Responses of Vegetation Stages with Woody Dominants to Stress and Disturbance During Succession on Abandoned Tailings in Cultural Landscape

Antosiewicz, D. M. (1992). Adaptations of plants to an environment polluted with heavy metals. Acta Soc. Bot. Polon., 61(2): 281-299.Search in Google Scholar

Bergeron, Y. (1991). The influence of island and mainland lakeshore landscapes on boreal forest fire regimes. Ecology, 72: 1980-1992.Search in Google Scholar

Bertness, M. D., Calaway, R. (1994). Positive interactions in communities. Tree, 9:191-193.Search in Google Scholar

Braun-Blanquet, J. (1928). Pflanzensoziologie. Springer Verlag, Berlin.10.1007/978-3-662-02056-2Search in Google Scholar

Bryndová, I., Kovář, P. (2004). Dynamics of the demographic parameters of the clonal plant Calamagrostis epigejos (L.) Roth in two kinds of industrial deposits (Abandoned sedimentation basins in Bukovina and Chvaletice). In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 267-276. Academia, PragueSearch in Google Scholar

Bulíček, J., Jindřich, J. (1976). Hydro-economical problems of sedimentation basins. SZN, Prague [in Czech].Search in Google Scholar

Dobson, A. P., Bradshaw, A. D. & Baker, A. J. M. (1997). Hopes for the future: restoration ecology and conservation biology. Science, 277: 515-522.Search in Google Scholar

Dost, H. (1972). Acid sulphate soils. Wageningen, IIFLRISearch in Google Scholar

Ewing, A. L., Engle, D. M. (1988). Effects of late summer fire on tallgrass prairie microclimate and community composition. Am. Midl. Nat., 120: 212-223.Search in Google Scholar

Gloaugen, J. C. (1993). Spatio-temporal patterns in post-burn succession on Brittany heathlands. Journal of Vegetation Science, 4: 561-566.Search in Google Scholar

Hobbs, R.J. (1999). Restoration of disturbed ecosystems. In: Walker, L.R. (Ed.): Ecosystems of disturbed grounds, Ecosystems of the world 16, pp. 673-687, Elsevier, Amsterdam.Search in Google Scholar

Jandová, L., Sklenář, P. & Kovář, P. (2009). Changes of grassland vegetation in surroundings of new railway flyover (Eastern Bohemia, Czech Republic). Part I: Plant communities and permanent habitat plots. Journal of Landscape Ecology, 2(1): 36-57.Search in Google Scholar

Jiráčková, M., Dostál, P. (2004). Microsite versus dispersal limitation in primary succession: a case study from an abandoned ore-washery sedimentation basin. In: Kovář, P., (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 59-76. Academia, PragueSearch in Google Scholar

Jongmann, R. (2008). Ecological networks are an issue for all of us. Journal of Landscape Ecology, 1(1): 7-13.Search in Google Scholar

Johnson, E. A. (1992). Fire and vegetation dynamics: studies from the North American boreal forest. Cambridge University Press, Cambridge, N.Y.10.1017/CBO9780511623516Search in Google Scholar

Kovář, P. (1994). Vegetation monitoring and restoration ecology in landscape: Changes on sediment deposits at Chvaletice (Central Bohemia - Labe River Basin). Příroda, 79-96. [in Czech]Search in Google Scholar

Kovář, P. (1999). Biotic interactions and restoration ecology of abandoned sedimentation ponds of toxic materials. In: Kovář, P. (Ed.): Nature and Culture in Landscape Ecology (Experiences for the 3rd Millennium), pp. 290-302, The Karolinum Press, Praha.Search in Google Scholar

Kovář, P. (2004): Trends in spontaneous biological renaturation of human-made deposits: Background for restoring management. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 337-351. Academia, PragueSearch in Google Scholar

Kovář, P., Herben T. (2004). Small-scale spatiotemporal dynamics of plant cover during the initial phase of primary succession in an abandoned ore-washery sedimentation basin. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 277-284. Academia, PragueSearch in Google Scholar

Kovář, P., Štěpánek, J. & Kirschner, J. (2004). Clonal diversity of Calamagrostis epigejos (L.) Roth in relation to type of industrial substrate and successional stage. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 285-293. Academia, PragueSearch in Google Scholar

Kovářová, M., Frantík, T. (2004). Decomposition of organic matter on different substrates - laboratory study. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 153-175. Academia, PragueSearch in Google Scholar

Lepš, J. (1996). Biostatistics. - Jihočeská univerzita, České Budějovice. [in Czech]Search in Google Scholar

Martinková, M., Maděra, P. & Úradníček, L. (2001). Strategy of birch (Betula L.) in substitute stands of the Krušné hory Mts., air-polluted region. Journal of Forest Science, 47 (Special Issue): 87-95.Search in Google Scholar

McClanahan, T. R. (1986). The effect of a seed source on primary succession in a forest ecosystem. Vegetatio, 65: 175-178.Search in Google Scholar

McNeilly, T. (1990). Evolutionary lessons from degraded ecosystems. In: Jordan, III W.R., Gilpin, M.E. & Aber, J.D. (Eds.): Restoration ecology. A synthetic approach to ecological research. pp. 271-286. Cambridge University Press, CambridgeSearch in Google Scholar

Menges, E. S., Hawkes C. V. (1998). Interactive effects of fire and microhabitat on plants of Florida Scrub. Ecol. Appl., 8: 935-946.Search in Google Scholar

Miller, H. G. (1984). Nutrient cycles in birchwoods. Proceedings of the Royal Society of Edinburgh, 85B: 83-9610.1017/S0269727000003912Search in Google Scholar

Montalvo, A. M. (1997). Restoration biology: a population biology perspective. Restoration Ecology, 5: 277-290.Search in Google Scholar

Mrázek, J. (2002). Růst břízy Betula pendula a osiky Populus tremula na toxickém substrátu rudního odkaliště. MSc Thesis. Charles University in Prague, Faculty of Science, Department of Botany, 66 p.Search in Google Scholar

Mrázek, J. (2004). Comparison of the growth of dominant trees (Betula pendula, Populus tremula) in primary succession on toxic substrate. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 294-299. Academia, PragueSearch in Google Scholar

Palmer, M. A., Ambrose, R. F. & Poff, N. L. (1997). Ecological theory and community restoration ecology. Restoration Ecology, 5: 291-300.Search in Google Scholar

Parker, V. T. (1997). The scale of successional models and restoration objectives. Restoration Ecology, 5: 301-306.Search in Google Scholar

Prach, K., Pyšek, P. (1994). Spontaneous establishment of woody plants in Central European derelict sites and their potential for reclamation. Restoration Ecology, 2: 190-197.Search in Google Scholar

Prach, K., Bastl, M., Konvalinková, P., Kovář, P., Novák, J., Pyšek, P., Řehounková, K. & Sádlo, J. (2008). Vegetation succession in human-made habitats in the Czech Republic - survey of dominant species and stages. Příroda, 26: 5-26. [in Czech]Search in Google Scholar

Rauch, O. (2004). Genesis and characteristics of orewaste sulphate soils at Chvaletice. In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 45-58. Academia, PragueSearch in Google Scholar

Robinson, R. R., Handel, S.N. (1993). Forest restoration on a closed landfills: Rapid addition of new species by bird dispersal. Conservation Biology, 7(2): 271-278.Search in Google Scholar

Schmid, B., Bazzaz, F. A. (1987). Clonal integration and population structure in perennials: Effects of severing rhizome connections. Ecology, 68: 2016-2022.Search in Google Scholar

Smith, R.A.H., Bradshaw, A.D. (1979). The use of heavy metal tolerant plant populations for the reclamation of metalliferous wastes. J. App. Ecol., 16: 595-612.Search in Google Scholar

Stoutjesdijk, Ph., Barkman, J. J. (1992). Microclimate, vegetation and fauna. Opulus Press, Uppsala.Search in Google Scholar

Štefánek, M. (1999). Obnova vegetace na odkališti po disturbanci požárem. MSc Thesis. Charles University in Prague, Faculty of Science, Department of Botany, 67 p.Search in Google Scholar

Štefánek, M. (2004). Secondary succession after fire on an abandoned ore-washery sedimentation basin - different trajectories (A comparison with primary succession). In: Kovář, P. (Ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 248-266. Academia, PragueSearch in Google Scholar

Turner, C. L., Blair, J. M., Schartz, R. J. & Neel, J. C. (1997). Soil N and plant responses to fire, topography, and supplemental N in tallgrass prairie. Ecology, 78: 1832-1843.Search in Google Scholar

Urbanska, K. M., Webb, N. R. & Edwards, P. J. (1999). Restoration ecology and sustainable development. Cambridge Univ. Press, Cambridge.Search in Google Scholar

Vos, C. C., Opdam, P. (1993). Landscape ecology of a stressed environment. Chapman & Hall, London.10.1007/978-94-011-2318-1Search in Google Scholar

Whelan, R. J. (1995). The ecology of fire. Cambridge Studies in Ecology, Cambridge University Press, NY.Search in Google Scholar

Walker, L.R., del Moral R. (2003). Primary succession and ecosystem rehabilitation. Cambridge Univ. Press, Cambridge.10.1017/CBO9780511615078Search in Google Scholar