Spring fen vegetation and water chemistry in the Western Carpathian flysch zone (original) (raw)
Aerts R., Wallén B. &Malmer N. (1992): Growth-limiting nutrients in_Sphagnum_-dominated bogs subject to low and high atmospheric nitrogen supply.J. Ecol. 80: 131–140. Article Google Scholar
Almendinger J.E. &Leete J.H. (1998): Peat characteristics and groundwater geochemistry of calcareous fens in the Minnesota River Basin, U.S.A.Biogeochemistry 43: 17–41. ArticleCAS Google Scholar
Anonymous (1990):Kjeltec system 1902 manual. TECATOR AB, Högänas.
Antanasopoulos N. (1994):Flame methods manual for atomic absorption. GBC, Dandenong. Google Scholar
Aulio K. (1980): Nutrient accumulation in_Sphagnum_ mosses. I. A multivariate summarization of the mineral element composition of 13 species from an ombrotrophic raised bog.Ann. Bot. Fenn. 17: 307–314. CAS Google Scholar
Balátová-Tuláčková E. (1974):Flachmoorwiesen im mittleren und unteren Opava-Tal (Schleisen). Vegetace ČSSR A4, Academia, Praha. Google Scholar
Balátová-Tuláčková E. (1987): Beitrag zur Kenntis der Feuchtwiesen des Gebirges Hostýnské vrchy.Tuexenia 7: 119–213. Google Scholar
Bell P. R. &Lodge E. (1962): The reliability of_Cratoneuron commutatum_ (Hedw.)Roth as an ‘indicator mos’.J. Ecol. 50: 113–122. Google Scholar
Boyer M.L.H. &Wheeler B.D. (1989): Vegetation patterns in spring-fed calcareous fens: calcite precipitation and constrains on fertility.J. Ecol. 77: 597–609. ArticleCAS Google Scholar
Bragazza L. (1997):Sphagnum niche diversification in two oligotrophic mires in the southern Alps of Italy.Bryologist 100: 507–515. Google Scholar
Bragazza L. &Gerdol R. (1999): Ecological gradients on some_Sphagnum_ mires in the southeastern Alps (Italy).Appl. Veg. Sci. 2: 55–60. Article Google Scholar
Buday T. (1967):Regionální geologie ČSSR (Regional geology of the Czechoslovakia) II/2. ÚÚG, Praha. Google Scholar
Charman D.J. (1993): Patterned fens in Scotland: evidence from vegetation and water chemistry.J. Veg. Sci. 4: 543–552. Article Google Scholar
Clymo R.S. (1983): Peat. In:Gore A.J.P. (ed.),Ecosystems of the world 4A, Mires: swamp, bog, fen and moor, Elsevier, Amsterdam, pp. 159–224. Google Scholar
Coldea G. (ed.) (1997):Les associations végétales de Roumanie. I. Les associations herbacées naturalles. Presses Univ., Cluj. Google Scholar
Daniels R.E. &Eddy A. (1990):Handbook of European Sphagna. Ed. 2. Institute of Terrestrial Ecology, Huntingdon. Google Scholar
Devánová K. &Deván P. (2000): Charakteristika mokradí a slatinných pramenísk v Chránenej krajinnej oblasti Biele Karpaty (The characteristic of wetlands and spring fens in Protected Landscape Area Biele Karpaty). In:Stanová V. (ed.),Rašeliniská Slovenska (Peatlands of Slovakia), Daphne, Bratislava, pp. 45–49. Google Scholar
Dierssen K. (1982):Die wichtigsten Pflanzengesellschaften der Moore NW-Europas. Conserv. Jard. Bot., Ville Geneve. Google Scholar
Dierssen K. &Dierssen B. (2001):Ökosysteme Mitteleuropas aus geobotanischer Sicht. 2. Moore. Ulmer, Stuttgart. Google Scholar
Duda J. (1950): Beskydská vrchoviště a rašelinné louky (The peat bogs and the peaty meadows in the Beskydy Mts.).Přír. Sbor. Ostrav. Kraje, Opava 11: 66–92. Google Scholar
Fransson S. (1972): Myrvegetation i sydvástra Värmland (Mire vegetation in south-western Värmland, Sweden).Acta Phytogeogr. Suec. 57: 1–133. Google Scholar
Frey W., Frahm J.-P., Fischer E. &Lobin W. (1995):Die Moos- und Farnpflanzen Europas. Ed. 6. Gustav Fischer Verlag, Stuttgart. Google Scholar
Gerdol R. (1990): Seasonal variations in the element concentrations in 44 mire water and in_Sphagnum_ mosses on an ombrotrophic bog in the southern Alps.Lindbergia 16: 44–50. Google Scholar
Gerdol R. (1995): Community and species-performance patterns along an alpine poor-rich mire gradient.J. Veg. Sci. 6: 175–182. Article Google Scholar
Glaser P.H., Wheeler G.A., Gorham E. &Wright H.E. jr. (1981): The patterned mires of the Red lake Peatland, northern Minnesota: vegetation, water chemistry and landforms.J. Ecol. 69: 575–599. ArticleCAS Google Scholar
Gorham E. (1953): The ionic composition of some bog and fen waters in the English Lake District.J. Ecol. 41: 142–152. Google Scholar
Gorham E. &Janssens J.A. (1992): Concepts of fen and bog re-examined in relation to bryophyte cover and the acidity of surface waters.Acta Soc. Bot. Poloniae 61: 7–20. Google Scholar
Grootjans A.P., Schipper P.C. &van der Windt H.J. (1985): Influence of drainage on N-mineralization and vegetation response in wet meadows I.Calthion palustris stands.Acta Ecol./Ecol. Plant. 6: 403–417. Google Scholar
Grulich V. (1997): Fytogeografická charakteristika Moravy (Phytogeographische Charakteristik Mährens). In:Novák V. & Hudec K. (eds.),Vlastivěda Moravská. Živá Příroda (Naturlandschaften Mährens und Schleisens), Brno, pp. 80–88.
Güsewell S., Zorzi A. &Gigon A. (2000): Mowing in early summer as remedy to eutrophication in Swiss fen meadows: are really more nutrients removed?Bull. Geobot. Inst. ETH 66: 11–24. Google Scholar
Háberová I. &Hájek M. (2001):Scheuchzerio-Caricetea fuscae. In:Valachovič M. (ed.),Rastlinné spoločenstvá Slovenska, čast’ 3: Vegetácia mokradí (Plant communities of Slovakia, 3. Vegetation of wetlands), Veda, Bratislava, pp. 185–273. Google Scholar
Háberová I. (1976): Pflanzengesellschaften der Torfwiesen im Horehron-Gebiet.Acta Fac. Rerum. Nat. Univ. Comen., Bot. 25: 67–126. Google Scholar
Hájek M. (1998): Mokřadní vegetace Bílých Karpat (The wetland vegetation in the White Carpathians).Sborn. Přírod. Klubu, Uherské Hradište, Suppl. 4/1998: 1–158. Google Scholar
Hájková P. &Hájek M. (2000): Streuwiesengesellschaften des Gebirges Hostýnské vrchy und ihre synchrologischen Beziehungen im Bereich der mährischen Karpaten.Linzer Biol. Beitr. 32: 763–789. Google Scholar
Halada L., Rúžičková H. & David S. (1997): Management vlhkých lúk chránených území na príklade PR Pastierske (Liptovská kotlina) (The management of wet meadows in the Pastierske Nature Reserve, the Liptov basin). In:Baranec T. (ed.),Flóra a vegetácia rašelinísk (The mire flora and vegetation), Zborník z vedeckej konferencie Orava, Nitra, pp. 67–74.
Hedenäs L. &Kooijman A. (1996): Förändringar i rikkärrsvegetationen SV om Mellansjön i Västergötland (Changes in vegetation of a rich fen in Västergötland, Sweden).Svensk Bot. Tidskr. 90: 113–121. Google Scholar
Keikkilä H. (1987): The vegetation and ecology of mesotrophic and eutrophic fens in western Finland.Ann. Bot. Fenn. 24: 155–175. Google Scholar
Horáková M., Lischke P. &Grünwald A. (1989):Chemické a fyzikální metody analýzy vod (Chemical and physical methods of water analysis). SNTL, Praha. Google Scholar
Jäger K.D. (1969): Climatic character and oscillations of the subboreal period in the dry regions of the Central European Highlands. In:Wright H.E.Jr. (ed.),Quarternary geology and climate, Nat. Acad. Sci., Washington, pp. 38–42. Google Scholar
Jäger K.D. &Ložek V. (1968): Beobachtungen zur Geschichte der Karbonatdynamik in der holozänen Warmzeit.Českoslov. Kras 19: 5–20. Google Scholar
Javorský P. (ed.) (1987):Chemické rozbory v zemědělských laboratořích (Chemical analysis in agriculture labs). MZ, Praha. Google Scholar
Koerselman W., Bakker S.A. &Blom M. (1990): Nitrogen, phosphorus and potassium budgets for two small fens surrounded by heavily fertilized pastures.J. Ecol. 78: 428–442. Article Google Scholar
Kooijmann A.M. &Bakker C. (1994): The acidification capacity of wetland bryophytes as influenced by simulated clean and polluted rain.Aquatic Bot. 48: 133–144. Article Google Scholar
Kooijman A. &Hedenäs L. (1991): Differentiation in habitat requirements within the genus_Scorpidium_, especially between_S. revolvens_ and_S. cossonii_.J. Bryol. 16: 619–627. Google Scholar
Kooijmann A.M. &Kanne D.M. (1993): Effects of water chemistry, nutrient supply and interspecific interactions on the replacement of_Sphagnum subnitens_ by_S. fallax_ in fens.J. Bryol. 17: 431–438. Google Scholar
Kruk M. (1998): Biogeochemical consequences of watershed inflow of mineral elements into fens in agricultural landscape.Polish Ecol. Stud. 22: 105–127. Google Scholar
Larcher W. (1984):Ökologie der Pflanzen. Ulmer, Stuttgart. Google Scholar
Ložek V. (1972): Holocene interglacial in Central Europe and its land snails.Quater. Res. 2: 327–334. Article Google Scholar
Malmer N. (1962): Studies on mire vegetation in the Archaean area of southwestern Götland (south Sweden) II. Distribution and seasonal variation in elementary constituents on some mire sites.Opera Bot. 7/2: 1–67. Google Scholar
Malmer N. (1963): Studies on mire vegetation in the Archaean area of southwestern Götaland (south Sweden) III. On the relation between specific conductivity and concentrations of ions in the mire water.Bot. Not. 116: 249–256. CAS Google Scholar
Malmer N. (1986): Vegetational gradients in relation to environmental conditions in northwestern European mires.Canad. J. Bot. 64: 375–383. Article Google Scholar
Malmer N., Horton D.G. &Vitt D.H. (1992): Element concentrations in mosses and surface waters of western Canadian mires relative to precipitation chemistry and hydrology.Ecography 15: 114–128. Article Google Scholar
Marhold K. (ed.) (1998): Paprad’orasty a semenné rastliny (Ferns and flowering plants). In:Marhold K. &Hindák F. (eds.),Zoznam nižších a vyšších rastlín Slovenska (Checklist of non-vascular and vascular plants of Slovakia), Veda, Bratislava, pp. 333–687. Google Scholar
Marti K. (1994): Zum Standort von_Magnocaricion_-Gesellschaften in der Schweiz (Caricetum elatae, Caricetum paniculatae, Caricetum ripariae, Caricetum vesicariae). Veröff. Geobot. Inst. ETH Stiftung Rübel Zürich 120.
Martinčič A. (1995): Vegetacija razreda_Scheuchzerio-Caricetea fuscae_ (Nordh. 36) R.Tx. 37 v Sloveniji (The vegetation of the class_Scheuchzerio-Caricetea fuscae_ (Nordh. 36) R.Tx. 37 in Slovenia).Biol. Vestn. 3–4: 101–111. Google Scholar
Martinčič A. (1997): Ekološko-fitocenološke dvojzivke (Eco-phytocoenological amphibians).Acta Biol. Solven. 41: 43–60. Google Scholar
Matuszkiewicz W. (1982):Przewodnik do oznaczania zbiorowisk roślinnych Polski (Identification key to plant communities of Poland). Państwove Wydawnictwo Naukowe, Warszawa. Google Scholar
Mehlich A. (1978): New extractans for soil test evaluation of phosphorus, potassium, magnesium, calcium, sodium, magnese and zinc.Commun. Soil. Sci. Pl. Analysis 9: 477–492. CAS Google Scholar
Menčík E. &Tyráček J. (1985):Synoptic geological map of the Beskydy Mts. and the Podbeskydské pahorkatina upland. Czech Geological Office, Praha. Google Scholar
Mörnsjö T. (1969): Studies on vegetation and development of a peatland in Scania, south Sweden.Opera Bot. 24: 1–187. Google Scholar
Neuhäusl R. (1975):Hochmoore am Teich Velké Dářko. Vegetace ČSSR A9, Academia, Praha. Google Scholar
Ohlson M. &Økland R.H. (1998): Spatial variation in rates of carbon and nitrogen accumulation in a boreal bog.Ecology 79: 2745–2758. Article Google Scholar
Økland R.H. (1989): A phytoecological study of the mire Kisselbergmosen, SE. Norway. I. Introduction, flora, vegetation, and ecological conditions.Sommerfeltia 8: 1–172. Google Scholar
Økland R.H., Økland T. &Rydgren K. (2001): A Scandinavian perspective on ecological gradients in north-west European mires: reply to Wheeler and Proctor.J. Ecol. 89: 481–486. Article Google Scholar
Pakarinen P. (1979): Ecological indicators and species groups of bryophytes in boreal peatlands. In:Kivinen E., Heikurainen L. &Pakarinen P. (eds),Classification of peat and peatlands, Proceedings of the international symposium Hyytiälä, 17–21 Sept. 1979, International Peat Society, Jyväskylä, pp. 121–134. Google Scholar
Pakarinen P. &Ruuhijärvi R. (1978): Ordination of northern Finnish peatland vegetation with factor analysis and reciprocal averaging.Ann. Bot. Fenn. 15: 147–157. Google Scholar
Pakarinen P. &Tolonen K. (1978): Nutrient contents of_Sphagnum_ mosses in relation to bog water chemistry in northern Finland.Lindbergia 4: 27–33. Google Scholar
Pawłowski B., Pawłowska S. &Zarzycki K. (1960): Zespoły roślinne kośnych łąk północnej części Tatr i Podtatrza (Les associations végétales des praires fauchables de la partie septentrionale des Tatras et de la Region subtatrique).Fragm. Florist. Geobot. 6: 95–227. Google Scholar
Persson Ą. (1962): Mire and spring vegetation in an area north of Lake Torneträsk, Torne Lappmark, Sweden. II. Habitat conditions.Opera Bot. 6/3: 1–100. Google Scholar
Pentecost A. (1992): Carbonate chemistry of surface waters in a temperate karst region: the southern Yorkshire Dales, UK.J. Hydrol. 139: 211–232. ArticleCAS Google Scholar
Pentecost A. (1996): Moss growth and travertine deposition: the significance of photosynthesis, evaporation and degassing of carbon dioxide.J. Bryol. 19: 229–234. Google Scholar
Pesl V. &Žůrková I. (1967): Vápnitost sedimentu v západní čśti magurského flyše (Calcium content of the sediments in the western part of the Magura flysch zone).Geol. Práce, Zaprávy 41: 185–189. Google Scholar
Pietsch W. (1984): Standortverhältnisse im Naturschutzgebiet “Kalktuff-Niedermoor” (Vorderrhön).Arch. Naturschutz Landschaftsf. 24: 259–273. Google Scholar
Poprawa D. &Nemčok J. (eds.) (1988):Geological atlas of the Western Outer Carpathians. Państwowy Instytut Geologiczny, Warszava. Google Scholar
Pott R. (1992):Die Pflanzengesellschaften Deutschlands. Eugen Ulmer, Stuttgart. Google Scholar
Poulíčková A., Bogdanová K., Hekera P. &Hájková P. (2001): Rozsivková flóra prameništ’ moravskoslovenského pomezí I. Severovýchodní část území (Diatom flora of the springs of the borderline between Moravia and Slovakia I. Northeastern part of the territory).Czech Phycol. 1: 63–68. Google Scholar
Prát S. (1960): Mechy v thermálních a minerálních vodách (Mosses in thermal and mineral waters).Rozpr. Českoslov. Akad. Věd, Ser. Math.-Natur. 70/7: 3–95. Google Scholar
Rapant S., Vrana K. &Bodiš D. (1997): Geochemical atlas of Slovakia. Part Groundwater.Slovak Geol. Mag. 3: 9–26. CAS Google Scholar
Rybníček K. (1974):Die Vegetation der Moore im südlichen Teil der Böhmisch-Mährischen Höhe. Vegetace ČSSR A6, Academia, Praha. Google Scholar
Rybníček K. (1985): A Central-European approach to the classification of mire vegetation.Aquilo, Ser. Bot. 21: 19–31. Google Scholar
Rybníček K. (1997): Monitorování vegetačních a stanovištních poměrů hřebenových rašeliništ’ Hrubého Jeseníku — výchozí stav (The monitoring of vegetation and habitat conditions of summit peat-bogs of the Hrubý Jeseník Mts. — an initial state).Příroda (Praha) 11: 53–66. Google Scholar
Rybníček K. (2000): Present results of vegetation and habitat monitoring in mountain bogs of the Jizerské hory Mts, 1991–1998.Příroda (Praha) 17: 101–108. Google Scholar
Rybníček K., Balátová-Tuláčková E. & Neuhäusl R. (1984): Pěhled rostlinných společenstev rašeliništ’ a mokřadních luk Československa (Übersicht der Pflanzengesellschaften der Moore und Nasswiesen der Tschechoslowakei).Studie Českoslov. Akad. Věd 1984/8.
Rybníček K. &Rybníčková E. (1995): Palaeoecological and phytosociological reconstruction of precultural vegetation in the Bílý Křiž area, the Moravskoslezské Beskydy Mts.Veget. Hist. Archaeobot. 4: 161–170. Article Google Scholar
Seeponen P., Haapala H., Hiltunen R. &Häggman J. (1978): The nutrient ecology of certain mires in the parish of Ylikiiminki.Aquilo, Ser. Bot. 16: 1–15. Google Scholar
Sjörs H. (1952): On the relation between vegetation and electrolytes in north Swedish mire waters.Oikos 2: 241–258. Article Google Scholar
Slack N.G., Vitt D.H. &Horton D.G. (1980): Vegetation gradients of minerotrophically rich fens in western Alberta.Canad. J. Bot. 58: 330–350. Google Scholar
Snowden R.E.D. &Wheeler B.D. (1993): Iron toxicity to fen plant species.J. Ecol. 81: 35–46. ArticleCAS Google Scholar
Solomakha V.A. (1995):Sintaxoni roslinnosti Ukrainy za metodom Braun-Blanketa ich osoblivosti (Plant communities of the Ukraine described using Braun-Blanquet approach). Nacionalnii Kijvskii universitet im. Tarasa Schevchenka, Kyiv. Google Scholar
Sparling J.H. (1966): Studies on the relationships between water movement and water chemistry in mires.Canad. J. Bot. 44: 747–758. ArticleCAS Google Scholar
Stanová V. (2000): Súčasný výskyt rašelinísk na Slovensku a faktory ich ohrozenia (Current distribution and threats to peatlands in Slovakia. In:Stanová V. (ed.),Rašeliniská Slovenska (Peatlands of Slovakia), Daphne, Bratislava, pp. 3–9. Google Scholar
Steiner G.M. (1992):Österreichischer Moorschutzkatalog. Grüne Reihe des BMUJF 1, Wien.
Steiner G.M. (1993):Scheuchzerio-Caricetea fuscae. In:Grabherr G. &Mucina L. (eds),Die Pflanzengesellschaften Österreichs. Teil II. Natürliche waldfreie Vegetation, Gustav Fischer Verlag, Jena, pp. 131–165. Google Scholar
Succow M. (1974): Vorschlag einer systematischen Neugliederung der mineralbodenwasserbeeinflußten wachsenden Moorvegetation Mitteleuropas unter Ausklammerung des Gebirgsraumes.Feddes Repert. 85: 57–113. Article Google Scholar
ter Braak C.J.F. &Šmilauer P. (1998):CANOCO 4. CANOCO reference manual and user’s guide to Canoco for Windows. Centre of Biometry, Wageningen. Google Scholar
Urbanová V. &Kuderavá Z. (1996): Hodnotenie biotických zložiek ekologicko-funkčných jednotiek — rastlinstvo (Evaluation of the biotic components of the ecological functional units — plants). In:Tóthová Z., Sabo P. &Čárska H. (eds.),Ochrana prírody Kysuckého regiónu a spolupráca na jeho trvalo udržatel’nom rozvoji (Nature conservation in the Kysuce region and collaboration in its sustainable development), IUCN, Bratislava, pp. 65–81. Google Scholar
van der Maarel E. (1979): Transformation of cover-abundance values in phytosociology and its effects on community similarity.Vegetatio 39: 97–114. Article Google Scholar
Valachovič M. (2001):Montio-Cardaminetea. In:Valachovič M. (ed.),Rastlinné spoločenstvá Slovenska, čast’ 3: Vegetácia mokradí (Plant communities of Slovakia, 3. Vegetation of wetlands), Veda, Bratislava, pp. 297–344. Google Scholar
Vitt D.H. &Slack N.G. (1974): An analysis of the vegetation of_Sphagnum_-dominated kettle-hole bogs in relation to environmental gradients.Canad. J. Bot. 53: 332–359. Google Scholar
Vitt D.H. &Slack N.G. (1983): Niche diversification of_Sphagnum_ relative to environmental factors in northern Minnesota peatlands.Canad. J. Bot. 62: 1409–1430. Google Scholar
Waughmann G.J. (1980): Chemical aspects of the ecology of some south German peatlands.J. Ecol. 68: 1025–1046. Article Google Scholar
Wassen M.J., Barendregt A., Pałczynski A., Smidt J.T. &de Mars H. (1990): The relationships between fen vegetation gradients, groundwater flow and flooding in an undrained valley mire at Biebrza, Poland.J. Ecol. 78: 1106–1122. Article Google Scholar
Zabíral J. (1995):Analýza půd I (Soil analysis I). SKZÚZ, Brno. Google Scholar