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doi:10.1017/9781107340817.061

Bibliography

Published online by Cambridge University Press: 04 July 2020

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Type: Chapter
Information: British Plant Communities , pp. 275 - 283

DOI: https://doi.org/10.1017/9781107340817.061 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 1995

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References

Adam, P. (1976). Plant sociology and habitat factors in British saltmarshes. Cambridge University: PhD thesis.Google Scholar

Adam, P. (1978). Geographical variation in British saltmarsh vegetation. Journal of Ecology 66, 339–66.CrossRef Google Scholar

Adam, P. (1981). The vegetation of British saltmarshes. New Phytologist 88, 143–96.CrossRef Google Scholar

Adam, P., Birks, H.J.B., Huntley, B. & Prentice, I.C. (1975). Phytosociological studies at Malham Tarn moss and fen, Yorkshire, England. Vegetatio 30, 117–32.Google Scholar

Adam, P., Birks, H.J.B. & Huntley, B. (1977). Plant communities of the Island of Arran, Scotland. New Phytologist 79, 689–712.Google Scholar

Alcock, M.R. & Palmer, M.A. (1985). A standard method for the survey of ditch vegetation. Peterborough: Nature Conservancy Council.Google Scholar

Allorge, P. (1921-2). Les associations végétales du Vexin français. Revue générale Botanique, 33 & 34.Google Scholar

Anon. (1978). Coypu. Report of the Coypu Strategy Group. London: Ministry of Agriculture, Fisheries and Food.Google Scholar

Avery, B.W. (1980). Soil Classification for England and Wales (Higher Categories). Soil Survey Technical Monograph No. 14. Harpenden: Soil Survey of England and Wales.Google Scholar

Bellamy, D.J. & Rose, F. (1961). The Waveney-Ouse valley fens of the Suffolk-Norfolk border. Transactions of the Suffolk Naturalists’ Society 11, 367–85.Google Scholar

Birkinshaw, C. (1991). Derwent Ings ditch vegetation survey. Peterborough: England Field Unit Project Report No. 47.Google Scholar

Birks, H.J.B. (1969). The Late-Weichselian and present vegetation of the Isle of Skye. Cambridge University: PhD thesis.Google Scholar

Birks, H.J.B. (1973). The Past and Present Vegetation of the Isle of Skye: A Palaeoecological Study. Cambridge: Cambridge University Press.Google Scholar

Birse, E.L. (1980). Plant Communities of Scotland: A Preliminary Phytocoenonia. Aberdeen: Macaulay Institute for Soil Research.Google Scholar

Birse, E.L. (1984). Phytocoenonia of Scotland: Additions and Revisions. Aberdeen: Macaulay Institute for Soil Research.Google Scholar

Birse, E.L. & Robertson, J.S. (1976). Plant Communities and Soils of the Lowland and Southern Upland Regions of Scotland. Aberdeen: Macaulay Institute for Soil Research.Google Scholar

Bittman, E. (1953). Das Schilf. Angewandte Pflanzensoziologie, 7.Google Scholar

Björk, S. (1963). Chromosome geography and ecology of Phragmites communis. Södra Sveriges Fiskeriförening, 1961-2, 111.Google Scholar

Björk, S. (1967). Ecological investigations of Phragmites communis: studies in theoretic and applied limnology. Folia Limnologica Scandinavica 14, 1–248.Google Scholar

Bolos, A. & Bolos, O. (1950). Vegetation de las comarcas Barcelonesas. Barcelona.Google Scholar

Boorman, L.A. & Fuller, R.M. (1981). The changing status of reedswamp in the Norfolk Broads. Journal of Applied Ecology 18, 241–70.CrossRef Google Scholar

Bradshaw, M.E. & Jones, A.V. (1976). Phytosociology in Upper Teesdale. Durham: Durham University Department of Extra-Mural Studies.Google Scholar

Braun Blanquet, J. (1928). Pflanzensoziologie. Grundzüge der Vegetationskunde. Berlin: Springer.Google Scholar

Braun-Blanquet, J. (1952). Les groupements végétaux de la France méditerranéenne. Montpellier: SIGMA.Google Scholar

Braun-Blanquet, J. & Tüxen, R. (1952). Irische Pflanzengesellschaften. Veröffentlichungen des Geobotanischen Institutes Rübel in Zürich 25, 224–415.Google Scholar

Bridgewater, P. (1970). Phytosociology and community boundaries of the British heath formation. Durham University: PhD thesis.Google Scholar

Briggs, M. (1977). Elodea nuttallii. B.S.B.I. News 15, 9–10.Google Scholar

Butcher, R.W. (1927). A preliminary account of the vegetation of the river Itchen. Journal of Ecology 15, 55.Google Scholar

Butcher, R.W. (1933). Studies on the ecology of rivers. I. On the distribution of macrophytic vegetation in the rivers of Britain. Journal of Ecology 21, 58–91.Google Scholar

Butcher, R.W. (1960). Notes on water buttercups. Naturalist 85, 123–5.Google Scholar

Buttery, B.R. (1959). An investigation into the competition between Glyceria maxima (Hartm.) Holmb. and Phragmites communis Trim, in the region of Surlingham Broad, Norfolk. Southampton University: PhD thesis.Google Scholar

Buttery, B.R. & Lambert, J.M. (1965). Competition between Glyceria maxima and Phragmites communis in the region of Surlingham Broad. I. The competition mechanism. Journal of Ecology 53, 163–82.CrossRef Google Scholar

Camden, (1586). Britannia.Google Scholar

Casey, H. & Downing, A. (1976). Levels of inorganic nutrients in Ranunculus penicillatus var. calcareus in relation to water chemistry. Aquatic Botany 2, 75–9.Google Scholar

Chapman, V.J. (1960a). Salt Marshes and Salt Deserts of the World. London: Leonard Hill.Google Scholar

Charman, K. (1981). A botanical survey of ditches in selected areas of the North Kent Marshes. Peterborough: England Field Unit Project Report No. 14.Google Scholar

Clapham, A.R. (1940). The role of bryophytes in the calcareous fens of the Oxford district. Journal of Ecology 38, 71–80.Google Scholar

Clapham, A.R., Tutin, T.G. & Warburg, E.F. (1962). Flora of the British Isles, 2nd edition. Cambridge: Cambridge University Press.Google Scholar

Clatworthy, J.N. & Harper, J.L. (1962). The comparative biology of closely related species living in the same area. V. Inter- and intraspecific interference within cultures of Lemna spp. and Salvinia natans. Journal of Experimental Botany 13, 307–24.CrossRef Google Scholar

Clement, E.J. (1979). More about Crassula helmsii. B.S.B.I. News 23, 12–13.Google Scholar

Clements, F.E. (1916). Plant Succession. Washington: Carnegie Institute.Google Scholar

Clements, F.E. (1928). Plant Succession and Plant Indicators. Washington: Carnegie Institute.Google Scholar

Conolly, A.P. & Dahl, E. (1970). Maximum summer temperature in relation to the modern and Quaternary distributions of certain arctic-montane species in the British Isles. In Studies in the Vegetational History of the British Isles, ed. Walker, D. & West, R.G., pp. 159-224. Cambridge: Cambridge University Press.Google Scholar

Conway, V.M. (1936a). Studies in the Autecology of Cladium mariscus R. Br. I. Structure and development. New Phytologist 35, 177–204.CrossRef Google Scholar

Conway, V.M. (1937a). Studies in the Autecology of Cladium mariscus R. Br. III. The aeration of the subterranean parts of the plant. New Phytologist 36, 64–96.Google Scholar

Conway, V.M. (1937b). Studies in the Autecology of Cladium mariscus R. Br. IV. Growth rates of the leaves. New Phytologist 36, 254–78.Google Scholar

Conway, V.M. (1938). Studies in the Autecology of Cladium mariscus R. Br. V. The Distribution of the species. New Phytologist 37, 312–28.Google Scholar

Conway, V.M. (1942). Biological Flora of the British Isles: Cladium mariscus (L). R. Br. Journal of Ecology 30, 211–16.Google Scholar

Cook, C.D.K. (1961). Sparganium in Britain. Watsonia 5, 1–10.Google Scholar

Cook, C.D.K. (1966). A monographic study of Ranunculus subgenus Batrachium (DC) A. Gray. Mitteilungen aus der Botanischen Staatssammlung, München 6, 47–237.Google Scholar

Corley, M.F.V. & Hill, M.O. (1981). Distribution of Bryophytes in the British Isles. Cardiff: British Bryological Society.Google Scholar

Curtis, W. (1777). Flora Londinensis, Volume 1. London.Google Scholar

Dahl, E. (1956). Rondane: mountain vegetation in south Norway and its relation to the environment. Oslo: Aschehoug.Google Scholar

Dahl, E. (1968). Analytical Key to British Macrolichens, 2nd edition. London: British Lichen Society.Google Scholar

Dahl, E. & Hadač, E. (1941). Strandgesellschaften der Insel Ostoy in Oslofjord. Eine pflanzensoziologische Studie. Nytt Magasin for Naturvidenskapene B 82, 251–312.Google Scholar

Dahl, O. (1934). Floraen i Finnmark Fylke. Nytt Magasin for Naturvidenskapene, 69.Google Scholar

Daniels, R.E. (1978). Floristic analyses of British mires and mire communities. Journal of Ecology 66, 773–803.Google Scholar

Dawson, F.H. (1978). Aquatic plant management in semi-natural streams: the role of marginal vegetation. Journal of Environmental Management 6, 213–21.Google Scholar

DeFilipps, R.A. (1980). Scirpus L. In Flora Europaea, Volume 5, ed. Tutin, T.G. et al., pp. 277-80. Cambridge: Cambridge University Press.Google Scholar

de Lange, L. (1972). An ecological study of ditch vegetation in The Nederlands. University of Amsterdam: PhD thesis.Google Scholar

den Hartog, C. (1963). Einige waterplanten-gemeenschappen in Zeeland. Gorteria 1, 155–64.Google Scholar

den Hartog, C. & Segal, S. (1964). A new classification of the waterplant communities. Acta Botanica Neerlandica 13, 367–93.CrossRef Google Scholar

Dierssen, K. (1975). Littorelletea uniflorae Br.-Bl. & Tx. 1943. In Prodromus der Europäischen Pflanzengesellschaften, Part 2, ed. Tüxen, R.. Vaduz: Cramer.Google Scholar

Doarks, C. (1980). Botanical survey of marsh dykes in Broadland. Norwich: Broads Authority.Google Scholar

Doarks, C. (1990). Changes in the flora of grazing marsh dykes in Broadland, between 1972-74 and 1988-89. Peterborough: England Field Unit Project Report No. 76.2.Google Scholar

Doarks, C. & Leach, S. (1990). A classification of grazing marsh dyke vegetation in Broadland. Peterborough: England Field Unit Project Report No. 76.5.Google Scholar

Doarks, C., Leach, S., Storer, J., Reid, S., Newlands, C. & Kennison, G. (1990). An atlas of the flora of grazing marsh dykes in Broadland. Peterborough: England Field Unit Project Report No. 76.4.Google Scholar

Doarks, C. & Storer, J. (1990). A botanical survey and evaluation of grazing marsh dyke systems in Broadland, 1988-89. Peterborough: England Field Unit Project Report No. 76.3.Google Scholar

Duffey, E. (1965). Spiders of the Broads. In The Broads, ed. Ellis, E.A., pp. 171-8. London: Collins.Google Scholar

Duffey, E. (1968). Ecological studies on the Large Copper Butterfly Lycaena dispar Haw. batavus Obth. at Woodwalton Fen National Nature Reserve, Huntingdonshire. Journal of Applied Ecology 5, 69–96.Google Scholar

Duffey, E. (1971). The management of Woodwalton Fen: the multi-disciplinary approach. In The Scientific Management of Animal and Plant Communities for Conservation, ed. Duffey, E. & Watt, A.S., pp. 581-97. Oxford: Blackwell.Google Scholar

Du Rietz, G.E. (1930). Classification and nomenclature of vegetation. Svensk botanisker Tidsskrift, 24.Google Scholar

Dykyjovâ, D. (1978a). Intraspecific and clonal variability and its importance for production estimates. In Pond Littoral Ecosystems, ed. Dykyjovâ, D. & Kvet, J., pp. 159-63. Berlin: Springer-Verlag.Google Scholar

Dykyjovâ, D. (19786). Nutrient uptake by littoral communities of helophytes. In Pond Littoral Ecosystems, ed. Dykyjovâ, D. & Kvet, J., pp. 257-77. Berlin: Springer-Verlag.Google Scholar

Edwards, R.W. & Owens, M. (1960). The effects of plants on river conditions. I: Summer crops and estimates of net productivity of macrophytes in a chalk stream. Journal of Ecology 48, 151–60.Google Scholar

Ellenberg, H. (1978). Vegetation Mitteleuropas mit den Alpen, 2 Auflage. Stuttgart: Ulmer.Google Scholar

Ellis, E.A. (1963). Some effects of selective feeding by the coypu (Myocaster coypus) on the vegetation of Broadland. Transactions of the Norfolk and Norwich Naturalisas Society 20, 32–5.Google Scholar

Ellis, E.A. (1965). The Broads. London: Collins.Google Scholar

Fiala, K. (1976). Underground organs of Phragmites communis (Cav.) Trin. ex Steudel, their growth, biomass and net production. Folia Geobotanica et Phytotaxonomica Bohemoslovaka 11, 225–59.Google Scholar

Fiala, K. (1978). Seasonal development of helophyte polycormones and relationship between underground and aboveground organs. In Pond Littoral Ecosystems, ed. Dykyjovâ, D. & Kvet, J., pp. 174-81. Berlin: Springer-Verlag.Google Scholar

Fiala, K. & Kvet, J. (1971). Dynamic balance between plant species in South Moravian reedswamps. In The Scientific Management of Animal and Plant Communities for Conservation, ed. Duffey, E. & Watt, A.S., pp. 241-69. Oxford: Blackwell Scientific Publications.Google Scholar

Fuller, R.J. (1982). Bird Habitats in Britain. Calton: T. & A.D. Poyser.Google Scholar

Gay, J. (1863). Voyage botanique au Caernarvonshire. Bulletin, Société botanique de France 10, 270–329.Google Scholar

Géhu, J.-M. (1961). Les groupements végétaux du Bassin de la Sambre Française. Vegetatio 10, 69–148, 161-209 & 257-372.Google Scholar

Giller, K.E. (1982). Aspects of the ecology of a flood-plain mire in Broadland. University of Sheffield: PhD thesis.Google Scholar

Gillham, M.E. (1957a). Vegetation of the Exe estuary in relation to water salinity. Journal of Ecology 45, 735–56.Google Scholar

Gimingham, C.H. (1964a). Maritime and sub-maritime communities. In The Vegetation of Scotland, ed. Burnett, J.H., pp. 66-142. Edinburgh: Oliver and Boyd.Google Scholar

Glading, P. (1980). A botanical survey of ditches on the Pevensey Levels. Peterborough: England Field Unit Project Report No. 25.Google Scholar

Godwin, H. (1923). Dispersal of pond floras. Journal of Ecology 11, 160–4.Google Scholar

Godwin, H. (1929). The sedge and litter of Wicken Fen. Journal of Ecology 17, 148–60.Google Scholar

Godwin, H. (1931). Studies in the ecology of Wicken Fen. I The ground water-level of the Fen. Journal of Ecology 19, 449–73.Google Scholar

Godwin, H. (1936). Studies in the ecology of Wicken Fen. III. The establishment and development of Fen scrub (Carr). Journal of Ecology 24, 82–116.Google Scholar

Godwin, H. (1941). Studies in the ecology of Wicken Fen. IV. Crop-taking experiments. Journal of Ecology 29, 83–106.Google Scholar

Godwin, H. (1943b). Biological Flora of the British Isles: Frangula alnus Miller. Journal of Ecology 31, 77–92.Google Scholar

Godwin, H. (1975). The History of the British Flora, 2nd edition. Cambridge: Cambridge University Press.Google Scholar

Godwin, H. (1978). Fenland: its Ancient Past and Uncertain Future. Cambridge: Cambridge University Press.Google Scholar

Godwin, H. & Bharucha, F.R. (1932). Studies in the ecology of Wicken Fen. II. The Fen water-table and its control of plant communities. Journal of Ecology 20, 157–91.Google Scholar

Godwin, H. & Clifford, M.H. (1938). Studies of the post-glacial history of British vegetation. I. Origin and stratigraphy of fenland deposits near Woodwalton, Hunts. II. Origin and stratigraphy of deposits in southern Fenland. Philosophical Transactions of the Royal Society of London B 229, 323–406.Google Scholar

Godwin, H. & Tansley, A.G. (1929). The Vegetation of Wicken Fen. In The Natural History of Wicken Fen, Part V, pp. 387-446. Cambridge: Bowes & Bowes.Google Scholar

Godwin, H. & Turner, J.S. (1933). Soil acidity in relation to vegetational succession in Calthorpe Broad, Norfolk. Journal of Ecology 21, 235–62.Google Scholar

Godwin, H., Clowes, D.R. & Huntley, B. (1974). Studies in the ecology of Wicken Fen. V. Development of fen carr. Journal of Ecology 62, 197–214.Google Scholar

Gosling, L.M. (1974). The coypu in East Anglia. Transactions of the Norfolk and Norwich Naturalists Society 23, 49–59.Google Scholar

Gosling, L.M. (1975a). Retrospective censusing and short term prediction of the coypu population in East Anglia, England. Second Report of the Working Party on Field Rodents. E.P.P.O. Publication Series C, 37, 21–3.Google Scholar

Gosling, L.M. (1975b). A preliminary account of the population ecology of the coypu population in East Angia, England. Second Report of the Working Party on Field Rodents. E.P.P.O. Publication Series C 37, 24–7.Google Scholar

Gosling, L.M. (1979). The twenty-four hour activity cycle of captive coypus (Myocaster coypus). Journal of Zoology, London 187, 341–67.Google Scholar

Goulder, R. & Boatman, D.J. (1971). Evidence that nitrogen supply influences the distribution of a freshwater macrophyte, Ceratophyllum demer sum. Journal of Ecology 59, 783–91.Google Scholar

Gradstein, S.R. & Smittenburg, J.H. (1977). The hydrophilous vegetation of Western Crete. Vegetatio 34, 65–86.Google Scholar

Graham, G.G. (1988). The Flora and Vegetation of County Durham. Sunderland: The Durham Flora Committee and the Durham County Conservation Trust.Google Scholar

Grose, D. (1957). The Flora of Wiltshire. Devizes: Wiltshire Archaeological and Natural History Society.Google Scholar

Harper, J.L. (1961). Approaches to the study of plant competition. Symposia of the Society of Experimental Botany 15, 1–39.Google Scholar

Haslam, S.M. (1965). Ecological studies in Breck fens. I. Vegetation in relation to habitat. Journal of Ecology 53, 599–619.Google Scholar

Haslam, S.M. (1969a). Stem types of Phragmites communis Trin. Annals of Botany N.S. 33, 127–31.Google Scholar

Haslam, S.M. (1969b). The development and emergence of buds in Phragmites communis Trin. Annals of Botany N.S. 33, 289–301.Google Scholar

Haslam, S.M. (1969c). The development of shoots in Phragmites communis Trin. Annals of Botany N.S. 33, 695–709.Google Scholar

Haslam, S.M. (1970a). Variation of population type in Phragmites communis Trin. Annals of Botany N.S. 34, 147–58.Google Scholar

Haslam, S.M. (1970b). The development of the annual population in Phragmites communis Trin. Annals of Botany N.S., 34, 571-91.Google Scholar

Haslam, S.M. (1970c). The performance of Phragmites communis Trin. in relation to water supply. Annals of Botany N.S. 34, 867–77.CrossRef Google Scholar

Haslam, S.M. (197la). Community regulation in Phragmites communis Trin. I. Monodominant stands. Journal of Ecology 59, 65–73.Google Scholar

Haslam, S.M. (1971b). Community regulation in Phragmites communis Trin. II. Mixed stands. Journal of Ecology 59, 75–88.Google Scholar

Haslam, S.M. (1971c). The development and establishment of young plants of Phragmites communis Trin. Annals of Botany 35, 1059–72.Google Scholar

Haslam, S.M. (1972a). Biological Flora of the British Isles: Phragmites communis Trin. Journal of Ecology 60, 585–610.Google Scholar

Haslam, S.M. (1972b). The Reed, Phragmites communis Trin. In The Reed (‘Norfolk Reed’), pp. 3-48. Ipswich: Norfolk Reed Growers’ Association.Google Scholar

Haslam, S.M. (1973). Some aspects of the life history and autecology of Phragmites communis Trin. Polski archiwum hydrohiologii 20, 79–100.Google Scholar

Haslam, S.M. (1978). River Plants. Cambridge: Cambridge University Press.Google Scholar

Haslam, S.M. (1982). Vegetation in British Rivers. Peterborough: Nature Conservancy Council.Google Scholar

Haslam, S.M. & Wolseley, P.A. (1981). River Vegetation: Its Identification, Assessment and Management. Cambridge: Cambridge University Press.Google Scholar

Heslop-Harrison, Y. (1955a). Biological Flora of the British Isles: Nuphar lutea (L.) Sm. Journal of Ecology 43, 344–55.Google Scholar

Heslop-Harrison, Y. (1955c). Biological Flora of the British Isles: Nuphar × intermedia Ledeb. Journal of Ecology 43, 360–4.Google Scholar

Heslop-Harrison, Y. (1955d). Biological Flora of the British Isles: Nymphaea alba L. Journal of Ecology 43, 722–34.Google Scholar

Hewett, D.G. (1964). Biological Flora of the British Isles: Menyanthes trifoliata L. Journal of Ecology 52, 723–35.Google Scholar

Hill, M.O. (1979). TWINSPAN-a FORTRAN program for arranging multivariate data in an ordered two-way table by classification of the individuals and attributes. Ithaca, NY: Cornell University.Google Scholar

Hill, M.O., Bunce, R.G.H. & Shaw, M.W. (1975). Indicator Species Analysis, a divisive polythetic method of classification and its application to a survey of native pinewoods in Scotland. Journal of Ecology 63, 597–613.CrossRef Google Scholar

Holdgate, M.W. (1955b). The vegetation of some British upland fens. Journal of Ecology 43, 389–403.CrossRef Google Scholar

Holmboe, J. (1914). Studies on the Vegetation of Cyprus. Bergen.Google Scholar

Holmes, N.T.H. (1979). A Guide to Identification of Batrachium Ranunculus species of Britain. London: Nature Conservancy Council, CST Notes.Google Scholar

Holmes, N.T.H. (1980). Ranunculuspencillatus (Dumort.) Bab. in the British Isles. Watsonia 13, 57–9.Google Scholar

Holmes, N.T.H. (1983). Typing British rivers according to their flora. Focus on Nature Conservation, 4. Shrewsbury: Nature Conservancy Council.Google Scholar

Holmes, N.T.H., Lloyd, E.J.H., Potts, M. & Whitton, B.A. (1972). Plants of the River Tyne and future water transfer scheme. Vasculum 53, 56–78.Google Scholar

Holmes, N.T.H. & Whitton, B.A. (1977a). The macrophytic vegetation of the River Tees in 1975: observed and predicted changes. Freshwater Biology 7, 43–60.Google Scholar

Holmes, N.T.H. & Whitton, B.A. (1977b). Macrophytes of the River Weaver 1966-76. Naturalist 102, 53–73.Google Scholar

Hubbard, C.E. (1984). Grasses, 3rd edition. London: Penguin Books.Google Scholar

Hudec, K. (1973). Die Nahrung des Graugans, Anser anser in Südmähren. Zoologicke Listy 22, 41–58.Google Scholar

Hueck, K. (1931). Erlauterung zur vegetationskundelichen Karte der Lebauehrung (Ostpommern). Beiträge zur Naturdenkmalpflege 14, 107–214.Google Scholar

Huntley, B., Huntley, J.P. & Birks, H.J.B. (1981). PHYTOPAK: a suite of computer programs designed for the handling and analysis of phytosociological data. Vegetatio 45, 85–95.Google Scholar

Hürlimann, H. (1951). Zur Lebensgeschichte des Schilfs an den Ufern der Schweizer Seen. Beiträge zur Geobotanischen Landesaufnahme der Schweiz 30, 1–232.Google Scholar

Ingram, H.A.P., Anderson, M.C., Andrews, S.M., Chinery, J.M., Evans, G.B. & Richards, C.M. (1959). Vegetation studies at Semerwater. The Naturalist, 113-27.Google Scholar

Ingram, H.A.P., Barclay, A.M., Coupar, A.M., Glover, J.G., Lynch, B.M. & Sprent, J.I. (1980). Phragmites performance in reed beds in the Tay estuary. Proceedings of the Royal Society of Edinburgh B, 78, s89-107.Google Scholar

Iverson, J.S. (1949). Determinations of specific gravity of the roots of swamp, meadow and dry-soil plants. Oikos 1, 1–5.Google Scholar

Ivimey-Cook, R.B. & Proctor, M.C.F. (1966). The plant communities of the Burren, Co. Clare Proceedings of the Royal Irish Academy B 64, 211–301.Google Scholar

Ivimey-Cook, R.B., Proctor, M.C.F. & Rowland, D.M. (1975). Analysis of the plant communities of a heathland site: Aylesbeare Common, Devon, England. Vegetatio 31, 33–45.Google Scholar

Jennings, J.N. & Lambert, J. (1951). Alluvial stratigraphy and vegetational succession in the region of the Bure valley broads. I. Surface features and general stratigraphy. Journal of Ecology 39, 106–19.Google Scholar

Jermy, A.C. & Crabbe, J. A. (1978). The Island of Mull. London: British Museum (Natural History).Google Scholar

Jermy, A.C., Arnold, H.R., Farrell, L. & Perring, F.H. (1978). Atlas of Ferns of the British Isles. London: Botanical Society of the British Isles and British Pteridological Society.Google Scholar

Jermy, A.C., Chater, A.O. & David, R.W. (1982). Sedges of the British Isles. BSBI Handbook No. 1: a new edition. London: Botanical Society of the British Isles.Google Scholar

Jermy, A.C., James, P.W. & Eddy, A. (1978). Terrestrial ecosystems. In The Island of Mull: A Survey of its Flora and Environment, ed. Jermy, A.C. & Crabbe, J.A.. London: British Museum (Natural History).Google Scholar

Jeschke, L. (1959). Pflanzengesellschaften einiger Seen bei Fledberg in Mecklenburg. Beihefte zum Repertorium specierum novarum regni vegetabilis 138, 161–214.Google Scholar

Jonas, F. (1933). Der Hammrich. Beihefte zum Repertorium specierum novarum regni vegetabilis, 71.Google Scholar

Klötzli, F. (1971). Biogenous influence on aquatic macrophytes, especially Phragmites communis. Hydrobiologica 12, 107–11.Google Scholar

Klötzli, F. & Grünig, A. (1976). Seeufervegetation als Bioindikator: zur Reaktion Belasteter Seeufervegetation. Daten und Dokumente zum Umweltschutz 19, 109–31.Google Scholar

Koch, W. (1926). Die Vegetationseinheiten der Linthebene unter Berücksichtigung der Verhältnisse in der Nordost Schweiz. Jahrbuch der St Gallischen naturwissenschaftlichen Gesellschaft, 61, 1-144.Google Scholar

Koch, W. (1954). Pflanzensoziologische Skizzen aus dem Reisfeldgebieten des Piemonts (Po-Ebene). Vegetatio 6, 487–93.Google Scholar

Korneck, D. (1963). Die Pfeifengraswiesen und ihre wichtigsten Kontaktgesellschaften in der nördlichen Oberrheinbene und im Schweinfurther Trockengebiet. III. Kontaktgesellschaften. Beiträge zur naturkundlichen Forschung in Südwestdeutschland 22, 19–44.Google Scholar

Krausch, H.D. (1964). Die Pflanzengesellschaften des Stechlinsee Gebietes. II. Röchricht und Grossegengesellschaften. Limnologica 2, 423–82.Google Scholar

Lambert, J.M. (1946). The distribution and status of Glyceria maxima (Hartm.) Holmb. in the region of Surlingham and Rockland Broads, Norfolk. Journal of Ecology 33, 230–67.Google Scholar

Lambert, J.M. (1947a). A note on the physiognomy of Glyceria maxima reedswamps in Norfolk. Transactions of the Norfolk and Norwich Naturalists Society 16, 246–59.Google Scholar

Lambert, J.M. (1947b). Glyceria maxima (Hartm.) Holmb. - effect of drought on flowering. Botanical Exchange Club Report 1945 13, 41.Google Scholar

Lambert, J.M. (1947c). Biological Flora of the British Isles: Glyceria maxima (Hartm.). Holmb. Journal of Ecology 34, 310–44.Google Scholar

Lambert, J.M. (1948). A survey of the Rockland-Claxton level, Norfolk. Journal of Ecology 26, 120–35.Google Scholar

Lambert, J.M. (1951). Alluvial stratigraphy and vegetational succession in the region of the Bure Valley Broads. III. Classification status and distribution of communities. Journal of Ecology 39, 149–70.Google Scholar

Lambert, J.M. (1965). The Vegetation of Broadland. In The Broads, ed. Ellis, E.A., pp. 69-92. London: Collins.Google Scholar

Lambert, J.M. & Jennings, J.N. (1951). Alluvial stratigraphy and vegetational succession in the region of the Bure Valley Broads. II. Detailed vegetation-stratigraphical relationships. Journal of Ecology 39, 120–48.Google Scholar

Lambert, J.M. & Jennings, J.N. (1965). Appendix A: Maps. In The Broads, ed. Ellis, E.A., pp. 268-311. London: Collins.Google Scholar

Lang, G. (1967). Die Ufervegetation des westlichen Bodensees. Archiv für Hydrobiologie, Supplement 32, 439–74.Google Scholar

Leach, S. & Doarks, C. (1991). A botanical survey of ditches on coastal grazing marshes in Essex and Suffolk. Peterborough: England Field Unit Project Report No. 49.Google Scholar

Leach, S., Doarks, C., Reid, S. & Newlands, C. (1991). A botanical survey of ditches on Exminster Marshes SSSI, Devon. Peterborough: England Field Unit Project Report No. 78.Google Scholar

Leach, S. & Reid, S. (1989). A botanical survey of grazing marsh ditch systems on the North Norfolk coast. Peterborough: England Field Unit Project Report No. 77.Google Scholar

LeBrun, J., Noirfalise, A., Heinemann, P. & vanden Berghen, C. (1949). Les Associations végétales de Belgique. Centre de Recherches écologiques et phytosociologiques de Gembloux, Communication No 8, 105-207.Google Scholar

Lee, J. A. (1977). The vegetation of British inland salt marshes. Journal of Ecology 65, 673–98.Google Scholar

Lemée, G. (1937). Recherches écologiques sur la végétation du Perche. Revue Générale de Botanique, 49.Google Scholar

Leslie, A.C. & Walters, S.M. (1983). The occurrence of Lemna minuscula Herter in the British Isles. Watsonia 14, 243–8.Google Scholar

Lewis-Jones, L.J. & Kay, Q.O.N. (1977). Nature in Wales 15, 180–3.Google Scholar

Libbert, W. (1932). Die Vegetationseinheiten der neumärksichen Staubeckenlandschaft unter Berücksichtigung der angrenzenden Landschaften. Verhandlungen des Botanischen Vereins der Provinz Brandenburg 74, 10–93 & 229-348.Google Scholar

Lind, E.M. (1949). The history and vegetation of some Cheshire meres. Memoirs of the Proceedings of the Manchester Literary and Philosophical Society 90, 17–36.Google Scholar

Lock, J.M. & Rodwell, J.S. (1981). Observations on the Vegetation of Crag Lough, Northumberland. A Report to the National Trust. Unpublished manuscript.Google Scholar

Lohammar, G. (1965). The Vegetation of Swedish Lakes. Acta Phytogeographica Suecica 50, 1–314.Google Scholar

Lousley, J.E. & Kent, D.H. (1981). Docks and Knotweeds of the British Isles. London: Botanical Society of the British Isles.Google Scholar

Lund, J.W.G. (1979). The mystery of Elodea Michx in Great Britain. Watsonia 12, 338.Google Scholar

Malloch, A.J.C. (1970). Analytical studies of cliff-top vegetation in south-west England. Cambridge University: PhD thesis.Google Scholar

Malloch, A.J.C. (1988). VESPAN II. Lancaster: University of Lancaster.Google Scholar

Manton, I. (1950). Problems of Cytology and Evolution in Pteridophyta. Cambridge: Cambridge University Press.Google Scholar

Marshall, W. (1852). Excessive and noxious increase of Udora canadensis. Phytologist 4, 705–15.Google Scholar

Mason, C.F. & Bryant, R.J. (1975). Production, nutrient content and decomposition of Phragmites communis and Typha angustifolia. Journal of Ecology 63, 71–96.Google Scholar

Matthews, J.R. (1914). The White Moss Loch: a study in biotic succession. New Phytologist 13, 134–48.Google Scholar

Matthews, J.R. (1955). Origin and Distribution of the British Flora. London: Hutchinson.Google Scholar

McDougall, D.S.A. (1972). Marsh management of reed and sedge production. In The Reed (‘Norfolk Reed’), pp. 49-57. Ipswich: Norfolk Reedgrowers’ Association.Google Scholar

McVean, & Ratcliffe, (1962). Plant Communities of the Scottish Highlands. London: HMSO.Google Scholar

Meres Report (1980). Survey of Shropshire, Cheshire and Staffordshire meres. Banbury: Nature Conservancy Council England Field Unit.Google Scholar

Messenger, G. (1971). Flora of Rutland. Leicester: Leicester Museums.Google Scholar

Messikommer, E. (1928). Verlandungerscheinung und Sukzessionen im Gebiete des Pfuffikersees. Schinz, Festschrift H., Vierteljahrsschrift der Naturforschenden Gesellschaft in Zürich, 73.Google Scholar

Misra, R.S. (1938). Edaphic factors in the distribution of plants in the English Lakes. Journal of Ecology 26, 411–51.Google Scholar

Miyawaki, A. & Tüxen, J. (1960). Über Lemnetea-Gesellschaften in Europa und Japan. Mitteilungen der Florist-soziologischen Arbeitsgemeinschaft, N.F. 8, 127-36.Google Scholar

Molinier, R. (1948). La végétation des rives de l’Etang de Berre (Bouches-du-Rhône). Bulletin Société linnéenne de Provence 16, 19.Google Scholar

Mook, J.H. & van der Toorn, J. (1982). The influence of environmental factors and management on stands of Phragmites australis. II. Effects of yield and its relationship with shoot density. Journal of Applied Ecology 19, 501–18.CrossRef Google Scholar

Moore, J.J. (1962). The Braun-Blanquet System: a reassessment. Journal of Ecology 50, 761–9.Google Scholar

Moss, B. (1978). The ecological history of a medieval man-made lake, Hickling Broad, Norfolk. Hydrobiologia 60, 23–32.Google Scholar

Moss, B., Forrest, D.E. & Phillips, G. (1979). Eutrophication and palaeolimnology of two small medieval man-made lakes. Archiv für Hydrobiologie 85, 409–25.Google Scholar

Müller, T. & Gors, S. (1960). Pflanzengesellschaften stehender Gewässer in Baden-Württemberg. Beiträge zur naturkundlichen Forschung in Südwestdeutschland 19, 60–100.Google Scholar

National Trust (1947). A Guide to Wicken Fen. London: The National Trust.Google Scholar

Neumann, A. (1957). Carex aquatilis Wg. auch in Deutschland. Mitteilungen der Florist-soziologischen Arbeitsgemeinschaft, N.F. 6/7, 172-82.Google Scholar

Newbold, D. & Palmer, M.A. (1979). Trophic adaptations of aquatic plants. Chief Scientist’s Team Notes, 18. London: Nature Conservancy Council.Google Scholar

Nordhagen, R. (1943). Sikilsdalen og Norges Fjellbeiter. Bergens Museums Skrifter 22. Bergen: Griegs.Google Scholar

Oberdorfer, E. (1957). Süddeutsche Pflanzengesellschaften. Pflanzensoziologie 10, 1–564.Google Scholar

Oberdorfer, E. (1977). Süddeutsche Pflanzengesellschaften. Teil I. Stuttgart: Fischer.Google Scholar

Ogilvie, M.A. (1978). Wild Geese. Berkhamsted: T. & A.D. Poyser.Google Scholar

Ostenfeld, C.H. (1908). The Land-Vegetation of the Faeröes. In Botany of the Faeröes 3, 867-1026.Google Scholar

Owens, M. & Edwards, R.W. (1961). The effects of plants on river conditions. II. Further crop studies and estimates of net productivity of macrophytes in a chalk stream. Journal of Ecology 49, 119–26.Google Scholar

Owens, M. & Edwards, R.W. (1962). The effects of plants on river conditions. III. Crop studies and estimates of net productivity in four streams in southern England. Journal of Ecology 50, 157–62.Google Scholar

Packham, J.R. & Liddle, M.J. (1970). The Cefni saltmarsh, Anglesey, and its recent development. Field Studies 3, 331–56.Google Scholar

Page, C.N. (1982a). Ferns. London: Collins.Google Scholar

Page, C.N. (1982b). The Ferns of Britain and Ireland. Cambridge: Cambridge University Press.Google Scholar

Pallis, M. (1911). The river valleys of East Norfolk: their aquatic and fen formations. In Types of British Vegetation, ed. Tansley, A.G., pp. 214-45. Cambridge: Cambridge University Press.Google Scholar

Palmer, M. (1989). A botanical classification of standing waters in Great Britain. Peterborough: Nature Conservancy Council.Google Scholar

Palmer, M. (1991). A summary of the work of the England Field Unit, 1979 to 1991. Peterborough: England Field Unit Project Report No. 139.Google Scholar

Palmer, M. (1992). A botanical classification of standing waters, in Great Britain, 2nd edition. Peterborough: Joint Native Conservation Committee.Google Scholar

Palmer, M.A., Bell, S.L. & Buttefield, I. (1992). A botanical classification of standing waters in Britain: applications for conservation and monitoring. Aquatic Conservation: Marine and Freshwater Ecosystems 2, 125–43.Google Scholar

Passarge, H. (1964). Pflanzengesellschaften des nordostdeutschen Flachlandes. I. Pflanzensoziologie (Jena) 13, 1–324.Google Scholar

Pazourková, Z. (1973). Caryology of some forms of Phragmites communis Trin. In Ecosystem Study of Wetland Biome in Czechoslovakia, ed. Hejny, S., pp. 147-9. Trebon: Czechoslovakia IBP/PT-PP.Google Scholar

Pearsall, W.H. (1918). The aquatic and marsh vegetation of Esthwaite Water. Journal of Ecology 5, 53–74.Google Scholar

Pearsall, W.H. (1921). The aquatic vegetation of the English Lakes. Journal of Ecology 8, 163–201.Google Scholar

Perring, F.H. (1968). Critical Supplement to the Atlas of the British Flora. London: Nelson.Google Scholar

Perring, F.H. & Farrell, L. (1977). British Red Data Books 1: Vascular Plants. Nettleham: Society for the Promotion of Nature Conservation.Google Scholar

Perring, F.H. & Walters, S.M. (1962). Atlas of the British Flora. London and Edinburgh: Nelson. Peterborough: England Field Unit Project Report No. 49.Google Scholar

Petersen, A. (1949). Die Gräser als Kulturpflanzen und Unkräuter auf Wiese, Wiede und Acker, 2nd edition. Berlin: Akademie-Verlag.Google Scholar

Pevensey Levels Survey (1986). A botanical survey of ditches on the Pevensey Levels. Peterborough: Nature Conservancy Council.Google Scholar

Pfeiffer, H.H. (1961). Soziologische Stellung, Gesellschafthaushalt und Entwicklung des gefährdeten Cladietum marisci. Beihefte zum Repertorium speciorum novar um regni vegetabili 139, 250–62.Google Scholar

Phillips, G.L. (1977). The mineral nutrient levels in three Norfolk Broads differing in trophic status, and an annual mineral content budget for one of them. Journal of Ecology 65, 447–74.Google Scholar

Phillips, G.L., Eminson, D.F. & Moss, B. (1978). A mechanism to account for macrophyte decline in progressively eutrophicated freshwater. Aquatic Botany 4, 103–26.Google Scholar

Pignatti, S. (1953). Introduzione allo studio fitosociologico della pianure Veneta orientale. Atti dell’ Instituto botanico della Universitá e Laboratorio. Crittogamico Pavia serie 5.9, 92-258.Google Scholar

Pigott, C.D. (1977). The scientific basis of practical conservation: aims and methods of conservation. Proceedings of the Royal Society of London B 197, 59–68.Google Scholar

Pigott, C.D. (1982). The experimental study of vegetation. New Phytologist 90, 389–404.Google Scholar

Pigott, C.D. (1984). The flora and vegetation of Britain: ecology and conservation. New Phytologist, 98, 119-28.Google Scholar

Pigott, C.D. & Wilson, J.H. (1978). The vegetation of North Fen at Esthwaite in 1967-69. Proceedings of the Royal Society of London A 200, 331–51.Google Scholar

Poore, M.E.D. (1955a). The use of phytosociological methods in ecological investigations. I. The Braun-Blanquet System. Journal of Ecology 43, 226–44.Google Scholar

Poore, M.E.D. (1955b). The use of phytosociological methods in ecological investigations. II. Practical issues involved in an attempt to apply the Braun-Blanquet system. Journal of Ecology 43, 245–69.Google Scholar

Poore, M.E.D. (1955c). The use of phytosociological methods in ecological investigations. III. Practical application. Journal of Ecology 43, 606–51.Google Scholar

Poore, M.E.D. (1956b). The ecology of Woodwalton Fen. Journal of Ecology 44, 455–92.Google Scholar

Poore, M.E.D. & McVean, D.N. (1957). A new approach to Scottish mountain vegetation. Journal of Ecology 45, 401–39.Google Scholar

Poore, M.E.D. & Walker, D. (1959). Wynbury Moss, Cheshire. Memoirs and Proceedings of the Manchester Literary and Philosophical Society 101, 1–24.Google Scholar

Praeger, R.L. (1934). The Botanist in Ireland. Dublin: Hodges, Figgis & Co.Google Scholar

Proctor, M.C.F. (1974). The vegetation of the Malham Tarn fens. Field Studies 4, 1–38.Google Scholar

Proctor, M.C.F. (1980). Vegetation and Environment in the Exe Estuary. In Essays on the Exe Estuary, pp. 117-34. Exeter: Devonshire Association.Google Scholar

Ranwell, D.S. (1961). Spartina salt marshes in southern England. I. The effects of sheep grazing at the upper limit of Spartina marsh in Bridgwater Bay. Journal of Ecology 49, 325–10.Google Scholar

Ranwell, D.S. (1964a). Spartina salt marshes in southern England. II. Rate and seasonal pattern of sediment accretion. Journal of Ecology 52, 79–94.Google Scholar

Ranwell, D.S. (1972). Ecology of Salt Marshes and Sand Dunes. London: Chapman & Hall.Google Scholar

Ranwell, D.S., Bird, E.C.F. Hubbard, J.C.E. & Stebbings, R.E. (1964). Spartina salt-marshes in southern England. V. Tidal submergence and chlorinity in Poole Harbour. Journal of Ecology 52, 627–41.Google Scholar

Ratcliffe, D.A. (ed.) (1977). A Nature Conservation Review. Cambridge: Cambridge University Press.Google Scholar

Ratcliffe, J.B. & Hattey, R.P. (1982). Welsh Lowland Peatland Survey. Bangor: Nature Conservancy Council.Google Scholar

Reid, S., Newlands, C. & Leach, S. (1989). A new classification of Broadland dyke vegetation. Peterborough: England Field Unit Project Report No. 76.1.Google Scholar

Riacu, P., Staicu, S., Stoian, V. & Roman, T. (1972). The Phragmites communis Trin. chromosome complement in the Danube Delta. Hydrobiologica 39, 83–9.Google Scholar

Rich, T.C.G. & Rich, M.D.B. (1988). Plant Crib. London: Botanical Society of the British Isles.Google Scholar

Robson, T.O. (1967). A survey of the problem of aquatic weed control in England and Wales. Technical Report of the Agricultural Research Council, Weed Research Organisation, No. 5.Google Scholar

Rodewald-Rudescu, L. (1974). Das Schilfrohr, Phragmites communis Trinius. Stuttgart: Die Binnengewässer, 27. E. Schweizerbartsche Verlagsbuchhandlung.Google Scholar

Rose, F. (1950). The East Kent Fens. Journal of Ecology 38, 292–302.Google Scholar

Rostron, J.C. (1983). The distribution of Azolla filiculoides Lam in Britain and a biological flora of the British Isles. Loughborough University: BSc dissertation.Google Scholar

Rübel, E.A. (1912). The Killarney Woods. New Phytologist 11, 54–7.Google Scholar

Rudescu, L., Niculescu, C., & Chivu, I.P. (1965). Monografia stufului den delta Dunarii. Romania: Editura Academiei Republicii Socialiste.Google Scholar

Salisbury, E.J. (1964). Weeds and Aliens, 2nd edition. London: Collins.Google Scholar

Sauer, F. (1937). Die Makrophytenvegetation ostholsteinischer Seen und Teiche. Archiv für Hydrobiologie, Supplement 6, 431–592.Google Scholar

Schaaf, G. (1925). Hohenloher Moore. Veröffentlichungen der Staatlichen Stelle für Naturschutz beim Württemburgischen Landesamt für Denkmalpflege 1, 5–58.Google Scholar

Schoof-van Pelt, M.M. (1973). Littorelletea. A study of the vegetation of some amphiphytic communities of Western Europe. University of Nijmegen: PhD thesis.Google Scholar

Schröder, H. (1979). Decline of reed swamps in Lake Constance. Symposia Biologica Hungarica 19, 43–8.Google Scholar

Schuhmacher, A. (1937). Floristisch-soziologische Beobachtungen in Hochmooren des südlichen Schwarzwaldes. Beiträge zur naturkundlichen Forschung in Südwestdeutschland 2, 221–83.Google Scholar

Seddon, B. (1965). Occurrence of Isoetes echinospora in eutrophic lakes in Wales. Ecology 46, 447–8.Google Scholar

Segal, S. (1965). Een vegetatieonderzoek van de hogere waterplanten in Nederland. Wetensch. Meded. KNNV, 57.Google Scholar

Segal, S. (1966). Ecological studies of peat-bog vegetation in the north-western part of the province of Overijsel (The Netherlands). Wentia 15, 109–41.Google Scholar

Segal, S. (1967). Some notes on the ecology of Ranunculus hederaceus L. Vegetatio 15, 1–26.Google Scholar

Seibert, P. (1962). Die Auenvegetation an der Isar nördlich von München und ihre Beeinflussung durch den Menschen. Landschaftspflege und Vegetationskunde, 3.Google Scholar

Shimwell, D.W. (1968a). The phytosociology of calcareous grasslands in the British Isles. University of Durham: PhD thesis.Google Scholar

Simpson, D.A. (1983). Experimental taxonomic studies of Elodea Michx in the British Isles. University of Lancaster: PhD thesis.Google Scholar

Simpson, D.A. (1984). A short history of the introduction and spread of Elodea in the British Isles. Watsonia 15, 1–9.Google Scholar

Simpson, D.A. (1986). Taxonomy of Elodea Michx in the British Isles. Watsonia 16, 1–14.Google Scholar

Simpson, D.A. (1988). Phenotypic plasticity of Elodea nuttallii (Planch.) H. St. John and Elodea canadensis Michx in the British Isles. Watsonia 17, 121–32.Google Scholar

Sinker, C.A. (1960). The Vegetation of the Malham Tarn Area. Proceedings of the Leeds Philosophical and Literary Society, Scientific Section 8, 139–75.Google Scholar

Sinker, C.A. (1962). The North Shropshire meres and mosses: a background for ecologists. Field Studies 4, 101–37.Google Scholar

Sjörs, H. (1948). Myrvegetation i Bergslagen, Aeta Phytogeographica Suecica 21, 1–299.Google Scholar

Skårman, J.A.O. (1935). Floristica undersökningar i alehårad. Svensk botanisk tidsskrift, 29.Google Scholar

Solinska, B. (1963). Die Dynamik der Vegetation in Kleingewässen als Grundlage deren Klassifikation. Ekologia Polska, Seria A 11, 369–419.Google Scholar

Soó, R. (1928). Adatok a Balatonvidék flóráhjának és vegetaciojanak ismeretehez. I. Magyar Biological Institute Munkai 2, 132–6.Google Scholar

Sparks, B.W., Williams, R.B.G. & Bell, F.G. (1972). Presumed ground-ice depressions in East Anglia. Proceedings of the Royal Society of London A 327, 329–43.Google Scholar

Spence, D.H.N. (1964). The macrophytic vegetation of freshwater lochs, swamps and associated fens. In The Vegetation of Scotland, ed. Burnett, J.H., pp. 306-425. Edinburgh: Oliver & Boyd.Google Scholar

Spence, D.H.N. (1967). Factors controlling the distribution of freshwater macrophytes with particular reference to the lochs of Scotland. Journal of Ecology 55, 147–70.Google Scholar

Stokoe, R. (1978). Isoetes echinospora Durieu new to Northern England. Watsonia 12, 51–2.Google Scholar

Sylven, N. (1903). Studier öfver Organisationen och lefnadsstättet hos Lobelia dortmanna. Arkiv för Botanik 1, 377–88.Google Scholar

Syme, J.T.B. (1872). Sowerby’s English Botany, 3rd edition, 11.Google Scholar

Tansley, A.G. (ed.) (1911). Types of British Vegetation. Cambridge: Cambridge University Press.Google Scholar

Tansley, A.G. (1939). The British Islands and their Vegetation. Cambridge: Cambridge University Press.Google Scholar

Tutin, T.G., Heywood, V.H., Burges, N.A., Valentine, D.H., Walters, S.M. & Webb, D.A. (1964). Flora Europaea, Volume I. Cambridge: Cambridge University Press.Google Scholar

Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M. & Webb, D.A. (1968). Flora Europaea, Volume 2. Cambridge: Cambridge University Press.Google Scholar

Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M. & Webb, D.A. (1972). Flora Europaea, Volume 3. Cambridge: Cambridge University Press.Google Scholar

Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M. & Webb, D.A. (1976). Flora Europaea, Volume 4. Cambridge: Cambridge University Press.Google Scholar

Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M. & Webb, D.A. (1980). Flora Europaea, Volume 5. Cambridge: Cambridge University Press.Google Scholar

Tüxen, R. (1937). Die Pflanzengesellschaften Nordwestdeutschlands. Mitteilungen der Floristisch-soziologischen Arbeitsgemeinschaft 3, 1–70.Google Scholar

Tüxen, R. (1974). Die Pflanzengesellschaften Nordwestdeutschlands, 2nd edition. Lehre.Google Scholar

Tyler, G. (1969b). Regional aspects of Baltic shore-meadow vegetation. Vegetatio 19, 60–86.Google Scholar

van der Toorn, J. (1972). Variability of Phragmites australis (Cav.) Trin. ex Steudel in relation to environment. Van Zee tot Land, 48.Google Scholar

van der Toorn, J. & Mook, J.H. (1982). The influence of environmental factors and management on stands of Phragmites australis I. Effects of burning, frost and insect damage on shoot density and shoot size. Journal of Applied Ecology 19, 477–500.Google Scholar

van Donselaar, J. (1961). On the vegetation of former river beds in The Netherlands. Wentia 5, 1–85.Google Scholar

van Wirdum, G. (1979). Dynamische aspecten van trofiegradieten in ein kraggelandschap. FLO 12, 46–61.Google Scholar

Vollmar, F. (1947). Die Pflanzengesellschaften des Murnauer Moores. Bericht der Bayerischen botanischen Gesellschaft zur Erforschung der heimischen Flora 27, 13–97.Google Scholar

von Post, L. (1925). Gotlands-agen (Cladium mariscus R. Br.) i Sveriges postarkticum. Ymer, Svenska sallskapet for antropologi och geografi.Google Scholar

Walker, D. (1970). Direction and rate in some British Post-glacial hydroseres. In Studies in the Vegetational History of the British Isles, ed. Walker, D. & West, R.G., pp. 117-40. Cambridge: Cambridge University Press.Google Scholar

Walker, N. (1905). Pond vegetation. The Naturalist 585, 305–11.Google Scholar

Weber-Oldecop, D.W. (1970). Wasserpflanzengesellschaften im östlichen Niedersachsen. Internationale Revue der gesamten Hydrobiologie ünd Hydrographie.Google Scholar

Webster, S.D. (1988). Ranunculus penicillatus (Dumort.) Bab. in Great Britain. Watsonia 17, 1–22.Google Scholar

West, G. (1905). A comparative study of the dominant phanerogamic and higher cryptogamie flora of aquatic habit in three lake areas of Scotland. Proceedings of the Royal Society of Edinburgh 25, 967–1023.Google Scholar

West, G. (1910). A further contribution to a comparative study of the dominant phanerogamic and higher cryptogamie flora of aquatic habit in Scottish lakes. Proceedings of the Royal Society of Edinburgh 30, 65–181.Google Scholar

Westhoff, V. & den Held, A.J. (1969). Plantengemeenschappen in Nederland. Zutphen: Thieme.Google Scholar

Westlake, D.F. (1966). The biomass and productivity of Glyceria maxima. I. Seasonal changes in biomass. Journal of Ecology 54, 745–54.Google Scholar

Westlake, D.F. (1975). Macrophytes, In River Ecology, ed. Whitton, B.A., pp. 106-28. Oxford: Blackwell.Google Scholar

Westlake, D.F. & Dawson, F.H. (1982). Thirty years of weed cutting on a Chalk-stream. Proceedings of the EWRS International Symposium on Aquatic Weeds 6, 132–40.Google Scholar

Wheeler, B.D. (1975). Phytosociological studies on rich fen systems in England and Wales. University of Durham: PhD thesis.Google Scholar

Wheeler, B.D. (1978). The wetland plant communities of the River Ant valley, Norfolk. Transactions of the Norfolk and Norwich Naturalists’ Society 24, 153–87.Google Scholar

Wheeler, B.D. (1980a). Plant communities of rich-fen systems in England & Wales. I. Introduction. Tall sedge- and reed communities. Journal of Ecology 68, 368–95.Google Scholar

Wheeler, B.D. (1980b). Plant communities of rich-fen systems in England & Wales. II. Communities of calcareous mires. Journal of Ecology 68, 405–20.Google Scholar

Wheeler, B.D. (1980c). Plant communities of rich-fen systems in England & Wales. III. Fen Meadow, fen grassland and fen woodland communities and contact communities. Journal of Ecology 68, 761–88.Google Scholar

Wheeler, B.D. (1980d). Wetland. In The Magnesian Limestone of Durham County, ed. Dunn, T.C., pp. 53-60. Durham: Durham County Conservation Trust.Google Scholar

Wheeler, B.D. (1983). A manuscript copy of a chapter ‘British Fens: A review’ now published in European Mires, ed. Moore, P.D., pp. 237-81. Academic Press (1984).Google Scholar

Wheeler, B.D. & Giller, K.E. (1982a). Species richness of herbaceous fen vegetation in Broadland, Norfolk, in relation to the quantity of above-ground material. Journal of Ecology 70, 179–200.Google Scholar

Wheeler, B.D. & Giller, K.E. (1982b). Status of aquatic macrophytes in an undrained area of fen in the Norfolk Broads, England. Aquatic Botany 12, 277–96.Google Scholar

White, J. & Doyle, G. (1982). The vegetation of Ireland: a catalogue raisonné. Royal Dublin Society Journal of Life Sciences 3, 289–368.Google Scholar

Wiegleb, G. (1978). Untersuchungen über den Zusammenhang zwischen hydrochemischen Umweltfaktoren und Makrophytenvegetation in stehenden Gewässern. Archiv für Hydrobiologie 83, 443–84.Google Scholar

Wigginton, M.J. & Graham, G.G. (1981). Guide to the Identification of some Difficult Plant Groups. Banbury: Nature Conservancy Council, England Field Unit.Google Scholar

Willis, A.J. (1967). The genus Vulpia in Britain. Proceedings of the Botanical Society of the British Isles 6, 386–8.Google Scholar

Willis, A.J. & Davies, E.W. (1960). Juncus subulatus Forsk. in the British Isles. Watsonia 4, 211–17.Google Scholar

Willis, A.J. & Jefferies, R.L. (1959). The plant ecology of the Gordano Valley. Proceedings of the British Naturalists Society 31, 297–304.Google Scholar

Wolff, P. (1980). Die Hydrilleae (Hydrocharitaceae) in Europa. Göttinger Floristische Rundbriefe 14, 33–56.Google Scholar

Wolseley, P.A., Palmer, M.A. & Williams, R. (1984). The Aquatic Flora of the Somerset Levels and Moors. Peterborough: Nature Conservancy Council.Google Scholar

Woodhead, N. (1951a). Biological Flora of the British Isles: Lobelia dortmanna L. Journal of Ecology 39, 458–64.Google Scholar

Woodhead, N. (1951b). Biological Flora of the British Isles: Subularia aquatica L. Journal of Ecology 39, 465–9.Google Scholar

Wotek, J. (1974). A preliminary investigation on interactions (competition, allelopathy) between some species of Lemna, Spirodela and Wolffia. Bericht über das Geobotanische Forschungsinstitut Rübel in Zürich.Google Scholar

Yapp, R.H. (1908). Sketches of vegetation at home and abroad. IV. Wicken Fen. New Phytologist 7, 61–81.Google Scholar

Zöbrist, L. (1935). Pflanzensoziologische und bodenkundliche Untersuchung des Schoenetum nigricantis im nordostschweizerischen Mittelande. Beiträge zur geobotanischen Landesaufnahme der Schweiz 18, 1–144.Google Scholar

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References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive