ALMQUIST-JACOBSON H. ET FOSTER D.R., 1995, Towards an integrated model for raised bog development : theory and field evidence, Ecology, Vol. 76, p. 2503-2516.
ARMSTRONG J., AFREES-ZOBAYED F. and ARMSTRONG W., 1996, Phragmites die-back : sulfide and acetic induced bud and root death, lignifications, and blockages with aeration and vascular systems, New Phytologist, Vol. 134, p. 601-614.
BACKÉUS I., 1990, Production and depth distribution of fine roots in a boreal open bog, Annales Botanici Fennici, Vol. 27, p. 261-265.
BAUER I.E., GIGNAC D. and VITT D., 2003, Development of a peatland complex in boreal western Canada : lateral site expansion and local variability in vegetation succession and long-term peat accumulation, Canadian Journal of Botany, Vol. 81, p. 833-847.
BECKWITH C.W., BAIRD A.J. and HEATHWAITE A.L., 2003, Anisotropy and depth-related heterogeneity of hydraulic conductivity in a bog peat, I : laboratory measurements, Hydrological Processes, Vol. 17, p. 89-101.
BELLAMY D.J. and RIELEY J., 1967, Some ecological statistics of a "miniature bog", Oikos, Vol. 30, p. 33-40.
BELYEA L.R., 1996, Separating the effect of litter quality and microenvironment on decomposition rates in a patterned peatland, Oikos, Vol. 77, p. 529-539.
BELYEA L.R. and CLYMO R.S., 1999, Do hollows control the rate of peat bog growth ? in Standen V., Tallis J.H. and Meade R. (Eds), Patterned mires and mires pools. Origin and development; flora and fauna, London, British Ecological Society, p. 55-65.
BELYEA L.R. and CLYMO R.S., 2001, Feedback control of the rate of peat formation, Proceedings of the Royal society of London, Vol. B., 268, p. 1315-1321.
BELYEA L.R. and MALMER N., 2004, Carbon sequestration in peatland : patterns and mechanisms of respons to climate change, Global Change Biology, Vol. 10, p. 1043-1052.
BICK H., 1985, Die Moorvegetation der zentralen Hochvogesen, Dissertationes Botanicae, 91, Berlin-Stuttgart, Cramer, 289 p.
BRAGAZZA L. and GERDOL R., 1996, Response surfaces of plant species along water-table depth and pH gradients in a poor mire on the southern Alps (Italy), Annales Botanici Fennici, Vol. 33, p. 11-20.
BRAGAZZA L., TAHVANAINEN T., KUTNAR L., RYDIN H., LIMPES J., HAJEK M., GROSVERNIER P., HAJEK T., HAJKOWA P., HANSEN I., IACUMIN P. and GERDOL R., 2004, Nutritional constraints in ombrotrophic Sphagnum plants under increasing atmospheric deposition in Europe, New Phytologist, Vol. 163, p. 609-616.
BRAGG O.M., 1997, Understanding ombrogenous mires of the temperate zone and the tropics : an ecohydrologist's viewpoint, in Rieley J.O. and Page S.E. (Eds), Tropical Peatlands, Cardigan, Samara Publishing Limited, p. 135-146.
BRAGG O.M., 2000, Conservation and trees at Flanders Moss, Forth Naturalist and Historian, Vol. 23, p. 37-49.
BRAGG O.M., 2002, Hydrology of peat-forming wetlands in Scotland, The Science of the Total Environment, Vol. 294, p. 111-129.
BRAGG O.M., BROWN J.M.B. and INGRAM H.A.P., 1991, Modelling the ecohydrological consequences of peat extraction from a Scottish raised mire, in Nachtnebel H.P. and Kovar K. (Eds.), Hydrological Basis of Ecologically Sound Management of Soil and Groundwater, Wallingford, Publication of the IAHS N°202, p. 13-22.
BRAGG O.M. and CLYMO R.S., 1995, Seven years of change following liming of Sphagnum communities in sector VII of the Loch Fleet catchment, Chemistry and Ecology, Vol. 9, p. 231-245.
CLYMO R.S., 1966, Control of cation concentrations, and in particular of pH, in Sphagnum dominated communities, in Golterman H.L. and Clymo R.S. (Eds), Chemical environment in the aquatic habitat, Amsterdam, North Holland, p. 273-284.
CLYMO R.S., 1984, The limits to peat bogs growth, Philosophical Transactions of the Royal Society of London, Vol. B303, p. 605-654.
CLYMO R.S., 1987, The ecology of peatlands, Science in Progress, Vol. 71, p. 593-614.
CLYMO R.S., 1991, Peat growth, in Shane L.C.K. and Cushing E.J. (eds), Quaternary Landscapes, University of Minnesota Press, Minneapolis, p. 76-112.
CLYMO R.S., 1992, Models of peat growth, Suo, Vol. 43, p. 127-136.
CLYMO R.S., 1998, Sphagnum, the peatland carbon economy, and climate change, in Bates J.W., Ashton N.W. and Duckett J.G. (eds), Bryology for the Twenty-first century, London, British Bryological Society, p. 361-368.
CLYMO R.S. and HAYWARD P.M., 1982, The ecology of Sphagnum, in Smith A.J.E. (ed), Bryophyte Ecology, New-York, Chapman and Hall, p. 229-289.
CLYMO R.S. and PEARCE M.E., 1995, Methane and carbon dioxide production in, transport through, and efflux from a peatland, Philosophical Transactions of the Royal Society of London, Vol. A350, p. 249-259.
DAMMAN A.W.H., 1986, Hydrology, development, and biochemistry of ombrogenous peat bogs with special refreence to nutrient relocation in western Newfoundalnd bog, Canadian Journal of Botany, Vol. 64, 384-394.
DANIELS R.E and EDDY A., 1985, Handbook of European Sphagna, Huntingdon, Institute of Terrestrial Ecology, 262 p.
DUPONT L.M., 1987, Palaeocological reconstruction of the successive stands of vegetation leading to a raised bog in the Meerstalblok area (The Netherlands), Review of Palaeobotany and Palynology, Vol. 51(4), p. 271-288.
FELDMEYER-CHRISTE E., 1990, Étude phyto-écologique des tourbières des Franches-Montagnes (Canton du Jura et de Berne, Suisse), Matériaux pour le Levé Géobotanique de la Suisse, Vol. 66, p. 1-163.
FERGUSON P. and LEE J.A., 1978, Effects of sulphur pollutants on the growth of Sphagnum species, Environmental Pollution, Vol. 16, p. 151-152.
FLATBERG K.I., 1986, Taxonomy, morphovariation, distribution and ecology of the Sphagnum imbricatum complex with main reference to Norway, Gunneria, Vol. 54, p. 1-118.
FORSTER D.R. and WRIGHT H.E., 1990, Role of ecosytem development and climate change in bog formation in central Sweden, Ecology, Vol. 71, p. 450-463.
FRANKL R. and SCHMEIDL H., 2000, Vegetation change in a south German raised bog : ecosystem engineering by plant species, vegetation switch or ecosystem level feedback mechanisms ? Flora, Vol. 195, p. 267–276.
FRELECHOUX F., 1997, Etude du boisement des tourbières hautes de la chaîne jurassienne : typologie et dynamique de la végétation - Approche dendroécologique et dendrodynamique des peuplement arborescents, Thèse Université de Neuchâtel, 215 p.
GIGNAC D., 1989, Mineral content of mire surface water and hummock-forming Sphagnum species in peatlands of western Canada, Lindbergia, Vol. 15, p. 151-160.
GIGNAC L.D., 1993, Distribution of Sphagnum species, communities, and habitats in relation to climate, Advances in Bryology, Vol. 3, p. 187-222.
GILLET F., 1982, L'alliance du Sphagno-Tomen-thypnion dans le Jura, Documents Phyto-sociologiques, Vol. 6, p. 155-180.
GORHAM E., 1991, Northern peatland : role in the carbon cycle and probable response to climatic warming, Ecological Applications, Vol. 1, p. 182-195.
GORHAM E. and ROCHEFORT L., 2003, Peatland restoration : a brief assesment with special reference to Sphagnum bogs, Wetlands Ecology and Management, Vol. 11, p. 109-119.
GROSVERNIER P.R., 1996, Stratégies et génie écologique des sphaignes (Sphagnum sp.) dans la restauration spontanée des marais jurassiens suisses, Thèse, Université de Neuchâtel, 318 p.
GUNNARSSON U., MALMER N. and RYDIN H., 2002, Dynamics or constancy in Sphagnum dominated ecosytem ? A 40-year study, Ecography, Vol. 25, p. 685-704.
HAWKE M.I., MARTINI I.P. and STASIUK L.D., 1999, A comparison of temperate and boreal peats from Ontario, Canada : possible modern analogues for Permian coals, International Journal of Coal Geology, Vol. 41, p. 213-238.
HILBERT D.W., ROULET N. and MOORE T., 2000, Modelling and analysis of peatlands as dynamical systems, Journal of Ecology, Vol. 88, p. 230-242.
HINDRYCKX M., 2000, Évolution régressive récente de la végétation des tourbières hautes à sphaignes en Haute Ardenne (Hautes-Fagnes, Belgique), Thèse, Université de Liège. 269 p.
HOGG E.H., 1993, Decay potential of hummock and hollow Sphagnum peats at different depths in a Swedish raised bogs, Oikos, Vol. 66, p. 269-278.
HUGHES P.D.M., 2000, A reappraisal of the mechanisms leading to ombrotrophy in British raised mires, Ecology Letters, Vol. 3, p. 7-9.
HUGHES P.D.M. and BARBER K.E., 2003, Mire development accros the fen-bog transition on the Teifi floodplain at Tregaron Bog, Ceredigion, Wales, and a comparison with 13 other raised bogs, Journal of Ecology, Vol. 91, p. 253-264.
HUGHES P.D.M. and DUMAYNE-PEATY L., 2002, Testing theories of mire development using multiple successions at Crymlyn Bog, West Glamorgan, South Wales, UK, Journal of Ecology, Vol. 90, p. 456-471.
INGRAM H.A.P., 1982, Size and shape in raised mire ecosystems : a geophysical model, Nature, Vol. 27, p. 300-303.
IVANOV K.E., 1981, Water movements in mirelands (translated by A. Thompson and H.A.P. Ingram), London, Academic Press, 276 p.
JANSSENS J.A. and GLASER P., 1986, The bryophyte flora and major peat-forming mosses at Red Lake peatland, Minnesota, Canadian Journal of Botany, Vol. 64, p. 427-442.
JOHNSON L.C. and DAMMAN A.W.H., 1993, Decay and its regulation in Sphagnum peatlands, Advances in Bryology, Vol. 5, p. 249-296.
LAMERS L.P.M., 2001, Tackling biochemical questions in peatlands, Thèse, Université de Nijmegen, 161 p.
LAMERS L.P.M., BOBBINK R. and ROELOFS J.G.R., 2000, Natural nitrogen filter fails in polluted raised bogs, Global Change Biology, Vol. 6, p. 583-586.
LATTER P.M., HOWSON G., HOWARD D.M. and SCOTT W.A., 1998, Long-term study of litter decomposition on a Pennine peat bog : which regression ? Oecologia, Vol. 113, p. 94-103.
LINDSEY R.A., 1995, The ecology, classification and conservation of ombrotrophic mires, Perth, Scottish Natural Heritage, 120 p.
MALMER N., 1962, Studies on mire vegetation in the archaean area of southwestern Götaland (south Sweden). II. Distribution and seasonal variation in elementary constituents on some mire sites, Opera Botanica, Vol. 7, p. 1-67.
MALMER N., SVENSSON B.M. and WALLÈN B., 1994, Interactions between Sphagnum mosses and field layer vascular plants in the development of peat-forming systems, Folia Geobotanica et Phytotaxonomica, Vol. 29, p. 483-496.
MANEVILLE O., 1999, Les tourbières de France : causes de régression, intérêts de leur conservation, mise au point nomenclaturale, Journal de Botanique, Vol. 12, p. 73-82.
MANEVILLE O., V. VERGNE ET O. VILLEPOUX, 1999, Le monde des tourbières et des marais, Lausanne, Delachaux et Niestlé, 320 p.
MATTHEY Y., 1996, Conditions écologiques de la régénération spontanée du Sphagnion magellanici dans le Jura Suisse, Thèse, Université de Neuchâtel, 233 p.
MIDDELDORP A.A., 1986, Functional palaeoecology of the Hahnenmoor raised bog ecosystem. A study of vegetaion history, production and decomposition by means of pollen density dating, Review of Palaeobotany and Palynology, Vol. 49, p. 1-73.
OHLSON M., 1987, Spatial variation in decomposition rate of Carex rostrata leaves in a swedish mire, Journal of Ecology, Vol. 75, p. 1191-1197.
OHLSON M., ØKLAND R.H., NORDBAKKEN J.F. and DAHLBERG B., 2001, Fatal interactions between Scots pine and Sphagnum mosses in bog ecosystems, Oikos, Vol. 94, p. 425-432.
ØKLAND R.H., 1989a, A phytoecological study of the mire Northern Kisselbergmosen, SE Norway. I. Introduction, flora, vegetation and ecological conditions, Sommerfeltia, Vol. 8, p. 1-172.
ØKLAND R.H., 1989b, Hydromorphology and phytogeography of mires in inner Østfold and adjacent part of Akershus, SE Norway, in relation to regional variation in SE Fennoscandian mire, Opera Botanica, Vol. 96, p. 1-122.
PAINTER T.J., 1991, Lindow man, tollund man and other peat-bog bodies : The preservative and antimicrobial action of Sphagnan, a reactive glycuronoglycan with tanning and sequestering properties, Carbohydrate Polymers, Vol. 15, p. 123-142.
PRICE J.S., 1991, Evaporation from a blanket bog in a foggy coastal environment, Boundary-Layer Meteorology, Vol. 57, p. 391-406.
RYDIN H., 1985, Effect of water level on dessication of Sphagnum in relation to surrounding Sphagna, Oikos, Vol. 45, p. 374-379.
SAGOT C. and ROCHEFORT L., 1996, Tolérance des sphaignes à la dessication, Cryptogamie, Bryologie, Lichénologie, Vol. 17, p. 171-183.
SCHEFFER R.A., VAN LOGTESTIJN R.S.P. and VERHOEVEN J.T.A., 2001, Decomposition of Carex and Sphagnum litter in two mesotrophic fens differing in dominant plant species, Oikos, Vol. 92, p. 44-54.
SCHUMACKER R., 1961, Etude d'une tourbe à Scheuzeria palustris dans les couches inférieures des dépôts de la Fagne-Wallone, Bulletin de la Société Royale des Sciences de Liège, Vol. 11-12, p. 496-511.
SHANNON R.D., WHITE J.R., LAWSON J.E. and GILMOUR B.S., 1996, Methane efflux from emergent vegetation in peatlands, Journal of Ecology, Vol. 84, p. 239-246.
SMOLDERS A.J.P. and ROELOFS J.G.M., 1993, The roles of internal iron hydroxyde precipitation, sulfide toxicity and oxidizing ability in the survival of Stratiotes aloides roots at different iron concentration in sediment porewater, New Phytologist, Vol. 133, p. 253-260.
SMOLDERS A.J.P., TOMASSEN H.B.M., PIJNAPPEL H.W., LAMERS L.P.M. and ROELOFS J.C.M., 2001, Substrate-derived CO2 is important in the development of Sphagnum spp, New Phytologist, Vol. 152, p. 325-332.
SPIEKSMA J.F.M., MOORS E.J., DOLMAN A.J. and SCHOUWENAARS J.M., 1997, Modelling evaporation from a drained and rewetted peatland, Journal of Hydrology, Vol. 199, p. 252-271.
STEINER G.M., 1992, Österreichischer Moorschutz-katalog, Wien, Grüne Reihe, 529 p.
SVENSSON G., 1988, Bog development and environmental conditions as shown by strati-graphy of Store Mosse mire in southern Sweden, Boreas, Vol. 17, p. 89-111.
THEBAUD G. , CUBIZOLLE H. et PETEL G., 2003, Étude préliminaire des haut marais ombrotrophes du Forez septentrional et des Bois-Noirs (Massif central, France) : végétation, évolution et dynamique actuelle, Acta Botanica Gallica, Vol. 150, p. 35-57.
THOMAS P.A. and PEARCE M.E., 2004, Role of cation exchange in preventing the decay of anoxic deep bog peat, Soil Biology and Biochemistry, Vol. 36, p. 23-32.
TOUFFET J., 1969, Les sphaignes du Massif armoricain. Recherches phytogéographiques et écologiques, Thèse, Université de Rennes, 357 p.
UHDEN O., 1960, Das Grosse Moor bei Ostenholz. Schriftenreihe des Kutatoriums für Kulturbau-wesen, Heft 9, Hamburg, Verlag Wasser und Boden, 159 p.
VAN BREEMEN N., 1995, How Sphagnum bogs down other plants, Trends in Ecology and Evolution, Vol. 10, p. 270-275.
VAN DER SCHAAF S., 1999, Analysis of the hydrology of raised bogs in the Irish Midlands. A case study of Raheenmore bog and Clara bog, Thèse, Landbouwuniversiteit, Wanengingen, 375 p.
VAN DER SCHAAF S. and STREEFKERK J.G., 2003, Relationships between ecotopes, hydrological position and subsidence on Clara bog and Raheenmore Bog (Ireland), in Ignar S., Nowakowski P. and Okruszko T. (Eds), Measurement Techniques and Data Assessment in Wetland Hydrology, Warsaw, Warsaw Agricultural University Press, p. 127-136.
VERHOEVEN J.T.A. and LIEFVELD V.M., 1997, The ecological significance of organochemical compounds in Sphagnum, Acta Botanica Neerlandica, Vol. 46, p. 117-130.
WALKER D. and WALKER P.M., 1961, Stratigraphic evidence of regeneration in some Irish bogs, Journal of Ecology, Vol. 49, p. 169-185.
WASTIAUX C., 2000, Facteurs hydrologiques de la dégradation des tourbières hautes à sphaignes des Hautes-Fagnes, Thèse, Université de Liège, 223 p.
WILDI O., 1978, Simulating the development of peat bogs, Vegetatio, Vol. 37, p. 1-17.
YU Z., TURETSKY M.R., CAMPBELL and VITT D.H., 2001, Modelling long-term peatlands dynamics. II. Processes and rates as inferred from litter and peat-core data, Ecological Modelling, Vol. 145, p. 59-173.
ZOBEL M., 1988, Autogenic succession on boreal mires - a review, Folia Geobot. Phytotaxon. Vol. 23, p. 417-445.