Scholar
Young, B.R. (1965) Xray examination of insoluble residues from the Chalk of the Leatherhead (Fetcham Mill) Borehole. Bull. Geol. Surv. G.B. 23, 110.Google Scholar
Zelazny, L.W. & Calhoun, F.G. (1977) Palygorskite (Attapulgite), Sepiolite, Talc, Pyrophyllite and Zeolites. Pp. 435470 in: Minerals in Soil Environments (Dixon, J. B. & Weed, S. B., editors). Soil Science Society of America, Madison, Wisconsin, USA.Google Scholar